EMOIRS

OF THE

NATIONAL ACADEMY OF SCIENCES

VOLUME I

WASHINGTON:

GOVERN' 1IENT PRINTING OFFICK.
1866.

CO

31**t

CONTENTS.

1. Reduction of the Observations of the Fixed Stars made by Joseph Le Paute d'Agelet, at Paris,

during tbe years 1783-1785, with a Catalogue of the corresponding Mean Places referred to the
Equinox of 1800.0: by B. A. Gould. Read January 8, 1864.

2. On the Saturnian System: by Benjamin Peirce. Read January 8, 1864.

3. On Shooting Stars: by H. A. Newton. Read August 6, 1864.

4. On the distribution of certain important diseases in the United States: by Augustus A. Gould. Read

August 5, 1864.

5. On Rifled Guns: by W. H. C. Bartlett. Read August 25, 1865.

REDUCTION

OF THE

OBSERVATIONS OF FIXED STARS

MADE

By JOSEPH LEPAUTE D'AGELET, AT PARIS, IN 1783—1785,

WITH A

CATALOGUE OF THE CORRESPONDING MEAN PLACES, REFERRED TO THE EQUINOX OF 1800.0,

BY

BENJAMIN APTHORP GOULD.

} 1. PRELIMINARY.

The Histoire Celeste Frangaise of Lalande, published in 1801, contains, on pages 481-566,
a copy of the rough notes or day-book of observations of fixed stars made by the astronomer
d' Agelet at the Military School of Paris, between the 18th February and the 25th September,
1783. Lalande had previously published, in the Memoirs1 of the French Academy of Sciences
for 1789, a series of similar observations made by d' Agelet between March 22 and October 2,
1784 ; and in the Memoirs9 for 1790 another series still, comprising observations made between
October 6, 1784, and April 29, 1785 ; and he states3 that when d' Agelet left Paris in Juno,
1785, with the unfortunate expedition of La Perouse, he deposited with him the original
manuscripts on bidding farewell, obtaining at the same time a promise that they should be
published in case their author should not return.

In various places4 Lalande farther informs us that a large number of observations of fixed
stars had been made between 1778 and 1780, and that d' Agelet had begun to observe small
stars, previously too much neglected by astronomers, in the month of September, 1782. But
although the last page of the Histoire Celeste contains a promise of a subsequent publication
of observations made prior to those contained in that volume, it is stated on page 479 that
1783, February 18, the earliest date there given, was the first day of regular observations
upon small stars. It seems, therefore, beyond reasonable doubt that the three series, referred
to, contain all the observations of small stars made by d' Agelet, and this is rendered more
certain by Lalande' s declaration5 that he had fulfilled his promise of publishing these obser-
vations.

1 Mem. de l'Acad., 1789, pp. 641—662. 3 Conn. d. Temps, An. VI, p. 446. * Conn. d. Temps, An. VI, pp. 442-3.

3 Mem. do l'Acad., 1790, pp. 633—658. Mem. do l'Acad., 1784, p. 74. 6 Histoire Celeste, p. 479.

O)

2 GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

Although the zone-observations of Lalande have been reduced and rendered conveniently-
accessible to astronomers — thanks to the suggestions of Bessel, the tables of Hansen and
Nissen, the liberal grants of the British Association, the industrious zeal of Bailt, and the
thorough accuracy of Fedorenko — still the observations of d'Agelet, though made at a date
anterior to any stellar observations of the modern school, save those of the incomparable Brad-
ley, have remained in their crude and almost useless form until the present day. I know of
no astronomer, excepting Argelander, who seems to have made use of them for more than
three-quarters of a century, and it was by this eminent astronomer that my attention was first
directed, more than twelve years ago, to the relatively' high value of these ancient observa-
tions.

An examination of the originals soon convinced me that, if by any process the instrumental
errors could be eliminated, wo should have in these observations the best existing means of
determining proper motions for almost all the stars not observed by Bradley. Indeed, Arge-
lander, in his Positiones Media, has in several instances availed himself of d'Agelet' s obser-
vations for this purpose, doubtless by some differential process ; for the present discussion
of the original records has shown the determination of the instrumental corrections to bo a
work of such difficulty, that I can hardly imagine any other mode of procedure for isolated
stars.

To the peculiar irregularities of these corrections, arising chiefly from a distortion of the
limb of the quadrant, I attribute the fact that these valuable observations have so long remained
in the crude state of ore, without any known attempts to extract the precious metal which they
contain. And, impelled by a strong desire to contribute to the Academy at its first scientific
session some memoir in the domain of practical astronomy, although destitute of any access to
astronomical instruments, I have thought that this could in no way be better accomplished than
by a discussion of the observations of d'Agelet, and the construction from them of a catalogue;
hoping that the work of rendering ancient observations available might not prove much less
serviceable than the attainment of new ones.

Those portions of the computations which I have not made in person have been made at my
expense, and I desire to express my thanks to my pupils and assistants, Messrs. John N. Stock-
well, Erving Winslow, "William H. Palmer, S. C. Chandler, jr., and S. S. Eastwood, for
their valuable aid. Mr. Winslow has taken part in all the computations from the beginning.

The catalogue contains G497 observations of 2907 stars situated between the parallels of
50° north and 35^° south declination.

§ -2. HISTORICAL.

The greater part of what we know of the astronomer to whom these observations are due
we derive from notices given by Lalande, and any attempt at a scientific biography of d'Agelet
can result in little more than a digest of what we there find, with such additional facts as may
be discovered by following up the clues there given. In spite of this circumstance it seems
desirable to give a summary of what is known concerning this zealous and devoted follower of
science.

(2)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS. 6

Joseph LePaute d'Agelet was born at Thonne la Long, near Montmedi, near the frontier
of Luxemburg', and in the present department of the Meuse, on the 25th of November, 1751,
the son of Pierre LePaute and Martine de Mouzon, and the nephew of the two LePautes
so eminent as makers of chronometers and astronomical clocks. Madame LePaute, whose
astronomical computations and services as assistant to Lalande are so well known, was the
wife of the elder of these brothers, and invited her nephew, the young d'Agelet, soon after
the completion of his sixteenth year, to come to Paris as the pupil of Lalande, who was then
at the observatory of the College Mazarin. Here he remained for five years, winning the
respect, confidence, and attachment of Lalande by his talent, fidelity, and amiable character,
until in March, 1773, he was appointed astronomer to the southern naval expedition of Ker-
guelen. On this expedition he made extensive observations of longitudes, tides, magnetic
variations, and collected many valuable specimens of natural history, but was disappointed in
the want of opportunity for further astronomical and geographical determinations. In August,
1771, he returned to Paris and resumed his astronomical pursuits.

In 1777 d'Agelet was appointed Professor of Mathematics at the Ecole Militaire. His pre-
decessor, Jeaurat, had, in 17G8, prevailed upon the Due de Choiseul, Minister of War, to
establish an Observatory at this institution ; and a large wall had been built, adapted for the
possible reception of a mural quadrant. Lalande states1 that he exerted himself for a long
time in vain, to obtain an appropriation for the purchase of the desired instrument. " Je
disais ce que la loi dit de la pierre d'attente, perpetuo damans, et je ne m'y suis pas trompe.
Apres avoir fait des efforts inutiles aupres des ministres les plus celebres et les plus savants,
Malesherbes et Turgot, pour avoir son mural, je 1'obtins en 1774 de Bergeret, receveur-
general des finances. On voit dans l'Evangile que le publicains fit honte au pharisien." The
instrument was ordered of Bird, in London, and seems to have been essentially a copy of the
one which he had made for Bradley a quarter of a century before. The instrument was
mounted 1778, August 23, and d'Agelet began at once a series of regular observations, both
planetary and stellar. In 1780 he had already 1,600 observations of planets, and a much
larger number of fixed stars, of which, at Lalande' s instance, he proposed preparing an exten-
sive catalogue. In April, 1782, he received the second nomination to the Academy of Sciences,
and in January, 1785, was unanimously elected a member. Observations of planets made by
him with the quadrant may be found in the Memoirs of the Academy for 1784, 1785, 1786.
The fourth volume of Lalande' s Astronomy, published in 1781, and the eighth volume of his
Epliemerides, published in 1783, contain a large number ; and Lalande alleges2 that no one in
Europe was then doing so much for astronomy as d'Agelet.

In 1782 he commenced observing faint stars, although, as before mentioned, his earliest
published observations of this sort date from February, 1783.

When, in 1785, King Louis XVI formed the plan of a French scientific expedition round
the world, analogous to those of Cook, La Perouse was placed in command, and no pains
were spared to obtain the best men that could be found. D'Agelet was the youngest astrono-

Conn. des Temps, An VI, 441 ; Hist, Cel., p. ii, Mem. de l'Acad., 1769, p. 187. 2 Conn, des Temps, An VI, 442.

(3)

4 GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

mer of the Academy ; lie had experience as a navigator, and was naturally selected as astrono-
mer to the expedition. He accepted the position with great reluctance, as his naval experience
had not left agreeable recollections ; he desired to continue the observations for his projected
catalogue of stars ; and he was about to be married. Still, he listened to the solicitations of
the Minister and of the Academy, and on the 23d of June, 1785, eight weeks after the last
date of his published observations, he left Paris, never to return.

The history of La Perouse" s expedition is well known. With the two ships, Astrolabe
and Boussole, he visited Madeira and Brazil, passed around Cape Horn to Chili, touched at
the Sandwich Islands, coasted along the west coast of America, and remained for a time at
Monterey, in California. Leaving this port in September, 1786, he sailed for Manila, and
thence in the following spring passed to the northeastern coast of Asia, exploring the shores
of Japan and Kamtchatka. He left Petropaulowsk in September, 1787, and after visiting the
Navigators' and Friendly Islands, reached Botany Bay in February, 1788. From this point
came the last tidings of the expedition. La Perouse next contemplated an exploration of the
Polynesian groups ; but all traces of the explorers vanished here. Unwearying searches
proved fruitless, and it was not until after the lapse of nearly forty years that their fate was
discovered. The two .ships were wrecked in a storm upon a coral reef on the southwesterly
coast of the island Malicollo, one of the New Hebrides islands; and all on board perished,
together with all their scientific observations and collections, except the few journals which
had been previously sent home from Kamtchatka, and which possessed high geographical
value.

D'Agelet had been interdicted by his commander from sending home any of bis observa-
tions, and all were thus lost forever, excepting such geographical determinations as had been
transmitted by La Perouse himself. We know that he established an astronomical observatory
at every port at which the vessel stopped ; that he made observations at each upon the vari-
ation and dip of the needle, the tides, and the pendulum. The excellence of his longitude
determinations is frequently commented upon by La Perouse, inasmuch as his results, by lunar
distances and by chronometers, agreed within less than the probable errors of the lunar tables.
From Kamtchatka he wrote that since leaving Manila they had explored and surveyed with
great exactness more than six hundred marine leagues of unknown coast, fixing all the
geographical positions with precision ; and that he and his assistant, d'Arbaud, had become so
accustomed to observations of lunar distances that they used them for verifying their chro-
nometers without uncertainty. His last letter was dated in March, 1788. A littlo rocky
island in the Japan sea still bears his name, given it by La Perouse, and transmits, through our
maps and charts, the memory of this gifted and deserving scientist, wbose valuable observations
havo passed almost unheeded for more than eighty years. Those of Lefrancais db
Lalande and Burkiiardt, subsequently made for Lalande with the same instrument and
certainly not greater precision, have proved so valuable, that it seems more than strange that
d' Agelet's results in initiation of the work which they continued should have remained almost
unregarded till now. From Monterey he wrote in 1786 that lie found the savages both
(1)

GOULD — REDUCTION OP D'AGELET's OBSERVATIONS. 5

virtuous and humane, and that his experience in such regions, least frequented and nearest
to a primitive condition, indicated that the human race is naturally kindly. It probably did
not occur to him that the first publication of a catalogue formed from his observations would
be due to the representatives of that region, when its coast should bo white with canvas and
its cliffs noisy with the echo of hammers and the hum of commerce.

In J. Bernoulli's Nouvelles Litteraires de clivers Pays, Gainer I, p. 35, may be found an
article by d'Agelet in commemoration of M. de Mersais, a young astronomer who accom-
panied him in the Kerguelen expedition.

$ 3. INSTRUMENT.

The instrument which was used by d'Agelet in these observations was the same which
was subsequently employed by Lalande in his zones, and to which wo probably owe observa-
tions of a larger number of stars than to any other instrument known to astronomical history
previous to Bessel's zone-observations. Yet its peculiarities seem to have been little studied,
owing to the rough methods of reduction employed by Lalande himself, and to the circum-
stance that all the observations reduced by Bailt and Fedorenko were made in zones, each of
which was differentially treated, independently of the rest.

It was a mural quadrant, constructed by Bird, in 1775-8, having a radius of 7J French
feet, and an aperture of 32 lines.1 In dimensions aDd construction it seems to have been
similar to that of Lemonnier, and apparently a copy of the celebrated quadrant of Bradley.
Lalande, on page viii of the Histoire Celeste, says it has been described in his astronomy, 3 and
better still in one of the Cahiers des Arts of the Academy, published in 1774, by Lemonnier,
under the title, "Description des Principaux Instruments de V Astronomie." Since the paper of
Lemonnier was actually published before the instrument of d'Agelet and Lalande was made, 3
it may reasonably be inferred that the latter was intended as an exact duplicate of that one
to which the description originally referred.

The limb of the quadrant was furnished with two independent graduations, the one being
into 90 degrees, and each degree into 12 parts of 5' each ; the other being into 96 divisions,
and each of these into 16 subdivisions, each of which corresponded, therefore, to an arc of

> Mem. de l'Acad. 1789-191. 2 3d edit. II, 588, 684.

3 In a note to the first page of the preface of the British Association's catalogue of Lalande'S stars, an apparent contradic-
tion ia alluded to, as follows: "At page ix, LALANDE, after mentioning an improved mode of supporting the telescope, says :
' J 'ai oui dire autrefois que l'arc de ce quart de cercle avait etc rompu chez LEMONNIER, mais il a Cte parfaitement reiabli.'
Ilcnco one would suppose that the quadrant of the tcole Militaire was identical with Lemonnier's. This, however, is
distinctly contradicted by Lalande elsewhere, for, in speaking of the quadrant of the Ecolc Militaire, he says : ' M. Bergeret,
receveur-general, le fit faireama sollicitation par Bird des 1775, et en 1778, le coufia a M. d'Agelet,' {Mem. dc l'Acad. 1789,)
while Lemonnier's quadrant was made for him in 1753, at the expense of Louis XV. It would seem that Lemonnier's
quadrant was ultimately transferred to the Royal Observatory." The text of Lalande, although certainly rather ambiguous,
does not seem to me to imply such a contradiction. A few lines above be says that Mf.cii.un, having seen a contrivance for
relieving the center of the weight of the telescope, had engaged Lenoir to make this addition to the mural of the observatory.
Then, after describing the arrangement of the counterpoise, he makes the remark above cited concerning "this quadrant,"
manifestly referring to the mural quadrant of the Paris observatory, which Lemonnier bad described, and not to the quadrant
of the Ecolc Militaire, used first by d'Agelet and then by Lalande. To this same note I am indebted for the title of the
work in which Lemonnier's description is published, but which I have not been able to find. — "Description des Arts et Metiers,
faitcs ou approures par MM. de V Academic Royale des Sciences Paris, 1761-89."

(5)

6 GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

3' 30". 94. The readings wero made for each system by means of verniers, which indicated
one-twentieth of each interval, or 15", for the first-named ; and one-sixteenth of each interval,
or a little more than 13". 18, for the second. Farther precision was attained by estimation in
the first system, and by a micrometer indicating seconds of arc in the second. Unlike the
zone observations of Lalande, those of d'Agelet give in most cases the readings according
to both systems, the two thus serving to check each other for the detection of large errors,
and their mean giving more accurate results than could be afforded by either alone. The
reticule was provided with three vertical metallic wires, at intervals of about 23s. of equatorial
time.

The defects of the limb of the quadrant, by which it deviated from a plane, have often
been referred to, and Lalande has in various places1 given different tables for the correction
to bo applied to times of transit at different altitudes. These tables, however, are not
accordant with one another, are quite rough, and by no means correct. Indeed, Lalande
himself2 says of them, that they are only approximate, and that to determine properly the
position of an unknown star, it is necessary to calculate the right-ascensions of one or two
known stars, observed nearly in the same parallel.

I have endeavored to elicit the nature and magnitude of the deviation from a vertical
plane , and thus to form a general table applicable to all of d' Agelet' s observations. It is greatly
to be regretted that we have no notes or memoranda on the subject from d'Agelet himself,
inasmuch as the care and assiduity, with which all his observations were evidently made, forbid
any doubt that this important point was made a subject of investigation. The nature of the
distortion now discovered being such as to excite suspicions that constant errors due to the
same irregularities might exist in the readings of zenith distance, the accuracy of the limb in
this respect also has been tested, and the suspicions are found to have been correct. The
detailed results of these investigations are given in the present memoir.

$ 4. OBSERVATIONS.

The published observations in the Histoire Celeste are given in ten columns. The first
shows the name of the star when known ; the second, the magnitude for perhaps one-half the
stars observed ; and the third, the approximate right-ascension to minutes of time, for a
sufficient number to allow of ready identification. Columns 4, 5, and 6 give the times of
transit across three wires, no attempt being made to observe more closely than to quarters of
a second — the decimals, .2, .5, and .7 being the only ones which occur. During the period of
must of the observations the clock indicated approximate mean time, and even after it was
changed to a sidereal rate it was not made to indicate sidereal time, but whenever it was
stopped for any reason it was always put in motion again without touching the hands.3
Columns 7 and 8 contain the two readings of the limb. Column 9, entitled "Eeduction,"

1 Hist. C(U., pp. xi, 480; Mom. de l'Acad., 1785, p. 268—1789, p. 042.
8 Hist. (VI., p. 48U.
Mi im. de l'Acad. 1789, p. <14:s.
(6)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS. 7

gives tho translation of the second reading into degrees, minutes, and seconds ; and the last, or
10th, column contains remarks or memoranda made at the time, often records of the ther-
mometer and barometer, and occasionally remarks upon the estimated rate of the clock. This
column is wanting in the observations published by the Academy, and the few notes and
the meteorological observations are to be found in the first column.

The printed records have proved to be seriously affected with errors. Many of these
are probably typographical, but the large number of other kinds show that no steps were
taken to insure correctness of the copy. The manuscripts deposited by d'Agelet must have
been the rough originals, which had apparently received neither revision since the moment of
observation nor any addition, unless the column of reduction for the second reading was
subsequently formed. I suspect, however, that these values were also written in at the time
of observation, on account both of the hasty way in which the translation must have been
made, and of the peculiar character of many of the errors. The printed pages were evidently
set up from these rough notes, without scrutiny or criticism.

Consequently, instead of a reference to the originals as printed, and of a long catalogue
of Corrigenda, it has seemed preferable to prepare the observations in some such form as their
author would probably have given them, had his life been spared, correcting such errors as
have been rendered manifest or probable by the processes of reduction. The principle has
nevertheless been rigorously followed of making no change, however slight, in any of the
immediate results of observation, without recording it in a marginal note. ' The correction of
errors in computation requires, of course, no such record.

$ 5. THREAD-INTERVALS.

The distances of the three wires from their mean have been determined from 140 obser-
vations of transits over all three, taken in two groups of 70 each, tho one near the beginning
of the series of observations, and the other near the end. The resulting values for the
equatorial intervals are :

from the first group, I = + 22s. 903, II = -f 0s. 137, 111= — 23s.041

from the second group, 22s.889, Os.119, 23s.007

their mean, which has been adopted, being

I = + 22s.89G, II = + 0s.l28, III = — 23s.024

which are not likely to be erroneous by the hundredth part of a second.

From these was constructed the following table, which has been employed in the reduc-
tions :

(?)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

Reductions to the mean of wires.

f

I

II

III

f

I

II

III

0

s

s

s

o

s

B

s

— 2

+ 36.27

+ 0.21

— 36. 48

36

+ 23. 48

+ 0.13

— 23. 62

— 1

35. 52

.20

35.71

37

23.39

.13

23. 52

0

34.80

.20

34.99

38

23.31

.13

23.44

+ 1

34.11

.19

34.31

- 39

23.24

.13

23.37

2

33.47

.19

33.67

40

23.17

.13

23. 30

3

32. 86

.19

33.06

41

23.11

.14

23.24

4

32. 39

.18

32.48

42

23. 06

.13

23. 19

5

31.75

.18

31.92

43

23.02

.13

23.15

6

31.23

.17

31.40

44

22.98

.13

23.11

7

30. 74

.17

30.91

45

22. 95

.13

23.08

8

30. 27

.17

30.44

46

22. 93

.13

23.05

9

29. 83

.16

29.99

47

22.92

.13

23.04

10

29. 40

.16

29.56

48

22. 1)1 1

.13

23.03

11

28. 99

.16

29. 15

49

22. 90

.13

23. 02

12

28. 61

.16

28.77

50

22.90

.13

23. 03

13

28. 25

.16

28.41

51

22.91

.13

23.04

14

27.90

.15

28.06

52

22. 93

.13

23.06

15

27.57

.15

27.72

53

22. 96

.13

23.09

l(i

27.25

.15

27. 41

54

22.99

.13

23.12

17

26. 95

.15

27.11

55

2::. H3

.13

23. 16

18

26.67

.15

26. 82

56

23.08

.13

23.20

19

26. 40

.15

26.55

57

23. 13

.13

23.25

20

26.14

.15

26. 29

58

23. 19

.13

23.32

21

25.89

.15

26.04

59

23.26

.13

23.39

22

25. 66

.14

25.81

60

23. 34

.13

23.47

23

25.45

.14

25.59

61

23.42

.13

23.55

24

25. 24

.14

25. 37

62

23.51

.13

23.64

25

25. 04

.14

25.17

63

23.61

.13

23. 74

26

24.85

.14

24.98

64

23. 72

.13

23.85

27

24.67

.14

24.81

65

23.84

.13

23. 97

28

24.50

.14

24.64

66

23.96

.13

24. 10

29

24.34

.14

24.48

67

24.00

.14

24.23

30

24. 19

.14

24.33

68

24. 24

.14

24.37

31

24. 05

.14

24.19

69

24. 39

.14

24.53

32

23. 92

.13

24.06

70

24.55

.14

24. 69

33

23.80

.13

23.94

71

24. 72

.14

24.86

34

23.69

.13

23. 82

72

24.90

.14

25. 04

+ 35

23. 58

-f 0. 13

— 23.72

73

+ 25. 09

+ 0.14

— 25. 23

$ 6. REFRACTIONS.

Readings of the thermometer and barometer were unfortunately not made by d'Agelet
with desirable regularity or frequency. On many dates they were omitted altogether ,• very
rarely were they made more than once on any night ; and the time of the readings was not
noted. Indeed, no clue is found to the time of observation of the meteorological instruments
other than the place in the printed column at which they appear, and this place seems to have
been dictated, in many cases at least, by the convenience or taste of the printer.

Earnest endeavors to obtain a meteorological register for Paris, during the years 1783-5,
have proved unsuccessful, and for those dates on which no note of the temperature or of the
barometer is recorded I have been reduced to the necessity of adopting arbitrary values for
the coefficient of refraction, having regard, of course, to the hour of the night and to the
season of the year, and being guided by the tables of mean temperature at Paris.

In computing the refractions, the tables prepared by Prof. Coffin, and published in the
appendix to tho Washington observations for 1845, have been employed. These are expanded
(8)

GOULD — REDUCTION OP D AGELET S OBSERVATIONS. 9

from Bessel's tables, after reduction to the standard temperature of 100° F., and to the baro-
metric pressure of 29 English inches. For this purpose 0.00885 is added to all the logarithms
of the barometric factor, 0.04153 to all those depending on the external thermometer, and
0.00264 to those depending on the temperature of the quicksilver, a corresponding subtraction
being made from the logarithm of the mean refraction. Of course, the application of the
same quantities to the tables constructed for Reaumur's scale and the old French barometer
enables us to use Coffin's value of log R.

Since d'Agelet made no record of the attached thermometer, we must assume that its
indications would have been the same as those of the external thermometer, and Bessel's
tables of log y and log T [Coffin's T and t] may therefore be combined in one. The following
tables are formed in this manner, being Bessel's log y + log T + 0.04417 for Reaumur's
scale, and log B -4- 0.00S85 for old French inches and lines :

Thcrmometric coefficients for Reaumur's scale.

Barometric coefficients for old French scale.

c

o

— 10

0. 07978

+ ~

0. 04440

9

. 07762

8

.04240

8

. 07547

9

.04041

7

. 07334

10

. 03843

G

. 07121

11

. 03645

5

. 00910

12

. 03449

4

. 06699

13

.03253

3

. 06489

14

. 03058

2

. 06280

15

. 02864

— 1

. 06072

10

. 02670

0

. 05865

17

.02477

+ 1

. 05659

18

. 02285

2

.05454

19

. 02094

3

.05250

20

. 01904

4

. 05046

21

.01714

5

. 04843

22

.01525

C

0. 04641

23

0. 01337

in I

in I

26 3

— 0.01560

27 8

+ 0.00723

4

. 01422

9

. 00853

5

.01285

10

. ooo-::

6

.01148

11

.01113

7

. 01012

28 0

. 01243

8

. 00876

1

. 01372

9

. 00740

2

. 01501

10

. 00605

3

.01629

11

. 00470

4

. 01757

27 0

. 00336

5

. 01885

1

. 00202

6

. 02012

2

— 0. 00069

7

. 02139

3

+ 0. 00064

8

. 02265

4

. 00197

9

. 02391

5

. 00329

10

. 02517

6

. 00461

11

. 02642

27 7

+ 0.00592

29 0

+ 0.02767

The indications of the thermometer and barometer, as recorded by d'Agelet, are here
collected, the time appended being the supposed sidereal time of observation. The last
column, entitled log TB, gives the corresponding logarithm to be applied to the log R taken
from Coffin's tables.

(9)

10

GOULD — REDUCTION OF D'AGELET S OBSERVATIONS.

Data for computing refractions.

Date and ski

time

Therm.

Barom.

Log TB

Date and ski.

time

Therm.

Barom.

Log TB

1783

It

o

in

I

1784

h

o

in

I

Feb. 18

5

4

28

5

0. 06931

March 26

74

7

27

7

0. 05032

11

3

28

41

. 07071

June 4

5

20

28

3f

. 03629

19

11

3

28

4

. 07007

5

5

19*.

28

2

. 03500

12+

3

28

4

. 07007

8

5

16

28

4

. 04427

26

134,

2

28

4

.07211

16

5

18

28

4

. 04042

March 1

5|

6

27

5i

. 05036

21

24

18

28

Of

. 03625

6

4*

54

26

J Of

. 04232

July 4

4i

15

28

3

. 04493

18

5

6

28

6

. 06653

14

5

18

28

5

.04170

12

4

28

54

. 06995

Sept. 9

23

20

28

5

.113? SO

Ajuil 4
12

5

10

28

54

. 05791

15

18i

18

28

24

.03850

9f

11

27

114

. 04824

16

18f

16

28

3

. 04299

14

7*
13J

12

28

4

. 05206

17

16

17

28

3

.04106

16

11

28

4

. 05403

18

23

17

28

2

. 03978

18

12i

28

•r'4

. 05300

20

!2

17

27

8

. 03200

19

6*

13

28

34

. 04946

24

64

13

28

1

. 04625

25

10$

10

28

if

. 05305

28

19

15

28

0

. 04107

16

8

28

2

.05741

30

23f

84

28

24

. 05705

28

7

13

28

24

. 04818

Oct. 1

21f

9

28

4

. 05798

29

9

13

28

2

. 04754

o

22

10

28

04

.05918

May 4
13

13

124

28

04

. 04659

6

9

28

6

. 06053

20

13

28

l

. 04625

C

174

11

28

2

.05147

16

9i

15

28

3

. 04493

8

4

8

28

0

. 05483

17

12i

15

28

1

. 04236

9

7+

7

28

0

.05683

July 9

15

2>i

28

1

. 02992

13

74

8

28

3

.05869

22J

10

28

1

. 05215

74

74

28

2

. 05841

10

13

25i

28

1

. 02244

14

18J

8f

28

2

. 05592

12

23

19

28

14

. 03530

15

184

8

28

If

. 05709

19

23+.

18

28

2

. 03786

7±

5

28

If

. 06312

20

20

21

28

H

.03112

16

184

8i

28

2

. .05601

23

16

18

28

0

. 03528

Nov. 17

24

9

28

1

•.05413

24

16

28

3

. 04299

23

221

54

28

3

. 06371

26

Of

17

28

04

. 03784

28

214

5

28

2i

. 06376

27

18i

20

27

n

.03017

Dec. 28

184

— 3

27

1

. 06287

04

19

27

10

. 03077

23f

- 4

27

11

. 07812

Aug. 20

3

17

28

14

. 03913

1785

21

1*

174

28

14

. 03817

March 14

54

2

28

14

. 06890

Sept. 15

2

15

28

04

. 04172

21

44

6

28

3

.0627H

17

o*

16J

28

24

. 04138

23

44

2

28

3f

. 07179

2i

15

28

04

. 04172

30

13

04

27

10i

. 06777

4

17

28

H

. 03913

April 5

54

5

28

4

.066HO

1784

9

15

54

28

5i

. 06659

March 22

0

2

28

0

. 06697

10

12+

6

28

7

.06780

23

0

4

27

10

0. 06029

11

7 +

8

28

74

0. 06442

Inasmuch as the thermometer was generally read to even degrees only, never more
closely than to half degrees, and the barometer was seldom read more closely than to half
lines, errors of half a degree and half a line may easily be apprehended, corresponding to an
uncertainty of about 0.001G5 in log TB. The aggregates of the nicer corrections, b, I', &c,
are under no circumstances likely to attain so large a value as 0.0023 p, and are so much less
than those due to the errors of reading the meteorological instruments that they have been
disregarded.

From the data already given, and a study of the tables of meteorological means for Paris,
deduced from observations in more recent years, the following table has been empirically
constructed and used for computing all the refractions. It presents, to three decimal places,
those values fur the meteorological factor which seem most probable, after taking into account
the estimated diurnal changes of temperature and probable fluctuations of the barometer.
(10)

GOULD REDUCTION OF D AGELET S OBSERVATIONS

11

Adopted correction of log Rfor times of observation.

Date and sid. lime

Log TB

Date and Bid. time

Log TB

Date and sid. time

LogTB

1 late and sid. time

Log TB

1783 h

1783 h

1783 h

1784 h

Feb. 18 4

0.06-J

May 1 10

0.047

July 29 23

0. 034

Sept. 20 . .

0.040

6

. 069

13

.050

30 ..

0.032

24 ..

0. 043

8

. 070

2 ..

0.017

Aug. 17 ..

0.038

26 ..

0.049

10

J'71

3 ..

0. 045

20 17

0. 033

28 19

0. 04 1

12

.072

4 12

0.046

22

.036

23

.043

19 11

0. 070

16

. 048

3

. 039

3

.046

13

.070

9 7

0. 044

21 211

0. 034

30 23

0. 055

26 6

0. 066

10

. 045

231

.036

2

.057

111

. 069

13

.046

H

.038

5

.059

14

. 072

12 13

0. 045

Sept. 2 17

0. 032

Oct. 1 19

0.056

March 1 . .

0. 051

16

.047

21

. 035

22

.058

0 4

0. 042

13 111

0. 042

6 174

0.1133

2 221

0. 059

6

.044

154

.041

191

0. 034

24

.061

8

.046

191

.046

7 17

0.033

61

. 062

9 ..

0.050

15 12

0.042

21

.034

6 16

0. 051

17 ..

0. 060

16

.044

9 ..

0.041

22

.053

18 6

0.H66

20

.016

15 21

0. 036

4

.055

Hi

.070

16 9

0.044

2

.041

8 0

0. 056

21 0

0. 066

1H

.045

17 01

0.041

4

.057

10

.067

14

.046

21

. 042

9 171

0. 051

29 ..

0.064

161

.047

41

.042

01

.054

April 2 8

0. 062

17 ..

0.043

25 ..

0. 042

71

.057

12

. 066

20 1 1

0. 042

13 7

0. 057

3 10

0.058

15

.044

1784

13 41

0.056

12

.060

29 14

0. 042

March 22 0

0. 067

74-

0.058

14

.002

18

.044

4

. nils

14 ...

0.056

16

. 064

31 m

0.037

8

.069

15 18

0. 057

4 5

0.058

141

.039

23 0

0. 060

1

.060

10

.061

171

.041

4

. 062

8

0. 063

15

.064

20*

. 043

8

.063

16 18

0. 057

5 5

0. 050

June 2 J 1

0. 039

26 ..

0. 050

21

.060

10

.055

14

.041

May 25 . .

0. 038

0

.063

8 7

0. 049

3 11

0. 039

June 4 ..

0. 036

Nov. 17 20

0. 052

11

. 053

14

.041

5 5

0. 035

0

.054

9 6

0. 048

17

.044

9

.039

4

.056

12

.054

July 5 14

0.031

13

.043

23 21

0. 063

12 ..

0. 049

17

.033

17

.047

0

.065

13 9

0. 048

20

.036

8 5

0. 044

28 18

0. 061

12

.051

8 14

0.030

10

.01-

22

.063

14 8

0. 052

17

.032

15

.052

Dec. 28 18

0. 063

11

.054

20

.034

16 5

0.041

0

.071

14

.056

9 15

0.030

10

.045

16 5i

0. 054

17

.033

15

.049

1785

101

. 057

19

. n:;s

21 21

0. 036

15*

. 061

21

.044

41

. 038

March 14 51

0.069

18 ..

0.053

23

.051

61

.040

81

JiTl

19 6

0. 019

10 10

0. 022

22 ..

0. 039

19 51

0.069

11

. 051

14

.025

July 4 41

0. 045

81

.071

16

. 053

12 17

0.031

71

.040

21 4

0. 063

21 ..

0.051

20

.033

14 5

0. 042

7

.065

25 10

0. 053

23

.035

8

.039

10

.067

13

16

.055

.057

14 15

20

0. 029
.033

Sept. 7 19
22

0.036

.038

23 4

8

0. 071
.072

26 7

0.051

19 131

ii.ii-j-

9 171

0.039

12

.074

10

.053

18*

. 033

181

.041

30 11

0. 067

13

.055

231

.037

14 11

0. 040

13

.069

27 10

0.051

20 ..

0.031

16

.043

April 5 5

0. 068

13

.053

23 16

0. 034

21

.045

10

.071

16

.055

20

.038

15 181

0. 045

9 8

0.065

28 7

0. 047

24

.042

221

.047

12

.066

11

. 049

26 13

0. 025

21

.049

16

.067

15

.051

17

. 029

16 19

0. 044

10 8

0. 005

19

. 053

21

.034

23

.047

12

.068

29 7j

0. OJ6

1

.038

3

. 049

11 71

0.064

101

.048

27 18J

0.031

17 161

0.041

101

.067

m

.051

21i

.032

201

.045

26 7

0. 1100

30 5

0. nil

Oi

.034

01

.049

12

.062

9

.047

29 13

0. 028

18 20

0. 042

29 10

0. 061

13

.050

18

.03,1

231

.044

12

.063

(11)

12 GOULD REDUCTION OP d'AGELET's OBSERVATIONS.

§7. BASIS OF REDUCTION.

A very cursory examination of the original observations will suffice to show the hopeless-
ness of any attempt at reduction by other methods than purely differential ones. Not only is
the quadrant an instrument ill adapted, at the best, for the determination of right-ascensions,
but d'Agelet' s quadrant proves to have been peculiarly irregular in form. The simplest
essays at determining the azimuth of its plane show the futility of any such attempt by ordinary
methods ; and the observations* being isolated and independent, preclude the facilities which
zone-reductions afford. No record is to be found of any endeavors by d'Agelet himself to
determine the position of his quadrant with reference either to the meridian or the nadir-point.
A few scattered notes, mentioning the apparent index-error, or the approximate correction to
the time of transit, as given by some particular star, constitute the sum total of the explicit
information recorded on these subjects.

A means of obtaining the requisite data for a differential reduction was at hand in the
"Time-Star List," prepared by me for the use of the U. S. Coast Survey, and of which a
revised and improved edition1 was published in 1862. This list contains 132 stars, well adapted
for use in determining time by observers in the northern hemisphere ; and gives the right-
ascensions and proper motions deduced by the method of least squares from the best recorded

o

observations, after referring them to the equinoctial points of Argelander's Abo Catalogue2,
slightly modified to conform to Peters's value of the nutation. Since the publication of this
list of right ascensions, I have computed the declinations in a similar manner, and thus the
data for an accurate determination of the positions at the time of d'.Agelet's observations were
before me.

Of these stars, not only were 112 found among those observed by d'Agelet, but, most
happily, a considerable number prove to have been observed by him on almost every night ;
there being but one date when any fixed stars were observed without some one of these occur-
ring among them, and an ample number being found on all those dates when a large number
of stars were observed. On about one-half of the nights the number of standard stars was
not less than six, and on two-thirds of them it was not less than four.3

The dates of observation and the standard stars available for the reduction are exhibited
in the following table, in which the stars are designated by their respective numbers in the
Time-Star List.

'Standard Mean Right-Ascensions of Circumpolar and Time Stars.— Washington, 1862.
2DLX Stellarum Fixarum Positioned Media?, ineunte anno 1830.— Helsingfors, If-::."..

' '" bservations of (he 22d June, 1784, are not counted, having continued lor less than ten minutes, and comprising but

itars. °

four stars

(12)

GOULD — REDUCTION OF D'AGELET'S OBSERVATIONS.
Dates of observation, and standard stars observed.

13

Date.

1783.

F.I.. 18

19
26

Mai. 1
0
9
17
18
21
29
Apr. 2
3
4

8
9
12
13
14
16
18
19
21
25
26
27
28

29

30

1

2

3

4

9

12

13

15

16

17

20

29

31

2

3

July 5
8
9

10

May

Stars.

June

12
14
19

20
23
26

15, 22, 24, 25, 26, 27, 29, 32, 33, 34, 35, 49, 50, 51 , 53,

54,58.
58,62,63,66,67.
32, :::;, 34, 35, 38, 39, 40, 41, 42, 49, 51, 52, 53, 54, 56,

58,60,63,67,68.
32.

22, 28, 32, 33, 34, 35, 38, 39, 42.
32, 33.

25,26,27,28,30,32,33.
25, 26, 27, 28, 30, 32, 33, 35, 63.
25,26,30,32,33,35,49,50,51.
49,50,51,52,53.
49,50,51,52,54,56,58.
51, 56, 58, 59, 60, 62, 63, 67, 68, 74, 81.
2d, 27,28, 32, 33, 34, 35, 38, 40, 41,42, 49, 50, 51, 52,

62 63,67,68.
27, 28, 32, 34, 40, 42, 49, 51, 52, 53, 54.
32, 67.

39,41,49,51,54.

15, 22, 27, 30, 32, 33, 34, 35, 39, 40, 41, 67.
51,6n.

51,52,54,59,60.
39,40,41,51,67.
32, 34, 35, 41, 51, 52, 56, 58, 67.
67,71,74.

35, 4d, 41, 52, 58, 59, 60, 82, 85, 86.
71,76.

56, 62, 66, 67.
39,40,41,45,50,51,56.
56,70,71,78,79,81.
35, 40, 41 , 50, 51 , 67, 73, 75, 77, 79, 81 , 92, 93, 95, 98,

103,105,106,107,112.
35, 39, 40, 41, 47, 49, 50, •"> 1 , 52, 56, 58, 59, 60, 07.
25, 26, 27, 32, 34, 35, 39, 40, 41 , 47, 49, 50, 5 1 .
53, 63, 66.
47,50,51.

39,40,41,51,52,56.
67,76,83.

39, 40, 41, 51, 52, 53, 54, 62, 66. 67, 81.
67, 78.

mi, 73, 77, 81, 89, 92, 105, 106, 107, 1 12.
35, 67, 77, 81, 87, 89, 9S, 103, 105, 106, 107.
47, 49, 51, 52, 58, 60, 76, 83, 85, 86.
67, 68, 70, 92, 93.
60,62,67,70,71,75.
78,79,84,90,92,93.
60, 67, 71 , 85, 90, 92, 98, 100, 111,112.
60,65,67,71.
60,65,67,71,89.
67,71,85,100,106.107.
71, 73, 75, 76, 78, 79, 85, 87, 98, 106, 107.
76,78,79,80,85,106,107, 110, 111, 112, 118, 122,

128.
51,60,67,69,71,73,74,76, 78, 79, 80, 83, 98, 106,

107,112.
92,94,98, 103, 105, 106, 109, 112, 114, 116, 128.
78, 106.

69,71,73,74,78,79,80,82,85,92, 101, 103, 105, 1116,
107, 109, 112, 114, 116, 117, 122, 126, 128, 129,1,2,
25, 26.
112.

85, 86, 92, 1 12, 1 17, 122, 125, 126, 2.
67, 71, 73, 74, 75, 76, 79, 80, 83, 85, 86, 88, 90, 92, 98,

106,107,112,114,116,5.
97, 98, 99, 103, 106, 112, 116, 128, 5.

Date

1783.

July

29
30

Aug.

17

20

21

Sept.

2
6

7

9

15

17

25

1784.

Mar.

22

23

26

May
Juue

25
5

Si ais.

July

Sept.

Oct.

8

16

21

4

14

7

9

14

15

16

17

18

20

24

26

28

30

1

2

6
8
9

12

13
14
15
16

Nov. 17
23
28

Dec. 28

1785.

Mar. 14
19
21
23
30

April 5
9
10
11
26
29

67, 69, 7 1,74, 78, 85, 9-.', OS, 1(16, 112, 129.

112.

129,1,2.

90, 98, 101, 100, 129, 1 , 2, 7, 9, 10, 13, 15.

129,1,2,7.

90, 92; 98, 1 12.

92,93,94,98.

92,98.

19,21,22,25,26,27.

118,120,1,2,5,8,11, III.

5,7,9,10,13, 14,16,18,19.

33,34,35,39.

34,35,38,40,41.

22, 25, 26, 27, 34, 35, 39,40.

34,35,36,39,40.

68, 69, 71.

25,26,71.

25,71,72.

25,26,35,51,69,70,71,73.

15, 22.

22,25,26.

25, 26, 106.

105, 106, 109, 112, 114, 118, 121, 122.

98.

105, 106, 107, 108, 109, 112, 118, 121.

106,112,1,2,4.

103,100,112,118,120,123,1,2,4.

83,85,105,106,112,128,1.

111,116,118,1.

26,28,31.

34, 35.

51.

115,1,2.

1,2,10,13,15,17,20.

86,105,106 111,112,120.

127, 128, 1,2, 15, 17, 22, 24, 25, 26, 27, 28, 32, 33,

34,35,39,40,41.
92,120,122,123,5,15,17.
5,7,17.
92,98,.112, 120, 10,12, 13, 15, 17, 22, 21, 24, 25,

26, 27, 30, 33, 34, 35, 36, 38, 39, 40.
38, 39, 40.

20, 22, 25, 26, 28, 30, 34, 35, 36, 38, 40.
98.

98, 102, 112, 114, 116, 13, 15, 25, 26, 27,28, 35, 38.
9S, 1(16,112,116,122.
106,115.
116,118,126.
98,106,107,112,115.
98, 130.

30, 33, 34, 35, 38, 44.

34,35,38,41.

22, 25, 26, 27, 28, 30, 33, 34, 38.

22, 26, 38, 52.

35, 67.

28,30,35,40,41,51.

5l".

41,44,51.

40,51.

53.

(13)

14

GOULD — REDUCTION OP d'AGELET's OBSERVATIONS.

The adopted mean places for 1783.0 are presented in the annexed table, together with the
logarithmic constants for reduction to apparent places.

Mean Places and Constants for Standard Stars.

1783. 0

No.

Name

Log a

Log h

Logc

Log d

Log a1

Log b'

Logc'

Log rf'

a

<S

1

a

Andromedne .

h m s
23 57 12.34

O ' "

+27 53 29. 3

0. 48600

8. 54757

8. 87451

b6. 96364

1.30234

8. 08609

9. 59040

9. 67003

2

y

Pegasi

0 2 4.85

+13 58 34.4

0. 48763

8.21990

8.83694

6. 79507

1 . 30235

b7. 95811

9. 62229

9. 38294

4

a

Cassiopese .

32 41.34

—19 10 49.4

0. 47776 b8. 36088

8. 84428

8. Ill i| 15

1.29793

b9. 15273

'.1.65066

nO. 51216

5

e

Pisciura .

51 41.72

+ 6 43 5. 0

0.49215

7. 883811

8.81576

8. 17649

1. 291 23 «9. 34959

9. 60746

0.05700

7

1

Piscium -

1 19 53.92

+14 13 14.8

0. 50329

8. 20083

8.81049

8. 37096

].27543ii9.53353

9. 52750

9. 36340

8

0

Pisciuiu .

33 57. 27

+ 8 3 33.7

0. 49776

7. 93740

8.79C66

8. 42872

1.20475h9.60050

9. 57276

0.10018

9

P

Arietis .

42 41.32

+19 44 20.7

0.51565

8. 33360

8. 80500

8. 48691

1. 25723

b9. 63671

9.41885

9. 48340

HI

a

Arietis .

54 58.76

+22 25 37. 8

0. 52323

8. 38241

8. ,-(1091

8.54012

1.24525

m9. 68206

9.33814

9. 52435

12

y

Ceti . . .

2 32 4. 45

+ 2 18 40.4

0.49189

7. 32642

8. 72068

8.61378

1. 19879

n9. 78952

9.61162

8.50216

in

a

Ceti . . .

511 57.29

+ 3 13 39. 1

0. 49439

7.44113

8.69056

8.05625

1.16833

b9. 83165

9. 59685

8. 61653

14

f

Arietis . .

3 2 27. 69

+20 13 38. 1

0. 53436

8. 23502

8. 69628

8. 70562

1. 14714

«9. 85411

9.20501

9. 38348

15

a

Persei

8 55.47

+49 4 21. 0

0. 62354

8.71776

8. 83950

8.87335

1.13427

ri9. 86575

b9. 43175

9.71016

16

(5

Persei

27 33.42

+47 4 34.3

0. 62348

8. 64588

8.78119

8. 88000

1. 09278 b9. 89588

n9. 44795 0,65510

17

n

Tauri

34 37. 11

+23 25 9. 3

0.54865

8. 23334

8. 63405

8. 76730

1. 07517 b9. 90605

8. 89332 0. 37200

18

f

Persei

40 31.94

+31 13 24.0

0. 57230

-■. :;i;::i;;

8.64896

8. 81 1588

1.05952 119.91407

n8. 73239! 0.47176

19

yl

Eridani

47 54.79

—14 8 18.2

0. 44526

ru. 9G160

8. 57361

8.70077

1. 03873 n9. 92349

9. 79050 i,0. [2413

20

y

Tauri . .

4 7 27.85

+15 5 16.1

0. 52995

7. 02750

8.51264 8.78453

(I.07588ii9.94540

0.27854 9.08842

21

e

Tauri . .

15 58.01

+18 40 56.7

0.54120

7. 99498

8. 48939

8.80105

0. 94434 b9. 95363

9.09)18

9. 14756

22

Aldebaran .

23 29.27

+16 3 22.5

0.53425

7.89451

8. 45268

8.80149

0. 9]386,n9. 9603O

9. 21601

9. 05332

24

II

Orionis .

52 10.93

+ 15 5 4.7

0. 53343

7. 71933

8. 30394

8.81984

0. 76717 Ia9. 98070

9.23104

8. 88020

25

Capella .

5 0 41.28

+45 45 18. 0

0. 64326

8.24348

8. 388:',:;

8.00552

0.71 047 b9. 98529

«0. 50051

0.26325

26

Rigel . .

4 6.99

— 8 28 0. 1

0. 45808 ,,7. 37947

8.21146 8.81563

O. 68516,110. 08606

9.75760 118.55080

27

/3

Tauri

12 35.28

+28 24 18. 9

0.5773(i 7.86956

8. 10220 8.87025

0. 61496 b9. 99064

b8. 92262 8. 98988

28

(5

Orionis .

20 55. 59

— 0 28 29. 6

0. 48566 b5. 97161

8.0535(; 8.81759

0. 53200)10.90366

9. 64570 n7. 14769

29

a

Leporis .

23 9.76

—17 59 28.8

0. 42190 n7. 53969

8. 04992

8. 84005

0. 50661 b9. 90437

9. 85600 n8. 60401

30

e

Orionis .

25 12.55

— 1 21 21.5

(I. 1-276 «6. 37761

8.00366

8. 81900

0.48200,10.00407

9. 66029 b7. 55358

:;i

a

G'olumbiB

31 47.67

—34 12 3.1

0. 34569

n7. 72139

7. 98816

8. 89580

0. 39142

b9. 99669

9. 95523

b8. 82228

32

a

Orionis .

43 25. 69

+ 7 20 59. 4

0.51089

6.79330

7. 68631

8. 82635

0.16119

n9. 99886

9.48139

7. 96580

33

P

Geminorum .

6 9 49.70

+22 36 24. 7

0. 55951

n7. 07556

«7. 49081

8. 85822

n9. 93456

b9. 99960

8.22401

n,8.2]695

34

7

Geminorum .

25 10.29

+16 34 0.9

0. 53983

«7. 33722

«7. 88215

8.8:;'.ig:>

n0. 34220 n9. 99737

9. 12287

n8. 49488

35

Sirius

35 34.99

—16 25 53.2

0. 42827

7.48313

«8. 03151

8. 83676

b0. 49186|n9. 99474

9. 84254

8.64111

36

e

Canis Majoris

50 5.93

—28 41 18. 9

0. 37218

7.89827

«8. 21698

8.87033

«0. 63856 b9. 98954

9. 92914

9.01748

38

d

Geminorum .

7 7 8. 83

+22 21 52. 1

0. 55599 »7. 89885

,<-. 31850

8. 83897

nO.70299 «0. 08100

8.57031 nO. 04006

39

a3

Geminorum .

20 43. 36

+32 20 43.2

0.58727 n^. 16087

>t*. 43249

8.86995

))0. 83772 nO. 9728]

nO. 13287 119.26373

40

Procyon .

27 55.93

+ 5 46 0.4

0.50458 «7. 40063

n8. 39860

8.79345

nil. 87486 nO. 96734

9. 52988 b8. 57452

41

(3

Geminorum .

32 0. 68

+28 32 0.7

0. 57285 b8. 15120

h8. 47208

8.84417

nO. 89430 n9. 96402

)i8. 76552 i,0. 27 II 15

42

i-

Geminorum .

III 11.30+27 18 38.1

0 56775«8. 16359

b8. 50195

8.83235

«1. 92908n9. 95711

n8. 47596 n9. 28834

44

t

Hydife .

8 35 16. 18+ 7 12 8.7

0. 50545 n7. 72273

b8. 62451

8.71896

ill. 00953i)9.89161

9. 52247 b8. 89539

45

i

1 frsae Majoris

44 15.68+48 52 49. 1

0. 52666 b8. 10314

b8. 65891

8.71875

ill. 11 988 «9. 87735

9.3166(1 nO. 26174

47

a

Hydra? .

9 16 55.29— 7 43 38.9

0.47012 7.83573

«,8. 70710

8.64280

b1.18116«9. 81493

9.71432

9. 00781,

49

c

Leonis

33 29. 86

+24 45 49.8

0. 53638Vi8. 39236

B8.77028

8.64148

nl.20684ln9. 77567

9. 15927

b9. 52656

50

P-

Leonis .

40 23.22

+27 1 10.9

0. 53918 b8. 44532

b8. 78798

8.63164

ill. 21625 ii9.75754

9.10316

n 0.57121

51

Regulus -

56 47.79

+13 1 12.7

0. 50906 b8. 12194

b8. 76920

8. 54455

iil.23G3.i «9. 70932

0.48700

hO. 28671

52

7l

Leonis . .

10 7 58. B9

+20 55 53. 8

0. 51992 b8. 35248

b8. 79948

8. 52524

ill. 24829 «9. 67168

9. 37610

nO. 49891

53

P

Leonis .

21 22. 15

+10 25 2. 6

0. 50 148 n8. 04685

b8. 78960

8. 45147

b1. 26084 b9. 62034

9. 54597

H9.21572

54

I

Leonis .

37 5(1.110

+ 11 41 17.1

0. 50073 9i8. 11113

n8. 80449

8.37818

bL 27385 «9. 54517

9. 54906

b9. 27812

56

(i

Leonis

11 2 32.42

+21 42 34.1

0. 50550 b8. 41016

b8. 84205

-.250 17

b1. 28857 b9. 39462

9. 403,54

b9. 55429

;,>

7

Leonis . .

16 46.41

+ 4 2 56. 8

0. 48973 b7. 66614

n8. 81722

8.09798

nl. 29459 b9. 27298

9. 62304

ti^. 841 13

59

91 Leonis .

25 50.35

+ 0 22 21.8

0. 48739

n6. 63308

«8. 81908

7.00500

ii 1.20753 ,,9. 17174

9.63664

«7. 80015

60

/?

Leonis .

37 58.65

+15 47 2. 5

0.49231

n8. 27314

b8. 83859

7. 82260

nl. 30036,ii8. 08201

9. 59292

b9. 43254

62

0

Virginis .

54 8. 89

+ 9 56 20. 7

0. 4880(3 n8. 06739

b8. 83034 7.23757

nl. 30223 b8. 40709

9. 62655

b9. 23691

63

n

Virginia .

12 8 48. 45

+ 0 32 2.-,. 7

0. 48714 b6. 79852

b8. 82361 »7. 40851

nl. 30205 8.58458

9. 03706

n7. 07460

65

12

Canuni Ven.

45 5ii.: 12

+39 29 36. 5

0. 45506 b8. 73120

b8. 92772 m8. 23470

nl. 29362 9.20824

9. 66408

b9. 70472

66

e

Virginis .

58 43. 82

— 4 22 33. 4

0.49080; 7.69325

b8. 81076|b8. 22910

nl.28705, 9. 10302

9.61650

8.86817

67

Spica . .

13 13 47.00

—10 1 22.7

0.49766 8.04831

b8. 80769

«8. 33083

nl. 27947 0.50024

9.57106

0.21771

68

f

Virginis .

23 38.86

+ o 31 8.5

II. 48060 i,0. 75186

n8. 79434

i/8. 37652

)i 1.27278

9. 55259

9. 64082

i,7.0270::

69

V

Ursse Majoris

38 58.01

+50 24 7.9

0. 37905 b6. 86447

b8. 97768

H8.G4 123

»1.2605E

0.6217:

9. 77757

«0. 84407

70

n

Bootis

11 20.98

+19 29 31.7

0. 45673 m8. 32623

b8. 80286 b8. 49272

k 1.25571

9.6431!

0.74504

,,0.47068

71

A nt urns

14 5 46.08

+20 19 9.5

0. 44904 b8. 32350

b8. 78286n8. 56919

« 1.2334 1 0.71737

9. 76956

,)0.47160

72
73

0

Hoot is . .

17 48.38

+."■2 51 40.7

0. 31628 n8. 86083

n8. 95929 b8. 79565

nl.21861 0.75261

9.85314

,,0.8 1770

e

Bootis

35 30.53

+27 59 53. 8

0.41899ii8.4408l

b8. 76923

118. 67569

nl. 19363

9. 79772

9.83118

,,0.562-5

(14)

GOULD —REDUCTION OF D AGELET S OBSERVATIONS.
Mean Places and Constants for Standard Stars — Continued.

15

So.

74
75

70

77
78
79
80
8]
82
83

84
85
86
87
88
89
90
92
93
94

95
97

9-
99
Inn
101
102
in:;
105
100

107
108
109
110
111
112
114
115
11(3
117

118
120
121
122
123
125
126
127
128
129

130

Vim..

Librae

I'm H.I is

Libra;
Bootis

Corona? Bor.
Slip. -litis
Nil I ../litis
Coronas Bor.
Scorpii
Ophiuchi

Herculis .

Autures .
Ophiuchi
Herculis .

Ophiuchi
Herculis -
Herculis .
Ophiuchi
Herculis .
Sagittarii

ft Sagittarii

I Aquilse -

Vega. . .

P Lyrae . .

a: Sagittarii

C Aquilse -

d Sagittarii

i! Aquilse .

7 Aquilse .
Altair

/} Aquilse .

t Aquilse .

n: Capricorni .

it Capricorni .

s Delphini .

a Cygni . .

v Cygni
61' Cygni

f Cygni . .

1 Pegasi . .

$ Aquarii .

t Pegasi

u Capricorni .

a Aquarii .

6 Aquarii .

7/ Aquarii .

f Pegasi

?. Aquarii .

a Piscis Austr.

a Pegasi -

8 Piseium .

17-.', ii

h >n s

11 38 54.31
53 46. 32
5 21.14
16 17.50

'.'.-> :'.o. 23
:::; :::,. 48
40 0.03
48 36. 3:
47 32.00
2 59.41

15

16

15 7
+41 15
8 34
+38 8
+27 27
+ 77
5 8
+27 31

21 59
— 3 7

Log «

44.7
18.6
12.8
49.1
18.3
13.3
37.9
0.9
18.1
17.9

Lug I)

+46
—25
—HI

+39

+ 9
+33
+14
+12.
+27
—30

—21

— 8
+38
+33
—26
+13
—19

+ 2
+ 10
+ 8

50 18.6
55 59. 0

6 44.3
20 40.6
13 31.8
53 33.9
39 3.3
43 53. 5

51 32.4
24 22.9

5 50.5
22 45. 4
35 30.0

7 18.4

32 49. 3

33 16.9
19 20
41 45

5 52. 0

i- :;u. i

13 13.70
Hi 7.84
25 13.60
35 27. 78
47 24.44

53 36.20

17 4 45.53
24 52.10
37 58.42
51 52.38

18 0 47.35

23 23. 95

29 35.53
42 4. 21
41 48.08
55 26. 35

19 4 55. 68

14 33.33
35 56.51

40 11.60

44 39.14
. 53 32. 04

20 6 0. 06
14 52.81
22 50. 69
34 2. 28
49 5.39
57 11.42

21 3 42. 52
12 3. 17

20 7. 30
33 31.59
II 26.53

54 37.92

22 5 22. 18

24 12.10

30 38. 66

41 17.15
4.". 37.23
53 57. 7c +14 2 26.5

f 5 52 38. 9
+ 6 40 40.8
—13 12 12.9
—18 54 34. 8
+ 10 34 37.4
+44 30 45.3
+40 20 20.8
+37 41 41.1
+29 20 43. 7
+18 53 4.9

— 6 30 59.6
+ 8 53 17.6
—14 33 51.4

— 1 21 59.6

— 8 51 24.7

— 1 13 48. 6
+ 9 42 11. 8

— 8 43 46. 9
—30 46 4.0

0. 51873 b8.

0. 35482 n8.
0.50736 7.
0. 35728 »-.
0.40271 «-'.
ii. 16782 »7.
n. I73d4n7.
o. :;;i:.:;i'. «s.

Logc

0.41647

0.4961 3

14181 »-.
62791 n8.

84113;((8.

53534 b8.
33486 «8.
69594 n8.
531 .7 1 b8.
27502
17627
24993

Log d

72522 »■-.
80878 »-.
66788 a-.
74456 »8.
67113 b8.
60270»i8.

0. 25100
0.56293
0.51705
0.31129
0.4552.". b7.
0. 3443(1 «8.
0. 43630 b7.
0. 44278 b8.
0.374 17 «7
0. 58601

0.55467 b5.

0. 51408 »i7.
0.30361 7.
0.34488 7.
0. 57143 b7.
0.44052 7.
o. 54665 nl.
0.47868 7.
0.45529 7,
0. 46144

50396

15213

07017

29458

55134 b!

10702b8

61915 b8

58423

61038
59542

.-, i :;;.;

0. 46940
0.470.V.
0. 52350 a'

0.538O2 «-'

0. 45754
0. 30997
0. 34832
0. 36759

ii. 100] I
0.44100

8.

23 16 57. 95

+ 5 11 21.3

0. 50087 b7.
0.46918! 7.
0. 51429 b8.
0.48955»7.
0.50112n7.
0. 48886 «7.
0.47474 8.
ii. 19689?«7.
0.52172,b8.
0.47356 8.

36175
52910

14206

034:; i

00035

-:;;.7n
89980
78113

.-,-;, 1 1
81518

niii:;.-

68357
61502

48102

-307-
91235
10305
86132
61076
58074
55624
43020
220211

76616
92202
15385
13311

95980
11084
02300
9.-4H4
57544
20371

04111 „-.
51 132« 8.
4347688.
40251 b8.
32363n8.
36066 »8.
21612 Bf.

ii u -3 in-.
85! 151 I «■-.

137 -I'M-.

64482
78517

o—i-
80652
76860
73187
73904
80039
78097
76531

93973
8237 s
79247
90530
81 181 15

8803(1

Log a'

Log b'

si. 18836

1.16334

nl. 14147

nl. 11807:
nl. 09770
nl. 07780
b1. 06093
a 1.03670
si. 03984
aO. 99138

aO. 95481
b0. 94309
nil. 90642
nO. 85934

b0. 79580

//I I. 73-2 1
b0. 68023
82960||n0. 48619
.-7340 nil. 28446
88790 «9. 85200

6. 37700 b8.

7. 83082 nf^.
8. 04073 n8,

8. 16227 n8.
8. 13089 n8.
8. 21557 n8.
8.29551 «-.
8.32001 ii'.
8. i:!!)7(ia8.
8. 45523 a8.

8. 47056
8.77125
8. 55364
8. 59240
8. 59754
8.76501
8.70003
8. 76991
8. 73995
8. 71911

8.71118
8. 73367
8. 75337
8. 75553
8. 77237 n8.
8. 78490 n8.
8. 79628 n8.
8. 80282m8.
8. 86652 b8.
8. 81— o«-.

85397
82631

92732
-0331'.
805O.1
82333
83142
SOI 00

79147

7.-301

77924
50390
76632
70800
74089
86425!
81103
78004
72589
67334

63452

60470
50270
54( 1 15
50997
1 : 1243
41004
33020
30311

29066

0.48308 7.77434 K 81799 b8. 09676

8. 82639
0.31061
0.41215
0. 56372
0.56096
ii. 68176
0.74870
0.80699

0. 91144
0.92910

0.94674
1.24675
1.02046
1.04677
1.06856
1.09661
1.13017
1. 14673

1. 13.-77
1.17354

1.18682
1.20688
1.21704
1.23387
1.24562
1.26327
1.26849
1.27623
1.27 Oils
1.28409

1.29467

Logc'

9.80559
9.83736
9.85940
9.87826
9.89280

9.90 160

9.91337

9. 02434
9. 92302
9. 9407.

9. 95106
9. 95378
0.90176,
9. 96976
9. 97785
9.98151
9. 98726
9. 09488
9. 99799
9. 99973

o.i

9.99773
9. 9963'
9. 99264
9.99274
9.98717
9. 98233
9.97661
9. 06078
9.95711

9. 95305
9. 67703
9.93077
9. 92000
9.90954
9. 89348
9.86920
9. 83449
9. 84234
9. 82540

9. 80779
9. 77560
0.73166
0.71012
9.68085
0.011845
0. 57088
9.32730
9. 50363
9. 45358

0.27107

9.40187
9.89199
9.50715
9.90748
9.87241
9. 72447
9.70399
9. 88828
9. 85760
9. 58652

97707
43933
42501
00712
76060

Log d'

30258

6-OI2
0 123.3
60708

13907
-0-6-
71 III.',
39-9-

31821

42538

n0. 51530
9. 28212

-.-I- I
ii'.i. 33903
((8.72113
05172'«9. 20223
82325 «8. 78080
S0700n-. 32702
92881.B8. 65169
11857 8.25389

65456
45411
08131
95463
70910
-1263
96384
6796.1
76907
74856

9.71909
9.68704
9. 35774
9.14971

9. 76027
9. 93356
9.90842
9. 89258
9. 85691
0.70747

9. 55438
9.71601
9. I 12- I
9.62490
9.551136
9.62871
9. 60196
9. 57749
9.32193
9.69028

0. 65247

0-207
17178
90 1-1
0088s
90884
74026,
06619
17699
-32--
78654

65483
00992
07681,
25504
02007
64000
63891
63068
54665
38127

93944
09346
31575

31 190-
13068
29284
19283,
15505
6-36,1

:;6062

8. 94865

My friend Professor Winlock, Superintendent of the American Ephemeris, has kindly
furnished me with the logarithmic day-numbers for the period over which these observations
extend. They are taken from the extensive and valuable series of tables now preparing under
his direction, and are here appended. Like those of the Tabulae Begiomontance, they hold good
for the beginning of the sidereal day of the fictitious year.

(15)

16

GOULD — REDUCTION OF d'AGELET\s OBSERVATIONS.

Logarithmic day-numbers.

Date

Log A

Log B

Log C

Log D

E

1783-

»

Jan.

0

n 7.5011

» (I.934G

n 0.5141

1.3038

— 0. 001

10

8.5491

n 0.9395

ji 0.8112

1. 2830

20

8. 8570

n 0.9472

11 0.97GG

1.24G5

30

9. 0240

ji 0.9562

ji 1.0854

1.1917

Feb.

9

9. 1346

n 0.9654

n 1.1610

1.1133

19

9.2145

n 0.9739

m 1.2134

1.0009

-f- 0.003

Mar.

1

9. 2759

ji 0.9805

n 1.2478

0. 8305

11

9. 3257

n 0.9846

n 1.2672

0. 5222

21

9. 3GS5

ji 0. 9859

>! 1.27311

n 9.2860

31

9. 4075

n 0.9842

ii 1.2658

?i 0.5669

April

10

9. 4448

,i 0.9797

ji 1.2455

ji 0.8486

+ 0 001

20

9.4818

n 0.9730

« 1.2108

ji 1.0087

30

9. 511UI

n 0. 9G47

ii 1.1596

ji 1. 1152

May

10

9. 55G7

ji 0.9556

?i 1.0876

ii 1.1901

20

9. 5943

n 0.9468

n 0.9864

« 1.2430

3U

9.6314

ji 0.9392

n 0.8382

ji 1.2790

+ 0.003

June

9

9. GG73

n 0.9337

jj 0.5915

ji 1.3009

19

9.7014

n 8.9309

ji 9.9119

ji 1.3101

29

9. 7332

n 0.9311

0. 3597

n 1.3073

July

9

9.7623

n 0.9342

0. 72G9

ji 1.2922

19

9. 7885

ii 0.9397

0. 9154

ji 1.2641

+ 0.010

29

9.8118

ii 0.9470

1.0377

Ji 1.2209

Aug.

8

9. 8323

n 0.9551

1.1234

ji 1.1591

18

9.85112

n 0.9G30

1. 1848

ji 1.0723

28

9.8658

n 0.9698

1.2279

ji 0.7473

Sept.

7

9. S796

11 0.9747

1.2559

?i 0.7510

-f 0.011

17

9. 8922

n 0.9771

1.2704

ji 0. 3500

27

9. 9042

ji 0.9767

1.2722

0. 0945

+ 0.011

1784.

Mar.

11

9. 5079

11 0.9574

ji 1.2672

0. 5222

+ 0.019

21

9.5363

ii 0.9575

m 1.273H

n 9.2859

3 J

9.5629

ii 0.9544

ji 1.2658

ji 0.56G9

April

10

9. 5891

n 0.9483

ii 1.2455

n 0.8486

+ 0.017

20

9. G157

ii 0.9397

ji 1 2108

ji 1.0087

30

9. G432

ii 0.9293

ji 1.1 59G

ji 1.1152

May

10

9.6715

ii 0.91; si

jj 1.0876

ji 1.1901

20

9.7005

n 0.9071

ji 0.9864

J! 1.2430

30

9.7296

ji 0.8973

ji 0. 8382

ji 1.2790

+ 0.019

June

9

9. 7583

» 9.8897

n 0. 5914

ji 1.3009

19

9. 7859

ii 0.8852

n 9.9118

ji 1.3101

29

9.8121

ji 0.8839

0. 3598

ji 1.3073

July

9

9.8363

11 0.8859

0. 7269

ji 1.2922

19

9. 8583

ji 0.8906

0. 9154

7i 1.2641

+ 0.026

29

9. 8781

« 0.8973

1.0377

7i 1.2209

Aug.

8

9. 8955

n 0.9049

1. 1234

ji 1. 1591

18

9. 0109

ji 0.9124

1.1848

ji 1.0723

28

9. 9243

?i 0.9187

1.2279

7i 0.0473

Sept.

7

9.9363

n 0.9228

1.2559

n 0.7510

+ 0.027

17

9. 9472

» 0.9242

1.2704

71 0. 3500

27

9. 9575

ii 0. 9224

1.2722

0. 0945

Oct.

7

9. 9G78

» 0.9172

1.2612

0. 6728

17

9. 9785

« 0.1 KISS

1.2364

0.91 Kin

27

9. 9899

ji 0.8978

1. 1959

1.04S3

+ 0.025

Nov.

6

0.0022

n 0.8848

1. 13G2

1. 1454

1G

0.0155

71 0. 8711

1.0507

1.2139

26

0.0296

ji 0.8581

0. 92G2

1.2614

Dec.

G

0.0442

ji 0.8471

0. 7294

1.2920

16

0. 0591

n 0.8394

0. 3253

1. 3078

+ 0.029

26

0. 0737

- m 0.8357

ji 0.0810

1. 3096

36

0. 0877

n 0.83G4

n 0.6522

1.2977

1785.

Mar.

11

9. 6230

» 0.8773

ji 1.2672

0. 5222

+ 0.034

21

9.6444

ji 0. 8759

ji 1.2730

n 9.2857

31

9.6648

ii 0.8708

ji 1.2658

7i 0.56G9

April

Hi

9.6852

« 0.8620

n 1.2455

7i 0.8486

-f- 0.032

2(1

9.7062

ji 0.8501

ji 1.2108

7i 1.0087

30

9. 7282

n 0.8358

ji 1.1596

7i 1.1153

+ 0.032

(16)

GOULD — REDUCTION OF d'aGELEt's OBSERVATIONS. 17

Instrumental errors affecting the right-ascensions.

The first attempts ai determining the clock correction, Jl, disclosed large discordances
between the indications of the different stars, as well as the fact that these were not due to
any error of adjustment, but must arise from a distortion of the limb of the quadrant. The
only course open was to determine the clock-rate by observations of the same stars made on
different nights, and then to investigate the nearly constant differences between the values of
Jt, as given by different stars. By means of a table of these differences, the transit of each
star may be reduced to an arbitrarily assumed plane parallel with the meridian ; and from their
discussion a first approximation was obtained to the amount and character of the distortion of
the quadrant. The locus of these special constant corrections, arranged according to the zenith
distances of stars, indicated some great indentation or flexure in the vicinity of 37° 20' of zenith
distance, corresponding to about 11|° of declination, and a decided distortion of the limb of
the quadrant in the same direction both above and below. The inference is irresistible to my
mind that the limb, along which the eye-end of the telescope moved, and to which it seems to
have been confined by clamp-rollers, had experienced some severe blow, and that this not only
injured its figure in the region above named, but had really bent the whole limb.

To determine the precise amount and law of this deviation from a plane, in the path
described by the line of collimation, no direct means are available. Only the assumption of au
approximately correct value for the transit-error due to this cause, in the case of each standard
star, can guide to a knowledge of the azimuthal deviation of the plane of the quadrant. But
without some determination of the azimuth it is uncertain what portion of the discordances
between the results given by different stars is due to error of adjustment, and what to irregu-
larity of form. Furthermore, some plane must be arbitrarily assumed to represent the normal
plane of the quadrant ; and to this the corrections to be deduced for the several standard stars
must reduce them.

The best plane for adoption, as that of the quadrant, seems to be that one for which the
sum of the squares of the constant errors is a minimum. And this, although not absolutely
attained, is nearly approximated by the indirect process to which I have had recourse.

After applying the best attainable values of the corrections due the time of transit of the
several standard stars, which correction is denoted by q, so that

a— T=M + m0 + ntgd + q
where T represents the sidereal time of transit, reduced by the use of the clock-rate to a fixed
epoch; At being the clock-correction at that epoch, and m0 = m — q; the equations of condition

a — T — q = (Jt + m) + n tg 3
were solved, by the method of least squares, for every date.

The several outstanding residuals thus afford new values of q for each star, which being
then combined by weights, depending on the apparent accuracy of the observations, and
upon the total number of determining stars on the respective nights, afforded a means of
repeating the process with advantage. Thus each successive series of solutions gave a closer

3

(17)

18 OOITLD REDUCTION OF d'aGELET'S OBSERVATIONS.

approach to the true values of q, and to a determination of the azimuth of that normal plane
to which the employment of these values reduced the observed transits. And this plane being
inferred from the entire series of dates, and by the use of least squares on each individual date,
cannot be far from the truth. This process was repeated so long as the individual values of
the residuals, and the various determinations of n, were found to be rendered more accordant;
and the present reduction is based upon the results of the sixth successive series of solutions.
The accordance of the values of n thus attained yields a strong corroboration of the trustworthi-
ness of the result.

After various attempts to deduce a correction proportionate to the secant of the declina-
tion, I have concluded that this is impracticable, and that any error due to the motion of the
lino of collimation in a small circle is thoroughly merged with the values of q.

The values of the correction q for each standard star being carefully charted, a curve was
obtained by graphical means which represents the observations within the limit of probable
error in the whole range of observations, excepting for the zone contained between 9° and
13° of north declination. For this region the distortion appears to have been so great, and the
errors of observation so large, as to render the results less trustworthy than the rest.

Only after the work of reduction and the construction of the catalogue had been entirely
completed in all other respects, was the investigation of the distortion within these limits
resumed. The success of this special research has been greater than I had anticipated, and
the results have now been modified to conform to the new determination.

For this special investigation the best attainable places were deduced for every star
observed by d'Agelet within the above-named limits. For stars whose proper motion was
found capable of approximate determination, this has been used to refer the right-ascensions
to the date of d'Agelet' s observations. Some of the stars occur in Argelander's catalogue,
but for the great majority of them Piazzi, and Baily's reduction of Lalande, furnished the
places, and a comparison of these with later observations, the proper motion. All these adopted
places were of course referred to the fundamental equinoctial points by special tables, originally
deduced for the construction of the standard lists.

These residuals, when charted, soon made manifest the existence of two independent curves;
one belonging to observations made by d'Agelet previous to some date in May, 1783, and the
other, for which the corrections were decidedly smaller, holding good for subsequent observa-
tions. No note or memorandum exists by which the date may be indicated, but from internal
evidence I am inclined to believe that it must have been on the 9th, and have accordingly
assumed the change to have taken place on that day.

Observations before this date give reasonably accordant results, as also do those subsequent;
and I cannot resist the strong conviction that d'Agelet, being aware of the great defect in the
limb, employed some mechanical means on the 9th May to remedy it. The attempt was suc-
cessful, in so far as the errors were decidedly reduced in magnitude within the region of their
greatest influence ; but was by no means successful in removing them, or indeed in diminishing
tliem outside of the limits already named, for which they remain essentially the same through-
out the period of d'Agelet' s observations.

The accompanying chart I. shows the value of q for different declinations ; the dotted line
(18)

GOULD REDUCTION OF d'aGELET's OBSERVATIONS. 19

showing the values for dates after the 9th May, 1783. A glance will suffico to suggest the
nature of the distortion, and it will be remarked that its maximum falls at precisely the same
declination for each curve.

It seems evident that previous to d'Agelet's first observations some severe blow must
have fallen upon the instrument near the place of maximum distortion, bending and deflecting
the whole limb. And that at or about the time already named, efforts were made to remedy
the difficulty, although without dismounting the quadrant, and without a knowledge of the
real magnitude and extent of the injury which had been incurred.

The sidereal times of all transits observed by d'Agelet have accordingly been corrected
by the values given in the tables here appended, the argument of the principal table being
the approximate zenith-distance as read from the limb.

In the second table, entitled "Values of q betiueen + 9° and -f- 13°," the argument is the
mean declination for 1800.0, since this was by far the least laborious form for construction ;
and the possible loss of accuracy incurred is quite small in comparison with the probable error
of observations in this region of greatest distortion. The right-ascensions of all stars between
the limits of 36° 0' and 39° 40' of zenith distance (corresponding nearly to the limits of -j- 12°
15' and -f- 93 11' of declination) are affected by the special discussion.

(19)

20

GOULD REDUCTION OF d'aGELETS OBSERVATIONS.

Values of the correction q.

(

9

(

<1

f

'/

f

'I

f

1

o /

s.

o

s.

c

s.

o

,

s.

O /

s.

87 40

+ 3.53

11

0

+ 1.34

30

20

— 1.34

49

40

4 0.66

66 0

4- 1.63

88 0

.50

20

.37

40

.37

50

0

.80

20

.60

20

.47

40

.38

31

0

.10

•.'II

0.90

40

.56

40

.42

15

0

.39

20

.41

40

1.01

67 0

. 52

89 0

.38

20

.40

40

.42

51

0

.10

20

.49

20

.33

40

.40

32

0

.44

20

.20

40

.46

in

.28

16

0

.40

20

.47

40

. 29

68 0

.42

0 0

22

20

.39

40

.48

52

0

.37

20

.40

20

111

40

.39

33

0

.50

20

.44

40

.40

411

3.117

17

0

.38

20

. 52

40

.53

69 0

.42

1 0

2. 98

20

.36 i

40

.56

53

0

.60

20

.44

20

.89

40

.32

34

0

.58

20

.67

40

.47

40

.80

18

0

.29

20

.61

40

.71

70 0

.49

2 0

.70

20

.26

40

.63

54

0

.76

20

.53

20

.58

40

.21

35

0

.67

20

.79

40

.59

40

.46

19

0

.17

20

.71

40

.82

71 0

.65

3 0

. 33

20

— .10

40

.77

55

0

.84

20

.72

20

. 21 1

40

1.05

36

0

— 1.8]

20

.86

40

.81

4ll

2.06

20

0

0. 92

.

.

40

.87

72 0

1.93

4 0

1.92

20

.79

39

40

— 1.73

56

0

.87

20

2.03

20

.80

40

.66

40

0

.60

20

.88

40

. 15

40

.72

21

0

.50

20

.50

40

.88

73 0

.27

5 0

.66

20

.39

40

.41

57

0

.88

20

.40

20

. 59

40

.27

41

0

.33

20

.87

40

.55

40

.54

22

0

.14

20

.27

40

.86

74 0

.70

6 0

. 50

20

4- 0.03

40

.19

58

0

.84

20

2. 90

20

.47

40

— 0.06

42

0

.11

20

.82

40

3.08

in

.44

23

(I

. 15

20

1.04

40

.80

75 0

.22

7 II

.41

20

.24

40

0.97

59

0

.79

20

.40

20

. 39

40

.33

43

0

.90

20

.76

40

.58

in

.37

24

0

.42

20

.81

40

.73

76 0

.70

8 0

.36

20

.52

40

.72

60

0

.70

20

3. 84

20

.33

411

. 60

44

II

.63

20

.68

40

4. 00

40

. 32

25

0

.69

20

. 55

40

.65

77 0

.10

9 (i

.30

20

.76

40

.49

61

0

.63

20

.27

20

. 29

40

.82

45

0

.41

20

.61

40

.41

411

.28

26

0

.88

20

.37

40

.60

78 0

. 55

10 (I

.28

20

.93

40

.31

62

II

.58

20

.68

20

.27

40

0.99

46

0

.26

20

.57

40

. 80

40

.27

27

0

1.03

20

.20

40

.57

79 0

4. 90

11 0

.27

20

.08

40

. 13

63

0

.58

20

5. 00

20

.27

40

.11

47

0

.08

20

.59

40

.08

40

.27

28

0

.16

20

— 0.01

40

.60

80 0

.15

12 0

.28

20

.19

40

+ 0.04

64

0

.01

20

.20

20

.30

40

.22

48

0

.12

20

.63

40

.25

40

.30

29

0

.24

20

.20

40

.64

81 0

.27

13 0

.31

20

.27

40

.30

65

0

.67

20

.29

20

. 32

40

.30

49

0

.40

20

.67

40

. 30

40

.33

30

0

.32

20

.53

40

.65

82 0

4 5.30

14 0

+ 1.34

20

- 1.34

40

4- 0.66

66

0

+ 1.63

•

(20)

GOULD — REDUCTION OU D AGELET S OBSERVATIONS.

21

I 'a/i/ex of q between + 9° and + 13.c

7

1

7

&

<5

&

lli-lurc M;iv 9

After M.iv 9

Before May 9

After May 9

Before May 9

After May 9

O 1

s.

s.

o /

s.

s.

O /

s.

s.

+ 9 0

— 1.66

— 1.65

10 20

— 3.91

— 2.51

11 40

— 4.78

— 2.92

5

1.69

1.68

25

3.95

2.56

45

4.63

2.84

III

1.73

1.72

30

3.99

2.62

50

4.49

2. 7G

15

1.80

1.76

35

4.04

2.67

55

4.38

2.68

20

1.89

1.80

40

4.10

2.71

12 0

4. 25

2.59

25

2. 00

1.85

45

4.17

2.75

5

4.11

2.48

30

2. 16

1.91

50

4.24

2.79

10

3.96

2.38

:!.->

2.38

1.97

55

4.32

2.83

15

3.80

2.27

in

2.63

2.04

11 0

4.41

2.87

20

3. 62

2.18

45

2. .-9

2.11

5

4.51

2.90

25

3.40

2.10

50

3.17

2.17

10

4. 62

2.94

30

3.12

2. 02

55

3.41

2.23

J5

4.75

2.98

35

2.81

1.96

10 0

::. 58

2. 29

20

4. 92

3.00

40

2.48

1.90

5

3. 68

2.34

25

5.15

3.01

45

2.13

1.83

10

3.77

2.40

30

5.79

3.01

50

1.94

1.80

15

3.85

2. 46

35

4. 99

2.98

55

1.83

1.77

10 20

— 3.91

2.51

11 40

— 4.78

— 2.92

13 0

— 1.77

— 1.75

Finally, the computed and adopted values of n, m -f- At, and the clock-rate, for the epoch
T, are here presented in tabular form.

On nine dates, easity recognized from the table of dates and stars, the number of standard
stars observed was not sufficiently numerous to afford an adequate determination of m and n,
which in these cases were subsequently deduced by employing, in place of standard stars, the
mean resultant positions of such others as had been observed by d' Agelet on several occasions.
For convenience and to avoid needless complication, the results of these determinations are
incorporated in the preceding table, although they were not obtained till after the completion
of the remainder of the work.

The constancy of the deviation n affords gratifying and encouraging evidence of the sta-
bility of the quadrant, and of the accuracy of the deduced correction q, large as it is.

(21)

22

GOULD REDUCTION OF D'AGELET's OBSERVATIONS.

Corrections for adjustment of Quadrant and Clock.

Date

T

71

Adopted n

No. of

stars

Clock correction .

Rate

Adopted rate

1783
February

March

18

111

26

1

6

9

17

h

7
10
10

7

6

6

51

S

— 3.871
4.403

4. 162

4.714

4.0
3.3111

s
— 4.20
4.15
4.1
4.1
4.U5
4.0
4.0

16
5

20

9
■2

6

m s
— 2 26. 403
2 27. 6.32
2 40. 059
2 43.80

2 52.658

3 1.635
3 10.004

s

— 1.092
1.775

1.555
2. 992
1.046
0.710

s
— 1.44
1.44
1.68
1.0-
1.92
2.40
0.96

18
21
29

8
8
9

3.97H
4.029
4. 108

4.0
4.0

4.0

9
9
5

3 10.789
3 11.836
3 10.530

_ 0.349

+ 0. 163

0. 218

0. 72
— 0.24

+ 0.24

April

2
3

10
12

3.947
3.332

4.0
4.0

7
11

3 9. 648
3 9.614

0. 031
0.669

0.48
0.48

4

10

3.671

4.0

18

3 9. 001

0.419

0. 48
0.72
0.96

5

7

8
10

4.096
1.735

4.0
4.0

11

2

3 8. 617
3 6. 650

0. 911
0.979

8

9

4. 722

3.95

5

3 5. 712

1.592

1.20

9

8

4.004

3. 95

12

3 4. 186

1.305

1. 44

12

11

3.8

3.9

2

3 0. 107

0.672

0. 96

13

10

3. 723

3.85

5

2 59. 463

0.900

0.72

14

10

3.928

3. -:.

5

2 58.563

0.685

0.72

16

10

3.768

3.8

9

2 57. 193

1.032

0.72

18

14

3.055

3.78

2

2 54. 960

0.749

0.96

19

11

3.659

3.75

10

2 54. 305

0.751

0. 72

21

14

1.093

3.7

2

2 52.710

0.540

0.48

25

13

4.151

3.68

4

2 311.573

0.386

0. 48

26

10

3. 655

3.67

6

2 50.234

1.099

0.72

27

13

5.630

3.65

6

2 48. 998

0.718

0.96

28

13

3.932

3.63

19

2 48. 280

. 1.095

0.96

29

10

3.801

3. 62

12

2 47. 322

1.048

0.96

30

9

— 3.491

3.6

13

2 46. 318

1.327

1.20

May

1

12

+ 0.201

3.58

3

2 44. 823

1.272

1.20

2

11

— 3.687

3.6

3

2 43. 606

1. 157

1.20

3

9

3.541

3.62

6

2 42. 546

0. 932

0.96

4

14

3.6

3.63

3

2 41. 420

0.715

0.72

9

11

3.678

3.7

11

2 37. 934

0.635

0.72

12

14

2.671

3.93

2

2 35. 950

0.48

13

16

3.97-

3.96

10

2 36. 439

0. 586

0.48

15

13

3.993

3.98

11

2 35. 341

0.845

0.72

16

13

3. 440

3.98

10

2 34.496

0.986

0.96

17

13

2.095

3.98

3

2 33.510

0. 523

0.72

20

13

3.953

3.95

6

2 31.942

0. 362

0.48

29

16

3.018

3.75

5

2 28. 638

1). 61111

0.48

31

16

3.829

3.8

10

2 27. 438

0.682

0.72

June

2

13

3.6

3.65

3

2 26. 160

0.655

0.72

3

14

3. 509

3.6

4

2 25. 477

0.72

July

5

16

3.7

3.75

5

2 10. 392

1.264

1.20

8

17

3. 963

3.85

11

2 6.549

1.707

1.44

9

19

4.454

3.9

12

2 4. 700

1. 198

1.44

10

15

3. 041

3.95

15

2 3.702

2. 134

1.68

12

20

1.045

4.0

11

1 58.990

i . i ;: Mi

1.92

14

18

4.263

4.05

2

1 55.734

1.481

1.68

19

21

4.2

4.1

26

1 48. 144

1. 344

1.44

20

20

4.1

1

I 46.8

1.265

1.20

23

20

4.258

4.1

8

1 43.005

ii. -7 (

1.20

26

19

4.078

4.12

20

1 40.431

1. 3,-1

1.20

27-

22

1. 179

4.14

7

1 38.874

1. 412

1.44

29

17

4.218

4.2

2

1 36.344

1. 613

1.44

30

20

4.2

1

1 34.530

1.68

August

IT

23

3. 136

4.22

3

1 15.257

0.982

0. 96

20

22

!. 257

4. 25

12

1 12.353

1.339

1.20

21

23

3. 128

1.28

4

1 10.957

1 . II-

1.44

Septembe

2

19

1.507

4.4

4

0 57. 723

(1.757

(1.72

6

18

1.391

1.3-

4

0 54.727

0. 324

ii. 1-

7
9

19

4

4.805
3. 92 1

4.4

4.4

2
5

0 54. 390

1 42.322

Clock changed

13.773

13.544

+ 11.813

0.48
13.68

15

23

4. 465

4.3

8

— 0 22. 556

13. 44

17
25

2
6

2.615

— 3.879

4.1

— 3.95

6
4

+ 0 6.225
+ 1 42.690

13. 20
+ 11.76

(22)

GOULD REDUCTION OF D AOELET S OBSERVATIONS.

Corrections for adjustment of Quadrant and Clock — Continued.

23

Hate

T

n

Adopted n

No. of

stars

Clock correction

l.'.ilc-

Adopted rate

1784

A

s

s

m s

s

s

March

22

8

— 2. 672

_ 3. 72

5

— 0 21.130

+ 2.517
2. 256

-f- 2.64

23

6

3. -1 1

3.68

6

0 18.823

2.40

26

7

3. 525

3. 65

3

— 0 11.963

2.16

May

25

14

3. 223

3.3

2

+ 0 29. 175

3.986
4. 257
4.903
Clock changed
3.312
3. 905

3.60

June

5

10

3.620

3. 35

2

— 0 47. 630

4.08

8

10

3.082

3.38

2

— 0 34. 860

4.32

16
21

10
4

3. 38 1
3.753

3. 42
3.-6

7
2

+ 0 4.367
— 0 38.910

3. 60
3.36

July

4

5

3. 1 Hi

3. 6

3

-4- 0 4.310

3.60

14

12

3.750

3.66

2

— 0 15.500

3. 8 1

September

7

21

3.204

3.3

8

0 19.965

3. 372
1.831
3.826

4. 059
4.157
3. 288
1.954
2. 931
2.484
2.387
2.113
2. 447
2. 227
2.319
2. 445
2.336

Clock changed
2. 227
0.926
2.416
2.892

3.84

9

18

. . .

3.3

1

— 0 13.640

3.84

14

20

3.505

3.26

6

+ 0 4.334

3.84

15

22

3.275

3.25

5

0 8. 478

4.08

16

22

3.476

3. 25

8

0 12.537

4.08

17

20

3.979

3. 23

6

0 16.348

3.36

18

22

3. 128

3. 22

3

0 19.910

2.16

20

6

3. 956

3.2

3

0 24. 470

2.64

\!4

6

3.056

3.2

2

0 36. 195

2.64

26

5

. . -

3.18

1

0 41.060

2.40

28

22

2.635

3.15

3

0 45.137

2.16

30

2

3.0

3.2

6

0 49.714

2.16

October

1

20

2.944

3.18

5

0 51. 549

2.16

2

3

2.965

3.18

19

+ 0 54. 426

2.16

6

22

3.459

3.2

6

_ 0 56.780

2.40

8

2

4. 632

3.22

3

0 51. 687

2.40

9
12

1

7

3.283

3.955

3.23
3. 32

21
3

0 49. 448
2 52.613

2.40
2.16

13

6

3.438

3.34

10

2 50. 479

2.40

14

19

. . .

3.36

1

2 49. 050

2.40

15

1

3. 037

3.4

13

2 45. 930

2.64

16

20

3.440

3.42

5

2 43. 640

2.88

November

17

23

4.271

3.86

2

1 53.510

1.826
1.473
0. 7114

1.92

23

22

3.4

3.75

3

1 42.630

1.68

28

20

3.346

3.55

5

1 35.386

1.44

December

28

21

2.841

3.2

2

1 14.230

0.72

1785

March

14

7

4.227

3.6

4

1 43.402

2.243
1.370
1.567
Clock changed
1.202

2.16

19

7

3.816

3. 62

4

1 32.188

1.92

21

7

3.214

3.65

9

1 29.447

1.44

23

30

7
10

1. MM!

7.:

3.7

3.85

4
2

— 1 26. 312

+ 1 0.005

1.44
1.20

April

5

8

3.661

3.87

6

1 7. 122

1.92

9

12

3.9

.

1 15.250

. - -

2.16

10

10

3.9

1

1 17.510

2. 018

2.666

-f 2.772

2.16

11

9

— 1.330

3.9

3

1 19.444

2.40

26

10

+ 1.748

3.9

2

1 59.550

2.88

29

11

- - -

— 3.9

1

+ 2 7.980

+ 3.12

$ 9. INSTRUMENTAL ERRORS AFFECTING THE DECLINATIONS.
The character of the deviations of the quadrant-limb from a plane naturally gave rise to the
suspicion that so serious a distortion might also have affected the indications of zenith-distance;
and a careful examination showed that this suspicion was not unfounded. By a process analo-
gous to that employed for determining the deviations n and the correction q, a series of solu-
tions by least squares yielded values for the equatorial point on each day, and for a correction
q\ constant for each star, but varying with the declination. The results of this investigation
are given in the accompanying tables. The first, " Corrections to equatorial 'point" contains the
combined effect of the corrections for zenith-point and for error of latitude; and the second,

(23)

24

GOULD REDUCTION OF d'aGELETS OBSERVATIONS.

" Values of q'" indicates the systematic errors of the graduation, whether originally existing,
or produced by the injury already spoken of. The latter corrections are delineated on the
small chart II., accompanying tbis memoir, aud their relation to those previously found for the
right-ascensions is easily recognizable from tbe curve.

Corrections to equatorial j>oint.

Date

Eq. poiut

Date

Eq. point

Date

Eq. point

Date

Eq. poiut

1783.

1763.

/ /'

1783.

/ //

1784.

/ //

Feb. 18

+ 1 46.27

May 1

+ 1 49.53

Aug. 21

-f 1 49.40

Sept. 26

+ 1 43.00

19

41. 21

2

47. S3

Sept. 2

48. 72

28

35. 45

26

42.54

3

46. 78

6

47.70

30

37. 05

Mar. 1

44. 4

4

47.83

7

47. 90

Oct. 1

39.27

C

47. 13

9

48. 57

9

47. 88

2

38. 65

9

46.30

12

47.15

15

50. 17

6

41.80

17

47. 45

13

46.81

17

49. 37

8

39.47

18

48.30

15

45. 49

25

-f 1 47.53

9

38. 56

21

50.36

16

48.48

12

41.40

29

40. 62

17

45.60

1784.

13

39.54

April 2

44. 97

20

50.13

Mar. 22

+ 1 44.34

14

40.30

3

41. 10

29

45.46

23

47. 20

15

40. 64

4

12. 83

31

45.38

26

45. 05

16

43.34

5

39. 34

June 2

47.70

May 25

39. 50

Nov. 17

43. 00

7

34.8(1

3

46.95

June 5

44.25

23

40. 65

8

41.02

July 5

45.32

8

43.25

28

40. 05

9

41.35

8

47. 00

16

43. 07

Dec. 28

+ 1 40.20

12

38. 90

9

45. 95

2t

43.40

13

40. 36

10

45.75

22

43.4

1785.

14

40.72

12

44. 09

July 4

42. 13

Mar. 14

+ 1 38.95

16

39. 67

14

47.35

14

39.40

19

34.38

18

42. 15

19

46. 42

Sept. 7

40. 06

21

38.12

19

44.57

20

47. 90

9

38.\>l>

23

33.38

21

40. 00

23

44.81

14

41.28

30

36.20

25

4(1.65

26

48.71

15

41.38

April 5

38.32

26

45. 64

27

47.97

16

38. 35

9

34. 70

27

42. 83

29

46. 66

17

42. 35

1(1

38.90

28

41.53

30

48. 90

18

35. 90

11

37. 43

20

48.47

Aug. 17

46.47

20

41.87

26

40. 70

30

+ 1 50.28

20

+ 1 48.68

24

+ 1 42.00

29

+ I 40.80

Values of q' .

Decl.

l'

Decl.

'/

Decl.

?'

Decl.

'/

Decl.

'/

Decl.

t'

o

II

o

//

0

//

o

It

o

It

o

„

+ 50

+ 5.7

+ 35

+ 3.1

+ 20

— 1. 1

+ 5

— 1.4

— 10

— 0. 4

— 25

— 2.2

49

5.6

34

2.9

19

1.3

4

1.3

11

0.3

26

2.6

48

5.5

33

2.7

18

1.5

3

1.2

12

0.3

27

3.2

47

5.4

32

2.5

17

1.7

2

1.0

13

0.3

28

3.8

46

5.3

31

2.2

16

1.8

+ 1

0.9

14

0.4

29

4.6

45

5.1

30

1 9

15

19

0

0.8

15

0.4

30

5.5

44

4.9

29

1.6

14

- 2.0

— 1

0.7

16

0.5

31

6.4

43

4.7

28

1.3

13

2.0

2

0.7

17

0.5

32

7.3

42

4.5

27

1.0

12

2.0

3

0.6

18

0.6

33

8.2

41

4.3

26

0.7

11

1.9

4

0.6

19

0.7

34

9.1

40

4. 1

25

+ 0.4

10

1.8

5

0. 5

20

0.8

- 35

—10. 2

39

3.9

24

0.0

9

1.8

6

0.5

21

1.0

38

3.7

23

- 0.2

8

1.7

7

0.5

22

1.2

37

3. 5

22

0.5

7

1.6

8

0.4

23

1.5

+ 36

+ 3.3

+ 21

— 0.8

+ o

— 1.5

— 9

— 0.4

- 24

— 1.8

(24)

GOULD REDUCTION OF D'AGELET'S OBSERVATIONS. 25

It is manifest that those present reductions, being purely differential, can lead to no deter-
mination of the latitude of the place of observation. This has been used throughout us 48° 51' 5",
and any error in this assumption is merged with such other corrections in declination as were
constant for the date.

$ 10. OBSERVATIONS.

The crude observations printed by Lalande are given in the present memoir in their
reduced form, as already stated. The first column, entitled T, shows the clock-time of transit
over the mean of the three wires; the second, entitled "Sidereal times," gives the sidereal time
corresponding, or (for those dates when the clock was running at sidereal rate, but with very large
error) the time T, increased or diminished by a constant amount representing the approximate
correction. Next follow the values of the corrections m -f- At, n tg 3, q, from data presented
in § 8 ; their sum when applied to T giving the apparent right-ascension.

Column 8 gives the approximate apparent declination obtained by subtracting the sup-
posed latitude, 48° 51' 5", from the mean of the recorded zenith-distances, and is followed by
the corrections for refraction and q'. The -'equatorial point," or index-error to be used, is
printed at the beginning of the observations for each date, and when summed with the other
corrections and applied to £ — <p yields the apparent declination. All these quantities have been
computed in duplicate, and the errors of calculation must, I think, be very few.

The observations of sun, moon, and planets are omitted from the subsequent discussion.
The data given render their reduction easy; but it has seemed hardly advisable to carry the
computation farther at present. I was not without hopes of finding some observations of
Neptune, but none have been discovered.

A very considerable number of marginal notes will be found accompanying the reduced
observations. These relate in most instances to assumptions of errors in the original record.
To decide what alterations are requisite, what warrantable, and what inadmissible, is always a
matter of delicac}', and owing to the peculiar circumstances of the present case, has here been
more difficult than usual. The existence of a large number of errors of press and pen being
indisputable, I have felt justified in making a liberal use of probable conjectures, so long as the
rule was strictly followed that no change, however slight, be made in the original, without a
corresponding record on the same page. This rule does not apply to manifest errors in the
column of the original entitled "reduction," where the readings of the division into 96 parts
and its subdivisions are translated into the sexagesimal notation. These reductions have been
made afresh, without use of the originals, which were found both imperfect and untrustworthy.

One remarkable kind of error is that where both the recorded readings of the limb agree
in giving an erroneous result, precisely as though one reading had been erroneously made, and
the other subsequently constructed to agree with it. Fortunately three-quarters of these cases
are for stars which are well known, and whose names are given, and the others were fortunately
observed on other dates, so that the assumptions made seem fully justified.

(Sfi)

26 GOULD REDUCTION OF D'AGELET's OBSERVATIONS.

Among the cases of this sort are the following :

1783, April :i, KM Virginia. 1783, April 25, 449 Mayer.

8, 34 Uor-s. 25, T = 11 A. 33m. 44s.

9, a Persei. 30, T = 94. 17m. 20s.
13, T = 8A. 59m. I8s. July 27, 51 Piscium.
14,11 Leonis. 17*4, Sept. 30, 79 Pcgasi.

18, 3 Lite. Oct. 15, 140 Tauri.

19, T = 13A. 0m. 48s.

In 23 instances'observations have been found so discordant, and apparently so erroneous,
that no plausible assumption could be made, so that it became necessary to reject the transit
over one thread, or one reading of the zenith-distance. For 10 stars, whose zenith-distance was
not observed, it was requisite in reducing to assume the declinations; but the close agreement
of the resultant right-ascensions has seemed in every case to justify the assumption. All of
th ?se cases are fully specified in the notes. In a few cases, not exceeding six or eight, the
discordance between the transits over different threads has left it uncertain which was errone-
ous ; and for these the mean has been used.

Throughout the reductions it has become manifest that those observations for which only
the full minute was recorded are uncertain by two or three minutes, both in the transits and
the zenith-distances. The failure to detect this usage at first has occasioued much fruitless
labor.

$ 1 1 . THE CATALOGUE.

The equinox, to which the mean places of the catalogue should be referred, was fixed as
that of 1800.0, after much hesitation. The selection of this equinox was due to no want of
appreciation of the importance of referring the mean places to the mean equator of a date near
that at which the observations were made, but to the apparently greater advantages of the
epoch adopted. Excepting the circumpolar stars of Lalande, reducedby Fedorenko to the
mean equinox of 1790.0, all the observations of the last century, since the time of Bradley,
have been reduced to this fundamental epoch ; and the facility which the use of this epoch
affords for comparing d'Agelet's results with those of Piazzi and Lalande is too great to be
lightly disregarded. The mean places of the catalogue are, therefore, referred to the equinox
of 1800.0, but the actual date of every observation is given, and no correction for proper
motion has in any instance been applied; so that the place recorded is always that at which
the star was actually observed.

For reducing to the mean equinox, day-numbers were computed from the A, B, C, D, E,
already given, (§ 7.) It may be well to record these also.

(26)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

27

Constants foi

reducing stars from their apparent places to the mean equinox of

1S00.

Date

G

H

Logg

Log h

Log i

/

Date

G

II

Log g Log h

Log i

r
J

1783

O '

o '

//

1784

'

O '

"

Feb.

11

181 35

106 11

2.5292

1.285c

nO.8273

—776.07

May 20

181 29

jus 59

2.4928 1.3011 nO.

-713.81

19

36

J01 31

. 2-27

.8510

773. 15

25

28

204 25

.1923 .3,1.3,0

. 5579

7 13.04

24

37

296 15

.2799

.87(13

77 1.-7

30

27

199 55

. 191-

. 3058

.4758

712.25

Mai.

1

181 37

290 56

2. 5281

1.277.".

«n. --:.!

771.31

11

6

38

285 35

.5278

. 27."..".

.8968

773. 77

June 4

181 27

195 28

2.4913 1.3,070

- 2.35

711.42

11

38

280 12

. 5275

.2741

.91 US

773. 25

9

26

191 3

.4908 .3,090

1.70

710.56

16

39

274 49

. 5273

.2733

.9(194

772. 73

14

26

ICO 39

. 1903

.3099

1.03

709.70

21

39

269 25

.5270

.2731.

.9106

772.23,

19

25

182 17

. 4897

.3104

— 0.36

708.83

26

39

264 2

. 5207

.2734

. 9088

771.74

24

25

177 56

. 1891

.3104

+ 0.32

707. 95

31

39

258 41

.5264

.2743

.9034

771.25

29

25

173 34

.4886

.3101

0.99

707. 08

April

5

181 38

253 23

2. 5261

1.2759

h0. 8949

770. 73

July 4

181 25

169 11

2.4881

1.3091

1.66

706. 21

10

38

248 9

. 5258

. 2779

.8831

770.20

9

26

164 47

.4876

. 3077 + 2. 31

705. 35

15

37

242 59

. 5255

.2-H3

.8678

769. 64

2d

36

237 53

.5252

.2-31

.8484

769. 06

14

26

160 21

.4871

.300,0

0. 4703

704. 51

25

36

232 52

. 5249

. 2-39

.8251

7r,-. 15

19

27

155 52

.4866

. 3038

. 5530

703. 70

30

35

227 56

.5245

. 2890

. 7972

767. 80

24
29

28
29

151 20
146 45

.4861
.4856

.3,013,

. 2986

.6198

. 6753

702.91

702. 16

May

5

181 34

223 5

2.5241

1.2922

nO. 7643

767. 1 1

10

33

218 18

. 5237

.2931

.7252

700. Ill

Aug. 3

181 29

142 5

2. 4852

J. 2956

0.7217

701.44

15

32

213 36

. 5232

.2983

.6789

765.67

8

30

137 21

.4848

2923

.70,10

700. 75

20

31

208 59

.3011

.6240

764. 'Jl

13

31

132 33

. 4844

. 2894

.7944

700. 08

25

31

204 25

. 5223

.3..3I,

.5579

764. 11

18

32

127 40

. 1840

.2863

. 8224

699. 43

30

30

199 55

.5219

.3058

.4758

763. 28

23

28

33
34

181 34

122 42
117 40

112 33

.4836
. 4832

.2833

. 2806

.-10o
. 8655

698.83

698. 26

Juno

4

181 29

195 28

2. 5214

1.3076

— 2.35

762. 45

Sept. 2

2. 1829

1.2782

.8813

697. 70

9

29

191 3

.5209

.3II9H

1.70

761.60

7

35

107 22

. 4820

. 2762

.-933

697. 17

14

29

i-r. 39

. 5204

.3099

1.03

760. 73

12

35

102 8

. 4822

.2746

.9024

696. 67

19

29

182 17

. 5199

.3104

— 0.36

759. 85

17

35

96 51

.4819

. 2735

. 9080

696. 19

24

29

177 56

.5194

.3104

+ 0.32

758. 97

22

35

91 32

. 4816

. 2731

. 9105

695. 69

29

29

173 34

.5189

.3101.

0.99

758. 09

27

35

86 12

.4813

. 2732

.9098

695. 19

July

4

181 29

169 11

2. 5184

1.3091

1.66

757. 22

Oct. 2

181 34

80 52

2. 4810

1. 2739

0. 9060

694. 69

9

30

164 47

.5179

.3077

+ 2.31

756. 37

7
12

34
33
32

75 32
70 14

.4807
.4804

. 2752
. 2770

. 8882

694. 19
693. 66

14

30

160 21

.5174

. 3060

0.47(13

755. 53

17

64 57

. 4800

. 2793

.-; 1"

693.11

19

31

155 52

.5170 .30381 .5530

754.71

22

31

59 43

. 4796

.2819

.8559

692. 54

24

32

151 20

.5165 .3013 .6198

753. 92

27

30

54 33

.4793

.2849

. 8335

691.95

29

33

146 45

.51611 .2986

. 6753

753. 15

!

Nov. 1

181 29

49 27

2. 4789

1. 2881

0. 8064

691.32

Aug.

3

181 34

142 5

2.51571.2956

0.7217

752. 42

6

23

44 24

.4784

.2914

. 7738

690. 66

8

35

137 21

.5153 .29251 .7610

751.72

11

27

39 24

.4780

. 2948

.7349

689. 95

13

36

132 33

.5149 .2894 .7944

751.04

16

25

34 29

.4775

.237-

.6883

689. 20

18

37

127 40

.5145 .2861

. - 22 !

750.38

21

24

29 37

.4770

.3007

. 6322

688. 44

23

37

122 42

.5142 .283!

. s-lllll

749. 78

26

23

24 48

.4765

.3034

.5638

687. 64

28

38

117 40

.5138' .2806

.8655

719.29

Dec. 1

181 22

20 2

2. 4760

1.3058

0. 17-2

686. 80

Sept.

2

181 39

112 33
107 22

2.51351.2782 0.8813
.5132 .27621 .8935

748. 65

748. 12

6

21

15 19

.4754

.3.077

.3670

0-5.93

7

40

12

40

102 8

.5129 .2741'. .9H24

747. 60

"

17

4H

96 51

.5126 .2735

.91 Ml

747. 09

11

20

10 37

.4749

. 3091

+ 1.63

685. 08

22

40

91 32

.5123 .2731

.9105

746. 59

16

20

5 57

. 4743

.3101

0.92

684.21

27

40

86 12

.5120 .2732

.9098

746. 09

21

19

1 17

. 4738

.3105

+ 0.20

0-3. 31

1784

26

19

356 37

. 173'.'

.3104

— 0.52

682. 40

Mar.

21

181 39

269 25

2. 49721. 2730 nO. 9106

721. 10

720. 62

31

1785

20

351 57

.4726

.3097

— 1.24

681.49

26

39

264 2

. 4969 . 273-?

. . won

31

39

258 41

.4966 .2743

.9034

720.13

Mar. 1 1

181 29

280 12

2. 4663

1.2741

nO. 9048

671.56

16

29

274 49

. 4001

.2733

. 9094

671.07

April

5

181 38

253 23

2.49631.275S

H(i. -9 19

719.61

21

28

269 25

. 4651

. 2730

.9106

670. 58

Id

37

248 9

.4960 .2778

. 8831

719.07

26

28

264 2

. 4653

. 2734

.90--

670. 09

15

37

242 59

.4957 .2803 .8678

718.52

31

28

258 41

.46501 .2743

.903,1

669. 59

20

36

237 53

.4953 .2-3m ,-|-l

717. 95

25

35

232 52

.4949 .2859 .8251

717. 33

April 5

181 27

253 23

2.4647 1.2759

H.I. -919

669. 09

30

34

227 56

.4945 .28911 .7972

716.68

10

26

21- 9

.464!

. 2779

.—3.1

668. 57

15

25

242 59

. 403'.

. 2803

.8678

668. 04

May

5

1-1 33

223 5

2. 1941 1. 2922 nO. 7643

710.12

20

24

23.7 53

. 463tj

.2830

.8484

667. 49

in

31

218 18

.4937 .2954 .7252

713.33

25

23

232 52

. 4632

.-251

666. 89

15

30

213 36

.4933 .2983 .6789

—714.58

30

21

227 56

. 462c

.2890

. 7972

666. 26

(27)

28

GOULD REDUCTION OP D AGELET S OBSERVATIONS.

The arrangement of the catalogue requires little comment. After the running numbers
for reference, which have been so arranged as to avoid separating different observations of the
same star, the second column contains the names. These are not those recorded by d'Agelet,
but are those obtained by identification of the stars. So far as possible, Flamsteed's numbers
and Bayer's letters have been given; and in default of these, the reference-numbers from
Mayer's, Bradley's (Bessel's) Piazzi's, and other standard catalogues, in order of seniority.
But since an easy recognition, rather than a systematic nomenclature, has been aimed at, this rule
may sometimes have been inadvertently violated. The references for Flamsteed' s, Lacaille's,
and Lalande's observations are to their numbers in Baily's reductions; those for Bessel's ami
Argelander's zones, to the respective numbers in Weisse's and Oeltzen's reductions, as is
also indicated by the appended initials.

The magnitudes are those recorded by d'Agelet, and are omitted when not given by him.
In the column "date" the year is indicated by its last digit, thus: 3, 4, 5, instead of 1783,
1784, 1785. The columns " reduction" contain the reduction from the apparent equinox of
date to the mean equinox of 1800.0.

§ 12. ACCURACY OF THE RESULTS.

The catalogue contains 0,497 observations of 2,907 stars; so that the average number of
observations for each star is about 2£. Actually, 38 stars were observed more than ten times;
G5 from seven to ten times, inclusive; 140 five or six times; 183 four times; 33G three times;
740 twice; and 1405 only once.

A comparison of the several positions of each star with each other, or with their mean,
affords an opportunity for estimating the precision of the results ; and from discussion of the
several determinations of all those stars which have been observed more than three times we
derive the following values for the mean deviations from the mean:

Mean error of a single observation.

In a

In 6

Declinations

Mean error

No. obs.

Mean error

No. obs.

o u

+ 50 to + 45

s.
-J- 0.313

77

//
4- 2. 94

82

45 40

. 284

136

2.73

135

40 35

.275

142

2.08

145

35 30

.276

139

2. 35

144

30 25

.314

319

1 . 99

315

25 20

.331

346

I.-91

362

20 15

.310

348

2.20

375

15 13

. 342

114

2. 19

188

9 +5

.314

162

2, 15

228

+ 5 0

. 284

163

2.62

173

0 — 5

.388

100

2. 43

111

- 5 10

.319

108

2.91

114

in 15

.255

35

2.41

36

15 20

.235

42

2.69

48

20 25

.493

22

3.43

25

25 30

. 286

29

2.92

25

- 30 - 35

0.298

10

5. 20

11

(28)

GOULD REDUCTION OF d'aGELET's OBSERVATIONS.

29

Of the 2907 stars of this catalogue, 274 occur in Argelander' s Positiones Media ; and a
comparison of their several places as here given, with those derived from Argelander' s cata-
logue, using his precession and proper-motion excepting for our standard stars, but making
the slight corrections requisite for reducing to Peters's nutation, furnishes the anuexed
results for the mean values of the difference of Argelander — d'Agelet, after rejecting 12
cases in R. A., and G in Declination. The average discordances are the means of the differ-
ences, disregarding signs.

Comparison wi

tli Argelander's P

ositiones

Medics

Average d isc< irdai ice

1 K'cliiKitions

An

No. obs.

No. stjixs

ArS

No. obs.

No. stars

111 a

In -!

o o

s.

//

s.

//

+ 50 to + 45

— n. 125

32

10

+ 1.17

38

11

o. 185

2. 35

45 -in

+ 0.035

55

13

+ 0.94

57

14

0.155

1.87

40 35

+ 0.027

111

34

— 0.04

118

35

0. 167

2.21

35 30

— 0.111

59

14

— 2. 09

63

15

0. 229

3.96

30 25

+ H.079

123

30

+ 0.01

124

30

0.21J

1.32

25 20

+ 0. 181

106

30

+ 0.46

109

30

0.218

1.17

20 15

+ 11.023

94

32

— 0.09

103

32

0. 167

1.53

15 13

— II. 103

37

10

+ 1. J4

39

10

0.144

2.08

13 9

+ 0.089

3g

10

+ 1.89

44

11

H. 153

1.92

9 + 5

+ 0.005

104

15

+ 0.66

107

15

o. 103

1.05

+ 5 0

+ 0.037

78

25

— 0.97

90

26

0.192

2.21

0 — 5

— 0.0)4

24

8

— 0.58

26

8

0. 162

1.43

— 5 10

— 0.200

44

10

+ 1.64 49

10

0. 287

3.20

111 15

— 0.009

29

4

— 1.13

30

4

0.081

1.15

75 20

— 0.097

50

13

— 0.85

52

13

0. 165

2.18

— 20 — 25

- 0. 172

6

4

+ 0.33

6

4

0.218

1.57

The resultant differences Argelaxder — d'Agelet are —

A a = + Os.015 by 262 stars ; A ri = — 0".070 by 268 stars ;

= + 0 .013 by 990 observations ; = + 0 .098 by 1,055 observations.

Similarly a comparison of more than 1800 stars common to this catalogue and the second
catalogue of Piazzi has yielded the following results, after applying the proper-motion for seven-
teen years to the places of those few stars for which its existence and amount are well established,
and rejecting 31 cases. Inasmuch as Piazzi's observations extended over the whole interval
between 1792 and 1813, and the dates of the observations can only be deduced from the Storia
Celeste by dint of great labor, this approximation has seemed to me sufficient; and although
the residual discordances must somewhat exceed the true differences obtainable by the use of
better values of the proper-motion than were at Piazzi's disposal, still the errors thus incurred
will be very small, and for the most part susceptible of elimination.

It became manifest from the first that the differences of the two catalogues, especially in

declination, varied greatly with the right-ascensions, and that the dividing lines between two

distinct groups were not very remote from the equinoctial colures. In the appended table of

comparisons. I have assorted the differences Piazzi — d'Agelet, for each zone of declination in

two groups, bounded by even hours of right-ascension, arbitrarily selected. The discrepancies

do not appear to be chiefly due to the apparent proper-motions occasioned by the motion of

our system, although this vera causa must exert an influence; but they are apparently the

result of intrinsic peculiarity of Piazzi's catalogue.

(29)

30

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

Comparison with Piazzi's

veto catalo

gue.

1 leclinations

a

No. obs.

No. stars

A a

A 6

a

No. obs.

No. stars

A a

A .!

o

C

h

s.

„

1

s.

„

+ 50 to

+ 45

23 to 10

83

32

+ IM71

+ 0.13

11 to 22

62

31

— 0. 163

+ 2. 15

45

40

0

11

98

49

+ 0. 179

— 1.76

12

23

130

46

+ 0.090

+ 1.33

40

35

23

12

146

69

+ 11.241

— 3.36

13

22

189

71

+ (1.020

+ 0.96

35

30

0

12

155

64

+ 0.001

— 2. 43

13

23

124

48

— 0.1113

+ 1.86

30

25

0

12

297

109

+ 0.156

— 0.94

13

23

280

92

+ n. 158

+ 0.82

25

20

0

14

435

150

+ 0.266

— 1.59

15

23

190

73

+ 11.347

+ 1.53

20

15

0

14

478

171

+ II. 119

— 2.03

15

23

189

77

+ 0.098

+ 0.71

15

13

0

12

84

34

+ 0.050

•— 1.38

13

23

79

28

— 0.009

+ 1. 14

13

9

0

12

214

72

+ 0.151

+ o. 1-.'

13

23

90

41

+ 0.288

+ 2. 12

9

+ 5

0

11

144

44

+ II. 143

— 0.06

12

23

130

47

+ (I. 104

+ 1.71

+ ■"'

0

0

13

175

53

+ n.018

— 1.57

14

23

123

72

+ 0.025

+ 0.95

0

— 5

0

14

127

42

+ 0.013

— 1.53

15

23

81

36

— 0.046

+ 1.65

— 5

— 10

1

15

150

48

— 0.105

— l.lll

16

0

36

18

+ 11.137

+ 2.58

10

15

0

14

01

23

— 0.114

— 0. 37

15

23

30

16

+ 11.049

+ 1.25

15

20

22

12

35

6

— 0.029

+ 1.89

13

21

90

54

— 0.073

— 1.31

20

25

22

14

19

12

— 0. 172

— 2. 13

15

21

52

26

+ 0.092

+ 1.12

— 25 to

— 30

21

6

18

5

+ 0. 155

+ 1.55

7

20

70

31

— 0.088

+ 3.46

The resultant differences Piazzi — d'Agelet are —

A a

s.
= + 0.119
= + 0.121
= + 0.087
= + 0.079
= + 0.106
= + 0.102

A (5 = — 1.36 by 2,719 observations in first group ;
= — 1.42 by 983 stars in first group ;
= + 1.25 by 1,945 observations in second group ;
= + 1.22 by 807 stars in second group;
= — 0.27 by 4,664 observations in all ;
= — 0.23 by 1,790 stars in all.

Those stars which occup in Piazzi's catalogue have not been collated with Lalande. but for
the others an analogous comparison has been instituted with Baily's reductions of the Histoire
Celeste. The results of this collation for about 850 stars, after applying a few proper-motions
and rejecting the differences in right-ascension for 26, and in declinations for 14 stars, are as
follows :

Comparison with Lalande.

Aver, discordance

No. obs.

No. stars

A <S

No. nil-.

No. stars

In a

In .1

o o

s.

Ii

s.

+ 511 to +45

— d.251

68

40

+ 1.27

70

41

0. 474

3. 15

45 411

+ ii. nut;

173

87 [

+ 0.95

166

88

0.367

3. 29

111 35

+ II.H28

156

86

+ 0.43

160

87

0.314

2. 67

35 30

— II.H97

135

88

+ 0.69

146

97

0.328

2.79

30 25

— (1. 093

148

89

+ 1.18

148

87

0.314

3. 16

25 20

+ 0.(129

201

1)6

+ 1.36

204

117

0. 330

3. 20

20 15

- 11.043

179

109

+ 1.69

178

110

0. 294

3. 54

15 13

— 0.049

35

26

+ 3. 38

32

25

0. 321

4.71

13 9

+ O. 170

63

45

+ 3.99

67

48

0.357

4.43

9 + 5

+ 0.068

40

30

+ 1.34

41

30

0.280

2.98

+ 5 0

— 0.098

67

43

+ 2. :.7

65

41

0.323

4. 32

II — 5

— 0.082

24

16

+ 1.26

23

15

0.327

3.83

— 5 HI

— 0.026

18

15

— 1.09

18

15

0.244

5. 42

10 15

— 0.113

15

13

+ 1.09

15

13

0. 319

3.89

15 2(1

+ 0.039

11

10

— 2. 7 -

12

10

0. 223

6.14

20 25

— 0. 177

7

6

— 2. 44

8

7

0.311

4.72

- 25 to— 30

- 0.27

1

1

- 5.5

1

1

0.27

5.5

(30)

GOULD — REDUCTION OF D'AGELET's OBSERVATIONS. 31

The resultant differences Lalande — d'Agelet are —

A a = — Os.029 by 820 stars ; A d = + 1".29 by 832 stars ;

= — 0 .031 by 1,341 observations; = + 1 .27 by 1,354 observations.

There remain 206 stars, of which all but 16 have been identified as observed by other
astronomers, viz : 110 in Bessel's zones; 14 in Johnson's Radclifl'e catalogue; 10 in Argelander's
northern zones ; 2 in Argelander's southern zones; 10 in Rumker's catalogue ; 33 in Argelan-
der's D urchmusterung ; 7 in Lacaille only, and 4 in other places. The examination of the aver-
age differences between the positions of the present catalogue and those of the authorities above
named has only been extended to these few stars, but gives entirely satisfactory results.

Thus the difference, Weisse's Bessel — d'Agelet appears to be —

Between Oh. and 13A. ^ a = -\- 0s. 15 by 38 observations. A (5 = — 4". 19 by 37 observations.

13 and 23 = 0.00 60 " =—1 .57 04

JL-au of all = + 0 .06 98 " = — 2.53 101

The number of unrecognized stars amounted originally to 55; and in my uncertainty
regarding them, I applied to my friend Mr. Ferguson, Assistant Astronomer at the Washing-
ton Observatory, who in the kindest manner responded to my appeal, and together with Prof.
Asaph Hall, of the same institution, examined with the great equatorial of the observatory the
regions in which d'Agelet' s observations placed each of these 55 stars. The aid thus rendered
by these experienced observers has enabled me to make plausible assumptions for the greater
part of the cases, and has reduced the numbers of stars now missing or discordant, by an
amount not susceptible of explanation, to 16. A list of these will be given below, and notes
concerning 12 others will be found at the end of the catalogue. These 28 stars are indicated
by a dagger (t) against their respective numbers.

§ 13. GENERAL REMARKS.

Since the observations of d'Agelet are the earliest, excepting Bradley's, of all the obser-
vations belonging to the more accurate class, we may reasonably rely upon the proper-motions
deduced by comparing them with recent determinations. One of the earliest cases to attract
attention was the well known "Argelander's star," or 1830 Groombridge, whicb was observed
three times by d'Agelet, thus enabling us now to deduce a yet closer value for its proper-
motion.* There are in the present catalogue about 1400 well recognized stars, which do not
occur in the Fundamenta Astronomic?, but have been observed in recent years, and for the most
of these the proper-motions hence deduced promise to be more trustworthy than any others now
attainable, unless some large number of modern observations of high character permits the
application of the method of least squares.

The differential character of the reduction does not militate with this view, inasmuch as
the places and proper-motions of the standard stars on which the determination rests may
apparently be relied on to a degree far within the mean error of a quadrant-observation in
1783. A gratifying indication of the general trustworthiness of the catalogue is afforded by
some of the dates already mentioned, on which the number of standard stars proved inadequate

*Tbe most probable value which I have found is -f- 0s. 3430 in a. and — 5". 7923 in <! ; tin- mean place of the star for
1800.0 being 11*. 41m. 24s.20, -f- 39 9' lit". 47.

(31)

32

GOULD REDUCTION OF D AGELET S OBSERVATIONS

for the determination of At and n, but on which several stars of Argelander's catalogue
occur. The clock-error and quadrant-deviation being calculated independently bjT means of
Argelander's stars, and by means of positions derived from stars observed by d'Agelet on
other dates, the two determinations agreed so closely that it was entirely insignificant which
should be used, the differences being only in the second decimal. For the sake of consistency
the results from our catalogue have been emploj'ed.

In concluding these introductory remarks, I will place together the positions of those stars
which have defied attempts at identification, or whose discordances are too great to be lightly
disposed of by a conjecture. Among them are, not improbably, places of planets and of variable
stars, but the greater part of them must, I am inclined to believe, owe their place in the
catalogue to some error in the original record.

No.

Mag.

a

181 III. II

<S 1800.

0

Date

h.

m. s.

o

,

11

Till

6

3

56 53.7

+ 21

50

30.1

1784. Octobc

r 2

1(178

6

23 54. 6

+ 22

15

46.9

ITS!',, March

17

1615

7

8

41 50.11

+ 6

4

58. 3

1785, March

21

1798

9

21 18.9

+ 15

25

36.2

1785, March

21

1893

6 "

9

38 38. 9

+ 25

30

7.8

1783, Feb.

26

1967

8

9

52 58. 3

— 9

9

5.6

1783, April

14

2733

6.7

11

41 18.4

+ '■>

9

55. 9

1785, April

10

2985

.

12

23 20.5

+ 11

46

59. 7

1783, May

2

3174

6

12

59 7. 5

— 15

26

44.2

1783, May

17

3-239

8

13

13 26. 6

— 13

21

17.0

1783, April

29

42911

6

16

19 42.4

— 3

18

38.0

1783, May

31

4604

9

17

50 22. 4

+ 37

49

47.6

1783, July

29

5364

20

6 26.2

+ 1

26

....

17s4,,Seiit.

7

5593

6

20

40 46. 3

+ 26

21

17.8

1784, Sept.

7

5594

8.9

20

41 16.3

+ 39

40

41.0

17.-3, July

30

6052

7.8

22

9 e.5

+ 25

21

57.3

1783, Sept.

15

In addition to the motives already mentioned as having prompted me to undertake this
reduction and catalogue, an especial incentive was found in the experience which it would afford
and make available for a much more extended work which has long been a cherished project,
the recomputation of Piazzi's observations, and the formation from them of a new catalogue.
This is an enterprise far too extensive for the powers of a private individual, but I look forward
with much hopefulness to the possibility of obtaining the requisite means at some future time.
The elaborate publication of the originals by Prof. Littrow, in the annals of the Vienna
Observatory, will much facilitate this undertaking, and I have already completed the prelim-
inary tables to a considerable extent. It is upon the observations of Piazzi that the reduction
of Lalande's zones is based, and to them the astronomer of to-day is continually compelled to
resort for his knowledge of a large proportion of the "landmarks of the heavens." No astro-
nomical labor promises richer usefulness than this ; and if the great work of reducing anew the
observations of Bradley be carried out by a combination of the astronomers of Europe, as is
now proposed, nothing seems more appropriate for the astronomers of the New World than to
render a similar service by a new reduction of the Storia Celeste.

(32)

REDUCTION OF DAGELETS OBSERVATIONS.
Values of q, th.e correction to observed time of transit.

£ - 0" 5"

in°

15°

20"

-'>"

:iou

35" V>"

'15°

5(i"

55"

60"

65°

70°

75° 80°

*i
3

+l"

0

-l"

2
3

-5

S'

•

/

/

/

/

\

s

/

/

\

1

V

7

\

-

'

\

\

/

/

/

/

1

r$ = WSl'

38° 51'

28°5l'

18*51'

8° 51

-1*9'

-11°9'

"»

-21°9'

•31°9'

Values

of

q

tin'

correction to

00

serv

ed decliiiati

on

£- 0° 5° ]»• 15" 20' 25° 30' 35° 40° 45° 50° 55° 60° 65° 70°

75°

80°

»6'
5
4
3

2

+ 1
0

-1

3

4
5
6
7
-8"

■^

s

N

\

\

v

•

\

\

-

\

I?- 43°51' 38*51 28*51' l :".i 8°51' -1°9' -11*9' -2L*9'

-31 °9'

REDUCTION

OF

D'AGELET'S OBSERVATIONS.

REDUCTION OF D'AGELET'S OBSERVATIONS.

IJS.t FEBRUARY' 18

Zero corr. = + 1' 46". 3.

Name

Mag.

T

App. siil. time

Clock corr.

n tau f!

1

?-*

Refr.

?'

A in s

It III s

in s

s

s

O ' II

/ //

//

17 Persei

2

5 17 16. 0

3 11 23.30

— 2 26. 17

— 4.84

4 3.26

4 40 2 44.8

— 0 0.2

4 5.6

a Tauri

J

6 31 39. 5

4 25 58. 58

2 26. 23

1.21

— 1.49

4 16 2 24.6

38.5

— 1.8

] 1 yl Oriouis .

5

7 o 16.2

54 411.50

2 26. 27

1.13

— 1.57

4 15 4 7.2

40.0

— 1.0

IH4 m Tauri

6

7 2 43. 8

4 57 9. 16

2 20. 28

1.30

— 1.36

4 18 10 0.2

35. 3

— 1.5

'<)

7.8

7 8 35.3

5 3 1.00

2 26. 28

4. 30

4- 2.27

Capella .

1

8 45.3

3 10.97

2 26.28

— 4. 30 H- 2. 27

4 45 43 48. 3

0 3.2

4 5.2

7

11 7.1

5 33. 16

2 26.29

4 0.62 + 1.87

— 8 25 16. 3

1 32.8

— 0.5

Rigel

12 6.0

6 32.22

2 26. 29

+ 0.62 + 1.87

— 8 2S 13.3

1 33.0

— 0.5

;>' Tauri . .

20 36.0

15 3.62

2 26. 30

— 2. 27

4 0.73

4 28 23 4. 5

0 22. 3

4 L4

24 j Oriouis -

2

21 31.2

15 5S.97

2 26. 30

0.45

— 0.96

4 6 7 26.0

55.2

— 1.5

35 i A.urigse -

26 37. s

21 6. 41

2 26. 31

— 2. 62

+ 1.38

4 31 50 24.0

0 IS. 1

4 2.5

1 1 a Leporis .

31 5.2

25 34.54

2 26. 31

+ 1.36

+ 1.54

— 17 58 57.0

2 18.8

— 0.6

"iii J t h'ionis .

37 44.7

• 32 15. 14

2 26. 31

0.15

4 1.08

4 2 4 52.2

1 13.7

— 0.7

13 y'Leporis .

43 is. 3

37 49.65

2 26. 32

+ 1.74

4 1.72

— 22 30 45. 0

2 55.5

— 1.4

h ) 58 a Oriouis .

7 51 22.2

5 45 54. 87

2 26. 33

— 0. 54

— 1.23

4 7 20 14. 1

0 52. 8

— 1.0

68 Orionis .

8 7 5.2

6 1 40.46

2 26. 34

1.51

— 1.24

4 19 48 10.4

33. 2

— 1.1

7 >i Geminorum .

9 41.1

4 16.78

2 26. 35

1.74

— 0.93

4 22 31 57.2

20.6

— 0.3

Id " . .

7.8

13 33.9

8 10.22

2 26. 35

1.84

— 0.74

4 23 38 55.0

28. 2

— 0. 0

13/i

17 4::. 2

12 2U.20

2 26. 35

1.74

— 0. 93

4 22 35 17.2

20.6

— 0.3

c)ft4;LC. . . .

6.7

20 11.0

14 48.40

2 26. 36

1.83

— 0.76

-j- 23 31 29.5

28.4

— 0.0

Urauus -

23 4.5

17 42.38

2 26.36

1.84

— 0.72

4 23 42 55. 9

28. 1

— 0.0

32 30. 0

27 9. 43

2 26. 37

1.85

— 0.72

+ 23 44 56. 5

28.0

— 0.0

24 y Geminorum -

4 16 33 3.5

37.8

— 1.7

26

37 36.3

32 16.57

2 26. 38

1.35

— 1.40

4 17 40 22. 4

36.1

— 1.5

27 c

38 23. 7

33 4. 10

2 26. 38

— 1.98

— 0. 31

4 25 18 27. 4

0 26.1

4 o.5

Sinus

8 43 18. 3

6 37 59. 51

2 26. 38

+ 1.24

4 1.67

— 16 25 30. 7

2 0.5

— 0.5

</) 43 y Canori -

in 38 12.8

8 33 12.88

2 26. 50

— 1.71

— 0. 99

4 22 12 52. 8

0 30. 1

— 0.5

54 " . .

46 25. 0

41 26.45

2 26. 50

1.21

— 1.48

4 16 7 28.2

38.5

— 1.8

10-C " - -

51 22.0

46 24.24

2 26. 51

0. 50

— 1.08

4 6 44 44.5

54.1

— 1.6

65 a- " . .

10 54 3.9

49 6. 59

2 26. 51

0.94

— 2.41

4 12 40 10.0

43.8

— 2.0

1 k Leouis

11 19 22.0

9 14 28.84

2 26. 54

2.15

4 0.24

4 27 4 55. 1

24.0

4 l.o

2 (j ll i

24 13.6

19 21.24

2 26. 55

0.74

— 3.55

4 0 58 20.8

48. 4

— 1.8

5 f "

27 38.9

22 47.10

2 26. 55

0.91

— 3.81

4 12 13 50.0

44.6

— 2.0

10

33 5.5

28 14.60

2 26. 55

0.57

— 1.32

4 7 47 0.6

52. 1

— 1.7

14 o " . .

36 56.7

32 6.43

2 26. 55

0.81

— 4. 26

4 10 51 12.0

46.0

— 1.0

17 e " . -

40 50. 1

36 0.47

2 26.56

1.94

— 0.46

-j- 24 44 29. 5

26. 9

4 0.3

e)24p " . .

47 41.7

42 53. 20

2 26. 56

2.14

4 0.21

4 26 59 43. 6

23. 8

4 l.o

/)

29 7T " . .

8.9

52 8.4

47 20.63

2 26.57

1.18

— 1.51

4 15 44 1.0

39. 2

— 1.8

11 56 1.4

51 14.26

2 26. 57

0.67

— 1.71

4 0 3 38.9

49.0

— 1.8

g)30v " - -

12 2 45.8

57 59.78

2 26. 58

1.35

— 1.40

4 17 47 36.0

30.2

— 1.5

ReguHis -

4 4.8

9 59 18.99

2 26.59

— 0.97

— 1.79

4 13 0 5.0

0 43.4

— 2.0

18 Sextantis -

7 19.5

10 2 34.22

2 26. 59

4 0.54

4 1.88

— 7 21 37. 0

1 29.6

— 0. 5

22 " . -

14 1.3

9 17.12

2 26.59

0.52

4 L87

— 6 50 47. 0

1 28.3

- 0. 5

7.8

22 33. 3

17 50.52

2 26.60

4 0.39

4 1.78

— 5 20 12. 3

1 23.1

— 0.5

6.7

26 21.8

21 39.65

2 26.60

— 0. 03 4 0. 22

4 0 27 29.0

1 7.5

— 0.8

47 p Leouis . ' .

28 37. 1

23 55. 32

2 26. 61

— 0.77

— 3.95

4 10 23 59. 2

0 47.8

— 1.8

2 fHvdne - -

52 k Leouis

35 7.3

30 26.58

2 26.61

+ 1.19

4 1.64

— 15 45 2. 0

2 6.0

— 0.5

42 5.3

37 25.73

3 26. 62

— 1.15

— 1.55

4 15 18 50.0

0 39.9

— 1.0

53 I " - -

45 3. 3

40 24.22

2 26. 62

0.87

— 4.75

4 11 40 12.0

0 45.6

— 2.0

55 " . .

7

51 38.8

47 0.80

2 26. 63

0.14

— 0.08

4 J 52 37.5

1 4.2

— 1.0

58 d "

12 56 27.4

51 50.19

2 26. 63

— 0.35 — 0.61

4- 4 45 47.4

0 58. 1

— 1.4

A) 61 " - .

8

13 0 43.3

56 6. 79

2 26. 63

+ 0. 10 + 0. 86

— 1 21 16.4

1 12.0

— 0.7

65 " . .

2 54.4

10 58 18.25

2 26. 64

— 0. 23

— 0. 30

4 3 7 0.4

1 1.6

— 1.2

t)69 " - -
73n " - .

9 42.0

11 5 6.97

2 26. 64

0.08

4 0.06

4 1 5 43.4

1 0. 1

— 0.0

11 35.7

7 0. 98

2 26. 64

1.08

— 1.61

4 14 28 7.7

0 41.2

— 2. 0

77 a " ■- -

17 0. 3

12 26. 47

2 26. 65

0.53

— 1.19

— 7 11 57.0

0 53. 4

— 1.0

79 " - .

4 2 35 1.8

1 2.7

— 1. 1

84 r

23 48. 4

19 15.68

2 26. 00

0.30

— 0. 45

4 4 2 3.6

0 59.6

— 1.3

89 " - .

30 16.2

25 44. 55

2 26. 67

0. 31 1— 0. 50

4 4 14 55.8

59.2

— 1.3

1 u Virginia -

34 17.5

29 46. 49

2 26. 67

0. 69 — 1. 89

4 0 18 57.4

0 40.7

— 1.8

5/3 " - -

13 46 21.8

11 41 52.79

— 2 26. 68

— 0. 22 — 0. 28

4 2 58 21.7

— 1 2.0

— 1.2

a > assumed as that of a star 8' from Capella.

(/ £ assumed as !
e .<* assumed as i

6= 38' 13"; not 26=38' 43". g Div

. assumed sis 33 ; n<

t35.

b T. Ill assumed as 2!>.5s. ; not 39.5s.

l°51'; not 21° 50". h T.

assumed as 0m. 43

5s. ; not 0m. 53.5s.

c T. Ill assumed as 35s. ; not 15s.

/ g assumed as 'J

I ; not IS^. i Hie

. assumed as 9; no

t3.

(35)

36

GOULD — REDUCTION OF D AGELET S OBSERVATIONS

1»83 FEBRUARY 19 Zero corr. = + 1' 44". 2.

Name

Mag.

T

Aiip. siil. time

Clock corr.

n tan 6

'1

z-t

Rel'r. q'

It m s

}> III s

VI s

s

5

O ' "

i " "

5.- </ l.cdliis

12 52 32. 0

10 51 50.71

— 2 27. 68

— 0.34

— 0.61

+ 4 45 47. 6

— 0 58.0 — 1.4

«)61 " - -

9.10

56 48. 1

56 7.51

2 27. 69

+ 0.10

+ 0.8G

— 1 21 00.0

1 11.9 — 0.7

6)65 " . .

12 59 0. 0

58 19.77

2 27.70

— 0.22

— 0.30

+ 36 59.2

1 1.4

— 1.2

69 " . .

13 5 47.2

11 5 8.08

2 27. 70

0.08

+ 0.06

+ 1 5 43. 9

1 6.0

— 0. 9

Tn il " . .

+ 16 35 32. 9

0 37.9

— 1.7

73 « " . .

7 40.7

7 1.89

2 27. 70

1.07

— 1.61

+ 14 28 9.1

41.1

— 2. 0

77 ex "

13 5.(1

12 27. 06

2 27.71

0. 52

— 1.19

+ 7 11 58.4

o 53.2

— 1.6

79 " . .

16 0.6

15 23. 16

2 27.71

0.18

— 0.21

+ 2 35 0.2

1 2.6

— 1. J

84 t

19 53.3

19 16.50

2 2T. 71

O. '.".1

— 0.45

+ 4 2 4.2

0 59.5

— 1.3

eJ89 " . .

26 21.3

25 45.56

2 27.72

0. 31

— 0.50

+ 4 14 57.5

59.1

— 1.3

'/) 1 i.i Virginis -

30 22. 2

29 47. 12

2 27. 72

0. 68

— 1.89

-f 9 18 50. 4

49.6

— 1.8

4 f " . .

39 50.2

39 16.68

2 27.73

0.69

— 2. oil

+ 9 25 56. 9

0 49. 3

— 1.8

5/3 " . .

42 26.2

41 53. 10

2 27. 73

0.21

— 0.28

+ 2 58 23.0

1 1.9 — 1.2

e) 6 A "

46 58.2

46 25. 84

2 27. 74

0.70

— 2.55

+ 9 37 56. 4

0 49. 0 1— 1 . 8

7 6 " . .

51 52.0

51 20.45

2 27. 74

0.34 — 0.63

+ 4 50 56. 6

57.9 !— 1.4

ilo " . .

13 57 12.7

11 56 42.03

2 27. 75

0.72 !— 3.44

+ 9 55 14.1

0 48. 5 I— 1.8

Illy " . .

7

14 1 34. 1

12 1 4. 14

2 27.75

0. 22

— 0.30

-j- 3 6 13.2

1 1.6—1.2

lis " . .

7

2 0.6

1 30.71

2 27. 75

0.51

— 1.15

+ 6 59 52.6

0 53. 6

— 1.6

9

5 45. 0

5 15.72

2 27. 76

0.04

+ 0.20

+ 0 33 13.4

1 7.2

- 0.9

13 n " . .

1(1 30.8

10 2.32

2 27.76

0.03

+ 0.24

+ 0 24 27.2

1 7.5

— 0.8

15,, " . .

11 45.8

11 17.52

2 27. 76

— O.04

+ 0.20

-j- 0 31 40.2

1 7.2

— 0.9

21 q . .

25 28. 4

25 2.37

2 27. 78

+ 0.60

+ 1.88

— 8 15 31.0

1 32.4

— 0.5

/)25/ " . .

28 30. 1

28 4.57

2 27. 78

0.33

+ 1.69

— 4 38 31.8

1 20.8

— 0.5

29 y " . .

33 33.4

33 8.70

2 27. 78

0.02

+ 0.45

— o 16 8.2

1 9. 1

— 0.8

38 " . .

44 56.0

44 33. 17

2 27. 79

+ 0.17

+ 1.17

— 2 22 53. 8

1 11.5 — 0.7

43 d

47 33.0

47 10.60

2 27. 80

— 0.33

- 0.56

4- 4 33 50.9

0 58.4 j— 1.4

41 K " ' . .

51 19.1

50 57. 32

2 27.80

0.19

+ 1.24

— 2 38 53.5

1 15.2 — 0.7

49 G " . .

1 4 59 20. 2

12 58 59.74

2 27. s!

+ 0.70

+ 1.81

— 9 34 50.2

1 37.4

— 0.4

51 e

15 1 31. 1

13 1 ll.oo

2 27. 81

0.33

+ 1.64

— 4 23 7.2

1 20. 1

— 0.6

8

12 34.9

12 16.62

2 27. 83

0. 65

+ 1.86

— 8 51 55. 0

1 34.7

— 0.4

G7 a " .

15 16 31.1

13 16 13.46

— 2 27. 83

+ 1.43

+ 1.79

— 10 1 38.3

— 1 39.0

— 0.7

irs.3 F

EKKl'.tl!'

fcT 26 v.*

ro corr; = + 1' 42" .5.

58 a Ononis -

7 20 8.2

5 46 8. 17

— 2 39.75

— 0.53

— 1.23 + 7 20 13.2

— 0 52. 5

— 1.6

) ffGeminorum -

27 38.2

53 39.40

2 39.77

1.76

— 0.81 + 23 14 16.0

28. 5

— 0.2

235 Mayer . .

7.8

33 9.2

5 59 11.31

2 39. 78

1.67

- 0.99 + 22 11 18.6

30.1

— 0.5

7 7/ Geniinorum -

38 27. 5

6 4 30.48

2 39.78

1.69

— 0.93

+ 22 31 58.8

29.4

- 0.3

12 " . .

7

42 50.8

■J 54.50

2 39. 79

1.77

— 0.80

+ 23 19 25.6

28. 4

— 0.2

13 ,u " . .

46 29. 3

12 33.60

2 39. Hi

1.70

— 0.92

+ 22 35 17.2

29. 1

— O. 3

14 " . .

7.8

49 20. 7

15 25. 47

2 39.80

1.63

- 1.05

+ 21 43 43. 6

30.5

- 0.0

Uranus . .

51 20.0

17 25. 10

2 39. mi

1.80

— 0.72 + 23 4:i 7.0

27. 9

0.0

g) 852 Mayor . .

7.8

7 57 41.2

23 48. 38

2 39.81

1.68

— 0.98 + 22 15 24.0.

29. 8

— 0.4

24 y Geminorum -

8 1 47.3

27 54.11

2 39.81

1.22

— 1.47

+ 16 33 2.4

37.6

— 1.7

h) 261 Mayer . .

7.8

5 27.3

31 34.71

2 39. 82

— 1.22.

— 1.47

+ 16 33 51 i. 1

0 37.6

- 1.7

Sirius

12 4.7

38 13.20

2 39. 83

+ 1.21

+ 1.67

— 16 25 29. 7

2 8. 3

— 0.5

36 d Geminorum .

15 7.2

41 16.20

2 39. 83

— 1.65

— i.or

+ 21 58 50.0

0 30. 1

— 0.5

8

20 36.3

46 46.20

2 39. s:s

0.93

— 1.94

+ 12 49 36.0

43. 2

— 2.0

7.8

23 56. 5

50 6.95

2 39. 84

1. 19

— 1.48

+ 16 12 20.0

38. 1

— 1.8

i) 41 " . .

7

24 20.5

50 31.02

2 39. 84

1 . 20

— 1,48

+ 16 20 42.7

37.9

- 1.8

44 6,'- " . .

7.8

28 46.8

54 58. 05

2 39. S4

1.73

- 0.87

+ 22 55 31.6

28.9

- 0.2

J)

7.8

31 59.8

6 58 11.58

2 39. 85

2. 42

+ 1.26

+ 30 27 9.8

19.9

+ 2. 1

4G t

33 49. 3

7 0 1.38

2 39. 85

2. 42

+ 1.26

+ 30 33 40.0

19.7

+ 2. 1
— 1.8

51 " . .

37 2:.. :

3 38. 3.7

2 39.85

1.21

— 1.47

+ 16 29 35.9

37.7

54 A "

42 7.5

8 20.94

2 39.86

1.25

— 1.44

+ 16 53 50.6

37. 2

- 1.7

55 » " .• .

43 39. 4

9 53.09

2 39.86

1.68

— 0.96

+ 22 20 42.0

29.6

— 0.5

57 A " . .

46 43. 4

12 57.59

2 39. 87

1.95

— 0.26

+ 25 25 48.4

25. 8

+ 0.5

til ; •' . .

50 37.3

46 52. 13

2 39. -7

1.55

- 1.17

+ 20 39 21.5

31.9

— 0.9

65 6* " . .

52 46.2

19 1.38

2 39. s7

2.21

4- 0.72

+ 28 19 30.5

22. 3

+ 1.4

8

8 53 38.0

7 19 53.32

— 2 39. 87

— 2. 21

4- 0.72

+ 28 19 35.0

— 0 22.3

+ 1-4

a T. II assumed as 56m. 48b. ; not 56m. S8s. c g assumed n

39= 13' 9"; no

39 13 39". i T. II assumed as

20s. ; ii"t alls

h Hour assumed as 12 ; nol 13 / Div. assume

1 as 57 t 57

j g assumed as 18°

ill";; nol is ' 18".

c Transits "*■ i Ts. 11 and ill assumed to have g T. I assume'

a- rec< rded i

ver T. II ; reading

been recorded over Ts. 1 and 11. under T I

i< jected.

tl ,»a88umedas39 32'; not 39° 22'. h g assumed as

32° 17' 11"; n

nt3S° 17' 41".

(31. 1

COULD — REDUCTION OF D AGELET S OBSERVATIONS.

37

irs:t FEBRUARY 86— C

nil italic

Zero coit. = + 1' 42".5.

Name

Mag.

T

App. ski. time

Clock ri hi .

n tan 6

'/

j-0

Relr.

<

h m s

h in s

m s

s

s

o / "

/ //

ii

66 a " .

S r,7 III. 2

7 23 26. 10

— 2 39. 88

— 2.59

4 1.39

4 32 19 26.5

4 0 17.7

4 2.5

69 v '• . .

S 58 59. 0

25 15.21

2 39. 88

2. 12

-|- 0.33

+ 27 20 25. 3

23. 5

4 i.i

Procyon .

9 4 21.5

30 38. 59

2 39.89

0.41

— 0.87

+ 5 45 14.5

55. 6

— 1.5

Companion .

5 0.9

31 18. in

2 39. 89

78 '' < remmorum .

8 26. 2

34 43.96

2 39. 89

2. 23

+ 0.79

+ 28 30 44.6

22.1

4 1.5

83 0 " . .

16 36. 1

42 55.20

2 39.90

2.11

4 o. 32

+ 27 17 21.5

23.6

4 Li

8.9

16 5H.7

43' 9.84

2 39.90

2.09

4 0.24

+ 27 5 53,. II

23.8

4 Li'

1 Cancri .

7

21 ::. 8

47 23.63

2 39.90

1.20

— 1.48

-j- 16 20 14.6

38.0

1.8

2<j' " . .

24 9. 7

5ii 30.04

2 39.91

1.99

- o. 11

4 25 57 0.S

25. 2

4 o.7

(i " . .

26 32.4

52 53. 1 3

2 39.91

2. 21

+ 0.73

+ 28 21 53. 5

22.3

4 Li

a) 9«' " . .

29 47.8

56 9.05

2 39.92

1.76

- 0.82

4 23 13 15. 1

2-. I,

- 0.2

in «- " . .

31 21.0

7 57 42.52

2 39. 92

1.67

— 0.99

+ 22 10 38.6

29.9

— 0.5

1 ! i • ' " . .

33 4:!. 3

8 0 5.22

2 39.92

2. 01

— 0.0?

+ 26 7 44. 9

24. 9

4 o.7

16? " . -

36 7.2

2 29. 52

2 39.92

i.:;:.

— 1.37

+ 18 16 :kh

35.2

— 1.5

329 Mayer . .

8

38 6.7

1 29.3:,

2 39.92

1.36

— 1.37

4 18 17 55.2

35. 2

— 1.5

1? i Cancri

9 41 6.5

8 7 29. 64

2 311. 93

0.71

— 3. 17

+ 9 49 33. 8

48. 5

— 1.8

in Leonis .

11 1 52.0

9 28 28. 1 1

2 40.02

0.56

— 1.31

+ 7 47 0. 1

51.8

— 1.7

9

4 44.9

31 21.77

2 40.03

0.67

— 1.80

+ 9 14 4.0

49.4

~ 1-8.

14 o " . .

+ 10 51 12.0

46.6

- 1.9

7

9 1.2

35 38 77

2 40.03

1.86

— 0.54

-f-'24 26 31.3

27.1

— 0. 1

J7 £ " . .

9 36.4

36 14.U7

2 40.03

1.89

— 0.46

4 24 44 29.2

26.7

4 o.3

6.7

11 8. 4

37 46. 32

2 40.03

1.88

— 0.50

+ 24 37 9. 0

26.8

4 o.3

6

13 46.5

40 24.85

2 40.04

1.96

— 0.2::

+ 25 33 25. 2

25.7

4-0.6

21 " . .

6

1.". 14.1

41 52.69

2 40.04

0. 93

— 1.93

4 12 49 47. 1

43.4

-- 2.0

7.8

73 9.0

49 48. 89

2 40.05

0.87

— 4.27

-j- 11 58 8.0

44.8

— 2.0

30 i; "

31 32.2

58 13. 47

2 40. or,

1.32

— I. 10

4 17 47 39. S

36.0

— 1.5

Regulus .

32 51. 0

9 59 32. 48

2 40.06

0.95

— 1.79

4 13 0 11. 1

43.2

- 2.0

54 Leonis

7

35 59. 6

10 2 41.00

2 40. mi

1.05

— 1.62

4 14 24 2.4

41.2

- 2.0

4:!-- Mayer

38 46.5

5 28.96

2 40.07

1.27

— I 12

4 17 11 17.3

30.8

— 1.7

35 Leonis

7

40 30.4

7 13.15

2 40.17

1.87

— 0.51

-j- 24 33 on. o

27.0

4 0.2

36; " . .

40 36.7

7 19.47

2 40.07

1.87

— o..-,::

+ 24 28 9. 3

37.1

4 0.2

41 y "

44 0. 7

10 44.03

2 40.07

1.57

- 1. 15

+ 20 54 41.4

31.8

— 0.8

42 " . .

7

46 10. 1

12 53.78

2 40. 07

1.18

— 1.49

4 16 2 35. 1

38.5

— 1.8

44 " . .

6.7

49 49.8

16 34.08

2 40.08

0.71

- 3.27

4 9 51 57.2

48.4

— 1.8

6.7

50 10.2

16 54.54

2 40.08

0.71

— 3.27

4 9 51 16.4

48.4

— 1.8

49 p "

1 1 57 23. 6

24 9. 13

2 40.09

0.76

— 3.95

+ 10 24 2. 0

47.4

— 1.8

50 " . .

12 3 13. 1

29 59. 58

2 40.09

1.27

— 1.42

-f- 17 15 5.-,.o

36.9

- 1.7

10

6 1.2

32 48. 14

2 40.00

1.10

— 1.57

+ 15 5 14.0

40.0

— 1.9

52 k " . .

10 52. 1

37 39.84

2 40. lo

1.12

- 1.54

4 15 19 0.9

39.6

- 1.9

53 1 " . .

13 49.7

40 37.93

2 40. 1 1

0.85

— 4.75

-j- 11 40 19. 1

45.3

- 2.0

54 " . .

4.5

19 45. 2

46 34.40

2 40. 11

1.99

— 0. 15

+ 25 52 42. 9

25.4

4 0.7

58 <2 . .

25 13.4

52 3. 50

2 40.12

0.34

— 0.61

4 4 45 53. 4

0 57. 9

- 1.1

62 g " . .

■ 28 21.2

55 11.82

2 40. 12

0.08

4 0.11

+ 1 9 9.4

1 5.8

- 0.9

63 X " - -

29 42.2

56 33.04

2 40.13

0.61

— 1.50

+ 8 29 22. 8

0 50.8

— 1.7

64 ' . .

6

31 53.9

10 58 45. 10

2 40. 13

1.87

— 0.53

+ 24 28 13.8

27.2

4 o.l

68 cS " . .

38 25. 2

11 5 17.47

2 40.13

1.63

- 1.05

-(- 21 41 14.6

30.8

— 0.6

73 n " .

40 22. 3

7 14.88

2 40. 14

1.06

— 1.61

4 14 28 10.0

0 41.0

— 2.0

75 " . .

41 55.9

8 4S. 74

2 40.14

0.23

- 0.31

4 3 11 18.4

1 1.1

— 1.2

76 " . .

43 35.5

10 28.61

2 40.14

0.20

— 0.26

4 2 49 33. 0

1 2.0

— 1.2

77 a " . .

45 46.7

12 40. 17

2 40.14

0.52

- 1. 19

+ 7 12 3.5

0 53.1

— 1.6

78 i

48 30. 0

15 23.92

2 40. 15

0.85

- 4.69

4 11 42 17.0

45.4

— 2.0

83 " . .

8

51 34.0

18 28. 42

2 40. 15

0.30

— 0.49

4 4 10 47. 5

59.1

— 1.5

84 t

52 34.4

19 28.98

2 40. 1.".

0.29

— 0.45

4 4 2 9.1

59.5

— 1.3

. .

7

56 21.4

23 16.60

2 40. Ill

1.14

— 1.52

4 15 33 9.3

39. 1

- 1.8

fc)!ln " . .

6

12 59 13.2

26 8. 87

2 40. 16

1.33

— 1.39

4 17 58 23. 5

35.9

- 1.5

1 <j Virginis -

13 3 3.7

30 0.00

2 40. 16

o.OT

— 1.89

4 9 19 4.0

49.5

— l.s

92 Leonis .

6

5 17.4

32 14.07

2 40. 17

1.70

- 0.93

4 22 31 5a 1

29. 7

— 0.3

2 f Virginia .

9 52.2

36 49. 62

2 40. 17

0.68

- 2. OS

-j- 9 26 45.8

49.3

- l.s

93 Leonis -

12 33.2

39 31.06

2 40. 17

1.61

— 1.09

4 21 24 3. 0

31.2

— 0.7

94 i "

13 45.5

40 43. 56

2 40.18

1.16

— 1.51

4 15 45 49. 1

0 39.1

— 1.8

c ) 5 (3 Virginis .

15 7.5

11 42 5.78

2 40. is

0.21

— 0.28

4 2 58 26. 6

1 1.9

— 1.2

10 r " . .

34 15.5

12 1 16.92

2 40.20

0.22

- 0.30

4 3 6 11.2

1 1.0

— 1.2

12 r "

a? 8.0

5 10.06

2 40.21

0.83

- 5.53

4 11 27 6.0

0 45.9

— 1.9

d)13n " . .

13 43 12.2

12 10 15.09

— 2 40.21

— 0.03

+ 0.25

4 0 24 28.7

4 1 7.5

— 0.8

a T II and III agsumt

(1 as 29

n. 47s. and

b Div. assumed .

is 32 14 l._i; nut

32 U 14.

d Mier. corr. assumed a

i + A" ; not — 4".

30m. 13.5a.; not 30m

47s. am

31m. Ki.5s.

c Div. assumed

is 48 14 15 ; not

48 14 14.

(37)

38

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1»S3 FEBRUARY 36— C'ominuril

Zero corr. = -4- V 45".5.

N i ■

15 i] Virginia

17
a)

29 y "

32 d- "

37

43 .5
4) 44 k
<•) 47 t
d)i9 g
e)56

(17 a

70

74 V- "

79 C "

81

82 m "

86

90 /> ' '

Mag'.

6.7
6

7.8
6

App. ski. time

h m s
13 44 27.2
47 9.8

13 54 29.1

14 C 15.2
10 15.8
16 9.2
20 14.2
24 0. 2
20 59.7
32 1.3
38 51.2
49 12.3
53 18.6
56 7.0

14 59 5.2

15 1 38.0
5 37. 5
9 46. 3

15 18 57. 1

h in s
12 11 30.29
14 13.33
21 33.83
33 21. 86
37 23.15
43 17.52
47 23.19
51 9.81
54 9.7H

12 59 12.22

13 6 3.25
16 26. 05
20 23. 05
23 21.88
26 20.57
28 53. 79
32 53.95
37 3. 43

13 46 15.74

Clock corr.

2 40.21

2 40.21

2 40.22

2 40.24

40.24

40.25

40. 26

40. 26

40. 26

40. 27
40. 28
40.29
40.29
40. 30
40. 30
40.30
40. 31
40.31
40. 32

0. 04
0.47

- 1.16
+ 0.02

- 0.64
0.30

- 0.33
4- 0.19

- 0.88
+ 0. 69

0.67
4 0.72

— 1.09
+ 0.37

— 0.04
+ 0.49

0.55

0.82

+ 0.03

+ 0.20
1.04
- 1.50
+ 0.45

— 1.60
—.0.50

— 0.56
+ 1.24

— 4.05
+ 1.81
+ 1.84
+ 1.79

— 1.58
+ J. 76
+ 0.20
+ 1.87
+ 1.88
+ 1.69
+ 0.52

+ 0

4- 6

+ 15

— 0.
+ 8.
4- 4
+ 4

— 2
+ 12

- 9

— 9

— 10
+ 14

— 5
+ 0

— 0

— 7

— 11

— 0

31 40.2

29 51.4

r.i .v_\.-

16 6.5
50 42.4

13 29.6

33 53. 9

38 52. 7
6 31.0

34 44.8
13 5.6

1 37.2

55 18.5

8 15.8

30 26.4
45 52.2
36 25. 0
20 3. 1
26 25. 1

Ui-fr.

1 7.2
0 54.6

0 39.1

1 9.1

0 50.3
59.3

0- 58. 5

1 15.4

0 44.9

1 37.6
1 36.1
1 39.2

0 40.6

1 22.5
1 7.3
1 27.6
1 30.7
1 44.4
1 9.7

0.9
1.5
1.8
0.8
1.8
1.3
1.4
0.7
2.0
0.4
0.4
0.4
1.9
0.5
0.8
0. 5
0.5
0. 3
0.8

1?S3 JIAHfll I

Zero corr. = + V 44". 4.

53 k Ononis -

54 xl "
58 a " . .

/) 235 Mayer .
7 i/ Geminorum

2 23.9

6 31.9

8 24.2

1 25.4

6 43. 2

5

40

10.

63

44

19.

31

46

li

92

5

59

15

26

6

4

33. 93

2 43.80
2 43.80
2 43. 80
2 43.82

2 43.82

+ 0.71

+ 1.80

— 1.E1

— 1.22

0.53

— 1.23

1.67

— 0.99

- 1.70

— 0.93

9 45 52.0

20 11 58.3

- 7-20 13.6

+ 22 1 1 22. 7

4- 22 31 57.2

1

33.7

0

31.4

50.7

28.8

0 28.4

0.4

1.1

1.6

-0.5

— 0.3

I ?••■.:{ MAKCII Si

+ 1' 47". 1.

S) 87 a Tauri • . .

A)94t " . .

34 ii Orionis .

123 C Tauri . .

50 I Orionis .

12 Leporis .

13 y "
t) 15 S "

58 a Orionis .

1 H Geminorum .

235 Mayer . .

7 ;/ Geminorum .

13// " . .

j) Uranus .

It) 258 Mayer . .
24 y Geminorum .
262 Mayer . .
27 e Geminorum .

Sirius
38 e Geminorum .
42 oj1 "
0 43? "

45 o

47 "

49 " . .

52 n " . .

6.7

7.8

5 29 10.6

5 34 54.9

6 26 24.6
30 12.9
35 15.7
38 31.0
40 49. 3

47 22.8

48 53. 6

6 56 23. 6

7 1 54.3
7 12.5

15 14.7
19 49. 1
24 9.7
27 45.8
30 32.8
35 7. 2
35 55. 3
10 50. 1
47 43.8
54 29.4

7 56 32. 0

8 1 11.0
1 12.6

3 11.4

4 43.4
8 6 40.9

4 26

4 32

5 23
27
32
35
38
44
46

5 53

5 59

6 4
12
17
21
25
28
32
33
38
45
52
54
58

6 58

7 0
2

7 4

24

78

10

03

48

19

37

11

40

74

56

57

15

25

19

83

20

88

52

11

23

72

42

79

46

31

21.

46

42.

77

19

46

0. 92

42.

117

30.

30

25.

91

20.

74

7.

45

in.

39

50.

15

51.

75

50.

87

23.

12

20.

94 -

52. 53
52. 54
52. 61
52. 02
52.62
52. 63
2 52. 63
2 52.64
2 52.64
2 52.65
2 52. 06
2 52. 67
2 52. 68
2 52.68
2 52. 69
2 52. 70
2 52. 71
2 52.71
2 52.71
2 52.71
2 52.72
2 52.73
2 52. 73
2 52. 74
2 52.74
2 52.74
2 52. 7 !
2 52.74

1.18
1.7H
f 0.04

— 1.57
4- 0.15

1.70
1 . 70
f 1.56
11.53
1.76
1.65
1.68
1.69
1.78
1.28
1.19
1.20
I. 30
1.91
4 1.19

- 0. 96
1.84
1.54
1. 19
1.18
2.08
l . 98
1.90

- 1.49

- 0.93
+ 0.53

- 1.15

+ 1.08
+ 1.72
4- 1.73
4 1.48

- 1.23

- 0.81
0.99

- 0.93
0.94
0. 7 1
1.41
1.48
1.47

- 1.40

— 0.27
+ 1.67

— 1.72

— 0.53

- 1.16

- 1.47

— 1.48
+ 0.27

— 0.08
ii. : '.2

4- 1G
+ 22

— 0
+ 20

— 2

— 22

— 22

— 20
+ 7
4- 23
+ 22
+ 22
+ 22
+ 23
4- 17
+ i6
+ 16
+ 17
4- 25

— 16
+ 13
4- 24
+ 20
+ 16
4 16
+ 27
4- 26
+ 25

2 18.8
3ii is. I

29 9.2
58 23. 5

4 50.7

28 34.0

30 56.4
53 55. S
20 10.4
14 16.7
II 16.4

31 54.8
35 13.2
43 2.2

32 2. 4
20 21.6
32 58. 8
49 17.7
18 26.8
25 42.8
25 10.4

29 13.3
51 8.2
20 30.0
14 36.2
10 24.6

4 18.0
1 3 25. 8

0 36.3

0 27.9

1 5.5

0 29.9

1 9. 3

2 44.9
2 45. 3
2 31.6
0 49.8

27.0

28. I

28.0

28.0

26.5

34.4

36.1

35.7

34.11

0 24. 7

2 2.0

0 40.3

25.6

30.1

36.0

36.1

22. 5

23.8

0 24.8

— 1.8

— 0.4

— 0.8

— 0.8

— 0.7

— 1.3

— 1.4

— 1.0

— 1.6

— 0.2

— 0.5

— 0.3
-0.3

ii.ii

- 1.6

— 1.8

— 1.7

— 1.5
+ 0.5

— 0.5

— 2.0

4- o.i

— 0.8

— 1.8

- 1.8
+ i.o

4 o.7

4- 0.4

a <? assumed as 33° V 14" ; not 33° 1' 44".

b Div. a.si id as Til 14 15; not .74 14 14.

c Div. assumed as 39 3 I ; not 3!) 3 II.

d Min. assumed as 31 32; not 32 33.

c T. I assumed as 28s ; m.t :jss.

/ g assumed as 26 ; uol 36°.

g Min. assumed as 29; not28.

h g asBumed as 26° 20' ; not 26 28'.

i Div. assumi 3 as 74 ; not 71.

; g assumed as 25° ; uot28°.

I, i assumed as 32° 30' 44"; not 32° 30' 14"

/ Hoar assaiai'il as 7 ; not 8.

(38)

GOULD — REDUCTION OF D AGELET'S OBSERVATIONS.

:;«.)

1783 MARCH 6— Continued

Zero corr. |

'47".l.

Name

Mag.

r

App. sid. time

Clock corr.

n tail d

'/•

;-i>

Refr.

'/'

/l. III. s.

h. in. s.

m. s.

s.

A".

O 1 11

/ /'

//

54 / Geminorum -

8 Id 52.9

7 8 33.65

— 2 52.75

— 1.22

—

1.44

+ 16 53 51.6

— o 35. 3

— 1.7

55 <S " . -

12 24. 1

10 5. 10

2 52. 7.">

1.66

—

(1.90

4- 22 20 44.6

28.2

— 0.4

57 A " . .

15 28.7

13 10.20

2 52. 75

1.92

—

0.26

4- 25 25 45. 8

21.5

+ 0.5

66 a " . .

25 56.2

23 39. 42

2 52. 77

2.56

+

1.39

+ 32 19 25. 2

16.9

+ 2.5

69 u

27 44.6

25 28. 12

2 52. 77

2.09

+

0.33

+ 27 20' 26. 0

22.4

+ 1-1

7 1 ;- "

30 10.4

27 54. 32

2 52.78

2.84

+

1.33

+ 35 2 25. 4

13.9

+ 3.1

75 o- " • . .

34 54.6

32 39. 30

2 52. 78

2.28

+

1.03

+ 29 22 8. 4

20.1

+ 1-7

a) 78 ? "

36 31.0

34 16.06

2 52.78

1.88

0.41

+ 24 52 50.7

25.3

+ 0.4

82 "

40 44.8

38 30.46

2 52.79

1.77

—

0.73

+ 23 38 32. 0

26.7

0. 0

83 tf> " . -

45.21.2

43 7.62

2. 52. 80

2. 08

+

0.30

+ 27 17 21.0

22.4

+ 1.0

9

45 36. ]

43 22. 55

2 52. 80

2.06

+

0.24

+ 27 5 50.2

22.6

+ 1.0

85 <

7

48 9.2

45 56. 07

2 52. 80

1.51

1.17

+ 20 25 18.2

30.7

— 1.0

1 Cancri .

6

49 48.0

47 35. 14

2 52. 80

1.19

—

1.48

+ 16 90 14.3

30. 1

— 1.8

2 u1 " . - .

52 55. 6

50 43.25

2 52. 81

1.97

—

0.11

+ 25 56 52. 4

23.9

+ 0.7

4 u» " . .

7

53 45. 5

51 33.29

2 52. 81

1.94

—

0.20

+ 25 38 58. 0

24.3

+ 0.6

6 " . -

55 17.8

53 5. 84

2 52. 81

2.18

+

0.73

+ 28 21 53. 5

21.2

— 1.4

8 " . .

6

8 58 7.4

7 55 55.91

2 52. 82

0.98

1.69

-f 13 42 15.0

39.9

— 2.0

13 !/'' " . .

in ; "

9 2 11.5

8 0 0. 68

2 52. 82

■-MI2

+

0.02

+ 26 26 43. 0

93.4

+ 0.8

4 52.3

2 41.92

2 52. 82

1.34

1.37

+ 18 16 3.4

33.5

— 1.5

17 8 " - -

9 51.2

7 41.64

2 52.83

H.70

—

3.17

+ 9 49 27. 7

46.0

— 1.8

b)

19 a. " . .

12 12. 1

10 2.9:;

2 52. 83

1.82

—

0.58

4 24 26 00. 0

25.8

+ 0.1

12 42.3

10 33.21

2 52. 83

1.85

—

0.56

+ 24 40 11.8

25.5

+ 0.3

20 d1 " . .

16 0.6

13 52.05

2 52. 84

1.39

1.31

+ is 59 40.2

32.6

— 1.3

22 i,'.1 " - -

31 e "

18 18.5

16 in.:;::

2 52. 84

2.20

+

0 80

+ 28 34 21.2

21.0

+ 1.5

9 24 16. 5

8 22 9. 31

—2 52. 85

— 1.38

1.32

+ 18 47 41. 1

— 0 32. 9

— 1.4

17S3

lUARcn

9

Zero corr. = + 1' 46". 3.

58 a Ononis .

6 37 14. 6

5 46 29. 63

— 3 1.61

— 0.52

_

1.23

+ 7 20 10. 4

— 0 50.6

— 1.6

c)140 Tauri - -
1 //Geniiuoram .

7.8

41 8.2

50 23. 87

3 1.62

1.68

—

II.-'

+ 22 51 0. 8

28.0

— 0.2

44 44.5

54 0. 76

3 1.63

1.72

—

0.81

+ 23 14 14.4

27.5

— 0.2

2 " - -

7.8

47 23. 0

5 56 39. 09

3 1.63

1.75

—

0.74

+ 23 37 15.6

27.0

0.0

7„ "

9 " . .

55 33.5

6 4 51.53

3 1.64

1.66

—

0.93

+ 22 31 56. 8

28.4

— 0.3

8

6 57 31.0

6 49. 35

3 1.65

1.76

—

0.70

+ 23 46 36. 8

26.8

0.0

13/i " . .
184LC. " - -

7 3 35. 7

12 55. 05

3 1.66

1.66

—

0.92

+ 22 35 15.4

28.3

— 0.3

7.8

6 5.0

15 21. 70

3 1.66

1.74

—

0.76

+ 23 31 25.6

27.2

0.0

Uranus .

7 8 7.6

6 17 27. 70

— 3 1.66

— 1.76

—

0.71

+ 23 43 7. 0

— 0 26.9

0.0

1783

W.UM'il 1

7

Ze

o corr. — +

L' 47".4.

Capella .
d) Rigel . .
112/3 Tauri . .

5
26 39. 1

5 714. 96

— 3 9.99

+ 6.60

+

+

2.27

1.87

+ 45 43 51.0
— 8 28 16. 6

— 0 3.2
1 31.1

+ 5.2
— 0.5

35 9.7

15 46.96

3 9.99

— 2.16

+

0.74

+ 28 23 2. 7

0 21.9

+ 1.4

e ) 9 / i Leporis -
34 (5 Ononis .

41 26.5

22 4.79

3 9.99

+ 1.53

+

1.48

— 20 55 58. 0

2 37.9

— 1.0

43 26. 8

24 5.42

3 10.00

0.03

+

0.53

— 0 29 5.7

1 8. 1

— 0.8

46 c " - -

47 43.0

28 22. 32

3 10.00

0.09

+

0.86

— 1 21 55.4

1 10.2

— 0.7

50 C " - -

5 52 18. 0

32 58.07

3 10.01

+ 0.15

+

1.07

— 24 53.7

1 I2.ll

— 0.7

f)58a '• . .
1 //Gemiuoruui .

6 5 56. 3

46 38.64

3 10.01

— 0.52

1.23

+ 7 20 9.2

0 51.8

- 1.6

13 25. 5

5 54 9. 04

3 10.02

1.72

—

0.81

+ 23 14 14.2

28.1

— 0.2

— 0.3

7 f " - -

24 14.4

6 4 59.72

3 10. 02

1.66

—

0.93

4- 22 31 57.0

29. 0

9 " . .

7.8

26 11.8

6 57. 44

3 10.03

1.76

+

0.70

+ 23 46 33. 0

27.4

0. 0

13// " - -
183 f LC. . .

32 16.5

13 3.14

3 10.04

1.66

0. 92

+ 22 35 16.2

28.9

— 11.3

7

34 47. 8

15 34. 35

3 10.04

1.73

—

0.78

+ 23 24 31.3

27.9

— 0.2

g) Uranus .

36 53. 3

17 40.09

3 10.04

1.76

—

0.72

4- 23 42 58. 5

27.5

0. 0

7.8

41 20. 1

22 8. 22

3 10.05

1.64

—

0.97

+ 22 18 5. 0

29.3

— 0. 4

6 45 18. 1

6 20 6. 87

— 3.10.05

— 1.64

0.98

+ 22 15 12.0

— 0.29.4

— 0.4

a Name assumed as k, not /?, Gemiuo
b i assumed as 24° 25' ; not 24° 35'.
c g assumed as 26° 0' 2" ; not 26° 0'
Div. assumed as 27 1 1 12 ; not 27 ]

rum.

52". And
113

d Dii
e Di\
/ T.
g Dil

. assumed as 61 ; n
. assumed as 74.6 ;
[II assumed as 19s
'. assumed as 26 ;

ot 64.

u. it 71.7.
7; not 208.7.
not 27.

(39)

40

GOULD — REDUCTION OF d'AGELET's OBSERVATIONS.

17S3

.;■ IKCDI IS

Zero corr. = + 1

1- '. :;.

Name

Mag.

T

App. sid time

Clock eorr.

n tan 0

'/

c-<p

Refr.

'/

A m 5

h m «

m a

s

0 1 "

, //

»

Capella -
Rigel . .

5 19 23.2

5 3 54.42

— 3 10.70

— 4.10

+

2.27

+ 45 43 47. 8

— 0 3.2

-f- 5.2

22 44.2

7 15.97

3 10.71

+ 0.60

+

1.87

— 8 28 17.4

1 32.4

— 0.5

H2/3Tauri . .

:>~\ 1 1.9

15 48.117

3 10.71

— 2. 16

+

0.73

+ 28 23 2. 0

0 22.2

+ 1.4

34 (! Ononis .

39 31.5

24 6.11:;

3 10.71

-f 0.03

+

0.53

— 0 29 10. 0

1 9. 1

— 0.8

46 e " . .

43 47.7

28 22.93

3 10.71

0.10

+

0.86

— 1 21 57.4

1 11.2

— 0.7

50 C " . .

5 48 2:!. 0

32 58. 98

3 10.72

+ 0. 15

+

1.08

— 24 55.0

1 13.0

— 0.7

58 a " .

6 2 0. 4

46 38.62

3 10.72

— 0.52

1.23

+ 7 20 10.4

D 52. 0

— 1.6

a) 1 //(leiiiiiioniin .

9 30.5

5 54 9. 95

3 10.73

1.72

—

0.81

+ 23 14 14.5

— 0.2

7 ii '■ . .

20 19.7

6 5 0.93

3 10.73

1.66

—

0.93

+ 22 31 56.2

29.4

— 0.3

9 . .

7

22 16.8

6 58. :;.">

3 10.73

1.76

—

0.70

+ 23 46 31.4

27.9

0.0

13/* " . .

28 21.3

13 3.85

3 10.74

1.66

—

0.91

+ 22 35 14.2

29.4

— 0.3

184 J LC. . .

7

30 51.7

15 34. 66

3 10.74

1.74

—

0.76

+ 23 31 20. 0

28.2

0.0

Uranus .

32 59. 3

17 42.01

3 10.74

1.76

—

0.71

+ 23 42 57. 8

27.9

0. 0

7.8

39 33. 3

24 17.69

3 10.74

1.64

—

0.98

+ 22 15 11.3

29. 9

— 0.4

7

43 8. 7

27 53.68

3 10.74

1.76

—

0.70

+ 23 44 56. 2

27.9

o.O

27 c Geminomm -

49 2.4

33 48. ;:.-.

3 10.75

— 1.89

—

0.30

+ 25 18 25. 4

0 20.0

+ 0.5

Siriua

6 53 57.2

6 38 43. 90

3 10.75

+ 1.18

+

1.67

— 16 25 37.8

2 8.3

— 0.5

2 ; ' Virginia -

11 51 14.7

11 37 20. 38

3 10.90

— 0.07

2.08

+ 9 26 40. 8

0 49.3

— 1.8

b) 4f» " . .

7

54 24.2

40 0. 31

3 10.90

0.67

—

2. 05

+ 9 25 50. 0

0 40. 9

— 1.8

5/3 " . .

1 1 56 59. 8

42 36.34

3 10.90

0.21

—

0.28

+ 2 58 22. 5

1 1.9

— 1.2

10

12 0 9. 6

45 40.0i;

3 10.90

0.69

—

2.97

+ 9 45 35.0

0 48.9

— 1.8

6 ,4 " . .

1 32.2

47 9. is

3 10.90

0.68

—

2.57

+ 9 37 53.4

49.0

- l.S

492 Mayer . .

7

4 42.3

50 20. 10

3 10.90

0.33

—

0.59

+ 4 40 24. 0

58.1

— 1.4

7 b Virginia -

7

6 26. 4

11 52 4.48

3 10.91

0.34

—

0.63

-1- 4 50 50. 0

0 57.8

— 1.4

12 t " . .

25 4.3

12 10 45.44

3 10.91

0.02

+

0.2::

+ 0 24 24.7

1 7. 5

— 0.8

15 </ " . .

26 19.5

12 0.85

3 10.92

0.04

+

o.-jo

+ 0 31 40.2

1 7.2

— 0.9

17 " . .

12 29 2. 4

12 14 44.20

— 3 10.92

— 0.46

1.04

+ 0 29 49. 8

— 0 54. 0

— 1.5

17S3

MARCH 21

Zero eorr. = + ■

' 50". 4.

f) Capella -

5 7 36.7

5 3 55. 64

— 3 11.81

— 4. 10

+

2.27

+ 45 43 50. 3

— 0 3.2

+ 5.2

Rigel . -

10 57.2

7 10.09

3 11.81

+ 0.60

+

1.-:

— 8 28 21.2

1 32.4

— 0.5

40 t Ononis .

32 0. 8

28 23. 75

3 11.81

+ 0.10

-1

0.86

— 1 22 0.0

1 11.2

— 0.7

58 o " - .

511 12.8

46 38.74

3 11.81

— 0.52

1.23

+ 7 20 7.9

0 52.5

— 1.0

. 1 ffGeminorum .

5 57 43. 3

5 54 10.47

3 11.81

1.72

0.81

+ 23 14 13.2

28.5

— 0.2

77; "

6 8 32. 8

6 5 1.75

3 11.81

1.66

—

0.93

-f 22 31 54. 8

29.4

— 0.3

13^ " . .

16 34.7

13 4.97

3 11.82

1.07

—

0.92

+ 22 35 13.5

29. 5

— 0.3

Uranus .

21 18.5

17 49.55

3 11.82

1.76

—

0.72

-)- 23 42 53. 2

27.9

0.0

7

31 21.7

27 54.40

3 11.82

1.76

0.71

-f- 23 44 56. 8

27.9

0.0

27 f Geminorum .

37 15.5

33 49. 17

3 11.82

— 1.89

—

0. 30

+ 25 18 24.8

0 25. 9

+ 0.5

Sirius

6 42 10.2

6 38 44. 68

3 11.82

+ 1.18

+

1.07

— 16 25 43.4

2 8.3

— 0.5

17 £ Leonis .

9 39 41.9

9 36 45.54

3 11.85

— 1.84

0.40

+ 24 44 26. 1

26.6

+ 0.3

7

41 13.4

38 17.29

3 11.85

1.83

—

0.48

4- 24 37 8. 6

26.8

+ 0.3

24 fi " . .

9 46 33.6

9 43 38.37

3 n.sr,

2.04

+

0. 20

+ 20 59 44.2

23.8

+ 1.0

Regulus .

10 2 56.2

10 0 3.66

— 3 11.86

— 0.92

1.79

+ 13 0 2.6

— 0 43.0

— 2.0

17S3

:»i aiccii 29

Ze

ro corr. — -f- 1

' 40". 6.

67 p Canc.ri -

8 26 2. 0

8 54 25. 97

— 3 10.53

— 2.19

+

0.86

+ 28 43 18.9

— 0 21.7

+ 1.5

8.9

32 1.1

9 0 26.00

3 10.53

1.15

1.49

+ 10 5 27.3

38. 0

— 1.8

(2)81 7T "

35 13.1

3 38.59

3 10.53

1.13

—

1.50

+ 15 50 35.6

::-.:.

— 1.8

c) 82 " . .

38 3. 1

6 29.00.

3 10.53

1.13

—

1.50

+ 15 48 45. 8

38.6

— 1.8

83 " . .

41 39.8

10 0. 35

3 10.53

1.35

—

1.34

+ 18 35 42.5

34.5

— i.4

f) 402 Mayer . .

46 15.7

14 43.01

3 10.53

2.02

+

0.14

+ 26 49 5.0

23. 9

+ 1.0

1 k Leonis .

46 45. 8

15 13. 19

3 10.53

2.04

1

0.24

+ 27 5 0.8

23. 7

+ 1."

2 w "

51 38.2

20 6. 39

3 10.53

0.70

3.55

-f 9 58 33.8

47. 8

— 1.8

41 " ! !

54 4. 3

22 32. 89

3 10.53

1.77

—

0. 08

+ 23 53 39. 9

27.5

0. 0

8.9

8 58 3.4

9 26 32. 65

— 3 10. 53

— 1.07

—

1.57

+ 15 1 00.0

— 0 39.7

— 1.9

a T. II, III assumed as 30.2s., 55.2s.; not SO.Ss., 1

Transits over T

B. Hand III assumed as 14..

IS.

e g at

sumi-.l as 35° 2' 21'

; not 35° 2' 5

", aud

45.2s., respectively.

and 59. "is.; not

4.5s. and 9.5s., respecth el

y.

I

>iv. assumed as 35;

.mi ■:::.

b i assumed as 39° 25' 15"; not 39° 20' 15". c

g assumed as 3^

°0' 27" i not 33° 0' 7".

/ S'as

sumed as 22° 2' 0" ;

not 22° 1' 0".

(40)

GOULD — REDUCTION OP D AGELET S OBSERVATIONS.

41

ITS3 MARCH 29— Continued Zero corr. = + ]

' 40". 6.

Name

Mag.

T

App. sid.timc

Clock corr.

n tan 6

?

s—t

Refr.

?'

h m s

h m s

m s

s

s

o / //

/ //

ii

7 Lconis .

8 58 46. 1

9 27 15.47

— 3 10.53

— 1.09

— 1.54

+ 15 19 19.0

— 0 39. 3

— 1.9

14 o " . .

9 4 21.2

32 51.49

3 10.52

0.77

— 4.28 |+ 10 51 16.0

46.2

— 1.9

17 e " - .

8 13.6

36 44.53

3 10.52

1.84

— 0.45

+ 24 41 31.2

26.5

+ 0.3

20 " . .

12 23.2

40 54. 81

3 10.52

1.63

— 0. 99

+ 22 9 43.5

29. 7

— 0.5

24 /i " . .

15 5.4

43 37.45

3 10.52

2.04

+ 0.20

+ 26 59 50. 8

23. 7

+ 1.0

8.9

17 28. 1

46 0. 54

3 10.52

1.92

— 0.19

+ 25 38 20. 2

25.4

+ 0.6

27 y " . .

21 14.4

49 47. 46

3 10.52

0.96

— 1.72

+ 13 27 20.6

42.1

— 2.0

«1 29 7T " . .

+ 93 47. 2

49.3

— 1.8

b) 431 Mayor . .

7

28 35.0

57 9.24

3 10.52

1 . 21

— 1.45

+ 16 47 13.8

37.1

— 1.7

30 >; Lconis .

30 9.6

9 58 44.11

3 10.52

1.28

— 1.40

+ 17 47 40.6

35. 8

— 1.5

Regulua .

31 29.3

10 0 4.03

3 10. 52

0.92

— 1.79

+ 13 0 12.4

42.8

— 2.0

438 Mayer . .

7

37 24.2

5 59. 90

3 10.52

1.24

— 1.42

+ 17 11 23.8

36.5

— 1.7

30 J Lconis .

39 14.4

7 50.40

3 10.52

1.82

— 0.53

+ 24 28 12.3

26.9

+ 0.1

41 y " . .

42 37.7

11 14.26

3 10.52

1.53

— 1.15

+ 20 54 45. 2

31.4

— 0.8

42 " . .

44 47.3

13 24. 22

3 10.52

1.15

— 1.49

+ 16 2 44.7

38.2

— 1.8

440 Slaver . .

7.8

47 31. 1

10 8.47

3 10.52

0.82

— 4.76

+ 11 39 51.4

44.9

— 2.0

45 Leouis . .

7

50 51.2

19 29. 12

3 10.52

0.76

— 4.28

+ 10 50 47. 6

46.2

— 1.9

47 " . .

56 1.4

24 40. 17

3 10.52

0.73

— 3. 95

+ 10 24 7. 7

47.0

— 1.8

49 " . .

9 58 15. 1

10 26 54.24

— 3 10. 52

— 0.69

— 2.94

+ 9 45 6.9

— 0 48. 1

— 1.8

irs;

i APRIL.

£ Zero corr. = -j- ]

' 45". 0.

e)

9.10

7 25 7. 4

8 9 7. 57

— 3 9. 69

— 0.69

— 3.12

+ 9 48 27. 0

— 0 47. 8

— 1.8

d) 17 ,i Cancri .

25 51.2

9 51.49

3 9. 69

0.69

— 3.08

+ 9 47 40. 0

47.8

— 1.8

20 d1 " . .

30 8.0

14 8. 99

3 9. 69

1.38

— 1.31

+ 18 59 45. 6

33.8

— 1.3

9

30 11.4

14 12.40

3 9.69

1.36

— 1.33

+ 18 47

10.11

34 40. 7

18 42. 44

3 9.69

1.36

— 1.33

+ 18 45 30. 0

34.2

— 1.3

36 c* Cancri .

44 31.2

28 34.55

3 9.69

0.73

— 3.94

+ 10 22 49. 2

46.8

— 1.8

37 e» " . .

45 30. 1

29 33.61

3 9.69

0.73

— 3.90

+ 10 18 13.8

47.0

— 1.8

363 Mayer . .

8.9

48 30.5

32 34. 58

3 9.69

1.50

— 1.18

+ 20 36 46. 2

31.6

— 0.9

43 y Cancri .

+ 22 12 55.8

29. 5

— 0.5

47 <5 " . .

+ 18 55 13. 8

34.0

— 1.3

372 Mayer .

7

7 57 31. 2

41 36.68

3 9.68

1.42

— 1.26

+ 19 36 32.5

33.0

— 1.1

e) 55 a- Cancri .

8 2 37.0

46 43. 32

3 9.68

2.67

+ 1.39

+ 33 42 29. 4

16.0

+ 2.9

60 a1 " . .

3 12.0

47 18.44

3 9.68

0.88

— 3.32

+ 12 25 32. 8

43.4

— 2.0

6.7

7 56.3

52 3. 50

3 9.68

2.19

+ 0.86

+ 28 43 17. 9

21.6

+ 1.5

69 v " . .

9 6.9

53 14.29

3 9.68

1.89

— 0.32

+ 25 16 21.8

25.7

+ 0.5

/)

10

11 14.3

55 22. 04

3 9.68

1.90

— 0.26

+ 25 26 0.6

25.5

+ 0.5

10

13 10.5

8 57 18. 56

3 9.68

1.29

— 1.39

+ 17 57 1.0

35.2

— 1.5

73 Cancri . .

7.8

15 56. 1

9 0 4.61

3 9.68

1.32

— 1.36

+ 18 19 2.6

34.8

— 1.5

8.9

20 18.6

4 27. 83

3 9.67

0.81

— 5.31

+ 11 32 0.0

45.0

— 2.0

83 " . .

7

25 54. 6

10 4.75

3 9.67

1.35

— 1.34

+ 18 35 43. 3

34.4

— 1.4

9

28 38. 8

12 49.41

3 9'. 67

1.65

— 0.96

+ 22 23 25. 0

29.4

— 0.4

402 Mayer . .

7

30 30.9

14 41.82

3 9.67

2.02

+ 0. 13

+ 26 48 59.6

23.9

+ 1.0

g) 1/c Leonis .

31 0.8

15 11.80

3 9.67

2.05

+ 0.23

+ 27 4 56.8

23.6

+ 1.0

6.7

34 3.7

18 15.20

3 9.67

1.09

— 1.56

+ 15 12 58. 0

39.3

— 1.9

h) 2 u Leonis .

35 51.6

20 3.40

3 9.67

0.70

— 3.55

+ 9 58 27. 5

47.6

— 1.8

4 K " . .

38 19.7

22 31. 91

3 9.67

1.77

— 0.68

+ 23 53 33. 4

27.5

0.0

7 " . .

43 1.4

27 14.38

3 9.67

1.09

— 1.54

+ 15 19 9.0

39.2

— 1.9

11 " . .

45 10.4

29 23. 73

3 9.67

1.09

— 1.55

+ 15 17 57.4

39.2

— 1.9

13 " . .

8

48 6.7

32 20. 51

3 9.67

2.02

+ 0. 14

+ 26 52 4. 0

23.9

+ 1.0

14 o " . .

49 46.2

34 0. 28

3 9.66

2.40

+ 1.30 + 30 56 18.0

19.1

+ 2.2

7

51 53.7

36 8.13

3 9.66

1.82

— 0. 54 + 24 26 30. 0

26.8

+ 0.1

17 e " . .

52 29. 0

36 43. 53

3 9.66

1.84

— 0. 45 + 24 44 30. 2

26.4

+ 0.3

7.8

54 0.5

38 15.27

3 9.66

1.83

— 0.48

+ 24 37 11.1

26.5

+ 0.3

22 G " . .

58 30. 4

42 45. 91

3 9.66

1.90

— 0.28

+ 25 23 26. 7

25.6

+ 0.5

24^ " . .

8 59 20. 7

43 36. 35

3 9.66

2.04

+ 0.20

+ 26 59 50. 2

23.7

+ 1.0

27 v " . .

9 5 29. 6

49 46. 26

3 9.66

0.95

— 1.72

+ 13 27 11.2

42.0

— 2.0

t) 29 it " . .

7 40.4

51 57.42

3 9.66

0.64 — 1.67 +93 39.6

49.2

— 1.8

9

9 10 52.7

9 55 10.25

— 3 9. 66

— 1.45 — 1.23 + 19 58 31.7

— 0 32. 6

— 1.1

a g assumed as 39° 47' '

>0"; not

39° 47' 40". e

Name assumed as

59 Cancri, not

55 £rs Cancri. h T. I rejected.

b Min. assumed as 28m

; not 29n

<■ /

Div. assumed as

J4 15, not 24 14

i £ assumed as 39° 47'

17"; not 39°

17' 27",

c £ assumed as 39° 2' 3

3"; not 3

go2' 8". g

Div. assumed as

15 14 0, not 35 C

14. and Micr. corr. assu

med as — 4, n

ot + 4.

d Not 17 0 Cancri.

(41)

42

GOULD REDUCTION OF D AGELET S OBSERVATIONS

1783 APRIL. 2— Continued

Zero corr. = -1- 1' 45". 0.

Name

Mag.

T

App. sid. time

Clock corr.

?i tan 6

¥

c— t>

Refr.

?'

h m s

ft in s

V

s

s

s

/ //

II

431 Mayer . .

7

0 12 49.3

0 57 7. 17

— 3

9.66

— 1.21

— 1.44 '+ 16 47 5.2

— 0 37.0

— 1.7

30 7/ Leonis .

14 24.8

9 58 42. 93

3

9.65

1.28

— 1.40 + 17 47 36.9

35.6

— 1.5

Regulus .

15 43.5

10 0 1.84

3

9. 65

0.92

— 1.79

+ 13 0 4.2

42.7

— 2.0

33 Leonis .

7

17 52.5

2 11.19

3

9.65

1.20

— 1.45

+ 16 44 55. 0

37.1

— 1.7

34 " ■ . .

7.8

18 52. 4

3 11.25

3

9.65

1.03

— 1.62

+ 14 23 58. 2

40. 7

— 2.0

438 Mayer . .

7.8

21 39.5

5 58. 81

3

9. 65

1.23

— 1.42

+ 17 11 15.8

36.5

— 1.7

36 f Leonis .

23 29. 2

7 48.81

3

9.65

1.82

— 0.53

+ 24 28 6.0

26.8

+ 0.1

41 7 . .

26 53. 2

11 13.37

3

9.65

1.53

— 1. 16

+ 20 54 36.6

31.3

— 0. 8

44 " . .

32 42. 1

17 3. 23

3

9.65

(1.70

— 3. 30

+ 9 51 47. 8

48.0

— 1.8

8.9

33 1.6

17 22.78

3

9.65

n.To

— 3.29

+ 9 51 10. 0

48.0

— 1.8

46 i Leonis .

39 27. 9

23 50. 14

3

9.65

1.09

— 1.56

+ 15 13 31.6

39.4

— 1.9

a) 49 " . .

42 29. 1

26 51.84

3

9.64

0.69

— 2.93

+ 9 44 52. 3

48.1

— 1.8

455 Mayer .

8

44 57. 8

29 20. 95

3

9.64

1.33

— 1.36

+ 18 22 48. 8

34.8

— 1.5

50 Leonis .

46 5.8

30 29. 14

3

9.64

1.24

— 1.42

+ 17 13 50. 0

36.4

— 1.7

10

48 6.5

32 30. 17

3

9.64

1.45

— 1.23

+ 19 57 58. 0

32.7

— 1.1

7.8

50 57. 1

35 21.24

3

9.64

1.41

— 1.28

+ 19 25 35.0

33.4

— 1.3

51 m Leonis .

53 31.7

37 56.26

3

9.64

1.46

— 1.23

+ 20 0 33.0

32.6

— 1.1

53 I

9 56 42. 6

41 7.68

3

9.64

0.83

— 4.75

+ 11 40 12.5

44.9

— 2. 0

48 " . .

7

10 1 41.2

46 7. 10

3

9.64

2.01

+ 0.06

+ 26 37 0.2

24.2

+ 0.9

54 . .

2 37.4

47 3. 45

3

9.64

1.94

— 0. 14

+ 25 52 46. 4

25.1

+ 0.7

58 d " . .

8 6.5

52 33.45

3

9.63

0.33

— 0.61

+ 4 45 48. 8

57.2

— 1.4

63 X " ■ ■

12 34.8

10 57 2.48

3

9.63

— 0.60

— 1.49

+ 8 29 19.4

0 50. 3

— 1.7

66 " . .

8

16 51.5

11 1 19.88

3

9.63 + 0.01

+ 0.40

— 0 10 19.4

1 8.0

— 0.8

68 <5 "

21 18.2

5 47.31

3

9.63

— 1.59

— 1.05

+ 21 41 13.9

0 30.4

— 0.6

74 if " . .

24 18.6

8 48.21

3

9. 63

+ 0.17

+ 1.20

— 2 28 43. 6

1 13.7

— 0.7

76 " . .

26 28. 0

10 57.06

3

9.63

— 0. 10

— 0.26

+ 2 49 2;:. ;s

1 1.1

— 1.2

77 a " . .

28 39. 2

13 9.52

3

9.63

0.50

— 1.19

+ 7 U 58.6

0 52. 6

— 1.6

78 1 " . .

31 22.5

15 53.26

3

9. 63

0.83

— 4.69

+ 11 42 14.9

44.9

— 2.0

80 " . .

33 22. 2

17 53.29

3

9.63

0.35

— 0.68

+ 5 2 14.5

56. 8

— 1.4

84 t "

35 27. 3

19 58.73

3

9.63

— 0.28

— 0.46

-f- 4 2 5.4

0 58. 8

— 1.3

87 e "

37 51.8

22 23. 63

3

9.63

+ 0.13

+ 1.01

— 1 49 0.6

1 12.2

— 0.7

8

41 7.2

25 39. 56

3

9.62

— 0.26

— 0.39

+ 3 40 56. 0

0 59. 5

— 1.3

1 u Virginia .

45 56.7

30 29. 85

3

9.62

0. 65

— 1.89

+ 9 18 58.4

48.9

— 1.8

3 4» " . -

52 45.2

37 19.47

3

9.61

0.66

— 2.08

+ 9 26 44. 8

48. 8

— 1.8

6) 94 /3 Leonis . .

55 25. 3

40 0. 01

3

9.61

1.57

— 1.09

+ 21 24 11.0

0 30.8

— 0.7

5 /3 Virginia -

10 57 59. 8

11 42 34. 93

— 3

9.61

— 0.21

— 0.28

+ 2 54 24. 4

— 1 1.0

— 1.2

17S;

E APRIL 3

Zero corr. = -f- !■' 41".l.

ft. m. s.

h. m. s.

IK

s.

s.

s.

O / '1

/ //

II

c) 42 Leonis . .

9 25 6. 6

10 13 23. 04

— 3

9.65

— 1.15

— 1.49

-4- 16 2 37.7

— 0 37.7

— 1.8

44 " - .

28 46. 3

17 3. 34

3

9.65

0.69

— 3.30

+ 9 51 48.4

47.3

_ 1.8.

8.9

29 7.2

17 24.::o

3

9.65

0. 69

— 3.29

4- 9 51 11.4

47.3

-1.8

45 " . .

31 8. 6

19 26. 03

3

9.65

0.77

— 4.26

+ 10 50 43.2

45.6

-1.9

46 i " . .

35 31.7

2:; 49.85

3

9.65

1.09

— 1.56

+ 15 13 32. 6

38. 8

— 1.9

48 " . .

38 22.7

26 41.32

3

9.65

0.56

— 1.37

+ 8 2 56.7

50.4

— 1.7

9

39 38.2

27 57. U3

3

9.64

0.57

— 1.40

+ 8 8 36.8

50.1

— 1.7

50 " . .

6.7

42 10.0

30 29. 25

3

9.64

1.24

— 1.42

+ 17 13 57.4

35.9

— 1.7

8.9

42 51.2

31 10.56

3

0.64

1 . 23

— 1.42

+ 17 7 25.6

:;o. l

— 1.7

d)

7.8

47 1. 3

35 21.34

3

9.64

1.41

— 1.28

+ 19 25 40.5

33. 0

— 1.2

51 m " .

49 35. 2

37 55. 66

3

9 64

1.46

— 1.23

+ 20 0 35. 0

32.1

— 1.1

52 k " . .

8.9

51 25.6

39 46. 36

3

9.64

1.10

— 1.54

+ 15 19 57.3

38.6

— 1.0

53 I

52 46. 0

41 6. 98

3

9.64

0.83

— 4.75

+ 11 40 15.5

44.3

— 2.0

7.8

56 35. 0

44 56. 61

3

9.64

2. 07

+ 0.33

+ 27 20 3. 1

23. 0

+ LI

54 " . .

9 58 41. 5

47 3. 46

3

9. 64

1.94

— 0.15

+ 25 52 45. 6

24.8

+ 0.7

8

10 1 51.6

50 14.08

3

9.64

1.53

— 1.17

+ 20 45 34. 4

31.1

— 0.8

e)58d "

4 6.7

52 29. 55

3

9.64

0.33

— 0.61

+ 4 45 50. 4

56.4

— 1.4

8.9

7 13.7

55 37.06

3

0.64

0.61

— 1.56

+ 8 43 50. 8

49.2

— 1.8

63 x " ■ -

10 8 38.7

10 57 2.29

— 3

9.64

— 0.60

— 1.49

+ 8 29 20.7

— 0 49.6

— 1.7

a Div. assumed as 41, n

it 44.

- g assumed as 32

48' 28" , not 32° 47' 58".

li Name assumed as o:j I

.eiinis, 11

Dt 94 P.

/ 1 >iv. assumed as

31; not 34.

c The nteau a deduced

piiu tra

tsit over T. Ill \

rould agree with (

I'Agelt

t's other oliservatio

us and the catalogue- place of

his star T.s land II

harmonize with T.

III and

-*ach other on the

supposition that

the thread-interval for 44

° 5' Z.D. is 26s.5. (its true aim

unt being 23s. 1,) and

the a resulting froi

l the me

an of the three t

ansits differs 3s.6

from the mean of d'Agole

's five other observations. T.

si and 11 should prob-

ably be rejected, .

though t

hey are here ret;

lined.

(42)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

43

1783 APRIL

3 — Coulinucd

Zero corr. = -f- 1' 41". 1

Nairn-

Mag.

T

App. ski. time

Clock corr.

n tan S

«

f-*

Reft.

?'

h. m. s.

/(. m, s.

til

. s.

s.

s.

o ' //

/ //

ii

li? Lcouis .

10 11 58.5

11 0 22.64

— 3

9.63

— 1.93

— 0.16

+

25 48 23. 3

— 0 24. 8

+ 0.7

0)68 <i " . .

17 21.6

5 46.62

3

9.63

1.59

— 1.05

+

21 41 14.2

30.0

— 0.6

b)

9

18 50.5

7 15.76

3

9.63

J. 16

— 1.48

+

16 16 25.0

0 37.4

— 1.8

76 "

22 32.7

10 58. 57

3

9.63

0.20

- 0.26

+

2 49 24. 2

1 0.3

— 1.2

77 a " . .

24 43.5

13 9.73

3

9. 63

0.50

— 1.19 -|

7 ]1 57.2

(l 51.8

— 1.6

c) 78 j " . .

27 26.6

15 53.28

3

9. 63

u. -3

— 4. 69 +

11 42 11.9

44.3

— 2.0

83 " . .

8.9

30 31 . 1

18 58.28

3

9.63

0.29

— 0. 49 +

4 10 45.(1

57.7

— 1.3

.--1 r "

31 31.0

19 58. 44

3

9.63

0.28

— 0. 40 +

4 2 1.1

58.0

— 1.3

7.8

36 54. 8

25 23.03

3

9. 63

0.32

— 0. 55 +

4 32 40.2

57.1

— 1.4

89 " . .

37 59.2

26 27.61

3

9.63

0. 30

— 0. 50 +

1 1 1 54. 2

0 57.6

— 1.3

91 D " . .

40 33. 1

29 1.93

3

9.62

0.02

+ 0.25 +

0 21 37. 5

1 6.0

— 0.8

92 " . .

44 13.6

32 43.li:!

3

9.62

1.66

— 0. 93 +

22 32 2.8

0 29. 0

— 0.3

d) d^Vir.jiui.s. .

48 48.7

37 18.88

3

9. 62

0.67

— 2. 08 +

9 26 45.8

48. 1

— 1.8

52 11.6

411 42.34

3

9. 62

1.11

— 1.52 +

15 28 9.2

38. 5

— 1.9

94 i Leonis .

52 42.1

41 12.92

3

9.62

1.13

— 1.50 H

15 45 51.1

0 38.1

— 1.8

5 )3 Virginis .

+

2 58 22. 8

1 0.3

— 1.2

9.10

57 14.6

45 46. 17

3

9.62

0.69

— 2.83

+

9 45 33.6

0 47.5

— 1.8

0 A Virginia .

10 58 37. 1

47 8.911

3

9.62

0.68

— 2.57

+

9 37 .v.. 'J

47.8

— 1.8

492 Mayer . .

6.7

11 1 47.0

50 19.32

3

9.62

0.33

— 0.59

+

4 40 29.2

56.7

— 1.4

7 b Virginia -

3 30. 5

52 3. 10

3

9.61

0.34

— 0. 63 +

4 5(1 54.2

56.4

— 1.4

9o ""

8 51.1

11 57 24.58

3

9.61

0.70

- :;. 44 +

9 55 14.7

0 47.3

— 1.8

Id r " . -

13 12.5

12 1 46.70

3

9.61

0.22

— 0.29 +

3 6 7.2

1 0. 0

— 1.2

lis "

13 38.8

2 13.07

3

9.61

0.49

— 1.15 +

6 59 52. 0

ii .v.'.:;

— 1.6

12 t "

17 5. 0

5 39.83

3

9.61

0.81

— 5.56 +

11 27 4.0

44.8

— 1.9

8

17 6.3

5 41.13

3

9.61

0.80

— 4.77 +

11 14 53.0

0 45.2

— 1.9

i)13» " . .

22 9.0

10 44. 66

3

9.61

0.03

+ 0. 23 +

o 21 27.7

1 6.0

— 0.8

15 r, "

23 24. 2

12 0. 06

3

9.61

O.114

+ 0.20 +

0 31 38.8

1 5.7

— 0.9

17 " . .

6

26 7.2

14 43.54

3

9.61

0.46

— 1.04 +

6 29 50. 4

0 53.4

— 1.5

9.10

31 12.8

19 49. 96

3

9.61

0.94

— 1.76 +

13 17 0.4

42.0

— 2.0

8.9

33 26. 1

22 3. 63

3

9.60

1.13

- 1.50 +

15 49 51.8

38.1

— 1.8

20 " . .

7

36 43.2

25 21.27

3

9.60

0.81

-5.76 +

11 28 32.6

0 44.8

— 1.9

42 23. 1

31 2. 10

3

9.60

— 0.02

+ 0.25 +

0 19 43.0

1 6.1

— 0.8

29 y "

45 12.2

33 51.66

3

9.60

+ 0.02

+ 0.45 —

0 16 7.8

1 7.5

— 0.8

32 d» " . .

49 13.2

37 53. 32

3

9.60

— 0.62

- 1.611 +

8 50 41.2

0 49.1

— 1.8

34 " . . .

50 51.9

39 32.29

3

9.60

0.93

— 1.78 +

13 7 42. 5

42.5

— 2. 0

36 " . .

52 35. 1

41 15.77

3

9.60

1.09

— 1.55

+

15 17 24.2

38.9

— 1.9

37 " . .

55 6. 1

43 47. 18

3

9.60

— 0.30

— 0.50

+

4 13 29. 4

0 57.7

— 1.3

38

56 34.5

45 15.82

3

9.60

+ 0.17

+ 0.16

2 22 54. 8

1 12.9

— 0.7

43 <J "

11 59 11.2

47 52.95

3

9.60

— 0. 32

— 0.56 +

4 33 51.4

0 57.1

— 1.4

44 k " . .

12 2 57. 6

51 39.97

3

9.60

+ 0.18

+ 1.24 -

2 38 55.4

1 13.5

— 0.7

47 e " - .

5 56.6

12 57 39. 46

3

9.59

— 0.86

— 4. 04 +

12 6 34.5

0 43. 8

— 2.0

67 a " - -

28 9.6

13 16 56.11

3

9.59

+ 0.71

+ 1.79

—

10 1 41.2

1 36.9

— (I. 4

70 " . .

32 16.2

21 3. 39

3

9.59

— 1.07

— 1.58

+

14 55 20. 0

0 39.5

— 1.9

79} " . .

38 2.2

26 50. 34

3

9. 59

— 0. 04

+ 0.20

+

0 30 19.7

1 5.8

— 0.8

81 " . .

40 35.2

29 23.76

3

9.58

+ 0.48

+ 1.87

6 46 0. 4

25.6

— 0.5

82 m . . .

44 34.7

33 23. 92

3

9.58

0.53

+ 1.88

—

7 36 32.2

28.2

— 0.5

549 Mayer . .

6.7

46 58.0

35 47.61

3

9.58

0.31

+ 1.06

—

4 24 31.il

18.4

— 0.6

20 p Virginia -

12 57 54. 0

46 45.41

3

9.58

0.03

+ 0.52

—

0 26 27. 6

8.1

— 0.8

7

13 2 53.2

51 45.43

3

9.58

0.17

+ 1.20

—

2 29 48. 6

13.2

— 0.7

94 " . .

9 4.8

57.58.05

3

9.57

0.55

+ 1-88

—

7 51 22. 0

29.2

— 0.5

95 . .

9 31.7

13 58 25.02

3

9.57

0.58

+ 1.88

—

8 16 37.5

30.5

— 0.5

/)96 " . .

11 44.7

14 0 38.38

3

9.57

0.65

+ 1.83

—

9 18 5.0

34.3

— 0.4

g)srr " . .

15 16.1

4 10.33

3

9.57

0.62

+ 1.86

—

8 52 38. 1

33.2

— 0.4

98 k "

15 34.9

4 29. 21

3

9.57

0.65

+ 1-83 1-

9 15 38. 9

34.5

— 0.4

564 Mayer -

7

17 18.9

6 13.49

3

9.57

0.35

+ 1-73 —

4 56 25.5

20.4

— 0.5

99 i Virginia -

18 53. 8

7 48.65

3

9.57

0.35

+ 1-73 —

4 58 0.3

20.6

— 0.5

100 \ "

21 37.2

10 32.50

3

9.57

0.88

+ 1.62 -

12 21 54.8

46.7

— 0.3

103 v1 " . .

25 3.5

13 59.36

3

9.57

0.07

+ 0.73

—

0 59 59. 9

9.7

— 0.7

A)l 04 " . .

30 15.0

19 11.71

3

9. 57

0.36

+ 1.76

—

5 8 3U.4

21.0

— 0.5

105 f " . .

31 16.6

20 13.48

3

9.57

+ 0.08

+ 0.83

—

1 15 30. 0

1 10.4

— 0.7

27 y Bootia .

37 36.3

26 34.22

3

9.56

— 3.27

+ 1.28

+

39 14 0.0

0 10.0

+ 3.9

7.8

41 6.5

30 5.00

3

9.56

2.16

+ 0.75

+

28 24 4H.2

22.0

+ 1-4

6

13 44 35.6

14 33 34.67

— 3

9.56

— 1.03

— 1.61

+

14 27 13.0

— 0 40. 5

— 2.0

a Div. assumed as 1 59

not 15

r. c

g assumed as 35

0 24';

not 39°

25'. g T. II assumed as 13m.

16s. ; not 13m. 6s.

4 S assumed as 32° 34' ;

not 32°

39'. l

g assumed as 4E

° 26' 35" ; not

18° 26' 45". h g assumed as 53° 59' C

7" ; not 33° 59' 47" ;

c Div. assumed as 9 15 ;

not 9 14

J

g assumed as 58

° 9' 30'

; notK

° 9' 20". and I

iv. assumed as

57 9 8 ; not 57 9 9.

(43)

44

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

irS3 APRIL. 3-

-Continued

Zero corr. = -f 1' 41".l.

Name

Mag.

T

App. sid. time

Clock corr.

n tan (5

1

r— *

Refr.

l'

h. in. s.

h. m. s.

IT

. s.

s.

s.

O ' "

/ //

II

30 f Bootis . .

13 45 2. 0

14 34 1.14

— 3

9.56

— 1.04

— 1.60

+ 14 38 44. 1

— 0 40.2

— 1.9

109 Virginia

4.5

49 29.7

38 29. 57

3

9.56

0.20

— 0.25

+ 2 48 7.2

1 1.1

— 1.2

7

50 38.9

39 38. 96

3

9.56

— 0 20

— 0.27

+ 2 56 25. 8

1 0. 9

— 1.2

a2 Librae .

53 3.2

42 3. 66

3

9.56

+ 1.08

+ 1.61

— 15 7 39.4

2 0.3

— 0.5

a) 13? " . .

56 4r>. 6

45 46.66

3

9. 56

0.78

+ 1.71

— 110 21.4

1 41.3

— 0.3

15 S* " . .

13 59 8.6

48 10.05

3

9.56

0.74

+ 1.75

— 10 31 35.9

39.4

— 0.3

17 " . .

7.8

14 1 17.0

50 19.40

3

9.55

0.72

+ 1.78

— 10 15 55.9

— 10 3 23. 6

38.3
37.4

— 0.4

— 0.4

7.8

4 36.8

53 39. 15

3

9.55

-f- 0.53

+ 1.88

— 7 29 8. 1

1 28.4

— 0.5

8.9

7 51.5

14 56 54.38

3

9.55

— 0.82

— 4.99

+ 11 34 18.0

0 45.0

— 2.0

5.6

11 34.2

15 0 37.69

3

9.55

1.40

— 1.30

+ 19 15 59.4

33.6

— 1.3

6.7

18 5.2

7 9.76

3

9.55

1.76 — 0.71

+ 23 46 20. 8

27.7

0.0

BoOtis H 44

6

22 49.5

11 54.84

3

9.55

1.57

— 1.09

+ 21 21 2.2

30.8

— 0.7

b)

6.7

25 52.4

14 58. 24

3

9.55

1.93

— 0.19

+ 25 43 18.2

25.3

+ 0.7

4.5

31 53.8

21 0. 63

3

9.55

2.81

+ 1.33

-f- 35 4 11. 0

14.5

+ 3.1

6.7

34 33.7

23 40.97

3

9.55

3.29 '+ 1.29

+ 39 26 56. 4

9.8

+ 3.9

12 t Serpentis .

5.6

36 17.0

25 24.55

3

9.55

1.21 — 1.44

+ 16 46 47.0

37.1

— 1.7

6

37 11.0

26 18.70

3

9.55

1.20 — 1.45

+ 16 44 0.0

37.2

— 1.7

15 " . .

39 48.5

28 56. 64

3

9.55

1.33 — 1.35

+ 18 21 55. 0

34.9

— 1.5

7 C Cor.Borealis

4

45 16.6

34 25. 64

3

9.54

3.05 + 1.27

-f 37 19 1. 1

12.1

+ 3.5

26 Serpentis .

6

48 55.8

38 5.44

3

9.54

1.30 — 1.39

+ 17 55 59. 8

35.5

— 1.5

8.9

53 53. 7

43 4. 16

3

9.54

1.05 — 1.59

+ 14 42 51.4

40.1

— 1.9

8

56 5.9

45 16.72

3

9. 54

1.14 — 1.50

+ 15 52 59. 0

38.4

— 1.8

6

14 59 59. 4

49 10.86

3

9.54

1.40 — 1.30

+ 19 14 35.3

33.7

— 1.3

13 t Cor.Borealis

15 2 37.5

51 49.39

3

9.54

2.08 + 0.37

+ 27 29 19. 0

23.2

+ 1.1

5 r Herculis .

6.7

8 6.4

15 57 19.19

3

9.54

1.33 — 1.35

+ 18 23 9. 8

34.8

— 1.5

7.8

11 22.5

16 0 35. 83

3

9.54

0.99 — 1.67

+ 13 54 20.6

41.5

— 2.0

7

15 17 46.4

16 7 0. 78

-3

9.53

— 2. 06 + 0. 28

+ 27 12 41. 0

— 0 23. 5

+ 1.0

1783

APRIL 4

Zero corr. = + ]

' 42". S.

Rifrel . .

4

•

— 8 28 17.9

— 1 30.7

— 0.5

112 1) Tauri . .

24 22.6

5 15 46. 19

— 3

9.10

— 2.16

+ 0.73

+ 28 23 8. 0

0 21.8

+ 1-4

24 y Oriouis

25 16.9

16 40.54

3

9.09

— 0.43

— 0.96

+ 6 7 28.5

0 53.9

— 1.5

34 S " ■_ .

32 39.7

24 4. 65

3

9.09

+ 0.03

+ 0.53

— 0 29 5.2

1 7.8

— 0.8

123 f Tauri . .

36 28. 1

27 53.67

3

9.09

— 1.53

— 1.14

+ 20 58 28. 8

0 30.9

— 0.8

c) 46 t) Orionis

— 1 21 52.7

1 9.9

— 0.7

50 C " . .

41 31.2

32 57.60

3

9.09

+ 0.15

+ 1.07

— 2 4 53.3

1 11.7

— 0.7

58 a " . .

4 55 8. 3

5 46 36. 94

3

9.09

— 0. 52

— 1.23

+ 7 20 13.4

0 51.5

— 1.6

7 7/ Geminorum

5 13 27.3

6 4 58.95

3

9.08

1.66

— 0.93

+ 22 31 58.7

28.9

— 0.3

d) 13^ " . .

21 29.2

13 2.17

3

9.08

1.67

— 0.92

+ 22 35 22.2

28.8

— 0.3

24 y " . .

36 47. 3

28 22. 78

3

9.07

1.19

— 1.47

+ 16 33 2.1

36.9

— 1.7

27 e " . .

42 10.2

33 46. 56

3

9.07

— 1.89

— 0.30

+ 25 18 30.4

0 25. 5

+ 0.5

Sirius .

5 47 4.8

38 41.97

3

9.07

+ 1.18

+ 1.67

— 16 25 40. 4

2 6.2

— 0.5

e) 43 C Geminorum

6 2 46. 7

6 54 26. 46

3

9.07

— 1.52

— 1.16

+ 20 51 14.2

0 31.1

— 0.8

55 (5 " . .

18 39. 1

7 10 21.47

3

9. 06

1.64

— 0.96

+ 22 20 46. 6

29.1

— 0.4

Procyon .

39 21.6

31 7. 37

3

9.05

0.40

— 0.87

+ 5 45 11.8

54.6

— 1.5

78 /3 Geminorum

43 26.2

35 12.64

3

9.05

2.17

+ 0.79

+ 28 30 47. 4

21.7

+ 1.5

81 " . .

44 59.2

36 45. 89

3

9.05

1.38

— 1.31

+ 19 0 21.8

33.6

— 1.3

83 <f> " . .

51 35.8

43 23.58

3

9.05

2. 06

+ 0.32

+ 27 17 26.5

23. 2

+ 1-1

/) 85 « " . .

54 23. 7

46 11.94

3

9.05

1.49

— 1.20

+ 20 25 23. 4

31.8

— 1.0

2 u1 Cancri .

59 9.9

50 58. 92

3

9.05

1.95

— 0.11

+ 25 57 1.5

24.8

+ 0.7

3 " . .

6 59 44.5

51 33.61

3

9. 05

1.29

— 1.40

+ 17 52 12. 9

35.2

— 1.5

e) 8 » . .

7 4 21.6

56 11.47

3

9. 05

0.97

— 1.69

+ 13 42 22. 0

41.2

— 2.0

10 u> " . .

6 21.2

58 11.40

3

9.05

1.63

— 0. 99

+ 22 10 39.8

29.4

— 0.5

12 " . .

7 56.2

7 59 46. 66

3

9.04

1.01

— 1.63

+ 14 14 28. 4

40.5

— 2.0

15 i/P Cancri .

11 1.1

8 2 52. 07

3

9.04

2.33

+ 1.22

+ 30 16 10.7

19.7

+ 2.0

327 Mayer . .

7

13 6.3

4 57.61

3

9.04

1.32

— 1.36

-f- 18 17 51.6

34.7

— 1.5

17 /? Cancri . .

7 16 6.4

8 7 58.20

— 3

9.04

— 0. 69

— 3.18

-f- 9 49 31.8

— 0 47.5

— 1.8

a § assumed i

is 59° 51

; not 59° 46'.

d Div. assuni

•d as 28 0 3 ; not 28

0 2.

6 Micr. corr.

assumed

as — 4 ; not -f-

i.

e Div. aseum

;das29; not 27.

c Name 46 c

3riouis ;

not 46 n Orionis

/ Div. assuiut

d as 30 ; not 34.

g i

assumed a

s 35° ; not 25°.

(44)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

45

1783 Al'ltll. 1 Continued Zero corr. = + 1' 42".8.

Name

Mug.

T.

App.sid. time

Clock corr.

n tan ti

1

C-0

Refr.

?'

h i» a

h m s

TO S

s

s

o / "

/ //

„

331 Mayer . .

7

7 17 7.0

8 8 58. 96

— 3

9.04

— 0.67

— 2.21

+ 9 30 29. 5

— 0 48. 1

— 1.8

19 A Cancri -

18 56.7

10 '48. 97

3

9.04

1.84

— 0.56

+ 24 40 16. 8

26.3

+ 0.3

o) 20</' " . .

22 14.9

14 7.71

3

9.04

1.38

— 1.31

+ 18 59 48. 6

33.7

— 1.3

22 f " . .

24 32. 6

16 25. 79

3

9.04

2.18

+ 0.80

+ 28 34 21.2

21.7

4- 1.5

23 f " . .

24 57.0

16 50.26

3

9.04

2.09

+ 0.42

+ 27 36 30. 5

22.8

4- 1.2

28 ><- " . .

27 1.6

18 55. 20

3

9.04

1.85

— 0.42

-j- 24 49 52. 0

26.1

4-0.3

341 Mayer .

28 2.6

19 56.37

3

9.04

1.87

— 0. 39

+ 25 1 57. 0

25.9

+ 0.4

31 e Cancri . -

30 31.4

22 25.58

3

9.04

1.36

— 1.32

+ 18 47 47. 1

33.9

— 1.4

30 c1 " . .

36 38.7

28 33. 89

3

9.04

0.73

— 3.94

+ 10 22 56. 2

46.6

— 1.8

7.8

43 39. 8

35 36. 14

3

9.03

2.24

+ 1.05

+ 29 11 44.4

21.0

+ 1.6

48 t Cancri .

44 46.5

36 43.111

3

9.03

2.26

+ 1.10

+ 29 31 6. 5

20.6

4-1.8

7.8

47 32.0

39 28. 96

3

9.03

2.75

+ 1.37

+ 34 29 13. 0

15.0

4-2.9

51 CTl " . .

50 22. 7

42 20.13

3

9.03

2.62

+ 1.40

+ 33 15 3. 4

16.4

4-2.7

7

53 15.2

45 13.10

3

9.03

2.04

+ 0.21

+ 27 0 50. 0

23.5

4-1.0

*)

7

54 40.8

46 38.94

3

9.03

1.89

— 0.30

+ 25 14 48.4

25.6

4-0.4

C(i a*- " . ■ .

7

7 59 16. 6

51 15.50

3

9.03

2.61

+ 1.40

4- 33 3 53. 0

16.6

4-2.7

69 v " . .

8 1 14.6

53 13.82

3

9. 03

1.89

— 0.30

4- 25 16 24. 0

25.6

4-0.4

c) 72 t " . -

6 8.0

58 8.02

3

9.03

2.36

+ 1.26

4- 30 29 30. 4

19.5

4-2.0

75 " . .

6.7

7 11.0

8 59 11.19

3

9.02

2.08

+ 0.39

4- 27 29 38. 6

22.9

4-1.1

80 " . .

10 56.7

9 2 57. 51

3

9.02

1.37

— 1.32

+ 18 54 10. 8

33.8

— 1.3

82 " . -

14 25.8

6 27. 18

3

9.02

1.13

— 1.50

4- 15 48 45. 9

38.0

— 1.8

d) 83 " . .

18 2.0

10 3. 97

3

9.02

1.35

— 1.34

+ 18 35 47. 2

34.2

— 1.4

7.8

20 31.8

12 34. 18

3

9.02

1.26

— 1.41

4- 17 29 36. 0

35.7

— 1.7

c) 402 Mayer . .

22 38. 1

14 40.82

3

9.02

2.02

4- 0.13

4- 26 49 0. 0

23.8

+ 1.0

1 k Leonis .

23 8.9

15 11.71

3

9.02

2.04

+ 0.24

+ 27 5 1.6

23.4

4-1.0

7.8

26 11.1

18 14.41

3

9.02

1.09

— 1.56

4- 15 13 3.0

39.0

— 1.9

3 " . .

6

28 4.1

20 7.72

3

9. 02

0.64

— 1.72

4- 9 6 35. 3

48.8

— 1.8

4 A " . .

30 27.5

22 31.51

3

9.02

1.77

— 0.68

+ 23 53 39. 9

27.3

0.0

7 "

35 8.7

27 13.48

3

9.02

1.09

— 1.54

4- 15 19 15.0

38.9

— 1.9

13 " . .

40 15.0

32 20. 62

3

9.01

2.02

+ 0.14

4- 26 52 8. 0

23.7

4- l.o

16 f " . .

43 0. 7

35 6. 77

3

9.01

1.07

— 1.57

4- 14 59 14. 6

39.4

— 1.9

17 c " . .

44 37. 1

36 43. 43

3

9.01

1.84

— 0.45

4- 24 44 34. 7

26.2

4-0.3

7.8

46 8.2

38 14.78

3

9.01

1.83

— 0.50

4- 24 37 14. 0

26.4

4-0.3

20 " . .

48 47. 4

40 54.42

3

9.01

1.63«

— 0.99

+ 22 9 44. 5

29.4

— 0.5

24 ft " . .

8 51 28. 4

43 35. 86

3

9.01

2. 04

+ 0.20

4. 26 59 51.5

23. 6

4-LO

9.10

9 2 51.2

55 0. 53

3

9.01

0.65

— 1.82

4- 9 15 15.0

48.5

— 1.8

431 Mayer .

4 57.0

57 6. 67

3

9.01

1.21

— 1.45

4- 16 47 6.2

36.7

— 1.7

30 7/ Leonis -

6 32.6

58 42. 53

3

9.01

1.28

— 1.40

4- 17 47 40. 1

35.3

— 1.5

/)

8.9

7 41.3

9 59 51.42

3

9.00

0. 92

— 1.79

Regulus -

7 51.5

10 0 1.65

3

9.00

0.92

— 1.79

4-13 0 8.4

42.5

— 2.0

34 Leonis .

7

11 0.0

3 10.67

3

9.00

1.03

— 1. 62

4- 14 24 0.7

40.3

— 2.0

35 " . .

15 30. 9

7 42.31

3

9.00

1.83

— 0.51

4- 24 33 10. 0

26.5

4- 0.2

36 f " . .

15 36.8

7 48.23

3

9.00

1.82

— 0.53

4- 24 28 10. 3

26.7

4- o.i

g) 41 y " - -

19 0.8

11 12.79

3

9.00

1.53

— 1.15

+ 20 54 40. 7

31.2

— 0.8

42 " . .

21 10.1

13 22. 34

3

9.00

1.15

— 1.49

4- 16 2 38.2

37.9

— 1.8

43 " . .

7

22 38.8

14 51.38

3

9.00

0.53

— 1.28

4- 7 37 20. 0

51.4

— 1.7

44 " . .

9 24 49. 4

10 17 2.34

3

8.99

0.70

— 3. 30

4- 9 51 54. 2

47.6

— 1.8

492 Mayer .

6.7

10 57 50. 5

11 50 18.72

3

8.99

0.33

— 0.59

4- 4 40 29.4

57.2

— 1.4

h) 90 Virginia .

11 4 54.9

11 57 24.28

3

8.96

0.70

— 3.44

4- 9 55 14. 7

47.6

— 1.8

9.10

7 40.1

12 0 9.93

3

8.96

0.51

— 1.20

4- 7 13 40.0

0 52.3

— 1.6

10 T

9 15.5

1 45.59

3

8.96

0.22

— 0.30

4- 3 6 7.7

1 0.3

— 1.2

9.10

11 55.0

4 25.54

3

8.96

0.50

- 1.16

+ 7 3 56. 6

0 52. 6

— 1.6

7 Comae .

16 2.7

8 33.92

3

8.96

1.88

— 0.35

+ 25 7 42. 6

0 25.9

4-0.4

1 3 n Virginia -

18 12.0

10 43.57

3

8.96

0.03

+ 0.23

+ 0 24 34. 5

1 6.4

— 0.8

15 n " . .

19 27.8

11 59.58

3

8.96

0.04

+ 0.20

4- 0 31 38.2

1 6.1

— 0.9

i) 17 " . .

22 10. 5

14 42.73

3

8.96

0.46

— 1.04

+ 6 29 50. 5

0 53.5

— 1.5

7

29 29. 8

22 3.23

3

8.96

1.13

— 1.50

4- 15 49 50.2

38.4

— 1.8

j) 20 " . .

6

32 46. 6

25 20. 56

3

8.96

0.81

— 5.73

+ 11 28 36.1

45.1

— 1.9

6

36 49. 0

29 23. 63

3

8.95

0.70

— 3.56

4- 9 58 30. 2

47.6

— 1.8

27 " . .

41 20.2

33 55.41

3

8.95

0.82

— 4.87

4- 11 36 0.0

45.0

— 2.0

k) 30 p " . .

11 41 35.3

12 34 10.71

- 3

8.95

— 0.81

— 5.27

4- 11 24 55. 6

— 0 45.2

— 1.9

a I assumed as 29° 51' 1

f"; nnti

>9° 5V 17". j

r g assumed as 1

hat of

a star

jiven in the i § assumed as 42° 21' U

".5; notas42°21'4".5

b Div, assumed as 2 13;

not 2 3.

Catalogues a

j V 44'

from R

'gulus. j T II assumed as 32m.

16s.; not 33m. 46s.

c Div. assumed as 9 5; n

ot 11 5.

s

£ assumed as 2"

0 56' 25"; not a

s 27° 56' 55". k Div. assumed as 39 ; r

ot40.

d Div. assumed as 4 5; r

ot 4 15.

h

Name assumed

is 9 o Virginia ;

not as 90 Vir-

e Transit over T II assui

ned as re

c'd over Tin.

ginis.

(45)

46

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

I7S3 APKIL 4— Continued

Zero corr. = + 1' 42". 8.

Name

•)

*)

31 d' Virginia

34 " .

30 " .

37 " .

43 (5 " .

44 k " -

48 " .

49 ^ " .

50 '• .

50 " .

64

07 a
721'

7! I J
81

82 m
87
89
90 P

Mayer -
Virginis

557

95
c) 90
97
99 i>
Kid 1
d) 103 v-
104
105 0
27 y Bootis

30 f

/)

43 V

Mag.

7

0.7

6

5.0

6.7

6.7

7.8
6

9

8
7.8
8.9

9

0

4

0
8.9

7

It m s

11 45 16.5

46 55.4

48 38.7

51 9. 3

55 15.2

56 57. 0

11 59 1.2

12 3 15.5

7 2.3

8 53.8
10 48. 1

13 52. 2

10 33.7

20 11.6

21 44.3
24 13.1
29 33.7
34 6.1

36 38. 2
40 38. 4
40 1.3
48 28.9
53 57. 8

12 58 57. 3

13 3 13.3
5 34.7
7 48.2

11 20.0

14 57.8
17 41.5
21 7.3
20 18.6
27 19.6
33 39. 8

37 10.7

40 39.4

41 5.9
44 25.7
46 1.9

50 15.6

51 19.8
56 42. 0

1 24.4

5 22.3

7 37.6

10 14.0

14 13 15.1

13
14

App. sid. time.

12 37 52.52
39 31.09
41 15.27
43 46.28
47 52. 85
49 34. 93
51 39.47

55 54. 47

12 59 41.89

13 1 33.70

3 28. 31
0 32.91
9 14.85

12 53. 18
14 26.30
10 55.51
22 16. 99
26 50. 14

29 22. 66
33 23. 52
38 47. 30
41 15.31
46 45. 1 1
51 45.43

56 2.12

13 58 23.91

14 0 37.78

4 10. 10
7 48.56

10 32.71

13 59. 07

19 11.22

20 12.39
* 26 33. 63

30 5.11

33 34.38

34 0. 95

37 21.30

38 57. 70

43 12.16

44 16.53
49 39. 61
54 22.78

14 58 21.33

15 0 37.00
3 13.93

15 6 15.43

Clock corr.

s

8.95

8.95

8.95

8.95

8. 95

8.94

8.94

8.94

8.94

8.94

8.94

8.94

8. 94

8. 94

8.94

8.94

8.93

8.93

8. 93

8.93

8.93

8.93

8. 92

8.92

-. 92

8.92

8.92

8.92

8.92

8.92

8.92

8.91

8.91

8.91

8.91

8.91

8.91

8.91

8.91

8.91

8.91

8.90

,-.'.n>

8.90

8.90

8.90

8.90

n tan d

— 0.62
0.93
1. 09
0.29
0.32

- 0. 18
+ 0.18

0.17
0.68
0.64
0.71
0.65

f 0.66
0.28
0.44

f 0.71

+ 0.37
0.03

+ 0.47
0.53
1.20
1.22
0.03

+ 0.17

+ 0.58
0.58
0. 65
0.63
0.35
0.88
0. 07
0.36

f 0. 08
3.20
2.16
1.03
1.04
0.59
0.75
1.77

— 1.60

- 1.77
1.55
0. 49

- 0.55

— 0.21
+ 1.24
+ 1.20
+ 1.81
+ 1.84
+ 1.79
+ 1.84
+ 1.82

— 0.47

— <i.99
+ 1.79
4- 1.78
+ 0.20
+ 1.87
+ 1.88
4- 1.65
4- 1.64
4- 0.52
4- 1.20
4- 1.88
4- 1.88
4- 1.83
4- 1.86
4- 1.73
4- 1.62
4- 0.74
4- 1.76
4- 0.84
+ 1.28
+ 0.75

— J. 01

— 1.60

— 1.53

— 4.04

— 0.67

— 0.70

— 1.39

— 0.87
4- 0.48

— 1.29

— 0.25
1.23

+

4- 8 50
+ 13 7
4- 15 17
+ 4 13
4- 4 33
4- 2 35

— 2 38

— 2 30

— 9 34

— 9 10

— 10 4

— 9 13

— 9 24
+ 44
+ 6 16

— 10 1
- 5 21

0 30

6 45

7 36

16 45

17 2
ii 26
2 29

8 12

8 16

9 18
8 52

4 58
12 21

0 59

5 8

1 15
+ 39 14
4- 28 24
4- 14 27
4- 14 38
4- 8 36
+ 10 33
+ 23 54
4- 23 47
+ 17 58
+ 22 53
4- 27 46
4- 19 15
4- 25 29
4- 20 4

39.7
43.1
24.0
24.6
51.9
29. 5
55.0
12. 2
53.7
22.7

5.5

9. 0
13.4
14.8
49.4
39.4
12.4
23.7
58. 1
30. 2
40.0
27.2
28.0
47.1
51.4
37.8

5.0
38.1

2.6
56.5
58.6
37.0
32. 8

1.0
30.0
10.5
44.0
32.0
51.8
56.4
31.0

6.0
1-. -
32.7
54.4

O.d

0.0

Refr.

0 49.4
42.5
39.2
58. 1

0 57.5

1 1.6
14.0
13.5
35.8
34.1
37.4
34.3

1 35.2
0 58.4

0 54. 1

1 37.4
21.7

6.1
26.0

i ■:-.-

2 9.2
2 11.0
1 8.5

13.5
30.9
31.1
35.0
33.4
20.8
47.3
9.9
21.2
1 10.5
0 10.0
22. 0
40.6
40. 1
49.9
46.7
27.6
27.7
35.4
28.8
22.8
33.6
25.6
0 31.2

1.8
2. 0

1.9
1.3

1.4
1.1

0.7
0.7
0.4
0.4
0.4
0.4
0.4
1.3
1.5
0.4
0.5
0.8
0.5
0.5
0.5
-0.5

— 0.8

— 0.7

— 0.5

— 0.5

— 0.4

— 0.4

— 0.5
-0.3

7
5
7
9

— 0.

— 0,

— 0,
4-3,
4- 1

o

1.9

1.8
1.9
0.0
0.0
1.5
- 0.2
+ 1.3

— 1.3
4-0.5

— 1.1

17S3 APISH. 5

Zero corr. = + 1'39".3.

h)

0

J)
A)

0

112/8Tauri . .
34 (5 Orionis
58 a " . .
24 y Geminorum

Piocyon .

83 (j> Geminorum

85 1 " . .

2 (J1 Cancri -

6* " - .

8 " . .

10 //2 " . .

4 20
28

4 51

5 32

6 35
47
50
55

6 57

7 0
7 2

26

4

43

4

11

8

5(1

8

25

o

39.6

27

5

13

7

36

1

•.'1

7

24

3

15 45.
24 4.
46 36.
28 22.
31 6.
43 23.
46 11.
50 58.
53 21.
56 10.
58 10.

2.16

+ 0.74

0.03

4- 0.53

0. 52

— 1.23

1.19

— 1.47

0.40

— 0.87

2.06

+ 0.31

1.49

— 1.20

1.94

— 0.13

2.16

+ 0.73

0.97

— 1.69

1.63

— 0.99

+ 27

4- 20
4- 25
4-28
4- 13

4- 22

23

8.8

29

5.0

20

13.6

33

4. 1

45

13.0

17

26.0

25

25.2

57

4.5

21

59.5

42 21.0

10 41.0

0 21.4

1 6. 6
0 50. 6

30.3
53.6
22.7
31.1
24.3
21.6
40.6
0 29.0

4- 1.4

— 0.8

— 1.6

— 1.7

— 1.5
4- 1.0

— 0.9
+ 0.7
4- 1.4
-2.0

0.5

a T II assumed as 38s.; not 48s.

I, I assumed as 49° 17' 33"; not 49° 17' 43".

c | assumed as 58° 9' 10" ; not 58° 9' 30".

d I assumed as 49° 51' 4" ; not 49° 51' 24"

e T. I rejected.

/ g assumed as 25° 3' 34" ; not 25° 3' 14".

g g assumed as 28° ; not 25°.

h g assumed as 20° 27' ; not 20° 57'.

i, j, k, I Hour assumed as 6; not 5.

(46)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

47

17S3 APRIL 5— Continued

Zi.ro corr. = + 1' 39". 3.

Nairn-

Mag.

T

App. sid. time

Clock coir.

n tan i!

1

i-f

Rofr.

<?'

It m s

h m s

m s

s

s

O ' //

' //

„

a) 13 V'Cancri. .

7 4 30.2

8 (i 16.66

— 3

8. 02

— 1.99

+ 0.01

+ 26 26 51.5

— 0 23. 8

4 0.8

16? " . .

7 9. 8

2 56.69

3

8.62

1.32

— 1.30

+ 18 10 11.4

34.1

— 1.5

IT Q " . .

12 9. 3

7 57.nl

3

8.02

0.69

— ::. 18

+ 9 49 34. 3

46.8

— 1.8

8. 9

13 18.9

9 6.80

3

8.61

0.69

— 3. 14

+ 9 48 32.0

46.8

— 1.8

8

14 2.6

9 50. 62

3

8.61

0.69

— 3.08

4- 9 47 47. 0

46.8

— 1.8

20 dl " . .

18 18.6

14 7. 32

3

8.61

1.38

— 1.31

+ 1* 59 51.2

33. 1

— 1.3

21 " . .

19 29.1!

15 18.51

3

8.61

0.80

— 4. S8

+ 11 18 11.3

44.4

— 1.9

22 " . .

20 36.3

16 25.39

3

8.61

2. 1 -

-j- 0.81

+ 28 34 23.7

21.3

4 1-5

30 «» " . .

26 0.9

21 50.88

3

8.60

1.85

— 0.44

+ 24 40 47.11

4 0.3

32 v* " . .

27 30.6

23 20. 82

3

8.60

1.85

— 0.44

+ 24 47 20.9

25. 8

4 0.3

35 " . .

30 11.5

26 2.16

3

8.60

1.48

— 1.21

+ 20 18 18. 4

31.4

— 1.0

43 7 " . .

38 2.8

33 54. 76

3

8.60

1.63

— 0.98

+ 22 13 1.4

28.9

— 0.5

52 " . .

7

46 20.3

42 13.63

3

8.60

1 . 20

— 1.45

-f- 16 46 41.6

30. 1

— 1.7

6

50 44.7

46 38.76

3

8.60

1.89

— 0.31

+ 25 14 49.8

25.2

4 0.5

7.8

53 21.0

49 15.49

3

8.59

1.85

— 0.44

+ 24 46 21.7

25.8

4 0.3

G9 i) " . .

57 18.0

53 13. 14

3

8.59

1.89

— 0.31

+ 25 16 29.8

25.2

4 0.4

8.9

7 59 25. 1

55 20. 58

3

8.59

1.90

— 0.26

+ 25 26 8. 0

25.1

4 0.5

8

8 1 58.7

8 57 54.60

3

8.59

2.20

+ H.02

+ 28 50 37.5

21.1

4 1-6

8

4 17.5

9 0 13.78

3

8.59

2.35

+ 1.25

+ 30 24 16. 1

19.3

4 2.0

TT f " . .

+ 22 50 50. 9

28.2

— 0.2

80 " . .

7 0. 2

2 50. 93

3

8.59

1.37

— 1. 32

+ 18 54 20. 4

33.3

— 1.3

82 " . .

6

10 29.2

6 26. 50

3

8.59

1.13

— 1.50

+ 15 48 51.4

37.6

— 1.8

9

11 7.4

7 4.80

3

8.59

1.14

— 1.50

4- 15 52 57. 6

37.5

— 1.8

83

14 5.8

10 3.69

3

8.58

1.35

— 1.34

4- 18 35 49. 6

33.7

— 1.4

6 Leon. Min.

18 10. 1

14 8. 66

3

8.58

1.96

— 0. 09

+ 26 4 43.7

24.3

4 0.7

1 k Leonis .

19 12.4

15 11.13

3

2.05

+ 0.23

+ 27 5 5.8

23.1

4 i.o

2 u " . .

24 4.1

20 3. 63

3

0.70

— :;.:.<; + 9 58 35.6

46.7

— 1.8

4)4?. " . .

26 31.2

22 31.13

3

8.58

1.77

— 0.68

4 23 53 41.9

26.9

0.0

6 A " . .

6

+ 10 38 49. 1

45.5

— 1.9

8.9

30 29. 8

26 30.38

3

8.58

1.07

— 1.57

4 15 0 49. 5

38.8

— 1.9

7 " . .

31 12.2

27 12.90

3

8.57

1.09

— 1.54

4 15 19 19.0

38.4

— 1.9

11 " . .

6.7

33 21. 9

29 22. 96

3

8.57

1.09

— 1.55

4 15 18 4.8

:;-. 1

— 1.9

13 " . .

36 18.2

32 19.74

3

8.57

2.03

— 0.15

+ 26 52 12. 0

23.4

4 1.0

k; v " - -

39 4.7

35 6. 70

3

8.57

1.07

— 1.57

4 14 59 19. 8

38.8

— 1.9

17 e " . .

40 40. 1

36 42. 36

3

8.57

1.84

— 0.45

4 24 44 4H.7

25.9

4 0.3

8

42 12.2

38 14.71

3

8.57

1.83

— 0.49

4 24 37 18. 6

26.0

+ 0.3

8.9

46 41. 1

42 44. 35

3

8.56

1.90

— 0. 27

4 25 23 36. 0

25.1

+ 0.5

27 v " . .

53 41. 0

49 45.40

3

8.56

0.96

— 1.72

4 13 27 23. 0

41.1

— 2.0

29 jt " . .

55 51.4

51 56.16

3

s.r.o

0.64

— 1.67

+ 9 3 46.6

48.2

— 1.8

428 Mayer

8 59 10.9

55 16.19

3

8.56

0. 77

— 4.36

4 10 56

45.2

— 1.9

30 7} Leonis .

9 2 36.2

9 58 42. 05

3

8.56

1.28

— 1.40

+ 17 47 42.6

34.9

— 1.6

Regulus .

3 54.8

10 0 0.86

3

8.56

0.92

— 1.79

4 13 0 14.5

41.9

— 2.0

34 Leonis -

7 3.4

3 9.98

3

8.56

1.03

— 1.62

4 14 24 8. 4

39. 7

— 2.0

35 " . .

11 34.9

7 42.24

3

8.55

1.83

— 0.51

4 21 33 10.0

26.2

+ 0.2

36 ," " . .

11 41.0

7 48.36

3

8.55

1.82

— 0.53

4 24 28 17.2

26.3

+ 0.1

41 y " . .

15 4.4

11 12.32

3

1.53

— 1.15

4 20 54 48.7

30.8

— 0.8

42 " . .

17 13.6

13 21. 87

3

1.15

— 1.49

4 10 2 45.(1

37. 3

— 1.8

44 " . .

20 53. 5

17 2.37

3

8.55

0.69

— 3. 30

4 9 51 59.1)

47.0

— 1.8

c) 45 " . .

23 17.4

19 20. 66

3

8.55

0.77

— 4.27

4 10 50 49. 4

45.3

— 1.9

46 i " . _•

27 38.6

23 48.58

3

8.55

1.08

— 1.55

4 15 13 41.4

38.5

— 1.9

47 p " . .

28 27. 7

24 37.81

3

8.54

0.73

— 3.95

4 10 24 8.7

46.0

— 1.8

50 " . .

34 17.1

30 28. 17

3

8.54

1.24

— 1.42

4 17 14 1.4

35. 6

— 1.7

35 Sextantis .

39 4.6

35 10.40

3

8.54

0.41

— 0.911

+ 5 52 3. 2

54. 0

— 1.5

53 I Leonis .

9 44 53. 4

10 41 6.22

— 3

8.54

— 0.83

— 4.75

4 11 40 21.1

— 0 44. 0

— 2.0

i7sa

APRIL 5

'

Zei

o corr. =41' 34". 8.

d) 123 f Tauri . .

4 24 37.5

5 27 51. 18

— 3

6.83

— 1.53

— 1.14

4 20 58 32.5

— 0 30. 3

— 0.8

50 f Ononis

29 41.2

32 55. 32

3

6.83

+ 0. 15

+ 1.08

— 2 4 52.2

1 10.4

— 0.7

58 a " . .

4 43 18.5

46 34. 36

3

0. -J

— 0.52

— 1.23

4 7 20 17.8

(1 .-,(1.0

— 1.6

62 Virginis .

12 7 34.4

13 12 3.74

3

6.52

+ 0.72

+ 1.79

— 10 9 44.8

1 34.9

— 0.4

67 a "

12 12 22.8

13 16 52.93

— 3

6.52

+ 0.71

+ 1.79

— in 1 34.9

— 1 34.6

— 0.4

a Div. assumed as

23; not

24.

b Miu. of T

I assumed as i

6; not 28.

£ T. Ill assumed a

s 23m. ; not 22m.

d Min. assur

aed as 24m. ; not

0m. : and £ assi

med as 27°

52' ; not 27= 51',

(47)

48

GOULD — REDUCTION OP D AGELET S OBSERVATIONS.

1783 APRIL,

7 — Contiuued

Zero corr. = + 1' 34". 8.

Name

Mag.

T

App. sid. time

Clock corr.

77 tan (!

?

s—i

Refr.

?'

h m s

h m s

771 S

s

O 1 II

/ //

//

71 Virginis .

+ 11 55 53. 1

— 0 43. 0

— 2.0

75 " . .

12 19 52. 6

13 24 23. 96

— 3

6.51

+ 1.02

+ 1.58

— 14 14 19.5

1 52.1

— 0.4

78 " . .

+ 4 45 56.6

0 55.4

— 1.4

81 " . .

6

24 47.8

29 19.97

3

6.51

+ 0.47

+ 1.87

— 6 45 53. 1

— 15 20 2. 0

1 23.5
1 57.6

— 0.5

— 0.5

a) 84 o " . .

30 46.4

35 19.55

3

6.51

— 0. 32

— 0.58

+ 4 38 10.2

0 55.6

— 1.4

85 " . .

— 14 40 4.2

1 54.1

— 0.5

b) 87 " . .

35 30.4

40 4.33

3

6.50

+ 0.40

+ 1.81

— 5 45 14. 3

1 20.4

— 0.5

89 " . .

— 17 2 19.1

2 7.2

— 0.5

90 P " . .

— 0 26 19. 5

1 6.4

— 0.8

92 " . .

43 58. 8

48 34. 12

3

6.50

— 0.15

— 0.12

+ 2 6 21.3

1 0.7

— 1.0

6.7

47 55. 0

52 30. 97

3

6.50

— 0.26

— 0.39

+ 3 43 21.8

0 57.3

— 1.3

93 r " . .

+ 2 35 21.9

0 59.7

— 1.1

94 " . .

6

53 19.2

13 57 56. 06

3

6.49

+ 0.55

+ 1.88

— 7 51 9.5

1 27.0

— 0.5

96 " . .

55 57. 4

14 0 34. 69

3

6.49

0.65

+ 1.83

— 9 18 5.2

31.9

— 0.4

98 k " . .

12 59 48. 9

4 26.82

3

6.49

0.65

+ 1.83

— 9 15 30. 4

31.9

— 0.4

99 i " . .

13 3 7.7

7 46. 16

3

6.49

0.35

+ 1.73

— 4 57 51.0

18.2

— 0.5

103 v* " . .

9 18.0

13 57. 47

3

6.48

0.07

+ 0.74

— 0 59 54. 0

7.7

— 0.7

105 <p " . .

15 29.2

20 9. 69

3

6.48

0. 09

+ 0.83

— 1 15 23.0

8.3

— 0.7

107 /i " . .

30 2.3

34 45. 18

3

6.47

+ 0.33

+ 1.70

— 4 42 45. 1

17.3

— 0.5

c) 108 " . .

13 32 53. 4

14 37 36.75

— 3

6.47

— 0.11

— 0.03

+ 1 37 51.6

1 1.8

— 1.0

rf)110 " . .

+ 2 56 21. 2

— 0 59. 1

— 1.2

irsa

APRIL 8

Zero corr. = *f- 1' 41". 0.

66 a Geniinonim

6 16 23. 8

7 23 52. 01

— 3

5.79

— 2.50

+ 1.39

+ 32 19 25. 0

— 0 17. 0

+ 2.5

77 k " . .

26 58. 1

34 28. 05

3

5.78

1.83

— 0.41

+ 24 52 56. 0

25.5

+ 0.4

78^ " . .

27 38.8

35 8. 86

3

5.78

2.14

+ 0.79

+ 28 30 47. 8

21.2

+ 1.5

e) 2 u] Cancri .

43 22. 7

50 55.34

3

5.77

1.92

— 0.12

+ 25 57 3. 8

24.2

+ 0.7

6 " . .

45 44.7

53 17.73

3

5.77

2.14

+ 0.73

+ 28 21 57.8

21.4

+ 1.4

8 " . .

48 33.7

56 7.19

3

5.76

0.96

— 1.69

+ 13 42 18. 8

40.3

— 2.0

/) 10/*» " . .

50 33.4

7 58 7.22

3

5.76

1.61

— 0.99

+ 22 10 42.2

28.7

— 0.5

e) ia " • ■

+ 14 14 34.5

39.5

— 2.0

15 V-3 " . .

6 55 13.5

8 2 48. 09

3

5.76

2.30

+ 1.22

+ 30 16 14.2

19.2

+ 1.9

]7 3 " . .

7 0 19.3

7 54.73

3

5.76

0.68

— 3.19

+ 9 49 34. 3

46.3

— 1.8

18 " . .

2 23.8

9 59.58

3

5.76

2.09

+ 0.52

+ 27 53 8. 0

21.9

+ 1.3

h) 19 a " . .

+ 24 40 18.8

25.7

+ 0.3

20 d1 " . .

6 27.9

14 4. 34

3

5.75

1.36

— 1.31

+ 18 59 50. 6

32.8

— 1.3

21 " . .

7 38.7

15 15.33

3

5.75

0.79

— 4.89

+ 11 18 11.3

44.1

— 1.9

23 02 " . .

9 9.2

16 46. 08

3

5.75

2.06

+ 0.42

+ 27 36 35.4

22.2

+ 1.2

29 " . .

12 1.7

19 39.05

3

5.75

1.06

-r 1.58

+ 14 53 58.7

38.5

— 1.9

30 u3 " . .

14 10.4

21 48.10

3

5.75

1.82

— 0.44

+ 24 46 43.6

25.6

+ 0.3

32 j)4 " . .

15 39.6

23 17.54

3

5.74

1.82

— 0.44

+ 24 47 20. 9

25.6

+ 0.3

35 " . .

18 20. 5

25 58. 88

3

5.74

1.46

— 1.21

-j- 20 18 17.0

31.2

— 1.1

349 Mayer . .

18 45. 4

26 23. 85

3

5.74

1.48

— 1.19

+ 20 29 19. 0

30.9

— 1.0

i) 37 e2 Cancri . .

21 52.4

29 31.41

3

5.74

0.70

— 3.90

+ 10 18 21.4

45.7

— 1.8

363 Mayer . .

6

24 50. 6

32 30. 05

3

5.74

1.48

— 1.18

+ 20 36 56. 8

30.8

— 0.9

43 y Cancri .

26 11.7

33 51.37

3

5.74

1.61

— 0.98

+ 22 13 4. 6

28.7

— 0.5

46 " . .

27 28.2

35 8. 08

3

5.73

2.42

+ 1.34

+ 31 26 54. 3

18.0

+ 2.3

48 »' " . .

28 59.5

36 39.63

3

5.73

2.24

4- 1.10

+ 29 31 6.9

20.1

+ 1.8

50 A* " . .

30 30.4

38 10.78

3

5.73

0.90

— 1.80

+ 12 52 38. 8

41.7

— 2.0

52 " . .

7

34 28.8

42 9. 83

3

5.72

1.19

— 1.45

-f- 16 46 40. 0

35.9

— 1.7

7

36 50.8

44 32.22

3

5.72

2.08

+ 0.46

+ 27 42 44. 2

22.4

+ 1.3

59 o2 Cancri . .

38 57.2

46 38.97

5

5.72

2.64

+ 1.39

+ 33 42 35. 1

15.5

+ 2.9

j) 63 o2 " . .

40 54.0

48 36. 12

3

5.72

1.16

— 1.47

+ 16 23 8.7

36.5

— 1.8

69 v " . .

45 27. 1

53 9. 94

3

5.72

1.86

— 0.31

4- 25 16 25. 0

25.0

+ 0.4

72 k

50 20.5

8 58 4. 14

3

5.71

2.33

+ 1.26

+ 30 29 35. 3

19.0

+ 2.0

19 Ursoa Maj.

6

7 57 16. 1

9 5 0.88

3

5.71

2.82

+ 1.32

+ 35 29 37. 2

13.6

+ 3.2

38 Lyncis

8 0 41.1

9 8 26.44

— 3

5.71

— 3. 05

+ 1.27

+ 37 41 5.6

— 0 11.3

+ 3.6

a Ob'n of g rejected.

d g assumed as

45° 54'

47"; nc

t 45° 54' 27". g D

v. assumed as 36 1

1 10; not 36 14 9.

b Name assumed as 88 Virginis ; not 87 Vir-

and Div. as

sumed

as 48

15 9; not 48 h g l

ujBomed as 24° 10' 4

6"; not 24° 11' 46".

ginia.

15 8.

i Tr

ansits over T.s I a

nd II assumed as re-

c Div. assumed as 50 ; not 54.

£ Div. assumed I

s 24 6 13 ; not

24 6 11. c

orded over T.s II a

nd III.

f Div. assumed a

a 37 7 13 ; not

37 7 3. j T

[II assumed as 41m

18s.;not41m. 28s

(48)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

49

17M.t APISH,

S— Continued Zero con

1'41".0.

Nairn1

Mag.

T

App. siil. time

Cloc

k corr.

n tan 6

'1

s"— «

Reft.

'/'

It III s

h tit s

m s

s

s

O ' II

/ //

//

40 Lyneis

8 3 10.3

9 10 56.05

— 3

5.71

— 2. 79

4 1.33

+ 35 16 28.4

— 0 13.8

4 3.1

6 Lion. Min.

6

6 19.2

1 1 5. 47

3

5. 70

1.94 1- 0.09

-j-26 4 41.7

24.0

4 0.7

7

8 36.5

16 23.15

3

5.70

3.02 l-f- 1.27

4- 37 21 44.0

11.7

4 3.5

2 u I.i onis -

12 13. 1

20 0.38

3

5.71

0. 70 — 3. 56

+ 9 58 35.0

46. 1

— 1.8

b) 3 '• . .

12 16.4

20 3.65

3

5. 69

0.64 — 1.70

4 9 6 35.3

47. 6

— 1.8

4 ■/ " . .

14 40.1

22 27.75

3

5.69

1.75

— 0.68

4 23 53 37.0

26.7

0.0

till " . .

15 43. 5

23 31.32

3

5. 69

0.74

— 4. 04

+ in 38 44.8

45. 2

- 1.9

7 " . .

19 21.4

27 9, 82

3

5.69

1.08

— 1.54

4 15 19 14.0

38. 1

— 1.9

e) S " . .

20 23.8

28 12.39

3

5. 69

1.24

— 1.41

+ 17 22 57.2

35. 2

- 1.7

13 Leon. Min.

6

24 54. 1

32 43. 43

3

5.68

2.88

4 1.30

+ 36 3 1.2

13.1

4 3.3

7.8

26 28. (i

34 is. 19

3

5.68

2.84 + 1.32

+ 35 40 52.0

13.5

4 3.2

IT i Leonis .

28 49. 1

36 39.07

3

5.68

1.82

— 0.4.'.

+ 24 44 35.0

25. 7

4 o.:;

18

30 0.3

:;? 50.46

3

:,. 68

0.89

— 2. 02

4 12 46 57.9

41.9

— 2.0

19

7

31 3. 9

38 54.23

3

.".. i ;a

0.88

— 2. 90

4 12 32 48.0

42. 2

— 2.0

7.8

33 6. 9

40 57.57

3

5.68

1.88

— 0.24

4 25 32 28.0

24.7

4 0.6

22 s

34 49.9

42 40.85

3

5.68

1.88

— 0.28

4 25 23 31.2

25.0

4 ii.:,

27 v " .

41 49.7

49 41.. so

3

5. 67

0. 94

— 1.72

4 13 27 12.7

40.8

— 2. 0

•-".1 - " . .

44 0.7

51 53. 16

3

5.67

0.63

— 1.68

4 9 3 44.6

47.8

— 1.8

8.9

47 3. 2

54 56. 16

3

5.67

0.64

— 1.82

4 9 15 17.5

47.5

— 1.8

30 ;/ " . .

50 44. 8

58 38. 37

3

5.66

1.26

— 1.40 4- 17 47 38.0

34.6

— 1.6

Regulus .

52 3. 7

9 59 57. 49

3

5.60

0. 91

— 1.79

4 13 0 lo.l

41.5

— 2.0

i!) 31 Leonis -

55 12.5

10 3 6.81

3

5.66

1.02

— 1.62

4 14 24 1.4

40.3

— 2.0

33 / Orsae Maj.

8 59 11.8

7 6.76

3

5.66

3.81

+ 1.68

4 43 57 47.0

4.9

4 4.9

39 Leonis .

9 (1 30.3

8 25. 48

3

5.66

1.77

— 0.60

4 24 9 59.9

26.4

0.0

411 " . .

3 8.0

11 3.60

3

5. 65

1.48

— 1.19

4 20 32 44.0

30.9

— 0.9

27 Leon. Min.

6

5 45. 9

13 41.93

3

5.65

2.76

+ 1.34

-j- 34 58 20.0

14.3

4 3.1

" . .

6

6 50. 2

14 46.41

3

5. 65

2.74

4 1.35

4 34 47 4. 4

14.4

4 3.1

30 " . .

4.5

8 37.8

16 34.31

3

5.65

2.76

4 1.34

4 34 52 lo.ii

14.3

4 3. 1

7

13 14.2

21 11.47

3

5.64

3.02

+ 1.27

4 37 21 28. 2

11.7

4 3.5

34 " . .

5

16 14.6

24 12.36

3

5.64

2.88

+ 1.30

4 36 4 29.2

13.1

4 3.3

35 " . .

5.6

19 2.3

27 0.52

3

5.64

3.02

+ 1.27

4 37 25 13.0

11.7

4 3. 5

38 "■"...

6

21 50.5

29 49. 18

3

5.64

3.19

+ 1.28

4 39 0 35.4

10.0

4 3.9

4.5

25 8.7

33 7.9'.'

3

5.64

2.54

+ 1.40

4 32 48 7.2

16.6

4 2.6

42 " . .

5

28 54. 4

36 54.24

3

5.63

2.45

4- 1.38

-)- 31 47 47.5

17.7

4 2.4

53 1 " . .

33 3. 2

41 3. 72

3

5.63

0. 82

— 4.75

4 11 40 16.0

43.6

— 2. o

54 " . .

38 57; 9

46 59.39

3

5. 62

1.92

— 0.14

4 25 52 47. 8

24.4

4 0.7

59 c " . .

44 36.0

52 38. 42

3

5. 62

0.50

— 1.21

4 7 14 52.2

50.9

— 1.6

63 x "...>

48 55. 2

56 58.33

3

5.62

0.59

— 1.49

4 8 29 17.2

48. 9

— 1.7

65 " . .

50 53.9

10 58 57.36

3

5.61

0. 22

— 0.30

4 3 7 0.0

0 58.9

— 1.2

8

56 7.8

11 4 12. 12

3

5.61

0.06

4 0.14

4 0 45 13.0

1 4. 0

— 0.9

69 " . .

57 41.7

11 5 46.28

— 3

5.61

— 0.07

+ 0.06

4 1 5 43.4

1 3. 3

— 0.9

73 » "

4 24 15 11.9

— 0 26. 3

4 0.1

1783

APKII. » Zero corr. = + V 41". 4.

e) a Persei .

2 1 17.7

3 12 0.50

— 3

4.49

— 4.55

+ 3.26

4 49 2 41.8

— 0 0.2

4 5.6

87 c Tauri -

3 15 41.1

4 26 36. 18

3

4.40

1.14

— 1.49

4 16 2 25.8

36.6

— 1.8

/) 112/3 " - -

4 4 38.3

5 15 41.42

3

4.35

— 2. 14

4 0.74

4 28 23 7. 6

0 21.2

4 1.3

46 f Ononis

17 11.3

28 16. 18

3

4.33

+ 0. 10

+ 0.86

— 1 21 53.4

1 8.0

— 0.7

58 a ""...

4 35 23.7

5 46 31.87

3

4. 32

— 0. 51

— 1.23

4 7 20 13.9

0 50.3

— 1.6

13 /i Gcniinoruni

5 1 44.7

6 12 57.20

3

4.30

1.64

— 0. 91

4 22 35 19. 2

28. 1

— 0. 3

21; '*■"'-.'-

17 2.7

28 17.71

3

4.28

— 1.18

— 1.47

4 16 33 4. 1

0 36.1

— 1.7

Shins - .

5 27 20.3

6 38 37.00

3

4.27

+ 1.16

+ 1.67

— 16 25 40.6

2 3.0

— 0.5

t'li a 1 M-minorum

6 12 25.9

7 23 50. 01

3

4.22

— 2. 50

4 1.39

4 32 19 30.0

0 16.9

4 2.5

Procyon .

19 37. 0

31 2.29

3

4.21

0.40

— 0.87

4 5 45 13.0

53. 1

— 1.5

i') 78 3 Geminornm

23 41.3

35 7.26

3

4.21

2.14

+ 0.79

4 28 30 51.2

21.1

4 1.5

2 i.j1 Cancri .

39 24.9

50 53.44

3

1.20

1.92

— ii. 12

4 25 57 3. 0

24.1

4 0.7

6 " . .

41 47.4

7 53. 16. 33

3

4.20

2.14

4 0.73

4 28 21 58. 5

21.3

4 1.4

It) 15 V3 " - •

51 16.2

8 2 46.69

3

4.19

2.30

+ 1.22

4 30 16 10.2

19. 1

4 1.9

17 1 " . .

6 56 22. 1

8 7 53. 73

— 3

4. 18

— 0.68

— 3.19

4 9 49 30.3

— 0 46.2

— 1.8

a Transit overT. 11 assu

ii -4 a- re

corded over <

t § assumed as 3s

1 .

: not 34=27' 15". and f g assumed as 20° 37' 56

aol 20° 17' J

S": and

T. Ill

Div. assumec

as 36 11 15 ; not 36 12 0. " Div. assumed as 21

3 1 : not 21 1

!4.

6 T. Ill assumed us 40a.

0.0 i

c

§ assumed as89

48' 22'

; not 89= 48' 12", and g IL n assumed as 23m

; n "t 21 in.

c g .1-- I a 31 J- 9

; UOt 31'

'- :

Div. assumec

as ',!.'»

2 11 ; not 95 12 1U. h T. II assumed as 16s.:

; not 56s.2.

(49)

50

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

17S3 APRIL, 9 -Continued

Zero corr. =--\- V 41". 4.

Name

Mag.

App. sid. time

Clocl

■ coir.

n tan 6

1

m s

s

s

— 3

4.18

— 3.79

+

1.66

3

4.17

2. 99

+

1.27

3

4.16

2.99

+

1.27

3

4.16

2.62

+

1.40

3

4.15

— 2. 61

+

1.40

3

3.87

+ 0.70

+

1.79

3

3.87

0. 13

+

1.04

3

3.86

+ 0.30

+

1.63

3

3.86

— 0.24

0.30

3

3.86

— 0.22

—

0.33

3

3.85

— 0.32

—

0.58

3

3.84

r-f- 0.38

+

I.HI

3

3.84

— 1.26

1.40

— 3

3.83

— 1.20

—

1.44

C-i

Refr.

31 Lyncis

32 " . .

33 " . .
1 Leon. Min.
3 " . .

67 a Virginis

76 /. " .
80 P " . .

84 o Virginis

6

6.7
8

6.7
6

7

59 31.6
10 57. 3
12 17.7

16 15.3

17 53.0
4 28.7

10 22. 2

14 55. 1
17 26. 0
20 6.8
22 52. 0
26 44. 0
32 48.5
12 36 52. 0

h m s
8 11 3.45

22 31.03

23 51.6:,
27 49.90

8 29 27. 87

13 16 50. 65

22 45. 12

27 18.77
29 50. 08
32 31.31
35 16.96
39 9.60
45 15.10
13 49 19.27

+ 43 50

+ 37 8
+ 37 7

+

33 31
33 27
10 1
1 56
9 2
4 17
3 28

3 15

4 37

5 37
17 47
16 56

4.6
33.6
18.8
23.1
42.6
19.6
50.3
41.2
49.2
36.0
38.0
11.4
14.9

6.0

— 0

5.
11.
11.
15.

0 15.

1 34.
10.
31.

1 17.

0 58.

59.

0 56.

1 20.
0 34.
0 36

+ 4.9
3.5
+ 3.5
+ 2.8
2.7
0.4
0.7
0.4
0.6
1.2
1.2
1.4
0.5
1.5
1.7

17S3 APRIL 12

Zero corr. = + 1' 38".9.

Venus .

a)

b) Regnlns

37 Leonis .

40 " .

0

d) 449 Mayer

46 i Leonis .

48 " .

60 6 " . .
52 Leon. Min.
67 Leonis -

70 6 " . .

73 n "

78 t " . .

81 " . .

85 " . .

90
94/3

6.7

6

6.7

7.8
7.8

1 34
8 25
30
36
44
45
47
48
56

8 59

9 2
10
13
30
34
36
39
42
43
51
53
57

9 59

10 0

o

13
17

20

10

9.3
7.3
9.0
15.2
26
15.6
19.3
20.4
35.2
59.0
50.2
31.6
37.8
1.7
40.2
25.4
36.1
6.5
46.2
53.6
31.3
36.5
24.7
43.6
37.0
10.4
9.7
29.7

2 56

9 48

53

9 59

10 8
8

10
11
20
23
26
34
37
53
in .>

11 0
3
5
7

15
17
21
23
24
26
37
41
11 44

37.36
42. 87
45.39
52. 60
5. 24
54.47
58. 51
59.77
15.93
40. 29
31.96
14.62
21.33
47. 92
27. 18
12.67
23.89
54. 70
34. 67
43.41
21.38
27.25
15.75
34.86
28.57
3.70
3.66
24.21

0.42
0.16
0.15
0.15
0.15
0.15
0.14
0.14
0.14
0.14
0.14
0.13
0.13
0.11
0. 1 1
0.11
0.11
0.11
0.10
0.10
0.10
0.09
0.09
0.09
0.09
0.09
0.08
0.08

1.18
1.51
1.65
0.90
1.03
1.50
1.46
1.47
1.08
1.06
0.55
0.13
0. 15
1.52
1.96
1.89
1.09
1.16
1.01
0.81
1.24
1.16
1.34
1.36
1.26
1.08
1. 10
1.54

1.44
1.11

0.86

- 1.79
1.59

- 1.13

— 1.19

— 1.18

- 1.53
1.55

- 1.38

— 0. 10

— 0.12

— 1. 10
+ 0. 10

- 0.16
1.52

- 1.46

- 1.61

- 4.69

- 1.41
- 1.46

1.32
1.30
1.39
1.53
1.5(1
1.09

+ 16
21
■f 22
+ 13
+ 14
+ 21
+ 20
+ 20
+ 15
+ 15
+ 8
+ 1
+ 2
+ 21
+ 26
+ 25
+ 15
+ 16
+ 14
I- 11
17

+ 16
+ 18
+ 19
+ 17
+ 15
+ 15
+ 21

49

30.0 -

10 40.9

58

4.2

0

11.9

47

8.1

4

7.2

32

40.0

36

10.0

25 41.8

13 34.4

3

0.3

58 45. 0

7

59. 0

19

9.4

41

2.4

48 26. 9

33 28. 0

35 35.5

28

11.7

42

16.5

37

38.4

35 28. 8

55 35.0

10 411. II

58 27. 0

26

53.7

45

54.4

35 40. 0

0 35.8
30.0
27.7
41.3
38.6
30.1
30.8
30.7
37.7
38.0

0 49.2

1 0. 9
1 0. 6
0 29.9

23.3
24.3
37.5
36.1
39.2
43.4
34.6
36.1
32.9
32.6
34.2
37.7
37.2
0 29. 3

1.7
0.8
0.2
2.0
1.9

||
ii
0
1
I

1.

1.0
1.0
0.7
+ 0.9
+ 0.6
1.8
1.7
2.0
2.0
1.6
1.7
1.3
1.3
1.5
1.9
1.8
0.6

17S3 APRIL 13

+ 1' 40".4.

c)

/)

79
80
82
83

6
41

7
10
11

Cancri .

"

6

(c

7.8

Leon. Min.

Lyncis

Leon. Min.

" : :

4.5

32 31.0

33 30.5
35 23. 7
38 52.6
42 29.2
46 33. 5
49 58.5
53 9.1
56 27. 6
58 10.2

8 59 54. 48

9 0 54.

14

2 47.

65

6 17.

12

9 54

32

13 59. 29

17 24.

85

20 35

97

23 55.01

9 25 37.86

2 59. 49

2 59.49

59. in

59.49

59. 49

59.49

59.49

2 59.48

2 59.48

2 59. 48

— 1.62

— 0.87

1.62

— 0.88

1.32

— 1.32

1.09

— 1.50

1.30

— 1.35

1.88

— 0. 08

4.06

+ 2.58

2.66

+ 1.37

2.94

+ 1.27

— 2.88

+ 1.29

+ 22
+ 22
18

h 15
+ 18
+ 26
46

f 34
+ 37
+ 36

53 35.0

50 47. 0

54 15.0

48 47.9

35 46.4

4 45.7

30 54.2

34 31.4

19 36.2

45 29. 9 •

0 27.8
27.8
33.0
37.1
33.3
23.9
2.3
14.5
11.6

0 12.2

- 0.2
0.2

- 1.3

- 1.
1.

f 0.
+ 5.
+ 3.0
+ 3.5
+ 3.4

a T. Ill assumed as 30nl.; not'31in.
b Div. assumed as 38; not 37."

c T. Ill assumed as 48m. 45s. ; not 48m. 43s.
d Div. assumed as 35-10 8; not 35 14 H.

Div. assumed as 12.4 ; not 12 14.

T. Ill assumed as 58m. 39s ; not 58m. 49s.

(50)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

51

17S3 APRIL 13— Continued Zerc

corr. = + 1' 40".4.

Name

Mag.

T

\pp. sid. time

Clock corr.

n tan i5

1

r— 4

Refr.

?'

It m s

h m s

m s

s

s

c / "

1 //

//

[2 Leon. Min.

8 2 21.3

9 29 49. 68 -

- 2 59. 48 ■

-2.82 + 1.30

4- 36 16 54.0

- 0 12.7 4- 3.3

13 " . .

5 8.1

32 36.94

2 59. 1-

2.80* + 1.30

■f 36 3 8. 4

13.0 4-3.3

10 y Leonis .

7 27.7

34 56.92

2 59. 48

1.03 -

- 1.57

4- 14 59 15.2

3S.4 -

- 1.9

'Jii

13 12.5

40 42. 66

2 59. 47

1.57 ■

- 0. 99

•f 22 9 42. 8

28.6 -

-0.5

26 " . .

6.7

21 54. 1

49 25. 69

2 59. 47

1.12 -

- L.48

4- 16 13 48.8

36.5

-1.6

431 Mayer -

7.6

29 23. 6

56 56. 42

2 59. 46

1.16 -

- 1.45

4- 16 47 12.8

35.7 ■

- 1.7

Regulus -

32 18.2

9 59 51.50

2 59. 46

n. 89

- 1.79

4- 13 0 9. 0

41.2 -

-2.0

33 /. Ursse Maj.

39 25. 7

10 7 0.17

2 59. 46

3.71

-f- 1.68

4- 43 57 49. 0

4.9

4-4.9

41 y Leonis -

43 27. 7

1 1 2. 83

2 59/46

1.47 ■

- 1. 15

4- 20 54 38.7

30.3 •

- 0.8

28 Leon. Min.

47 4.0

14 39.72

2 59. 46

2.68

4- 1.35

4- 34 47 6.8

14.4

4- 3. 1

a) 30 " . .

5

48 52. 2

16 28.21

2 59. 45

2.68

4- 1.34

4- 34 52 10.0

14.3

4- 3.1

'<)

7.8

51 42.3

19 ]>.:-

2 59. 45

0.31

- 0. 59

4- 4 39 1.2

55.4

— 1.4

31 Sextantis .

7

54 42. 5

22 19.48

2 59. 4."»

0.22

— 0. 32

4- 3 14 45.4

:>-. ;;

— 1.2

<;)

7.8

8 59 18. 1

26 55.84

2 59. 45

0.22

— 0. 34

4- 3 18 19.6

58.9

— 1.2

457 Mayer .

7

9 3 40. 1

31 24.57

2 59. 4.">

0.67

— 3. 51

4- 9 57 5. 0

46.1

— 1.8

7

6 19.3

33 58. 19

2 59. 45

0.78

— 5. 66

4- 11 28 10.4

43.6

— 1.9

52 k Leonis .

10 18.6

37 58. 15

2 59. 44

1.06

— 1.54

4- 15 19 1.4

37.9

— 1.9

53 1 " . .

13 17.5

40 57. 54

2 59. 44

11.79

— 4. 75

+ 11 40 18.1

43.4

— 2.0

54 " . .

19 12.7

46 53.71

2 59. 41

1. 86

— 0. 14

+ 25 52 47. 8

24.3

4-0.7

59 c " . .

24 50.4

52 32. 34

2 59. 43

0. 49

— 1.21

4- 7 14 51.2

0 50. 5

— 1.6

Gig " . .

27 48. 5

55 30.93

2 59. 43

0.07

+ 11.00

+ 1 9 7.4

1 2.6

— 0.9

65 " . .

31 8.5

10 58 51.48

2 59. 43

0.21

— 0.30

+ 3 6 58.6

0 58.5

— 1.2

6.7

35 40. 3

11 3 24. 03

2 59. 43

1.06

— 1.52

4- 15 33 27. 4

37.6

— 1.8

70S " ...

38 9.7

5 53. 84

2 59. 43

1.14

— 1.46

+ 16 35 34. 1

36.1

— 1.7

53 i Ursse Maj.

41 52.1

9 36.85

2 59. 43

2.48

+ 1.40

4- 32 43 20. 2

16.6

+ 2.7

78 i Leonis .

47 58.3

15 44. 05

2 59. 43

0.80

— 4.69

+ 11 42 16.4

43.4

— 2.0

85 " - .

53 40. 3

21 26.98

2 59. 42

1.14

— 1.47

4- 16 35 26. 8

36.2

— 1.7

90 Leonis .

9 58 40. 1

26 27. 59

2 59. 42

1.24

— 1.39

+ 17 58 27. 0

0 34.3

— 1.5

91 v " . .

10 1 3. 4

28 51.28

2 59. 42

0.02

+ ('.25

-4- 0 21 36. 5

1 4.6

— 0.8

7.8

4 29.6

32 18.04

2 59. 42

0. 13

— 0. 12

+ 2 8 24. 2

1 0.6

— 1.0

6.7

9 13.7

37 2. 92

2 59. 42

1.06

— 1.53

4- 15 26 52. 2

0 37.8

— 1.9

6.7

12 42. 4

40 32. 19

2 59. 41

1.06

— 1.52

+ 15 28 11.0

37.8

— 1.9

94 3 Leonis .

13 13.2

41 3.07

2 59. 41

1.08

— 1.51

4- 15 45 53. 8

37.3

— 1.8

6 .4Vir<rinis .

19 7.5

46 58. 34

2 59. 41

0.64

— 2.56

+ 9 37 57. 0

46.8

— 1.8

7 6 " . .

10 24 0.8

11 51 52.45

— 2 59.41

— 0.32

— 0.63

4- 4 50 53.7

— 0 55.2

— 1.4

irsa

. APRIL

14 Zer

o corr. =4-1' 40". 7.

6G a Geminorum

5 52 40. 5

7 23 44. 13

— 2 58. 64

— 1.43

+ 1.39

-f- 32 19 32. 6

— 0 17. 1

— 2.5

d) Procyon

5 59 51.4

30 56.21

2 58. 04

0. 39

— 0.87

+ 5 45 12. 4

53.7

-1.5

78 3 Geminorum

6 3 56. 6

7 35 2.08

2 58. 63

2.09

+ 0.79

+ 28 30 48. 8

21.3

+ 1.5

17 8 Cancri .

36 36.4

8 7 47.25

2 58. 62

0.66

— 3.18

+ 9 49 33. 0

46.7

— 1.8

39 " . .

6 59 24. 0

30 38.59

2 58. 61

1.46

— 1.17

+ 20 44 32. 0

30.8

— 0.9

43 y

7 2 29.7

33 44. 80

2 58.61

1.57

— 0.98

+ 22 13 1.2

28.8

— 0. 5

48 <> " . .

5 17.6

36 33. 16

2 58. 61

1.18

+ 1.10

4- 29 31 8. 6

20.2

— 1.8

370 Maver . .

8 28.6

39 44. 68

2 58. 60

0.91

— 1.74

+ 13 19 8.4

41.1

— 2.0

371 '"' . .

10 7.7

41 24.05

2 58.60

1.31

— 1.33

+ 18 46 46. 8

33.3

— 1.4

01 Cancri.

16 29.7

47 47. 10

2 58.60

2.31

+ 1.31

+ 31 1 51.8

18.5

+ 2.2

62 o> " . .

16 53.0

48 10.47

2 58.60

1.11

— 1.49

+ 16 7 24.0

37.0

— 1.8

63 o- " . .

17 11.1

48 28.62

2 58. 60

1.13

— 1.47

+ 16 23 7.0

36.6

— 1.8

e) 69 v " . .

21 44.5

53 2.78

2 58. 60

1.81

— 0.31

+ 25 16 28. 5

25.2

+ 0.4

6.7

27 50.7

8 59 9. 87

2 58. 59

1.07

— 1.52

4- 15 33 25. 0

37.8

— 1.8

79 " . .

29 34.5

9 0 54. 06

2 58. 59

1.62

— 0.88

+ 22 50 49. 5

28.2

— 0.2

81 ix " . .

32 5.9

3 25. 87

2 58. 59

1.10

!— 1.50

4- 15 50 33.2

37.5

— 1.8

/) 398 Mayer . .

6.7

37 47.4

9 8.31

2 58. 59

0.85

— 3.45

+ 12 23 2.6

42.7

— 2.0

8.9

41 16.2

12 37.68

2 58. 59

1.37

— 1.26

4- 19 38 54. 5

32.3

— 1.2

8

44 14.3

15 36.27

2 58. 59

1.29

— 1.33

+ 18 36 49.6

33.7

— 1.4

2 u Leonis .

48 30.6

19 53. 27

2 58.59

0.68

— 3.56

4- 9 58 34. 1

46.4

— 1.8

4 1 " . -

50 57.7

22 20.77

2 58. 58

1.70

— 0.68

4- 23 53 39. 9

26.9

0.0

410 Mayer . .

7

54 51.0

20 14.71

2 5-. 58

0.92

— 1.70 + 13 35 42.8

40.8

— 2.0

g) 11 Leonis -

7 57 48.2

9 29 12. 39

— 2 58.58

— 1.05

— 1.54 1+ 15 18 6.6

— 0 38. 3

— 1.9

a T XI assumed as 48u

.; not 41

m.

d Mier. corr. as

uined as — 5;

not + 5, and / g assumed as 36° 28'

2". 7 ; not 36° 2' 28". 7.

6 Still, assumed as 51m

.

iot 52m. 53m.

transits ove

T.s II and I

I assumed as g g assumed as 33° 32'

59" ; not 32° 32' 49".

c g assumed as t

".5 : Hip

45°32'21".5,

recorded ov

>r T.s I and II

and Div. assume

1 as 35 12 9; not 35

and Div. assigned

>s 49 9 5

not 48 9 3.

t £ assumed as

23°; not 33°.

12 8.

(51)

52

GOULD — REDUCTION OP D AGELET S OBSERVATIONS.

trs:t AiMCDI, 14— Continued

Zero coit. — -j- 1' 40".

X: '

«)

<0

16 f Leonis .

18 " .

19 ■' .
23 " .

I'.1:: Mayer .
10 Sextantis
27 v Leonis .

29 7T " .

h)

<0

d)

Mayer .
Leonis -
Regulns

Leonis .
Mayer .

Leonis -

Mayer .
Leonis .
Mayer .
Sextantis

Leonis .
Mayer .
Leonis .

430
30 n

34
438

439

441

445
44
46 i
48

455
50

458
35
37
58 d

467
65
66

7o e " .

74 (p " .

Double

80 Leonis .
17 Virginis

" .

35 Virginis

43 6 Virgiiiis

44 k " .

48 " .

49^ " .

54 " .

1)7 (i "

71 " .

Map;.

7.8
6.7

7.8

9

7.8
6

8.9
8.7

7
6.7

6

7.8
8

6.7

7

7

6.7

6

6.7
6

/) B4o
87
92

8 3 31.5

6 17.9

7 21.4
lo 52.7
14 11.4
16 31.5
18 7.3
•_'i) 18.3

23 37.2
25 9. 1

27 2. 2

28 21.4
31 29.9

34 17. 1

35 58.2

38 20. 2

42 19.8
45 20.7

52 5. 8
54 56.5
57 35. 1

8 58 43. 8

9 3 31.7

5 39.7
7 27.8

20 44.7

24 10.0
27 12.2

29 29. 3
34 13.4

36 56. 6

39 39. 3

43 30. 6
9 46 11.9

10 42 41.0
41) 5. 1
50 0. 3

53 17.0

10 57 20.0

11 1 5. 6
4 8.1
7 54.5

11 40.3

15 44.9
19 31.3
23 45. 8
27 32.4
32 50.9
II 33.4

44 43.9
49 32.4

11 54 7.5

12 3 7. 0

6 31.5

16 19.3
12 20 15.5

App. ski. time

9

10

h in s
9 34 56.63

37 43.49

38 47. 16
42 19.04
45 38.28
47 58.76
49 34.82

51 46. 18

55 5.62

56 37.77

58 31. IS

59 50.60
2 59. 62
5 47.2s

7 28.65
9 51.05

13 51.31

16 52. 7 1 I
23 3s. 91
26 30.08

29 9. 12

30 18.01

35 6.70
37 15.05

39 3. 45

52 22. 53
55 48. 39

10 58 51.09

11 1 8.55
5 53. 28

8 37.09
11 20.23

15 12.16

11 17 42.87

12 14 32.28

17 56.94
21 52.79

25 10.03
29 13.70
32 59. 92

36 2. 92
39 49.91
43 36.36

47 41.61
51 28.63
55 43. 83

12 59 31.05

13 4 50.42
13 31.35

16 45.37
21 34.66

26 10.51
35 11.49
3- 36.55

48 25.96
13 52 22.81

Clock coit,

m s

2 58. 57
2 58. 57
2 58. 57
2 58.57
2 58.57
2 58. .".7
58.57
.57
58. 57
5S. 57
58. 56
58. 56
2 58.56
2 58. 56
2 58. 56

2 58.56

2 58.56
2 58. 56
2 58.55
2 58.55

2 58. 55

2 58. 55

2 58. 55

2 58.54

2 58.54

2 :>. 5 I

2 5s. 53

2 58.53

2 58. 53

2 58. 53

2 58.53

2 58.53

2 5s. 52

2 58. 49

2 58. 49

2 58.49

58 49

58. 49

58.49

58.48

58.48

2 58. 48

2 58. 48

58. 48

58.47

58. 47

58. 47

58. IT

58. 46

58.46

58.46

58. 46

58.46

58. 45

58.45

n tan iS

s

1.03,

0.8S

0.85
0.96

0.61
0. i;s
0.92
0.61
0.61
- 0.61
1.23
0.88
0.99
1.19
1.31
0. 93
0.68
0.67
1.05
0.54
1.27
1.19
0.39
0.58
0.51
0.32
0.32
0.21
0. 01
1.14
+ 0. 17
+ 0.09
0.09
0.34
0.44
0.21
1.09
0. 78
0.68

— 0.68
+ 0. 1 1

0.32

— 0.28

— 0.30
+ o. 18

0. 17
0.64
1.23
0.91
+ 0:68
0.81
0.32
0.31
f- 1.15

— o. 14
0.25

1.57
2. 02
2. 90

— 1.65

— 1.68

— 3.48

— 1.72

— 1.68
+ 1.84

— 1.68

— 1.40

— 1.79

— 1.62

— 1.42

— 1.32

— 1.69

— 3. 64

— 3.21

— 1.56

— I.:;:

— 1.35

— 1.42

— 0.90

— 1.53

— 1.26

- 0.61
0.61

0.30

+ 0.40
1.46
f 1.20

+ 0.53.
0.01

- 0.68
1.04
0.32
1 . 50
5. 73
3.56
3.60

4- 0.96
0.61

- o. :,o
— 0.56
+ 1.21
+ 1.20
+ 1.81
+ 1.58
+ 1.58
+ 1.79

4. 35
0.61
0.57
f 1.65
0.12
0. 39

14
I- 12
+ 12
+ 14
+ 9
9

+ 13
+ 9

— 9
+ 9

'+ 13
+ 14
+ 17
>■+ 18
|+ 13
+ I"
!+ 9
+ 15
+ 8
+ 18
+ 17
+ 5

I

+

+

I

4
3
0
16
2
0
1
5

+ <;

+ 3

+ 15

+ 11

+ '9
+ 10

— 1
+ 4

- 4
4
2
o

- 9

- 17
-13

- 10
+ 'I
+ 4
+ 4

— 16
+ 2
+ 3

+

59 17.2
47 tl. 0
32 46.5

3 IS. 2

4 29.9
56 14.0

27 19.6

3 43.9

4 34.5

1 S. 5
47 41.3

0 13.6
24 6. tl
11 22.0
17 39.5
41 2. 5

2 3.5
51 56.5

13 37.7
2 59. S

22 52.5

14 1.2
51 59.8

38 10.0

28 16.3
45 •",;,. 4
47 25. 4

7 5.2
10 11.8
35 40.4
■J- 38.9

28 18.8

15 37.3
2 21.0

29 51.4

13 51.2
49 53. 6
2s 39.2
58 31. I

0 23. 3

39 42. 4

14 46.2
13 30.0
33 54.0

38 54.o

30 3. 5
3,4 52.4

39 49. s

16 30.6

1 41.6
55 49.5
45 51.4
37 37.7
45 in.-.'

6 22.0
43 18.0

Reft.

0 38.8
42.1
42.4
40.1
48.0
46.6
41.0

0 48.0

1 31.7
0 48.0

34.8
41.7
39.5
35.6
33. 4
40.6
46.4
46.8
38. 1

49. 7
34.0
35. 6
53.9
4S. S

50. ti
55. 11
55.9

0 59.2

1 6.4

0 30.5

1 12.0

7.2
1 3.2
0 55. 4
52.6
58.9
37.6
44.2
46.6

0 46.6

1 10.1
0 :,6.o

57. 1

0 56.4

1 12.7
12.2

1 34.1

2 12.2
1 49.0
1 35.6

43. 6

56. 1

56. 4

7.2

1.6

o 58.0

- 1.9

- 2.0

- 2. 0

- 2.0

- 1.8

- 1.8

- 2. 0

- 1.8

- 0.4

- 1.8

- 1.5

- 2.0

- 2.0

■ 1.7

- 1.3

- 2.0

- 1.8

- 1.8

- 1.9

- 1.7

- 1.5
• 1.7

■ 1.5

- 1.8

- 1.6
1.4
J. 4

■ 1.2

- 0.8
1.7
0.7

■ o. s

■ 0.9
1.4
1.5
1.2
1.8
1.9
1.8
1.8

■ 0.7
1.4
1.3
1.4
0.7
0.7
0.4
0.6
0.3
0. 1
2.0
1.4
1.4
0. 5
l.tl
1.3

a T. Ill assumed 88 3m. 55b. ; uot 3m. 35s.
b g assumed as 39° ; not 20°.

c T. Ill assumed as 53s. 5; uot ls>. 5.
d T. I assumed as 42s. 5 ; not 32s. 5.

c T. II assumed as 4i'nn. : uot 45iu.
/ Div. assumed as 47 2 12 ; not 47 3 12.

(52)

GOULD REDUCTION OF D AGELET S OBSERVATIONS

53

17fi;{ APRIL 16

Zero out. ]' 30". 7.

Y: Bl

Mas

App. aid. time Clock oorr.

n tun ti

C-<

I.YIV.

<*)

Venus .
58 .(i ionis
•J I ; Geuiinorum

Siriua .
7 - I Geuiinorum
IT I Cancri .

31 e •• . .

13; " . .

17 6 " . .

.v., - . .

43 o1 " . .

C4 rr- " . .

C)

78
19
38

9

in
II

12

13

Jf>

Ursse Maj.
Lyncis .

Leonis Min.

•J! i - Leonis -

431 Mayer -

Regulus

III Leonis .
438 Mayer .

39

41
28
30

::;:
35

50
51 m

Leonis -
Leonis Min.

Leonis .

f) 48 Leonis Min.

68 8 Loonis .
7 1- " .
79 " .

Mr " .

86 " .

g)

89 " - .'-

HI CJrsse Maj.

62 " . .

3 i Virginis

4 -;-' Virginia

7.8
7

6

6
6.7

7

6

7
4.5

6
6.7

6

6

6
6.7
7.8

7.8

7
8

7
6
7
7
7.8
7
9.10

6

8
6

7

5.6

// III s

I ::- 19.6

4 7 I."..-.'

in 24. 3

4 .v.' 42.0

5 56 3.2

6 28 43. 2
4:: 7.8
54 35.6

6 56 13.2

7 3 29. 7

7 56.7
10 1.0
18 8.7
•2U 4 1 '.7

25 10.3
29 v. 3
31 7.8

34 42. 2
37 0.8
411 31.3
41 19.0

43 .v.:. 7

44 37.6

46 20.2
50 2.3
.Mi 31.5
53 18.3

7 58 14.3

8 2 50. 3

8 30.8
12 24.4

17 33.7
20 28.6
23 36.7

26 24.2

28 55. 4
31 37.6

35 15.0
37 2.4
43 .".. 3

47 26. I
50 52.ii
55 42. 1

8 58 15.5

9 2 22.7
6 25. 3
8 l-.r.

12 2';.::
15 2. 2

18 51.7
26 2. 7

29 3. 6

36 20. 0
40 11.9
42 35. 5

45 3.-,. 3

46 39.9
52 58.9
55 31. 3

9 58 6. 1
0 0 10.2

// m s
3 17 1.65

5 16 21.72

6 2- 10.66

6 38 30.05

7 :::> 0.51

8 7 45. B8

22 12.85

33 42.53

35 20.40

42 38.09

47 5. 82

49 10.46
57 19.49

8 59 51.91

9 4 .v.'. 32
8 17.88

10 20.72

13 55.71
16 14.69

19 15.77

20 33. (in

23 8.72
23 52.74

25 35.62
2H 18.33

29 47. 61
32 34.87
37 31.68
42 8. 44
47 49.87
51 44. 1 1

50 54.26
9 59 49.64

2 .vs. 2.".

5 40.21

8 17. 82

11 H.40

14 ■>. 16
10 26. 15
22 30.114

26 51.55

30 18.01
35 8.90
37 42. 72
41 .vi 60
45 53.86
47 47.37
VI 55. SV
54 32.19

III V- 22.32

11 5 34.511

8 35.90

15 53.49
19 46.03
22 10.03

25 10.32

26 15. 10
32 3V. It
35 7. 95
37 43. 18

11 39 47.01

10

s
7. 39

7. 32

2 57.30
2 57.30

2 57. 27
2 57. 25
2 57.24
2 57.23
2 57.23
2 V7.23
2 57.23
2 57.23
2 57. 22
2 57.22
2 57.22
2 57. 22
2 57.22
2 57.22
2 57. 22
2 57.21
2 57.21
2 57. 21
2 57.21
2 57.21
2 57.21
2 57.21
2 57.21
2 57.2(1
2 57.20
2 57.' 20
2 57. 20
2 57.20
2 57. 19
2 57.19
2 57. 19
2 57. 19
2 57. 19
2 57. 19
2 57. 19
2 57. 18
2 57. 18
2 57. [8
2 57. 18
2 57. 17
2 57. 17
2 57. 17
2 57. 17
2 57. 17
2 57. 17
2 57. 16
2 57. 16
2 57. 16
2 57. 16
2 57. 15
2 57. IV
2 57. 15
2 57. 15
2 57. 15
2 57. 15
2 57. 14
2 57. 14

— 1.20
0.49

— 1.13
+ 1.12
- 2.06

0.66
1 . 89
1.56
1.3(1
2.12
(1.84
2.48

1. 10
1.20
2.71

2. 94
3.08
2. 91
2.90
2.61
2. 02
2.9(1
2. 90
2. 8 1
2.78
2.78
2. 77
4.07
3.07
1.07
0.61
1.15
0.88
0.98
1.17
1.70
1.45
2.64
2.65
2. 51
2. 91
1.18
1.34
1.38
1.73
1.99

— 1.91
+ 0. 15
+ 0.16

— 1.51

— 1.51
+ 0. 16

— 0. 17
0. 27
1.35
0.30
0.28
2.70
2.46
0.52

— 0.63

— 1.35

— 1.2::

— 1.47
+ 1.67
+ 0.79

— 3. 19

— 1.32

— 0. 99

— 1.32
+ 1.03

— 3. 31
+ 1.40

— 1.48

— 1.30
+ 1.32
+ 1.27
+ 1.28
+ 1.27
+ 1.27
+ 1.37
+ 1.36
+ 1.27
+ 1.27
+ 1.29
+ 1.30
+ 1.30
+ 1.30
+ 2.75
+ 1.28

— 1.51

— 1.68

— 1.45

— 1.79

— 1.62

— 1.42

— 0. 60

— 1.15
+ 1.35

+ ]-34
+ 1.40
+ 1.27

— 1.42

— 1.28

— 1.23

— 0. 52
+ 0. 07
+ 0.00
+ 1. 15
-f 1.16

— 1.06

— 1.05
+ 1.20

— 0.21

— 0.45

— 1.27

— 0. 56

— 0. 50
'+ 1.32
!+ 1-40

— 1.31

— 2. 04

+ 18 21 3.0
+ 7 20 IV. 0
+ 10 3.3 2.4

— 10 2V 3V. 3

+ 28 30 50.0
+ 9 49 34.8
+ 18 47 51.5
+ 22 13 o. 1
+ is 55 17.8
+ 29 7 33. 1
+ 12 25 39.0
+ 33, 13 37.9
+ 10 0 .VI. o
+ 18 19 11.7
+ 35 29 38. 0
+ 37 41 9. 1
+ 39 4 16.8
+ ::7 28 vs. o
+ 37 21 44.6
+ 34 28 0.0
+ 34 34 32.4
+ 37 24 45.0
+ 37 19 31. I
+ 36 45 28.2
+ 30 11 20.0
+ 36 16 58.4
+ 36 3 9.0
+ 46 59 42.0
-j- 38 53 57.5
+ IV 44 10.4
+ 93 45. 5
+ 10 47 15.3
+ 13 0 12.9
+ 14 24 7. 4
+ 17 11 23.2
+ 24 10 3. 8
+ 20 54 44.2
+ 34 47 15.0
+ 34 52 10. I
+ 33 27 50.(1
+ 37 2V 1 s. V
+ 17 14 1.2
+ 19 2V 44.0
+ 20 0 41.6
+ 24 31 44.5
+ 26 37 s.o
+ 26 37 59. 0

— 2 19 18.7

— 2 21 27. 2
+ 21 37 59.5
+ 21 41 18.2

2 28 41. 4
2 35 i.o
- 4 2 11.0
+ 19 35 1.2
+ 4 32 47. 0
+ 4 15 3.5
+ 35 24 3. 4
+ 32 56 33.0
+ 7 43 41.2
+ 9 26 2. 2

- O 3,1.0
VI. I

o :;<;.<;
2 4.8
0 21. v

47. 0
33.0
29. 0
33.4
20. s
42. S
16.2
37.2
34.3
13.7
11.5
10.0
11.7
11.8
14.9
14.8
11.8
11.8
12. V
13.1
13,. 0
13.2

1.9
10.2
37.9

48. 3

3.;. 4

42. (I
39.8
35. 8
26.7

3d. s

14.0
14.6

10.0
11.7
35.7
32.9
32.0
26.3
23. I

0 2::. 7

1 12.0
1 12.3
0 29.9

0 29.9

1 12.5
1 0.7
0 V7.7

32.7
50.7
57.3
13. 9

in. 0

vo. 7

0 47.9

- 1.5

1.0

- 1.7

0.5
+ 1.5

— 1.8

— 1.3

— O.V

— 1.3
+ 1.0

— 2.0
+ 2.7

— 1.8

— 1.5
+ 3.2
+ 3.6
+ 3.9
+ 3.5
+ 3.5
+ 2.9
+ 3.0
+ 3, V
+ 3.5
+ 3.5
+ 3.3
+ 3.3
+ 3.3
+ 5.4
f 3.9

1.8
1.8
1.7
2.0
2.0
1.7
0.0

0. s
3.1
3. 1
2.7

f 3.5
- 1.7
1.3
1.1
f 0.2
+ 0.9
+ 0.9
0.7
0.7
11. 0
0.0
0.7

1. 1
1.3
1.2
1.4
1.3

f 3.1
+ 2.7

— 1.7
1:8

a g assumed as 30° 30' 0. "5 ; not 30° 3C 40. "5. d Transits over T.Bland II assumed as recorded e g assum -.1 as -j-j . n,,t -Jl°.

b T. niassnmed as 6.2s.; not 16.2s., and Div. over r.s II and 111. and T. I assumed as / Name assamed to belong to preceding star.

assnmeda869; not59. 30s.5: ji. >t g Min; assumed as 55m. ; not 56m.

c Div. assamed as Hi y 11 ; not 10 9 13.

(53)

54

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

17S3 APRIL, 16— Continued

Zero corr. = + 1

3U". 7.

Name

Mag.

T

App. ski. time

Clock corr.

?! tan 6

1

a-.t

Refr.

?'

h m s

h m s

m s

s

s

O / II

/ //

//

95 o Leonis .

7

10 7 53. 0

11 47 31.07

— 2 57. 14

— 1.15

— 1.44

+ 10 50 0.0

— 0 30. 5

— 1.7

8 7r Virginis

13 6.5

52 46. 03

2 57. 13

0.52

— 1.32

+ 7 48 32. 0

50.7

— 1.7

497 Mayer . .

7

10 0.5

55 40.51

2 57. 13

0.45

— 1.09

+ 6 45 23.4

0 52.6

— 1.0

500 " . .

7

20 13.0

11 59 53.70

2 57. 13

0.12

— 0.07

+ 1 49 17.0

1 2.6

— 1.0

10 r Virginis .

21 53.1

12 1 34.07

2 57. 13

— 0.20

— 0.30

+ 3 6 13.2

0 59.9

— 1.2

a)

8

30 38.0

10 20.41

2 57. 13

+ 0.51

+ 1.88

— 7 42 2. 0

1 28.0

— 0.5

14 " . .

9

31 25.3

11 7. 84

2 57. 13

+ 0.51

+ 1.88

— 7 42 47. 0

1 28.0

— 0.5

17 " . .

34 47.0

14 30. 09

2 57. 13

— 0. 43

— 1.04

+ 6 29 54. 6

0 53.1

— 1.5

7

38 22. 8

18 0.48

2 57. 12

1.17

— 1.43

+ 17 2 52.8

30.1

— 1.7

7.8

10 42 52. 1

12 22 36.52

2 57. 12

— 0.73

— 4.32

+ 10 54 9.0

0 45.5

— 1.9

b)

11 22 30.3

13 2 27.24

2 57. 10

+ 0.59

+ 1.85

— 8 56 50. 0

1 32.4

— 0.4

57 " . .

27 21. 5

7 13.23

2 57.10

1.29

+ 1.40

— 18 46 27. 8

2 20. 9

— 0.7

4

32 50. 0

12 48.65

2 57. 10

1.26

+ 1.51

— 18 20 18.4

2 17.8

— 0.0

C7 a " .

30 50.6

16 43.88

2 57. 10

0.07

+ 1.79

— 10 1 36.0

1 30.5

— 0.4

72 t' " . .

42 10.6

22 4.76

2 57. 09

0.36

-f- 1.78

— 5 21 8. 0

21.0

— 0.5

74 P " . .

43 44. 1

23 38.51

2 57. 09

0.34

+ 1.76

— 5 8 15.0

20.3

— 0.5

80 1' " . .

47 17.7

27 12.09

2 57. 09

0.28

+ 1.63

— 4 17 34.6

1 17.9

— 0.6

0.7

51 20.2

31 15.85

2 57. 09

1.04

+ 1.62

— 15 19 59.0

2 0.0

— 0.5

83 " . .

1 1 55 49. 9

35 46. 29

2 57. 09

1.02

+ 1.61

— 15 4 39.8

1 58.6

— 0.5

89 " . .

12 1 5.5

41 2.75

2 57. 08

+ 1.16

+ 1.64

— 17 2 22.7

2 9.8

— 0.5

9.10

6 14.1

40 12.20

2 57. 08

— 0.28

— 0.50

+ 4 13 5.0

0 57.7

— 1.3

92 " . .

8 26. 1

48 24.56

2 57. 08

— 0. 14

— 0. 12

+ 2 6 18.7

1 2.1

— 1.0

0.7

11 34.0

51 33.58

2 57. 08

+ 0.17

+ 1.20

— 2 29 41.8

12.9

— 0.7

93 t " . .

13 37.4

53 36.73

2 57. 08

— 0. 17

— 0.21

+ 2 35 20. 1

1.0

— 1.1

94 " . .

7

17 40. 3

13 57 46. 31

2 57. 07

+ 0.52

+ 1.88

— 7 51 12.9

28.8

— 0.5

96 " . .

5

20 24. 0

14 0 25. 04

2 57. 07

0. 62

+ 1.83

— 9 18 9.5

33.9

— 0.4

8

22 33. 4

2 34. IS

2 57. 07

0.33

+ 1.73

— 4 56 55. 0

19.9

— 0.5

98 k " . .

5

24 16.7

4 17.77

2 57. 07

0.62

+ 1.83

— 9 15 34.9

33.7

— 0.4

99 i " . .

27 35.2

7 36. 81

2 57.07

0. 33

+ 1.73

— 4 57 55. 3

20.1

— 0.5

2 Librae - -

34 40.8

14 43.58

2 57. 07

0.72

+ 1.74

— 10 42 59. 9

39.2

— 0. 3

104 Virginis

38 55. 0

18 59.08

2 57. 07

+ 0.34

+ 1.76

— 5 8 18.0

1 20.3

— 0.5

25 p Bootis .

45 24. 6

25 29. 15

2 57. 06

— 2. 31

+ 1.33

+ 31 18 18.4

0 18.5

+ 2.3

28 a " . .

48 9.4

28 14.40

2 57. 06

2.25

+ 1.27

+ 30 40 10.8

19.2

+ 2.1

29 n " . .

53 28. 4

33 34. 27

2 57. 06

1. 19

— 1.42

+ 17 20 11.0

35.9

— 1.7

34 " . .

0

12 50 48. 1

36 54. 52

2 57. 06

1.97

— 0.30

+ 27 20 0. 0

23.0

+ LI

<0

7

13 0 26.5

40 33.52

2 57. 05

1.38

— 1.23

+ 19 50 30. 0

32.4

— 1.1

7

2 20.5

42 33. 85

2 57. 05

1.41

— 1.20

+ 20 23 54. 0

31.8

— 1.0

37 f ' . .

4 17.8

44 25. 45

2 57. 05

1.38

— 1.23

+ 19 59 15.0

32.4

— 1.1

7

0 20.0

46 34. (in

2 57. 05

1.38

— 1.23

+ 20 0 49. 2

32. 4

— 1. I

6.7

9 57.7

50 0. 28

2 57. 05

1.18

— 1.42

+ 17 15 1.2

36.1

— 1.7

d)

7.8

12 5.6

52 14.55

2 57.05

1.77

— 0. 37

+ 25 1 31. 0

25. 9

+ 0.4

7

14 1.2

54 10.45

2 57. 05

I. 00

— 0.87

+ 22 53 25. 2

28.6

— 0.2

c)

8

io o. a

14 50 15. 85

2 57.04

1.30

— 1.32

+ 18 4.-' 50.8

34.0

— 1.4

45 e " . .

20 37.5

15 0 47. 84

2 57. 04

1.83

— 0.19

+ 25 41 54.6

25.1

+ 0.6

0.7

21 59.4

2 9. 90

2 57. 04

1.85

— 0. 13

+ 25 55 22.5

24.8

+ 0.7

6

25 3.2

5 14.26

2 57. 04

1.30

— 1.25

+ 19 46 47. 0

32.6

— 1.2

49 <5 " . .

29 34.2

9 46. 00

2 57. 04

2.57

+ 1.38

+ 34 6 15. 1

15.4

+ 2.9

1 o Cor. Bor. .

33 57.7

14 10.22

2 57. 04

2.23

+ 1.24

+ 30 23 7.9

19.0

+ 2.0

2, " . .

37 2.2

17 15.22

2 57. 04

2.29

+ 1.31

+ 31 3 13. 1

18.9

+ 2.2

3/3 » .. .

41 40.0

21 53.78

2 57. 03

— 2.18

+ 1.17

+ 29 50 8. 6

0 20.2

+ 1.9

/) 38 y Librae . .

13 40 0.8

15 26 21.32

— 2 57.03

+ 0.95

+ 1.58

— 14 3 5.7

— 1 54.5

— 0.4

1783

APRIL. IS

Ze

ro corr. = + ]

' 42". 4.

Venus .

1 40 44. 8

3 26 53. 27

+ 19 3 50. 2

— 0 33. 0

— 1.3

07 a Virginis

1 1 28 50. 7

13 16 41.80

— 2 54. 99

+ 0.07

+ 1.79

— 10 1 48.0

1 35.2

— 0.4

g) 70 " - -

33 3.2

20 49. 00

2 54.99

— 1.01

— 1.58

+ 14 55 21.0

0 38. S

— 1.9

7.8

37 1.8

24 48.23

2 54. 98

+ 0.49

+ 1.88

— 7 19 58.0

1 25.8

— 0.5

0.7

43 25. 8

31 13.28

2 54. 98

1.03

+ 1.02

— 15 20 12.0

1 58.4

— 0. 5

7

11 50 31.1

13 38 19.74

— 2 54. 97

+ 1.23

+ 1.52

— 18 9 27. 2

— 2 14.7

— 0.6

a <? assumed as 56° 33'

7" ; not .

'. ' 32' 17".

d T. Ill assume

1 as 12m. 31s. ; not 12m. 41

s. / S

assumed as 62° 51'

13"; not m°

54' 43".

b Min. assumed as22m

; not 23

u. Transits

e g assumed as :

0°2'16". 5: not30°2'46".

3, 8 'I

. Ill assumed as 33

in. 27s. ; not 3

3m. 37s.

discordant.

aud Transit

s over T.s II and III as

*e-

c g assumed as 28° 54'

35" ; not

28° 54' 25".

corded ove

[•T.slandll.

(54)

GOULD — REDUCTION OF D AGELET 3 OBSERVATIONS.

55

17S3 APRIL IS— Continued Zero corr. = + 1'

42'. 4.

Name

Mag.

T

App. ski. time

Clock corr.

» tan <S

1

C-i>

Refr.

?'

/( »» s

h m s

m s

s

s

0 1 a

/ //

//

a) 89 Virginia .

5.C

11 53 12.3

13 41 1.38

— 2 54 97

4- 1.15

4- 1.64

— 17 2 30. 0

-2 8. 0 '-

- 0. 5

92 '■ . -

12 0 32.5

48 22.78

2 54.97

— 0.13

— 0.12

4- 2 6 15.2

1 1.1 -

- 1.0

b) 93 t " . .

5 43.4

53 34.54

2 54. 96

0.17

— 0.21

+ 2 35 14.8

1 0.2 -

- 1. 1

7

9 58. 0

13 57 49.84

2 54. 96

1.91 + 0.14

4- 26 50 51.5

0 23. 3 -

4 l-11

7

13 25.3

14 1 17.71

2 54.96

1.78 + 0.29

4- 25 19 5.6

25.2

4 0. 5

14 Bootis .

G

18 45. 4

6 38.69

2 54.911

0. 94

— 1.65

4- 13 57 51.6

40.3

— 2.(1

<•) Aictuvus .

20 52. 1

8 46.03

2 54.95

- 1.39

— 1.21

4- 20 17 44.2

0 31.4 ■

- 1.0

d)

7

27

15

— 15 6 17.0

1 57.3

- 0.5

7

35 45. 8

23 41.88

2 54. 94

+ 1.60 H

— 23 1 58. 9

2 53. 9

- 1.5

e) 3 Lilirre . .

6

41 49.8

29 46. 88

2 54. 94

1.69 + 2.23

— 24 3 30.6

3 5.1

— 1.8

4 " - .

6

45 39. 5

33 37.21

2 54. 94

1.69 '4- 2.22

— 24 2 27. 2

3 5.1

- 1.8

6

48 37.9

36 36. 10

2 54. 94

1.54 4- 1.66

— 22 12 31.0

2 46.1

— 1.2

9 a" " . .

— 15 7 41.6

1 57.6

— 0. 5

M " . .

12 59 46. 2

47 46.23

2 54.93

1.72

4- 2.42

— 24 31 53.0

3 10.3

— 2.0

.0 19 ci " . .

13 4 18.3

52 19.07

2 54. 93

0.51

4- 1.88

— 7 39 14.4

1 26.8

— 0.5

20 y Librae . .

— 24 23 43. 6

3 8.9

-2.0

6.7

12 6.3

0 8.34

2 54. 92

1.60 H

2 55. 1

- 1.5

7

15 30. 3

3 32. 90

2 54. 92

1.62

4- 1.93 — 23 9 40.1

55.4

- 1.5

595 Mayer . .

7.8

18 41.4

6 44.52

2 54.92

1.49

4-1.55 — 21 34 9.2

40. 4

-0.9

33 g Librse . .

7

32 9.2

20 14.53

2 54.91

1.13

4- 1.66

— 16 40 29.5

6.0

— 0.5

g) 606 Mayer . .

34 59.4

23 5.20

2 54.90

1.29

4- 1.45

— 18 54 34.0

2 19.8

— 0.7

38 y Librse . .

13 38 13.5

15 26 19.83

— 2 54.90

4- 0.95

4- 1.58

— 14 3 6.6

— 1 52. 1

— 0.4

1»S3

APRIL 19 Zero corr. = + 1

44". 6.

Venus .

1 41 45.2

3 31 50.39

4- 19 24 35. 8

— 0 32. 1

— 1.2

Sirius .

4 47 51.6

6 38 27. 36

— 2 54. 44

4- 1.10

4- 1.67

— 16 25 45. 8

2 3.4

— 0.5

Procyon .

5 40 8. 3

7 30 52.65

2 54. 41

— o.ss

— 0.87

4- 5 45 9. 2

0 53. 4

— 1.5

78 /3 Geminorum

5 44 12.5

7 34 57.52

2 54.41

2.04

4- 0. 79 4- 28 30 48. 0

21.2

4- 1.5

A) 43 y Caucri . .

6 42 45.5

8 33 40. 14

2 54.41

1.53

— 0.98 + 22 13 1.6

28.7

— 0.5

i) 47 6 " . .

6 44 23.4

8 35 18. 31

2 54.41

1.28

— 1.32 4- 18 55 13.8

33.0

— 1.3

j) 413 Mayer.

7

7 39 23. 8

9 30 27. 74

2 54. ,35

0.95

— 1.62 4- 14 15 50.8

39.4

— 2.0

14 o Leonis -

41 30.6

32 34. 89

2 54. 35

0.72

— 4.29 + 10 51 10.0

44.8

— 1.9

8

44 46.7

35 51.53

2 54. 35

1.70

— 0.54

4- 24 26 35. 0

26.0

4- 0. 1

7

46 54.7

37 59. B8

2 54. 35

1.72

— 0.49

4- 24 37 12.6

4-0.2

h)

8

49 41.5

40 47. 14

2 54. 35

1.79

— 0.24

4- 25 32 25. 7

24.6

4-0.6

22 g Leonis -

6.5

51 24.2

42 30. 12

2 54. 34

1.76

— 0.28

4- 25 23 33. 7

24.9

4- 0.5

423 Mayer . .

8.9

54 28.2

45 34.62

2 54. 34

0.60

— 1.68

+ 94 25. 4

47.8

- 1.8

10 Sextantis .

8

56 48.2

47 55.00

2 54. 34

0.66

— 3.48

4- 9 56 10. 0

46.3

— 1.8

9

7 58 56. 1

50 3.25

2 51. 34

0.80 — 4.27

4- 11 58 3.0

43.0

— 2.0

9

8 3 37.3

54 4.',.-.".'

2 54. 34

0.61 — 1.82

4- 9 15 14.0

47.4

-1.8

8

6 46.7

9 57 55. 14

2 54. 34

0.92 — 1.67

4- 13 48 55. 5

40.2

— 2.0

437 Mayer . .

7

14 20.4

10 5 30.08

2 54.33

1.53

— 0.98

4- 22 13 13.0

28.7

— 0.5

1) 439 " . .

16 13.7

7 23.69

2 54. 33

1.28

— 1.32

4- 18 47 37. 6

33. 3

— 1.3

41 y Leonis .

19 47. 1

10 57.67

2 54. 33

1.44

— 1.15

4- 20 54 40.2

30.3

-0.8

445 Mayer .

22 35.6

13 46.63

2 54. 33

0.66 1— 3.64

4-10 2 1.0

46.1

-1.8

446 " . .

24 39.7

15 51.07

2 54. 33

— 0.77 — 4.76

4- 11 39 41.3

0 43.4

— 2.0

7

27 5.9

18 17.67

2 54. 33

4- 0.35 I4- 1.78

— 5 20 15. 0

1 19. 1

— 0.5

30 Sextantis .

6

30 55.7

22 8.10

2 54. 32

— 0.03 4- 0.22

4- 0 27 24.2

1 4.3

— 0.8

m)

11

33 47. 0

24 59. 87

2 54. 32

0.54

— 1.41

4- 810 45.0

0 49. 1

— 1.7

48 Leonis . .

35 13.2

26 26. 30

2 54. 32

0.53

— 1.38

4- 8 2 55. 0

49.3

— 1.7

10

41 1.3

32 15.35

2 54. 32

1.36

— 1.23

+ 19 57 58.0

31.6

— 1.1

52 k " . .

7

46 38.6

37 53.57

2 54. 32

1.03

— 1.54 14- 15 18 57.9

38.0

— 1.9

8

50 18.9

41 34.47

2 54. 31

1.90 [4- 0.12 |4- 26 45 50.0

23.2

4- 1.0

7.8

53 25. 4

44 41.48

2 54. 31

1.94 4- 0. 33

4- 27 20 8. 0

22.6

4- LI

48 Leonis Mm.

7

54 35.2

45 51.49

2 54.31

1.88 + 0.06

4- 20 37 4.2

23.4

4- 0.9

50

7.8

56 27. 4

47 43.99

2 54. 31

1.88

4- 0.06

4- 26 37 53. 3

23.4

4- 0.9

8

8 58 41.9

49 58.86

2 54. 31

1.42

— 1.17

4- 20 45 29. 4

30.7

- 0.9

59 c Leonis - .

9 1 9.8

10 52 27. 17

— 2 54. 31

— 0.48

— 1.21

4- 7 14 50.0

— 0 50.8

-1.6

a g assumed as 65° 53' ;

not 65°

52'.

e ^ assumed as

72° 54' 35" ; not 72° 54' 25", j Div. assumed as 31 1

4 5; not 31 14

13.

b g assumed as 46° 15'

50" ; not

48° 15' 20".

and Div. ass

imed as 77125; not 77 12 3. k g assumed as 23° 18'

not 23° 13'.

c flliu. assumed as 20m

; not 1!

m.

f Miu. assumed]

83m. und4w.; nut 2m. :uirl3m. 1 Div. assumed as 32 1

0 ; not 32 5 0.

d Transits too discorda

at to be

ised.

g g assumed as
h aud i Hour ass

)7°4.v 39".5; not 67° 45' 19".5. m g assumed as 40 1"
umed as 6b. ; not 5h.

20" | not 40° I

9' 50".

(55)

56

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 APRI1L, 19— Continued Ze

■0 corr. = + 1' 44". It.

Name

Mag.

T

App. sir], time

Clock corr.

n tan rJ

>l

C-f

Refr.

<l'

h in s

h in s

Ill s

s

s

Oil/

/ //

11

8.9

9 4 4.2

111 55 22.115

— 2 54.31

— 0.58

— 1.56

+ 8 43 51.2

— 0 48.2

— 1.8

63 x Leonis .

5 29. 2

10 50 47. 28

2 54. 31

0. 56

- U 49

+ 8 29 10.0

48.7

— 1.7

6

14 23.5

11 5 43.0 1

2 54. 30

• 0.61

— 1.79

+ 9 13 36.8

47.6

— 1.8

7

20 40. 0

12 0. 57

2 54. 30

1.20

— 1.34

+ 18 28 33. 2

33.7

— 1.5

81 " : .

25 54.2

17 15.63

2 54. 30

1.20

— 1.41

+ 17 37 33. 1

34.8

— 1.6

84 r " . .

28 21.4

19 43.23

2 54. 30

— 0. 26

— 0. 45

+ 4 1 59.0

0 56. 9

— 1.3

480 Mayer . .

32 26. 3

23 48. 80

2 54. 29

+ 0. 34

+ 1.77

— 5 16 49. 8

1 19.2

— 0.5

8

34 7.3

25 30.08

2 54.29

+ 0.35

+ 1-78

— 5 21 3. 0

19. 3

— O. 5

91 v Leonis .

37 22.5

28 45.81

2 54.29

— 0.02

+ 0.25

+ 0 21 32.4

1 4.8

— 0.8

484 Mayer . .

42 35.0

33 59. 16

2 54. 29

0.38

— 0.92

+ 5 55 51.4

0 53.2

— 1.5

7.8

45 48. 3

37 12.99

2 54.29

0. 54

— 1.42

+ 8 13 5.5

49.2

— 1.7

94 13 Leonis .

49 32.2

40 57.: Ml

2 54. 28

1.06

— 1.51

+ 15 45 50.8

0 37 4

— 1.8

491 Mayor . .

9 55 47. 9

47 14.2::

2 54. 28

o.ll

— 0.15

+ 2 17 27.5

1 0. 6

— 1.0

8 7r Virgmis .

10 1 16.1

52 43. 34

2 54.28

— 0.52

— 1.31

+ 7 48 23.2

0 49.9

— 1.7

a) 95 " . .

12 6 22. 1

13 58 9. 89

2 54.22

+ 0.54

+ 1.88

— 8 16 45.0

1 28.6

— 0.5

b) 98 k " . .

12 25.9

14 4 14.69

2 54. 21

0.61

-f- 1.83 -■ 9 15 33.0

31.9

— 0.4

99 i " . .

15 44.3

7 33.63

2 54.21

+ 0.32

+ 1.73 — 4 58 7.8

1 18.6

— 0.5

7.8

28 17.1

20 8. 49

2 54. 20

— 1.06

— 1.51 + 15 42 50.0

0 37.6

— 1.8

8

32 31.3

24 23. 29

2 54. 20

1.26

— 1.34

+ is 35 23.5

33.7

— 1.4

29 ir Bootis . .

41 37.2

33 30.78

2 54.20

1. 17

— 1.42

+ 17 20 0.2

35. 3

— 1.7

34 !'.■".

6

44 57.1 5

36 51.63

2 54.20

1.95

+ 0.30

+ 27 25 52. 4

22.6

— 1.1

8

48 36.6

40 31.33

2 54. 19

1.36

— 1.23 + 19 56 27.0

31.8

— 1.1

37 i " . .

52 26.9

44 22.20

2 54. 19

] . 36

— 1.23

+ 19 59 5. 4

31.8

— 1.1

7

54 34.5

46 ::o.21

2 54. 19

1.37

— 1.23

+ 20 0 40.0

31.8

— 1.1

7

12 57 2.0

4* 58. 32

2 54. 19

1 . 03

— 1.54

+ 15 is 38.2

38. 1

— 1.9

0

7.8

13 0 48. 2

52 44. 94

2 54.19

1.06

— 1.51

+ 15 40 57.5

37.8

— 1.8

d)

7

3 30.9

14 55 28.09

2 54. 19

1.14

— 1.43

+ 10 5:: 211. 0

35.9

— 1.7

45 c " . - . -

8 47.0

15 0 45. 04

2 54. 18

1.80

— 0. 19

+ 25 41 48.0

24.7

+ 0.6

6

10 8.9

2 7.10

2 51. 18

1.82

— 0.13

+ 25 55 15. 0

24.4

+ 0.7

8

13 26.2

5 25. 00

2 54.18

1.60

— 0. 83

+ 23 6 56.0

27.8

— 0. 2

7

17 18.3

9 17.74

2 54. 18

1.86

0.00

+ 26 25 37. 0

23.8

+ 0.8

7.8

20 2. 1

12 1.99

2 54. 18

2. 31

+ 1.3.7

+ 31 36 39. 0

17.9

+ 2.4

1 o Cor. Borealis

22 7.0

14 7.83

2 54.18

2.18

+ 1.24

+ 30 23 2. 0

19.3

+ 2.0

2» " . .

25 11.5

17 12.21

2 54. IS

2.26

+ 1.31

+ 31 3 8.4

18.5

+ 2. 2

3 /3 " . .

29 49. 5

21 51.00

2 54. 17

2. 15

+ 1.17

+ 29 50 3. 3

19.9

+ 1.9

12 t Serpentis .

33 7.0

25 9.04

2 54. 17

— 1.12

— 1.45

+ Hi 46 46.4

0 30. 1

— 1.7

612 Mayer . .

37 15.7

29 18.42

2 54. 17

+ o 92

+ 1.57

— I:: 17 18.7

1 50.8

— 0.4

0

6

45 53. 3

37 57. 11

2 54. 17

2. 00 ■

+ LOW

— 28 3 52. 5

4 2. 2

— 3.8

1 b Seorpii .

4

48 45. 1

40 49.71

2 54. 16

1 . 75

+ 2.05

— 25 3 14.6

3 16.8

— 2.2

/) 2^ " . .

51 23.7

43 28.75

2 54. 16

1.72

+ 2. 17

— 24 38 84.2

3 11.6

— 2.0

6.7

55 10.2

47 15.86

2 54. 16

0.94

+ 1.58

— 11 10 53.0

1 52.9

— 0.4

7<5 " . .

13 58 18.7

50 24.88

2 54. 16

1.51

+ 1.62

— 21 58 32.8

2 44.1

— 1.2

6

14 1 40.4

53 47. 13

2 54. 16

1.68

+ 2. 20

— 24 5 30.2

3 5.5

— 1.8

6

C 33.5

58 41.03

2 54. 16

1.60

+ 1.89

— 23 4 26. 6

2 54.3

— 1.5

8/3 " . .

3 36.6

15 55 43.65

2 54. 16

1.30

+ 1.42

— 19 11 19.6

2 22. 0

— 0.7

6

11 12.4

16 3 20.70

2 54.15

2.38

+ 5.28

— 32 22 19. 0

5 54.5

— 7.6

15 48.0

7 57.06

2 54. 15

2. 61

+ 5. 30

— ::i 50 6.2

7 55.7

—10.0

644 Mayer . .

21 44. 1

13 54. 11

2 54.15

2.09

+ 4.55

- 29 8 13.0

4 23.2

— 4.6

Antares

20 49. 0

18 59.87

2 54. 15

1.82

+ 3. 12

— 25 54 30.0

3 27. 0

— 2.6

13 f Ophiuchi .

14 35 55.2

16 28 7.56

— 2 54.14

+ 0.67

+ 1.79

— 10 7 7.0

— 1 35.5

— 0.4

17S3

APRIL 31 Zei

0 corr. = + V 40".0.

g) 81 Virginis

11 29 32.0

13 29 6. 84

— 2 52.72

+ 0.44

+ 1.87 — 6 46 3.7

— 1 23.6

— 0.5

82 m " . .

33 31.8

33 7.31

2 52. 72

0. 49

+ 1.88 — 7 36 33.8

26.4

— 0.5

83 " . .

36 5. 7

35 41.63

2 52. 72

0. 99

+ 1.61 — 15 4 44.5

1 56.8

— 0.5

89 " . .

41 22.2

40 59.00

2 52.72

+ 1.13

+ 1. 64 — 17 2 28. 4

2 7.4

— 0. 5

92 " . .

1 1 48 42. 8

13 48 20. 81

— 2 52.71

— 0.13

— 0. 12+26 18. 0

— 1 0.9

— 1.0

a e assumed ns 57 '. iO

; nut 5?

o r 20". c

§ assumed as 33

1 10' 2" ; not 33° 9' 42", and / Transits ovet T.s II a

id III assumed as re-

b i assumed as r,f ii :;:>

; ii. .1 .,

« ii' l!i", and

Div. assumed

as 35 6 1 ; not 35 5 15. corded over T.s l an

d 11.

Div. assumed as ii]

:. 13; in

t 61 15 13. (1

£ assumed as 3]

ft ;not31°52'. g T. II assumed as 29m. 3

2s. : nnt 29m. -'lis., and

c

Divi assumed as

82011; not 8211-0: T. Ill assumed asS

<m,.v-s. ; aot 29'm.52s.

(56)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

57

i;*:s aimcii. :i i ;

Xanii'

Mae.

App. Sid til)ll>

Clock corr.

r tan (5

Rel'r.

«)

4)

12 d Bootis .

1-1 " .

Arctiirus

18 Bootis .

22 / " .

25 p » .
28 a " .

0

29 -
34
d) 37 f

0

43 V
/) 46 i

27 fl Libra .

6.7
5

G.7
6

7

h m s
11 52 38.9

11 59 -'7.11

12 3 47. 1
6 50.2
9 2.0

12 2.1
16 37.3
19 36. 8
25 40.7
■.'- 24.7
31 21.7
33 44.6
37 1.3
44 33.5
48 33.7

51 2.7

52 27. 4
57 37.8

12 58 16.3

13 2 8.9
13 8 23.2

13 52 17.56

13 59 6.78

14 3 27. 59
6 37.21
8 43. 35

11 43.94
16 19.89
19 19.88
25 24.78
28 9.23
31 6.71
33 30. 00
36 50.25
44 20.68
48 21.54
50 50. 95
52 15.88
57 26. 53
5. 74
.->.-■. '.*■-
14. 30

I I 5H
15 1
15 8

2 52. 7 1
2 52. 7 1
2 52.71
2 52.71
2 52.71
2 52.71
2 52.70
2 52.70
2 52. 70
2 52. 70
2 52. 70
2 52.70
2 52.70
2 52.70
2 52.011
2 52. 09
2 52.69
2 52.00
2 52.00
2 52. 69
2 52. 69

s
0.24
1.20
1.81
0. 92
1.37
0.02

1 . 83
1.36
2. 25

2. 19
1.28
1. 15
1.92
1.35
2.21
1.82
1.80
1.96
1.94

— 1.89
+ 0.55

0. 39
1.39
o.oo
1.65
1.21

1 . 65
0. 03
1.22

(- 1.33
1.27
1.30
1.42
+- 0.30
— 1.23
4 1.30
0.06
0.14
f 0.53
-)- 0.48
+ 0.24
+ 1.87

+ 3 43
+ 17 59
+ 26 6
+ 13 57
+ 20 17
+ 13 59
+ 26 18
+ 20 11
4 31 18
+ 30 40
-(- 19 13
+ 17 20
+ 27 25
+ 19 59
4 30 55
+ 26 10
25 53
+ 27 54
-f 27 46
4 27 6
— 8 31

15.0
20.2

4.2
50.3
45. 5
36. 8
13.8
18.8
17.2

8.5
45.0
11.2
58.4
12. 2
35.' 0
38.0
58.0
43.0
35. 0
58.0
40. 6

0 57. 6
34.4
24.1
40. 1
31.3
40.0
23.9
31.4
18.2
18.9
32.7
35. 2
22. 5
31.7
18.6
24.0
24.3
22.0
22. I

0 22. 9

1 29.6

— 1.3

— 1.5
+ 0.7

— 2.0

— 1.1

— 2.0
+ 0.7

— 1. 1
+ 2. 3
+ 2.1

1.3
1.7
1.1
1.1
2.2
f 0.7
4-0.7
4 1.3
4 1.3
4 i.o

— 0.4

1JS3 APRIL 25

Zero corr. = + 1' 40".6.

g) 44 Leonis .

A) 440 Mayer .

46 ( Leonis -

40 Leonis Min.
42
i) 17 UrsseMaj. .
51

J)

Leonis .

68 H " . .
53 j Ursa> Maj. .

56

57

90 Leonis .

59 Ursse Mai. .

61 " .

62 Leonis -

3 v Virginia .

6 A

k)

8 jr Virginis

9o " .

I) lis " .

51 0 " .

56 " .

61 " .

7
8.9

8
5.6

7

7
7.8

7
8.9

8.9

5

7

8 1
5
8

11
15
19
21
35
40
40
45
48
50
54
55

9 4
5

1J
14
17
20
22
25
28
31
34
37
42
9 46

10 46
50
53

10 56

56.6

18.4

42.3

58. 4

14.7

9.3

48.8

17.9

25.5

38. 2

9.0

20.6

32. 6

32.5

47.7

50.4

48.3

17. 1

20. 3

39. 6

29. 7

1.4

35.8

52.2

11.4

47.7

29. 7

36.5

2.6

49.2

20.5

58.8

41.2

31.6

10 16 43.57
20 5.93
23 30.39
26 47.03
30 3.87
33 59. 11

36 39. 05
50 10. 37
55 18.81

10 55 31.55

11 0 3. 09
3 15.21

5 27. 56
9 ■-'-'. 12

io 4::. 51

13 40.71

19 45.59

20 14.47
26 18.66
29 38.50
32 29. 07
35 1.19

37 36.01
40 52.95
43 12.53
46 40. 42
49 31.87
52 39. 18

11 57 6.01

12 1 53.39

13 1 34.47

6 13.53
8 56. 37

13 11 47.23

50.63

50. 63

50. 03

50. 63

50. 63

50. 62

50.62

2 50. 62

2 50.01

2 50. 61

2 50.61

2 50. 01

50.01

50.61

50.61

50.01

50.01

50. 61

: 50.60

2 50. 60

2 50. 60

2 50. On

2 5O.0U

2 50. On

50. 60

50.011
50. 60

511.00
50. 50
50. 59
50. 57
50.57
50. 57

— 2 50. 57

— 0.63
l.oi
1.00
0.21
0.99
1.91
2.28
3.27
3.02
3.02
1.78
1.02
1 . 46
2.36
2.48
3.64
3. 13
3.14
1.19
3.68
2.01
2.39
0.51
0.41
0.85
0.62
0.52
0.51
0.75

- 0.45
4- 0.28

0.60
o.Ol
+ 0.65

3.31
1.53
- 1.56

— 0. 33

— 1.56
+ 0. 36
+ 1.38
4 1.39
4- 1.29
4 1.29

— 0.16

— 1.52

— 1.05
4 1.40
+ 1.39
+ 1.85
4- 1.33
+ 1.33

— 1.40

4 1.91
4- 1.32
4 1.40

— 1.31

- 1.01
1.79
2.56
1.35

- 1.33

— 3.44

— 1.14
+ 1.64
4- 1.84
+ 1.82
4 1.79

+ 9
+ 15
4 15
4 3
+ 15
+ 27
4 31
+ 41
4 39
4- 39
4 25

4- 15

+ 21
4 32
4 33
44

40
f 40

4 17
4 44
4 35
4 32

4 '

+ 6
4 12

- 9

8

51 50.0

25 44. 2
13 33.4
18 25. 0

7 44.5

26 14.8

47 53. 4
33 20. I

22 52. 6

23 20. 0

48 26. 0
33 27. 4
41 16.4
43 22. 5
58 58. 8
38 32.6
38 20.0
30 12.2

58 28. 3

47 54.2
23 59. 6
56 30.0
43 39. 7

22 54. 2

59 34.6
37 56.2
10 5.0

48 25. 9
55 11.6
59 52. 8

23 8.2
13 13. 1

24 11.4
9 46.8

- 0 40. 8
37.7
38 5

38. 5

22. 6

17.7

7.4

9.6

9.6

24. 5

37.9

29.6

16.7

15.3

4.2

8.5

8.5

31. 5

4.0

13.8

16.4

50.3

52.7

41.7

47.1

49.9

50.3

46.8

0 51.7

1 17.2
1 32.6
1 33.2
1 36.1

1.8
1.9

- 1.9

— 1.2

— 1.9
4 LI
4 2.5
4 4. 4
4 3. 9
4 3.9

0.6

- 1.8
o.O

f 2.7
4- 2.9
4-5.0
4 4.1
4-4.2

- 1.5
4- 5.0
4 3.1
4 2.7

— 1.7

— 1.5

— 2.0
1.8
1.7
1.7
1.8
1.6
0.6
0.4
0.4
0.4

a Div. assumed as 30 14 11 ; nut 30 14 13.

b g assumed as 82° 32' 50" ; not 513 33' 20".

c Div. assumed as 31 9 9 : not 3 0 9.

d ? assumed as 23^51' 53

e T. I assumed as 37s. 5; not 47s. 5.

/ Hour assumed as 13; not 12: and Div. aH- i

sumed us 23 ; not 33. j

g Div. assumed as 35; not 33: and T. Ill as k

2m. 20s. ; not 2m. 40s. I

h '( HSBumed :is 33° 25' 26" : not 33° 25' 40": and
Hi\. assumed as 35 10 0; not 35 m B.

Div. assumed as 7; not. 8.
i assumed as 38° 59' 15" ; not 38° 59' 45
.' assumed as 10° 41' 0"; not 40° 56' 0".
T. II assumed as 46m. ; not 49m.

ew)

58

GOULD REDUCTION OP D AGELET S OBSERVATIONS.

1783 APRIL, 25— Contiuurd Zero corr. = + 1' 40". 6.

Name

Mag.

T

App. sid. time

Clock corr.

n tau 6

1

f-oi

Eefr.

?'

h vi s

h m s

m s

s

s

O ' '

/ //

II

8

11 0 6.4

13 15 22.62

— 2 50. 57

+ 0.63

+ 1.80

— 9 44 16.0

— 1 34.5

— 0.4

67 a Virginia

1 20.8

16 37.22

2 50. 57

0.65

+ 1.79

— 10 1 38.4

1 35.6

— 0.4

73 " . .

7 54.5

23 12.02

2 50.57

1.16

+ 1.59

— 17 35 51.6

2 11.9

— 0.6

7

io as. 8

25 46. 74

2 50. 56

+ 0.49

+ 1.88

— 7 30 16.6

1 26.8

— 0.5

7

14 18.2

29 36.78

2 50. 56

— 0. 23

— 0.36

+ 3 28 55. 0

0 58.7

— 1.2

84 o " . .

19 44.3

35 3. 78

2 50. 56

— 0. 30

— 0.58

+ 4 37 41.7

0 56.3

— 1.4

7

23 16.7

38 36.76

2 50. 56

+ 0.56

+ 1.81

— 8 37 13.2

1 30.5

— 0.4

a)

6.7

27 5.2

42 25.88

2 50.56

— 0. 42

— 1.05

+ 6 33 54. 0

0 52.6

— 1.6

7.8

31 2.7

46 24. 03

2 50.. Ml

0.98

— 1.58

+ 14 53 25.0

39.1

— 1.9

h)

8

33 44. 3

49 6.07

2 50.56

1.12

— 1.44

+ 16 56 1.4

36.1

— 1.7

7

43 41.2

13 59 4. 60

2 50. 55

— 1. 19

— 1.43

+ 17 59 24.4

0 34.7

— 1.5

c)

8

47 3.6

14 2 27.56

2 50.55

+ 0.32

+ 1.73

— 4 57 1.0

1 20.0

— 0.5

8

47 57.9

3 22.01

2 50. 55

0.33

+ 1.75

— 56 20. 0

19.6

— 0.5

d)

8

50 30. 0

5 54.53

2 50. 55

0.12

+ 1.06

— 4 56 21 . 0

20. 4

— 0.5

99 i 'S irjrinis .

52 5.1

7 29.90

2 50. 55

0.32

+ 1.73

— 4 57 59. 3

1 19.3

— 0.5

•)

6

54 4. 8

9 29.94

2 50. 55

1.17

+ 1.58

— 17 41 43.8

2 12.9

— 0.6

2 Librae . .

7.8

11 59 11.0

14 36.95

2 50.55

0. 70

+ 1.75

— 10 43 4.0

1 38.5

— 0.3

571 Mayer .

7.8

12 0 26.6

• 15 52.76

2 50. 55

+ 0.69

+ 1.74

— 10 40 45. 8

1 38.5

— 0.3

25 p Bootis . .

9 55.2

25 22.92

2 50.54

_ 2.25

+ 1.33

+ 31 18 10.7

0 18.4

+ 2.3

8.7

10 22.4

25 50. 19

2 50. 54

2.23

+ 1.32

+ 31 11 53.0

18.5

+ 2.3

28 o- " . .

12 39. 8

28 7.97

2 50.54

2.18

+ 1.27

+ 30 40 11. 2

19.1

+ 2.1

6.7

15 35.1

31 3. 75

2 50.54

1.28

— 1.30

+ 19 13 42. 4

3:;. 0

— 1.3

29 n "

17 58.6

33 27. 63

2 50.54

1.14

— 1.42

+ 17 20 6.0

35.6

— 1.7

34 " - .

6

21 18.5

30 48.08

2 50. 54

1.91

+ 0.36

+ 27 25 57.4

22.8

+ 1-1

7.8

24 56. 4

40 26. 58

2 50. 54

1.33

— 1.23

+ 19 56 36. 4

32.1

— 1.1

6.7

28 1.3

43 31.99

2 50.54

2.08

-|- 1.10

+ 29 29 44. 8

20.4

+ 1-7

7

31 0.8

46 31.98

2 50. 54

1.39

— 1.17

+ 20 45 111. 9

31.0

— 0.8

6

34 28.2

49 59. 95

2 50.54

1.14

— 1 42

+ 17 14 55.6

35.7

— 1.7

/)

6.7

38 31.7

54 4. 18

2 50. 53

1.55

— 0.87

+ 22 53 24. 2

28.4

— 0.2

41 6) " . .

39 58.4

55 31. 05

2 50. 53

1.78

— 0. 15

+ 25 511 56.8

24.7

+ 0.6

43 V " - -

42 30.3

14 58 3. 37

2 50. 53

1.94

+ 0.47

+ 27 46 38. 0

22. 4

+ 1-2

45 c "

45 7.5

15 0 41.00

2 50. 53

1.77

— 0.19

+ 25 41 52.2

24.9

+ 0. 0

g)

7

46 29. 6

2 3.20

2 50.53

1.79

— 0. 13

+ 25 55 22.0

24.6

+ 0.7

8

49 6.6

4 4H.71

2 50. 53

1.40

— 1.16

+ 20 51 3. 1

3(1.9

— 0. B

i»X " - -

6

52 43. 9

8 18.65

2 50. 53

2. 12

+ 1.18

+ 29 57 9.2

0 19.9

+ 1.9

6 Serpentis .

6

12 57 17. 3

12 52.80

2 50. 53

o!io

— 0. 01

+ 1 30 8.2

1 2.9

— 0.9

A)

8

13 1 48.5

17 24.73

2 50. 53

0.77

— 4.57

+ 11 45 28.4

0 13.9

— 2.0

9 " . .

7.6

3 3.0

18 39. 43

2 50. 53

1.06

— 1.48

+ 16 10 50.8

37.2

— 1.8

7

6 32. 0

22 9.00

2 50.53

1.13

— 1.42

+ 17 7 34.8

35.9

— 1.7

7

9 28. 0

25 5. 48

2 50. 52

1.10

— 1.45

+ 16 46 49. 3

36.4

— 1.7

18 r1 " . .

6.7

10 23.0

26 0. 63

2 50.52

1.10

— 1.4.",

+ 16 44 5.4

36.5

— 1.7

7.8

15 16.2

30 54. 63

2 50.52

2. 19

+ 1.28

-4- 30 41 35.0

19.1

+ 2.1

6.7

17 41.7

33 20. 53

2 50. 52

2.62

+ 1.32

+ 35 21 48. 4

14.0

+ 3.2

8 y Cor. Bor. .

20 53. 0

36 32. 35

2 50. 52

1.87

+ 0. 17

+ 26 58 2.4

23.3

+ 1.0

28 j3 Serpentis -

23 26. 0

39 5.77

2 50.52

1.06

— 1.49

+ 10 5 28.0

37.4

— 1.8

35 k " - -

5.6

26 13.2

41 53.43

2 50. 52

1.25

— 1.32

+ 18 48 1. 4

33.7

— 1.3

6.7

30 20. 7

46 1.61

2 50. 52

0.91

— 1.67

+ 13 52 2.3

40.7

— 2.0

41 y " . .

33 40. 0

49 21.46

2 50.52

1.08

— 1.47

+ 16 21 35. 2

37.1

— 1.8

6.7

38 9.4

53 51.61

2 50. 52

2.80

+ 1.27

+ 37 14 15.6

12.0

+ 3.5

7.8

41 17.6

15 57 0.33

2 50. 51

1.22

— 1.35

4- 18 23 20. 0

34.2

— 1.5

7

44 30.1

16 0 13.36

2 50. 51

2.38

+ 1.40

+ 32 49 1.6

16.8

+ 2.7

7.8

47 45.3

3 29. 09

2 50.51

3.22

+ 1.37

+ 41 ID 4H.5

7.8

— 4.3

6

51 2. 3

6 46. 63

2 50. 51

•J. 70

+ 1.28

-f- 36 57 5H.0

12.2

+ 3. 5

17 a Cor. Bor. .

53 42. 1

9 26.87

2 50. 51

■j.:>;

+ 1.37

+ 34 23 18.8

15.1

+ 2.9

7

56 27. 4

12 12.62

2 50. 51

2.33

+ 1.39

+ 32 17 58. 6

17.3

+ 2.5

10 y Herculis -

13 59 30.5

15 16.22

2 50. 51

1.31

— 1.28

-J- 19 39 7. 1

32.6

— 1.2

14 u " - -

14 2 33.2

16 18 19.42

— 2 50.51

— 0.95

— 1.61

+ 14 31 31.6

— 0 39. 8

— 2.0

a g assumed as 42° 17'

not 42°

47'.

d g assumed as

53° ; not 50°.

g £ assumed as 22° ; not

23°: and T. I rejected.

6 jj assumed as 31° 55

4"; no1

31 54' 44":

e T. Ill assume

d as 54m. 29s.;

not 54m. 39s. h g assumed as 37D; no

t 35°.

and Div. assumed

is 34 0 IS

. not 34 0 10.

/ Transits ovei

Ts. II and 11

I assumed as

c £ assumed as 53° 48'

6" ; uot .

3° 46' 8".

recorded ov

r Ts. I and II.

(58)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

59

17S3

APRIL 30 Zero corr. = + 1 45". 6.

Name

Mag.

T

App. Bid. time

Clock eorr.

11 tan 6

7 C— <P

Refr.

?'

h m s

h m s

m s

s

S O 1 II

/ //

„

Venus .

1 49 12.8

4 6 55. in

— 2 50. 38

- 1.45

— 1. 09 4- 21 35 0. 5

— 0 29.0

— 0.6

a Geruinorum

5 5 21.0

7 2:: 35. 52

2 50.31

2.33

4 1.39 4- 32 19 28.4

17.0

4- 2". 5

Procyon .

J2 32.3

30 48.00

2 50.31

0. :s7

— 0.87 4 5 45 9.6

53.6

— 1.5

78/3 ( ieminomm

16 37. 1

7 34 5:!. 17

2 50.31

i.OO

4- 0.79 ,4- 28 30 40.2

21.3

4- 1.5

IT i Cancri .

5 49 16.3

8 7 ::-.i'7

2 50.30

1'. 1;.:

— 3.19 4- 9 49 29.0

16. -

— 1.8

a) 9 i Ursse Maj.

6 28 40.5

8 47 8.92

2 50.27

1.20

4- 3.22 4 48 51 4.5

11.11

4 5.0

40 Lyncis

52 8. 3

9 10 4H.4II

2 50.26

2. 59

4 1.33 4- 35 16 29.2

13.9

4- 3.1

1 k Leonis .

6 56 18. 8

14 51.58

2 50. 26

1.88

4 0. 24 4 27 5 2. 1
4 1.27 4-37 24 55.0

2:;. 0

4- i.o

9 Leon. Min.

7 4 26.8

23 0.70

2 50. 2.'.

2.81

11.6

4 3.5

6) 14 o Leouis .

13 53.0

32 28.64

2 50. 2.",

0.70

— 4.20 4 10 51 11.5

45.li

— 1.9

24 ft " - -

24 38. 7

43 16.10

2 50. 24

1.87

4 0.2(1 4 20 59 51.5

23. 1

4 LO

18 Leon. Min.

6

27 59. 8

46 37.75

2 50. 21

2.42

4- 1.40 4- 33 22 49.2

10.1

4- 2.7

19

4 42 3 15.6

0.0 -j- 4.5

21

38 48. 1

57 27.83

2 50.21

2.69

4 1.30 4- 36 16 10.6

12. 9

4-3.3

c) 30 r; Leouis .

39 42.5

58 22.37

2 50. 23

1. 17

— 1.40 |4- 17 47 35.0

34.7

— 1.5

Regains -

41 1.8

9 59 42. 89

2 50. 2:;

0. ^4

— 1.79 + 13 0 5.4

41.6

— 2.0

22 Leou. Min.

46 47.8

10 5 28.84

2 50. 23

2. 34

4- 1.39 4. 32 30 47.5
4- 1.24 4- 30 21 41.0

16.9

4-2.6

23

48 3.7

6 44. 05

2 50. 23

2. 1 . ".

19.3

4- 2. 0

7

50 5.8

8 47.38

2 50.2:;

1.99

4 0. 78 4- 28 28 10. 0

21.4

+ 1- 1

25

52 11.6

10 53.52

2 50. 23

3. 4 1

4 1.50 4- 42 54 19.9

6.0

4-4.7

29

57 21.8

16 4.57

2 50.23

2.71

4-1.30

+ 36 29 53.6

12.7

4-3.4

31

7 59 26. 8

]!3 9.9]

2 50. 2;:

4- 1.27

4- 37 47 12.2

11.3

4 3.7

32

8 1 33.4

20 16.86

2 50. 22

3.08

4 1.31

4- 40 0 11.4

9.0

4- 4.1

34 " "

5 12.5

23 56.56

2 50.22

2.67

4- 1.30

4- 36 4 30.4

13.1

4-3.3

36 " "

9 39.7

28 24. 49

2 50. 22

2.59

4 1.33 4- 35 10 22.2

14.0

4 3.1

37

10 35.8

29 20. 75

2 50. 22

2.39

4 1.40 4 :;:; 4 24.3

16.3

4 2.7

5

14 6.8

32 52. 33

2 50. 22

2..;.;

4 1.40 4 32 48 8.0

16.6

4-2.7

47 Ursse Maj.

31 21.8

50 10. 16

2 50. 21

3.25

4- 1.39 4- 41 33 27.2

7.4

4 4.4

6

36 6. 0

54 55.14

2 50. 21

1.87

4 0.17 4- 26 54 52.2

23.2

4 1.0

51 Leon. Min.

7

37 43.2

10 50 32.60

2 50.21

1.82

— 11. 1-2 4- 26 20 58.0

23.9

4-0.8

53

41 12.8

11 0 2.77

2 50. 20

1.78

— 0. 10 4- 25 48 25.0

24.5

4-0.7

7

46 19.5

5 10.31

2 511.211

1.43

— 1.10 -f- 21 17 31.8

30.1

— 0.7

63 <5 Leonis .

46 36. 3

5 27.16

2 50. 20

1 . 46

— 1.05

4- 21 41 14.6

29.6

— 0. 6

53 f Ursse Maj.

50 35.9

9 27. 42

2 50. 20

2. 36

4- 1.40

4- 32 43 20. 0

16.7

4-2.7

54 v

50 45. 1

9 36.64

2 50. 20

2.50

4 1.38

4- 34 15 1.5

15.0

4-2.9

7

51 51.2

10 42.93

2 50. 20

2.47

4-1.39

+ 33 58 56.3

15. 3

4- 2.9

d) 56

54 53.5

13 45.79

2 50. 21 1

3. 62

4- 1.85

4- 44 38 31.6

4.2

4-5.0

81 Leonis .

8 58 18. 3

17 11.09

2 5ii.2i.

1.17

— 1.41

4- 17 37 33.5

35.0

— 1.6

6

9 2 32. 7

21 26.19

2 50. 10

2.22 + 1.32 + 31 8 40.:.

18.5

4- 2.2

7

5 32. 1

24 26. 08

2 50. 19

1.28

— 1.30 ;4- 19 10 36.6

32.9

— 1.3

7.8

8 21.9

27 16.34

2 50. 10

1.27

— 1.31 4-19 3 2.8

0 33.0

— 1.3

7

13 13.5

32 8. 74

2 50. 19

0.13

— 0. 12

4- 2 8 19.3

1 1.2

— 1.0

2 f ' Virginis .

18 3.5

36 59. 53

2 50. 19

0.61

— 2.08

4- 9 26 40. 7

0 47.5

— 1.8

8

25 33. 0

44 30.26

2 50. 18

l.lil

4- 2. 95

4- 47 44 1.6

1. 1

4-5.5

65 Ursse Maj.

7

27 41.0

46 38. 61

2 50. 18

4.H3 4 2.93

4- 47 39 14. 0

1.2

+ 5.5

8

33 7.2

52 5. 70

2 50.18

3.78 4- 2.31

4- 45 48 28.2

3.1

4-5.3

34 58. 6

53 57. 40

2 50. 18

3.58 + 1.73

4 44 13 15.0

4.7

4-4.9

67

6.7

35 21.3

11 54 20. 16

2 50. 18

3.59 + 1.75

4 44 17 42. 0

4.7

4-4.9

7

41 1.1

12 0 0. 90

2 50. 17

3.17 + 1.36

4- 40 50 11.2

8.1

4 4.3

7

43 41.8

2 42. 04

2 50. 17

3.20 4- 1.37

4- 41 4 17.8

7.9

4-4.3

7.8

48 16.3

7 17.30

2 50. 17

4. 12 |-f- 3. 09 -j- 48 17 36. 0

0.5

4 5.5

7.8

52 7.2

11 8. 83

2 50. 17

3.25 4- 1.39 ]4- 41 29 25.0

7.5

4-4.4

7.8

54 in.:;

13 12.27

2 50. 17

3.89 4- 2.64 4- 46 41 29.0

2.2

4-5.4

4 Can. Yin.

6.7

56 56. 7

15 59. 12

2 50. 17

3.51 4- 1.63 4- 43 43 0.6

5.3

4-4.9

6

6

9 58 58. 9

18 1.65

2 50. 16

3.10 |4- 1.32

4- 40 11 44.2

8.8

4- 4.1

7

10 4 16.2

23 19.82

2 50. 16

3.16 '4 1.35

4- 40 45 15.11

8.1

4-4.3

8 "

5

7 15.1

26 19.21

2 50. 16

3.36 4- 1.47

4- 42 3U 32.0

6.4

4-4.6

7

10 55.7

30 (1.42

2 50.16

3.07 4 1.30

4- 39 51 20. 6

9.2

4- 4.1

7.8

15 47.8

34 53.22

2 50. 16

3. 94 4- 2. 75 4- 47 2 20. 6

1.9

+ 5.4

6.7

19 48.2

38 54. 38

2 50. 15

0.46

— 1.17

4- 7 7 30. 3

51.5

— 1.6

37 Virginia .

6

24 20. 4

43 27. 32

2 50. 15

— 0.27

— 0.50

4- 4 13 22.8

57.2

— 1.3

43J " . .

4- 4 33 49. 4

0 56.4

— 1.4

44 k " - .

10 32 12.2

12 51 20.41

— 2 50. 15

4- 0.17

4 1.24

— 2 39 1.2

1 12.7

— 0.7

46 " . .

— 2 12 in. 11

— 1 11.5 !- 0.7

a T. I

[I reject

Ml.

c T. II rejected.

6 £ as

timed aa

37° 59*; not 37=

39'.

d Min. assumed as 39 ; not 40.

(59)

60

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

17S3 APItIC 36— Continued

Zero corr. = -f 1' 45". 6.

Name

Mag.

T

App. aid. time

i Clock corr.

n tan 6

<i

f— *

I

Refr.

I'

h in s

// m s

m s

s

s

0 / "

1 ,1

„

48 Yirginis

10 36 26. 0

12 55 34.90

— 2 50. 15

+ 0. 16

+ 1.20

— 2 30 16.2

— 1 12.2

— 0.7

49 £ " . .

40 12.7

12 59 22. 22

2 50. 14

0.62

+ 1.81

— 9 34 58. T

34.1

— 0.4

50 " . .

- 9 10 27. 0

32.6

— 0.4

7.8

43 58. 6

13 3 8.74

2 50.14

0.65

+ 1.79

— 10 4 8.9

35. 6

— 0.4

56 " . .

8.9

47 2.2

6 12.84

2 50. 14

0.59

+ 1.84

— 9 13 17.0

32.6

— 0.4

a)

7

49 44.5

8 55. 58

2 50. 14

+ 0.60

+ 1.82

— 9 24 19. 0

1 33.3

— 0.4

6.7

53 22. 5

12 34. 18

2 50.14

— 0. 26

— 0.46

+ 4 4 8.5

0 57. 3

— 1.3

7.8

10 56 18. 2

13 15 30. 36

— 2 50. 14

— 0.25

— 0.41

+ 3 50 1.0

— 0 57.9

— 1.3

17S3

APRIL. 87

Zero corr. = -f 1' 42". 8.

29 Leon. Mill.

7 53 25.0

10 10 3. C,s

— 2 49.11

— 2.70

+ 1.30

+ 36 29 53. 8

— 0 12. 6

4-3.4

32 Flautsteed

6.7

57 37.0

20 16.37

2 49. 1 1

3.06

+ 1.31

+ 40 0 13.7

9.0

+ 4.1

7

7 58 32. 9

21 12.42

2 49.11

3.08

+ 1.31

+ 40 6 16.3

8.9

+ 4.1

7.8

8 0 39.8

23 19.67

2 49. 10

3.10

+ 1.32

+ 40 18 28. 8

8.6 14- 4.1

35 Leon. Min.

4 3.3

26 43.73

2 49. 10

2.79

+ 1.27

+ 37 25 15.8

11.6 4- 3.5

36

5 42. 3

28 23. 00

2 49. 10

2.58

+ 1.33

+ 35 10 25. 0

14.0

4- 3.1

10 10.2

:;-.' 51.63

2 49.10

2.35

+ 1.40

-j- 32 48 8.5

16.5

+ 2.6

42

6.7

13 55.8

36 37.85

2 49.09

2.26

+ 1.38

+ 31 47 45.5

17.6

+ 2. 5

50

6

24 55.2

47 39.06

2 49.09

1.82

+ 0.06

+ 26 37 55.3

23.4

4- 0.9

6

27 31.6

r,o 15.89

2 49.no

2.78

+ 1.27

+ 37 13 45. 2

11.8

4-3.5

7

30 4.6

52 49.30

2 49.08

2.19

+ 1.30

+ 31 0 26. 8

18.5

+ 2.2

7

32 9.7

54 54.75

2 49. 08

1.86

+ 0. 17

+ 26 54 57. 2

23.1

4- 1.0

51 Leon. Min.

7.8

33 40. 8

56 32. 1 1

2 49.08

1.80

— ti.02

-(- 26 21 0. 8

23.8

+ 0.8

4) 52 " . .

7

35 30.2

10 58 15.80

2 49. 08

1.83

+ 0.08

+ 26 40 59.5

23.4

+ 0.9

53 " - .

37 15.7

11 0 1.58

2 49. 08

1.76

— 0. 16

+ 25 48 26. 4

24.4

+ 0.6

7.8

40 36.6

3 23.03

2 49. 08

2.64

+ 1.31

+ 35 56 18.8

13.2

+ 3.3

c) 68 6 Leouis .

42 39.4

5 26. 17

2 49.08

1.45

— 1.05

+ 21 41 15.8

29.5

4- 0.6

</) 53 f Ursa; Min.

46 39. 3

9 26. 73

2 49. 07

2.34

+ 1.40

4- 32 43 20. 2

16.6

+ 2.7

7

50 55.5

13 43.63

2 49.07

3.21

4- 1.38

+ 41 20 6.2

7.6

+ 4.3

8.9

55 44.8

IS 33.72

2 49. 07

3.98

+ 2. 88

4- 47 27 43. 6

1.4

+ 5.4

7

8 58 48. 2

21 37.62

2 49. 07

3.62

+ 1.87

4- 44 44 24. 4

4.1

4- 5. 0

7.8

9 1 3O.0

24 19.86

2 49.ni;

2.58

+ 1.33

4- 35 13 23.4

13.9

4- 3.1

8

4 24. 1

27 14.44

2 49. 06

1 . 26

— 1.31

■f 19 3 2.0

32.9

— 1.3

7.6

6 38.5

29 29. 21

2 49.00

2. 38

+ 1.40

4- 33 3 29.6

16.3

+ 2.7

62 Ursae Maj.

5.6

10 15.4

33 6. 70

2 49. 06

2.30

+ 1.40

4- 32 55 16.2

16.4

4-2.7

6.7

12 7. 6

34 .V.I. 21

2 49.05

2.36

+ 1.40

+ 32 56 33.5

16.4

+ 2.7

6

18 23.0

41 15.64

2 49. 05

2.60

+ 1.30

4- 36 6 37.0

13.0

4-3.3

7

20 25. 3

43 18.11

2 49.05

2.98

+ 1.28

+ 39 14 48.7

9.7

+ 3.9

7.8

22 31.8

45 25. 12

2 49.05

3. 30

+ 1.43

4- 42 5 41.0

6.8

4-4.5

7.6

24 46.5

47 40. 19

2 49.05

3.26

+ 1.41

+ 41 49 45.9

7.1

+ 4.5

7.6

26 1.2

48 55. 09

2 49. 05

3.24

+ 1.39

+ 41 31 34.9

7.4

+ 4.4

8

29 10.7

52 5. 1 1

2 49. 04

3. 75

+ 2.31

4- 45 48 27. 2

3.1

4-5.3

67 " "

6

31 1.8

53 56.52

2 49. 04

3. 55

+ 1.73

4- 44 13 17.7

4.7

+ 4.9

<■)

7.8

37 3. 7

1 1 59 59. 41

2 49.nl

:;. 10

+ 1.36

4- 40 50 12.2

8.1

+ 4.3

7

39 44.7

12 2 40. 85

2 49. 04

3. 17

+ 1.37

+ 41 4 16.2

7.8

+ 4.3

44 18.0

7 15.80

2 49. 04

4.10

+ 3.09

4- 48 17 35. 6

0.0

4-5.5

7

48 11.4

1 1 8. 04

2 49.03

3.22

+ 1.39

+ 41 29 20.6

7.4

4- 4.3

7.8

50 14.6

13 12.48

2 49. 03

3. 87

-f- 2. 64

+ 46 41 29. 4

2.2

4-5.4

4 Can. Ven.

5

52 59. 4

15 57.73

2 49. 03

3.49

+ 1.63

+ 43 43 0.8

5.2

4-4.9

6 " - .

6

55 2. 1

18 0.77

2 49.li:;

3.08

+ 1.32

+ 40 1 1 45. 6

8.8

4- 4.1

/)

7.8

9 59 28. 6

22 28.00

2 49.li'.'

3.11

-|- 1.33

4- 40 25 32. 0

8.5

4- 4.1

7

10 0 19.2

23 18.74

2 49.02

3.14

+ 1.35

+ 40 45 17.6

8.2

4- 4.2

8 " - -

5

3 18.0

26 18.03

2 49.02

3.34

+ 1.47

4- 42 30 35.5

6.4

4-4.6

7.8

5 6.9

28 7. 23

2 49.02

3.16

+ 1.36

+ 40 51 11.0

8.1

4-4.3

s)

7

6 58.4

29 59.04

2 49.02

3.05

+ 1.30

4- 39 51 23. 6

9.1

4- 4.1

9 " . .

+ 42 2 30.4

6.9

4-4.5

7.8

11 51.1

34 52.54

2 49. 02

3.92

+ 2.75

+ 47 2 21.0

1.8

4- 5.4

6.7

16 10.6

39 12.75

2 49. 01

- 1.10

— 1.45

4- 16 45 36. 1

0 36. 1

— 1.7

524 Mayer . .

6.7

10 19 52.8

12 42 55. 56

— 2 49.01

+ 0.59

+ 1.84

— 99 40. 2

— 1 31.9

— 0.4

a £ assumed as 58° ; no

50".

I Name assumec

as 53 { Ursas

Mai oris : not / ?

ssumed as 8° 25' 3:

"; not 8° 25' 43".

b Mm assumed as ■(■"> ; i

nt :(4.

5:1 I l'l's;! Mi

loris.

e l<

Lssumed as 8° ; not

7°.

c Div. assumed as 28 15

9 ; not 2

!15C.

: Div. assumed ;

8 8 8 12 ; not 8

1 12.

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

61

•

1TS3 APRIL 27— Continued

Zero corr, I 1 1

Name

Mag.

T

A pp. sid. time

Clock corr.

n tan 6

'/

:-o

Relr.

'/'

// III s

Ii in s

in a

s

s

O ' Ii

/ //

11

40 ■ ' Virginia .

10 22 50.7

12 4:. ;".:'.. '.T.

— 2 49.nl

+ 0.54

-t- 1.87

- - 21 53.8

— 1 29.3

— 0.5

4:i ci ," . .

24 "JO. 4

47 52.92

2 49.Ul

— n.29 — 0.56

+ 4 33 51.2

n 56 l

— 1.4

7.6

27 16.ii

r.ii 19.95

■J 111. i H

+ n. 11 4 c.O-

— 1 44 21.11

1 in. 1

— 0.7

46 " . .

29 11.8

52 L6.07

•J 49.00

li. 14 + 1. 12

— 2 12 35.9

11.2

— 0.7

48 " . .

32 20. 5

12 55 34.31

2 49.1 H

0.16 '-j- 1.2H

— 2 30 15.2

11.9

— 0.7

6

36 58..3

13 o ::. 85

2 49. (hi

n.50 +1.88

— 7 49 31.9

27.4

— 0.5

«) 53 " . .

5

40 14.7

:; 20.78

2 49.IKI

n.98

+ 1.61

— 15 1 19.6

57.11

- 0.5

56

7

43 5. 8

6 12.35

2 4.«. 99

0.6H

+ 1.84

— 9 13 12.1

:;•.'. 2

— 0.4

6.7

45 47.4

8 54.39

2 48. W

0.61

+ 1.82

— 9 24 14.0

32. 8

— 0.4

62 " . .

6.7

1- 38.8

11 46.26

2 48.99

0.66

4 1.79

— 10 9 54.8

35. 6

— 0. 4

65 " . .

51 46. *

14 54.78

2 48. 99

0.24

+ 1.53

— 3 47 4(1.3

15.4

— 0.6

06 " . .

6.5

10 52 57.6

11. 5.77

2 48. 99

0. 26

+ 1.58

— 4 2 6. 3

16.1

— 0.0

9

11 0 4.2

•„>:; 13.54

2 48.98

0.59

+ 1.84

— 9 8 25. 0

31.9

— 0.4

76 A " . .

1 1'.'. 7

24 22.23

2 48. 98

+ 0.58

+ 1.85

— 92 51.6

31.5

— 0.4

6.7

4 51.2

28 1.33

2 48. 98

— 0.01

-(- 0.30

4- 0 10 24.4

1 5.5

— 0.8

7

- I1.'. 1

31 29.80

2 48. 98

1.28

— 1.28

+ 19 21 9. 6

(1 32.7

— 1.2

I Bootis .

6.7

lit 1.3

33 12.28

2 48.98

1.40

— 1.13

+ 21 2 11.8

3H.5

— 0.8

L3 11.7

36 23.20

2 48.97

1.61

— 0.70

-j- 23 46 36.11

27.(1

n.ii

1 - " . .

16 38. 7

39 50.77

2 48.97

1.22

— 1.34

4- 18 31 21.0

33.8

— 1.4

7 "

22 31.7

45 44.74

2 48. 97

1.26

— 1.31

4- 18 59 11.6

33.2

— 1.3

8, " . .

24 1.6

47 14.88

2 4^. 97

1.29

— 1.27

4 19 28 7.H

3.2. 5

— 1.2

9 " . .

26 1-. ::

49 31.96

2 48. 97

1 . 98

+ 0.79

4 2- 32 14.3

21.4

+ 1.5

10 e " . .

7

28 8.5

51 22.46

2 48.96

1.53 — 0.89

4- 22 44 17.0

■J-.::

— H.3

11 " . .

30 58.2

54 l-J. 63

2 48.96

1.98 ;+ 0.74

4 28 21 55.2

21.5

4- 1.4

8

33 16.0

13 56 30.8]

2 48.96

1.98

+ 0.79

4- 28 32 6.2

21.4

4- 1.5

7.8

36 56.7

14 0 12.12

2 48.96

2.64

+ 1.31

4 :::> 17 25.6

13.4

+ 3.3

12 d " . .

40 7.7

3 23. 64

2 48.96

1.78

— 0.08

4- 26 6 2.8

24.1

+ 0.7

14 " . .

43 16.5

6 32.96

2 48.96

0.90

— 1.65

+ 13 57 49.6

4H.3

— 2.0

Arcturus .

45 2:!.:!

8 4H. 11

2 48. o:,

1.35

— 1.21

4- 20 17 44. 5

31.5

— 1.0

18 Bootis . .

4* 2::. ii

11 411.311

2 48. 95

0.91

— 1.65

+ 13 59 35. 7

4H.2

— 2.0

7.8

52 16.6

15 34.54

2 48. 'X,

2.14

+ 1.23

4- 30 20 3H.6

19.3

4- 2. 0

22/ " . .

55 57. 3

19 15.84

2 48. 95

1.35

— 1.22

-j- 20 11 15.5

31.6

— 1.1

'<)

7

11 58 37.2

21 56.18

2 48.95

1.84

+ n. 12

4- 26 48 15.4

23.4

4- 1.0

c) 26

12 2 14.7

25 34. 28

2 48. 94

1.56

— 0. 82

4 23 11 59.0

27.7

— 9.2

7

5 52. 2

29 12.38

2 48. 94

1.64

— 0.60

-j- 24 10 40.0

26.5

11.11

6

7 42.2

31 2. 68

2 48. 94

1 . 28

— 1.30

4- 19 13 40.0

32.9

— 1.3

6

o 54.2

33 15.04

2 48. 94

0.94

— 1.62

4 14 27 12.5

39.6

— 2.11

30 f Bootis . .

10 20. 4

33 41.30

2 48. 94

0.95 — 1.60

4- 14 38 50. 1

39.3

— 1.9

35 o " . .

14 39.7

38 1. 30

2 48. 93

1.17

— 1.40

+ 17 52 Kl.9

34.8

— 1.5

d)

7

15 18. 1

38 39.81

2 48.93

1.16

— 1.40

+ 17 41 55.0

35.0

— 1.5

6.7

23 3.8

46 26. 78

2 48. 93

1.33

— 1.2::

4- 20 0 44.4

0 31.8

— 1.1

1 Serpentis .

6

25 54.2

49 17.64

2 48.92

0. 94

+ 0.16

4- 0 42 1 3. 6

1 4. 5

— 0.9

2

6.7

30 10.2

53 34. 34

2 48. 9-.'

0.04 + (1. 16

4- 0 42 51.9

1 4. 5

— 0.9

7.8

34 7.4

14 57 32.19

2 48.92

1.38

— 0.18

4- 20 411 26.(1

0 31.0

— 0.9

45 c Bootis -

37 14.4

15 0 39.70

2 48. 92

1.76

— 0.19

-j- 25 41 511.6

24.8

+ 0.6

46 " . .

38 36.4

2 1.92

2 48. 92

1.78

— 0.13

+ 25 55 18.8

84.4

+ 9.7

6.7

45 44. 1

9 111.79

2 48.91

3. 50

+ 1.66

4- 43 49 34. 0

5.1

4-4.9

7

50 20.2

13 47.64

2 48. 91

3.83

+ 2. 53

4- 46 22 54. 9

2.5

4-5.3

<0

8

52 59. 1

16 26. OS

2 48.91

3.83

+ 2.54

4- 46 25 8.6

2.5

4-5.3

8

12 58 22. 2

21 50.96

2 4J.9(i

3.61

4- 1.87

4- 44 44 29. 9

4. 1

4- 5. 1

6

13 2 31.2

26 0. 64

2 48.90

2.78

+ 1.27

+ 37 20 3.3

11.8

4-3.5

5 a Cor. Bor. .

4 53.5

28 23. 33

2 48. 90

1.90

+ 0.35

4- 27 25 38.5

22.7

4 i-i

8

11 3.0

34 33.84

2 48. 90

0.54

— 1.50

4- 8 30 21.(1

49.0

— 1.8

24 a Serpentis .

12 56.7

36 27. 86

2 48. 89

0.46

— 1. 17

+ 7 6 4.2

51.4

— 1.6

28/3 " . .

15 32.7

39 4. 29

2 48. 89

1.06

— 1.49

4- 16 5 24. 3

37.2

— 1.8

7

20 3. 2

43 35.53

2 48. 89

1.04

— 1.50

4- 15 46 54.6

37.8

— 1.8

7

22 29. 0

46 1.73

2 48.89

1.18

— 1.38

4- 18 2 14.6

34.6

— 1.5

6

25 18. 1

48 51.29

2 48.89

1.28

— 1.29

+ 19 14 4(1.8

33. 0 1

— 1.3

13 e Cor. Bor. .

27 55.8

.M 29.42

2 48. 89

1.90

4- 0. 38

4- 27 29 21.6

22.7

4- 1.1

7

34 39.0

15 58 13.72

2 48. "

2.76

+ 1.27

+ 37 12 29. 4

12.0

4- 3.5

/) 48 Serpentis .

40 57. 6

16 4 33.36

2 48. 88

1.12

— 1.42

4- 17 12 57.8

35.7

— 1.7

7.8

46 36.6

16 10 13.29

2 48. 87

1.28

— 1.28

+ 19 22 14.3

32.8

— 1.3

7

13 31 27.9

15 55 2. in

— 2 48. 88

— 2.30

+ 1.39

+ 32 9 40. 0

— 0 17.4

4-2.5

a Div. readings rejectee

- and T

III ;i^umed c Div. assumed a

s 27 5 12 ; not 2

7 4 12. t T

41 assumed as 53m

32s.; not 53m

34s.

tan. 38s.5; not 41

in. 33s.5

d g assumed as 3

1 9' HI"; not 3

L° 9' 20". / Di

v*. assumed as 33 11

14 i not 33 11

15.

6 Div. assumed as 22 2 -

8 ; not 2

J 2 38.

(61)

62

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

17S3 APRIL 97— Continued Zero corr. = +

1' 42".8..

Name.

Mag.

T

App. sid. time

Clock corr.

n tan ri q

i—<P

Rei'r.

'/

h m s

h m s

m s

s

S

o ' n

/ //

//

15 p Cor. Bor. .

13 32 3. 8

15 55 38.10

— 2 48. 89

— 2.46

+ 1.39

+ 33 56 18.4

— 0 15.5

4 2.9

6.7

37 16.6

16 0 51.76

2 48.88

1.50

— 0.95

+ 22 23 32. 5

28.9

— 0.4

6

45 9.3

8 45.75

2 48.87

1.28

— 1.29

+ 19 20 39. 6

32.8

— 1.2

6.7

49 56. 4

13 33.63

2 4^. 87

1. 14

— 1.06

+ 21 38 36.0

29.9

— 0.6

24 u Herculis .

54 40.2

18 18.22

2 48. 87

0.94

— 1.01

4 14 31 22.2

39.0

— 1.9

26 " . .

7

13 58 56.3

22 35.02

2 48.86

2.38

+ 1.40

+ 33 9 46. 0

10.3

4 •-'. 7

32 " . .

14 1 14.6

27 54. 19

2 48. 8 I

2.19

+ 1.30

4- 30 56 6. 4

18.8

4 2.2

6.7

6 16.2

29 56. 12

2 48.86

0. 97

— 1.58

+ 1 4 54 23. 0

39. 0

— 1.9

6.7

9 19.0

32 59. 42

2 48. ,-n

1.50

— 0.94

+ 22 25 30. 6

28.8

— n.4

6.7

11 13.1

34 53.83

2 48. 85

1.72

— 0.30

+ 25 15 46.2

25.3

4- 0.5

6

14 45.9

38 27.22

2 48. B5

1.06

— 1.48

+ 16 8 12.5

37.2

— 1.8

6.7

17 21.1

41 2. 84

2 48. 85

0.90

— 1.05

4- 13 58 4.2

40.6

— 2.0

46 " . .

6.5

+ 13 37 54. 0

40.9

— 2.1)

49 " . .

7

14 21 23.3

16 45 5. 70

— 2 48. 84

— 1.00

— 1.54

+ 15 19 44.2

— 0 38.4

— 1.9

I7S3

APRIL 28 Z

>ro corr. =4-1' 41".5.

Shins .

4 12 21.8

6 38 20. 73

— 2 48. 54

+ 1.07

+ 1.07

— 16 25 40. 4

— 2 2. 8

— 0.5

Proeyon -

5 4 38.6

7 30 46. J2

2 48.50

— 0.36

— ii.-;

+ 5 45 11.2

0 53. 1

— 1.5

78 fi Geminorum

5 8 43.4

7 34 51.59

2 48.50

1 97

+ 0.79

4 28 30 46. 6

21.1

4 1.5

] k Leonis .

6 48 25.7

9 14 50. 27

2 48. 43

1.86

+ 0.24

4 27 5 2. 1

22. 8

4 1-0

14 o " . .

7 5 57.5

32 24. 95

2 48. 42

0.70

— 4.29

4 in 51 III. 2

44.5

— 1.9

24 fi " . .

-j- 26 59 51.2

22. 8

4 i.o

17 Leon. Min.

6

20 6.3

40 30.07

2 48. 41

2.39

+ 1.40

4- 33 22 50. 2

15.8

4 2.7

29 7r Leonis .

25 5.4

51 35.99

2 48. 1 1

0. 58

— 1.67

+ 9 3 37. 2

47.4

— 1.8

21 Leon. Min.

30 54. 6

57 26.15

2 48. 4ii

2. 66

+ 1.30

-j- 36 16 111. 0

12.7

+ 3.3

30 j) Leonis .

31 49.6

58 21.30

2 48. in

1. ir.

— 1.40

4 17 47 35.2

34.3

— 1.5

Regulos .

:::; 8.6

9 59 40.52

2 48. 411

0. 84

— 1.79

4 13 0 5.6

41.3

— 2.0

22 Leon. Min.

6.7

38 55. 2

10 5 28.07

2 48. 39

2.31

+ 1.39

4 32 30 49. 5

10.7

4- 2. 6

23 " . .

5.6

40 10.5

6 43.57

2 48.39

2.13

+ 1.24

4 30 21 39.5

19. 1

+ 2.0

24 " . .

6

4- 29 44 16.0

19.8

+ 1.8

25 " . .

44 18.7

10 52. 45

2 48. 39

3. 37

+ 1.50

+ 42 54 19.4

5.9

+ 4.7

34 a Ursse Maj.

45 38.7

12 12.67

2 4-. 39

3.34

+ 1.47

4 42 3,3 28. 4

6.3

4 4.6

6.5

45 31.0

12 4.95

2 48.39

3.31

+ 1.45

4 42 17 53.8

6.6

4 4.5

7

49 31.8

16 0.41

2 4.-'. 39

2.43

+ 1.39

4 33 49 53. 8

15. 3

+ 2.9

6

54 18.6

20 53. 99

2 4s. 39

2.77

+ 1.27

4 37 21 27. 4

11.6

4-3.5

«)

5.6

7 56 47.8

23 23. 60

2 48. 38

3.21

+ 1.39

-j- 41 30 33.7

7.4

4-4.4

8

8 o 21.2

26 57. 58

2 48. 38

3.98

+ 2.92

+ 47 38 -j:,. 6

1.2

4-5.5

7

3 21.2

29 5,-. I '7

2 48.36

4.03

+ 3.00

4- 47 56 15.0

0.9

4- 5. 5

6

6 13.4

32 fin. 74

2 48. 38

•J. 34

+ 1.40

4- 32 48 9. 0

10.5

4 2. 7

42 Leon. Min.

6

9 59.0

36 36.96

2 48. 38

+ 1.38

+ 31 47 48.0

17.5

4-2.4

7

10 1.0

36 38.96

2 48.38

2. 25

4 1.37

4 31 44 20.0

17.5

4-2.4

10 :;::.■_>

37 11.25

2 48. 38

2. 25

+ 1.38

4 31 47 23. 0

17.5

4 2.4

46 " . .

4.5

17 -JO. 2

4:: 59.36

2 48. 37

2.57

+ 1.32

-j- 35 21 15. 2

13.7

4 3.2

h) 47 " . .

19 3.8

45 43.24

2 48. 37

2.56

+ 1.33

4 :::. 9 49.0

13.9

4 3.1

6.7

23 35. 1

50 15.28

2 48. 37

2.76

+ 1.27

4 37 13 43.6

11.7

4-3.5

28 20.0

10 55 0. 96

2 48. 36

3.H4

+ 1.31

4- 40 0 23. 8

8. 9

4 4.1

c) 53 f Ursse. Maj.

42 42.5

1 1 9 25. 82

2 48. :;■".

2.34

+ 1.40

4 32 43 17.8

10.0

4- 2.0

7

43 57.7

10 41.22

2 48.35

2.45

+ 1.39

-j- 33 58 54. 0

15.2

+ 2.9

7

46 58.7

13 42.7-,'

2 48.35

3.20

4- 1.38

+ 41 20 4.6

7.0

4- 4.3

8.9

51 48.8

IS 33.62

2 48. ::r,

3.95

+ 2. 88

4 47 37 38.6

1.4

4-5.4

7

54 51.6

21 36. 93

2 48. 3:,

3. 59

+ 1.87

4 44 41 211.6

4. 1

4-5.0

8

8 57 :;::. u

24 IS. 77

2 48. 34

2. 56

+ 1.33

-j- 35 13 18.8

13.9

4 3.1

6

9 0 56.2

27 42.53

2 48.34

2. 01 ■

+ 0.95

+ 28 57 19. 8

2H.7

4 1.6

7

1 53.2

28 39. 69

2 48.34

2.01

+ 0.95

+ 28 57 2.0

20. 7

4 1.6

62 Ursse Maj.

6 18.8

33 6.02

2 48.34

2.35

+ 1.40

4- 32 55 13.2

16.3

4-2.7

7

8 11.1

34 58.63

2 48.34

2. 35

+ 1.40

4- 32 56 26. 8

16.3

+ 2.7

d) 03 x " "

10 35.5

37 23. 43

2 48. 34

1. 16

+ 3.24

+ 48 57 2. 0

0.1

+ 5.6

6

14 26.4

41 14.96

2 48. 33

'.'.6.".

+ 1.30

+ 36 0 34.0

13.0

+ 3.3

9

14 55.2

41 43.84

2 4-. 33

2.62

+ 1.31

4- 35 58 13.0

13.1

+ 3.3

7

16 28.3

43 17.211

2 48. 33

2. 96

+ 1.28

+ 39 14 51.3

9.7

+ 3.9

7.8

9 18 34.8

11 45 24.05

— 2 48. 33

— 3.28

+ 1.43

4 42 5 45.2

— 0 0.8

+ 4.5

a T III assumed as 57m

18s. 5; n

• I 57m. 58s.5,

c £ assumed as 16 7 ; i

ot 16° 8'.

b '(, assumed a- 13° 41' 1

7"; not

3° 41' 47".

d | assumed as 89°; uot

88°.

(62)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

63

1783 APKIL 38— Continued

Zero corr. = + 1/41". 5.

Name

Mag.

T

App. sul. time

Clock corr.

n tan i

'/

f-«

Refr.

1'

h in s

It m s

m s

s

s

O ' "

/ //

II

8

9 20 50.2

11 47 39. 32

— 2 48. 33

— 3.25

+ 1.41

+ 11 49 4:'.. 0

— 0 7. 1

+ 4.5

a)

0.7

'J-.' 4.2

43 54. 03

2 48. ::::

:i. -j-j

+ 1.39

+ 41 31 35.0

7.4

+ 4.4

b)

8.9

25 13.3

52 ::. 64

2 4^. 33

3.73

+ -J. 32

-f 45 48 -'9.-.'

3.1

+ 5. 3

07 Ursas Maj.

27 4.8

53 55. 45

2 4r-.::-.»

3.54

+ 1.73

+ 44 13 13.0

4.7

+ 4.9

<0

7

27 -J--.il

54 18.71

2 4s. :;•.'

3.53

+ 1.73

+ 4 1 17 41.0

4.7

+ 4.9

d)

9.8

32 18. 3

59 9.80

2 48. 32

:;. 54

+ 1.75

+ 44 10 31.8

4.7

+ 4.9

c)

7.8

33 7.6

11 59 59.23

2 48.32

3. 14

+ 1.30

-j- 40 50 11'. 0

8.0

+ 4.3

7

35 48.2

12 2 40. y?

2 4 s. 32

3.16

+ 1.37

+ 41 4 16.8

7.8

+ 4.:;

7

39 27.8

0 20. 47

2 4S. 31

4.06

+ 3.08

-j- 48 13 20. 0

0.0

+ 5.5

f)

7

39 40. -j

6 38.92

2 48.31

4.07

+ 3.08

4ii 22.8

7 15.02

2 48.31

4.07

-j- 3.09

+ 48 17 31.0

0.0

+ 5.5

7

44 14.7

11 8.16

2 48.31

3.22

+ 1.39

+ 41 29 is. 0

7.4

+ 4.3

g)

7.8

46 17.4

13 11.20

2 48.31

3.85

+ 2.64

-f- 46 41 30.6

2.2

+ 5.4

h) 4 Can. 'S en.

49 2. 6

15 56. 85

•> 43.31

3.47

+ 1.63

+ 43 42 59.8

5.2

+ 4.8

7

50 12.1

17 0. 54

2 48.31

3.51

+ 1.09

+ 44 1 35.2

4.8

+ 4.9

15 c Conue .

52 3. 1

18 57.84

2 48.31

•J. 115

+ 1.09

+ 29 27 3. 2

20.2

+ 1.7

0.7

52 38.7

19 33.54

2 4-. :;i

2.H4

+ 1.07

+ ^'J 17 17.5

20.4 + 1.7

55 32.5

22 27.81

2 48.31

3.09

+ 1.33

+ 40 -jr. 33.0

8.5 +4.1

i)

56 22. 1

23 17.54

2 48.30

3.13

+ 1.35

+ 40 45 11.0

3. -j + 4. 3

8 Can. Yen.

9 59 20.9

20 16.84

2 48. 30

3. 33

+ 1.47

+ 42 30 31.2

6. 4 + 4. 6

8

10 1 10.5

28 0.74

2 48.30

3.14

+ 1.36

-j- in 51 15.5

8.1

+ 4.3

8

3 2.1

29 58.64

2 48.30

3. 04

+ 1.30

+ 39 51 23.6

9.1

+ 4.1

7

5 28. 2

32 25. 14

2 48. 30

2. 57

+ 1.32

+ 35 19 55.5

13.3

+ 3.1

7

7 54.8

34 52. 14

2 48. 30

3.90

+ 2. 75

+ 47 2 19.8

1.8

+ 5.4

6.5

10 48.8

37 46.62

2 48.30

::. -1

+ 2.61

+ 46 35 54.3

2.2

+ 5.4

30 Comse . .

6

14 35.3

41 33.74

2 4-. 29

1.99

+ 0.86

+ 28 42 39.8

21.0

+ 1.5

9

18 31.3

45 30.39

2 48. 29

0.34

— 0.77

+ 5 24 14.5

54.1

— 1.4

43 6 Yirginis .

20 32. 5

47 31.92

2 48.29

— 0.29

— 0.56

+ 4 33 40. 4

0 55.7

— 1.4

6

23 19; ii

50 19.48

2 48.29

+ 0. 1 1

+ 0.99

— 1 44 24.2

1 9.6

— 0.7

j) 46 " . .

25 15.0

52 15. 19

2 43.28

0.14

+ 1. 12

— 2 12 42.2

10.7

— 0.7

48 " . .

28 :;-.'. ::

55 33.04

2 48. 28

0.16

+ 1.20

- -J 30 17.8

11.3

— 0.7

k) 49 or " . .

32 19.5

12 59 20.86

2 48.28

0.62

+ 1.81

— 9 35 1.2

33.0

— 0.4

53 " . .

36 18.4

13 3 211. 41

2 48.28

0.98

+ 1.61

— 15 1 25.6

55.9

— 0.5

56 " . .

7

39 9. 0

6 11.48

2 48.28

0.60

+ 1.84

— 9 13 15. 1

31.5

— 0.4

/) 58 " . .

6

41 50.7

8 53. 62

2 48.27

0.01

+ 1.83

— 9 24 18.5

1 32.2

— 0. 4

63 " . .

47 9. :;

14 13.09

2 48.27

1.08

+ 1.00

— 10 35 30.2

2 4.5

— 0.5

67 a "

10 49 30.8

13 16 34.98

2 43. 27

+ 0.04

+ 1.79

— 10 1 40.5

1 34. G

— 0.4

30 C Bootis . .

12 0 23.8

14 33 40.60

2 48.22

— 0.95

— 1.00

+ 14 38 48. 1

0 39.0

— 1.9

30 e " . .

11 5.3

38 22. 87

2 48. -J 1

1.93

+ 0.57

+ 27 58 14.0

21.8

+ 1.3

7

13 6.8

40 24.70

2 48.21

1.32

— 1.23

+ 19 56 25.1

31.7

— 1.1

37 f " . .

5

16 57. 7

44 16.23

2 43. 21

1.32

— 1.23

+ 19 59 s.7

31.6

— 1.1

6

19 7. -J

46 20.09

2 48.21

1.32

— 1.23

4- 20 0 41.4

0 31.0 — 1.1

1 Serpentis .

21 58.0

49 17.36

2 48. 21

0.04

+ 0.10

+ 0 42 1 1 . 4

1 4.0—0.9

o it

6

26 12.8

53 32.86

2 48. 20

0.04

+ 0.16

+ 0 42 5H.(i

1 4.0

— 0.9

1 1 0 Yirginis -

6

27 28.0

54 48.27

2 48. 20

i'. 1-

— 0.27

+ 2 50 19.9

0 59.2

— 1.2

42 /3 Bootis . .

29 18.9

56 39. 47

2 48. 20

3.18

+ 1.37

+ 41 l:! 22.3

7.7

+ 4.3

44 " . .

32 9.3

14 59 30.33

2 48.20

4.09

+ 3. 13

-f 48 28 14.4

0.4 +5.5

7.8

35 31.5

15 2 53. 08

2 48.20

1.73

— 0.25

+ 25 29 5. 0

24.8 + 0.5

6. i

41 47.3

9 9.91

2 48. 19

3.49

+ 1.00

+ 43 49 42. 0

5.0 1+ 4.9

7

46 23. 6

13 40.97

2 48. 19

3.81

+ 2.53

+ 46 22 58. 6

2. 5 + 5. 3

6

50 3.8

17 27.77

2 48.19

3.08

+ 1.::-.'

+ 40 19 58.5

8.6

+ 4.1

51 ii "

51 46.2

19 10.45

2 48. 19

2.84

+ 1.27

+ 38 6 56.0

10.9

+ 3.7

7

54 25. 6

21 50.28

2 48. 19

3.60

+ 1.87

+ 44 44 19.6

4. 1

+ 5.0

7.8

55 55.2

23 20. 14

2 48. 18

2.98

+ 1.29

-j- 39 ".'7 3.1

9.5

+ 4.0

m)

6

12 58 34. 7

26 0.07

2 48. 18

2.76

+ 1.27

+ 37 20 3. 0

11.7

+ 3.5

6 Serpentis .

13 1 50.9

29 22.82

2 48. 1 8

1.10

— 1.44

+ 16 49 35. 0

35.9

— 1.7

0.7

5 22. 0

32 48. 48

2 48. 1-

0.83

— 2.11

-f- 12 44 50. 4

41.9

— 2.0

20* " . .

7 1.5

34 28.25

2 48. 18

n. -

— 1.71

+ 13 32 6.2

40.7

— 2.0

24 a " . .

9 0.3

36 27. 38

2 48. 18

0. 44

— 1.17

-f 7 6 8.5

51.1

— 1.6

28/3 " . .

11 30.4

39 3.91

2 48. 17

1.05

— 1.49

+ 16 5 24.5

36.9

— 1.8

35 k "

13 14 23.7

15 41 51.07

— 2 4--. 17

— 1.24

— 1.32

+ 18 48 0.0

— 0 33.3

— 1.3

a T. Ill assumed as 22i

a. 35s. ;

not 22m. 2os.

f g a-suuiril as

that of a star

whose Cl

t. kg

issumed as 58° 26'

!" ; not 5g3 26' 38".

6 T. I assumed as 40s. £

; not 20

<.5.

place is J tv

nn full. star.

I T

III assumed aa i:t-

■ > i not 22s. 5.

e <? assumed as 4^ 33' ;

tot 1 £

g Min. assumed

as 40; not 45.

m T

1 assumed as 58m

; not 57ni.

d g assumed as 4° 34' ;

lot i 3

h Div. assumed

as 5 7 10 ; not

5 7 9.

e g assumed as 8° 0' 5.

1"; not

j° 1' 3": and

i Min. assumed

as 56 ; not 57.

Micr. corr. as — 5 ;

not — 5

j Min. assumed

as 25 ; not 26.

(63)

64

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 APRIL 38— Continued Zero corr. = + 1' 41". 5.

Name

Mag.

T

App. sid. time

Clock con'.

n tan <5

v ?->

Refr.

l'

h m s

A m s

m s

s s ° ' "

/ //

II

6.7

13 16 6.7

15 43 34. 95

— 2 48. 17

— 1.03 — 1.50 + 15 46 54.8

— 0 37. 4

— 1.8

6.7

18 3-2. 1

46 0. 75

2 48. 17

1.18 — 1.38 + 18 2 21.1

34.3

— 1.5

6

21 21.1

48 50.21

2 48. 17

1.27 — 1.29 + 19 14 37.3

32.7

— 1.3

13 e Cor. Bor. .

23 58. 8

51 28.34

2 48. 17

1.88 !+ 0.38 + 27 29 22.6

22. 5

+ 1.1

27 30.8

55 0. 92

2 48. 16

2.28 + 1.39 + 32 9 47.0

17.2

+ 2.5

6

30 42.6

15 58 13.25

2 48. 16

2.75

+ 1.27 + 37 12 28.0

11.9

+ 3.5

• 6

33 20. 2

16 0 51.28

2 48. 16

1.50

— 0.95 + 22 23 32.2

28.6

— 0.4

48 Serpentis .

6

37 1.2

4 32.88

2 48. 16

1.13

— 1.42 + 17 13 0.0

35.4

— 1.7

7

39 8. 0

6 40. 03

2 48. 16

1.87

+ 0.28 + 27 12 41.6

22. 8

+ 1.0

16 Herculis .

41 12.3

8 44.07

2 48. 15

1.27

— 1.29 + 19 20 42.2

32.5

— 1.3

7.8

42 40. 1

HI 12.71

2 48. 15

1.28

— 1.28 + 19 22 15.0

32. 5

— 1.3

6

45 59. 5

13 32.66

2 48. 15

1.44

— 1.06 + 21 38 40.8

29. 6

— 0.6

51 Serpentis .

50 43. 8

18 17.74

2 48. 15

II. 94

'—1.61 + 14 31 25.2

39. 4

— 1.9

26 Herculis .

7

54 59.9

22 34. 54

2 48. 15

2. 37

+ 1. 40+33 9 45. 2

16.1

+ 2.7

«)

6

13 56 26.4

24 1.27

3 48. 14

1.39

— 1.15 + 20 56 25.4

30.7

— 0.8

7.8

14 0 17.9

27 53. 41

3 48. 14

2. 18

+ 1. 28 + 30 56 10. 4

18.6

+ 2.2

7.6

2 19.4

29 55. 24

3 48. 14

n.97

— 1.58 + 14 54 21.2

38.7

— 1.9

7.6

5 22. 5

32 58.84

3 48. 14

1.50

— H.94 + 22 25 31.8

28.6

— 0.4

i)

6

7 16.8

34 53. 45

3 48. J 4

1.72

— 0. 30 + 25 15 47. 8

25. 1

+ 0.4

6

10 49.2

38 26. 43

3 48. 13

1.05

— 1.48 4- 16 8 13.0

36.9

— 1.8

49 Herculis .

7

17 27.2

45 5. 52

2 4". 13

1.00

— 1.54 + 15 19 41.2

38.0

— 1.9

6

21 54.7

49 33.75

2 48. 13

3.40

+ 1.54 + 43 Id 18.8

5.7

+ 4.7

6

25 14.8

52 54. 40

2 48. 13

3.98

+ 2. 93 + 47 40 43. 8

1.2

+ 5.5

8

26 54. 0

54 33. 88

2 48. 12

3.98

+ 2.93 + 47 38 51.9

1.2

+ 5.5

6.7

29 58. 4

16 57 38.78

2 48. 12

3.38

+ 1.52 +43 0 43.4

5.9

+ 4.7

6

33 40. 7

17 1 21.69

2 48. 12

3.51

+ 1.70 + 44 4 48.6

4.8

+ 4.9

0

7.8

36 10.4

3 51.80

2 48. 12

4.03

+ 3.01 + 47 55 37. -

0.9

+ 5.5

65 <5 " . .

41 17.2

8 59. 44

2 48. 11

— 1.70

— 0. 35 + 25 4 45. -

25.4

+ 0.4

67 - " . .

+ 37 1 54.4

0 12. 1

+ 3.5

4

53 18.2

21 2.41

2 48.11

+ 1.80

+ 3.18—26 3 17.6

3 29. 6

— 2.6

6.5

57 4:'.. 1

25 28.04

2 48. 10

— 0.78

— 4.09 +12 4 51.5

0 43.0

— 2.0

55 a Opbiuchi .

14 59 59.6

27 44.111

2 48. 10

0.82

— 2.22 + 12 42 47.2

42.0

— 2.0

7

15 3 31.0

31 16. 89

2 48. in

0.83

— 1.81 + 12 r,l 31.5

41.9

— 2.0

d)

7.6

6 16.1

34 2. 1 1

2 48. 1(1

0.28

_ 0.54 + 4 28 23.0

56. 1

— 1.3

60/3 " . .

7 49.6

35 36.20

2 48. 10

H.29

— 0. 59 + 4 39 29. 0

55.8

— 1.4

86 fi Herculis .

13 2.0

40 49. 45

2 48. 09

1.92

+ 0.50 + 27 49 54. 1

22.1

+ 1.3

7.6

17 15.5

45 3. 04

2 48. 09

- J. mi

— 1.54 + 15 22 13.3

0 38. 1

— 1.9

e) 64 v Opbiuchi -

3

22 4.7

49 53. 63

2 48. 09

+ (1.62

+ 1.80 — 4 47 33.4

1 18.1

— 0.5

J 484 L-. C. . .

26 4.6

53 54.19

2 48.08

2.05

+ 4.70 — 29 31 19.0

4 30.9

— 5.0

4.5

30 11.2

17 58 1.47

2 48.08

1.12

+ 1.63 — 17 9 36.9

2 8. 3

— 0.5

13/u' Sagittarii .

35 43.5

18 3 34.68

2 48. 08

1.411

+ 1.49 — 21 4 58. 1

2 35. 8

— 1.0

6

38 23. 9

6 15.52

2 48.08

2.39

+ 5. 30 — 33 21 50. 7

c, 35.0

— 8. .".

f) 19 6 " . .

41 57.7

9 49.91

2 48. 07

2.08

+ 4.81 — 29 5(1 59.6

4 38.6

— 5. 5

6

44 49.7

12 42.38

2 48. 07

0. 94

+ 1.59 — 14 28 19.0

1 54.1

— 0.4

5.6

47 51.8

15 44.98

2 48.H7

+ 0.46

+ 1.87 !— 7 10 50.2

26.0

— 0.5

g) 59 d Serpentis .

51 2.2

1- 55.90

2 48.07

(1. (HI

+ 0. 34 + 0 4 6. 2

1 5. 7

— 0.8

5. 6

55 33.7

23 28. 15

2 48.06

- 1.59

— 0. 72 + 23 42 27. 4

0 27.1

0.0

7

15 57 57. 3

25 52.14

2 48.06

2.28

+ 1.39 + 32 4 26.2

17.4

+ 2.5

0.7

16 1 13.7

29 9. 08

2 48. 06

2.47

+ 1.38 + 34 15 40.0

15.0

+ 2.9

A)

6.7

2 19.5

30 15.06

2 48. 06

2.47

+ 1.38 + 34 15 42.::

15.0

+ 2.9

a Lyra; .

4 30.6

32 26. 52

2 48. 06

2.89

+ 1.27 + 38 33 30.2

10.5

+ 3.8

6

10 53.7

38 50. 07

2 48.05

2.67

+ 1.30 + 36 18 43.7

12.8

-f- 3. 3

6.5

14 20.4

42 17.94

2 48. 05

1 . 25

- 1.31 + 19 4 31.4

33.0

- 1.3

112 Herculis .

5

17 54. 1

45 52. 23

2 48. 05

1.41

-1.11+21 9 7.6

30.3

-0.8

63 8 Serpentis .

20 17.9

48 16.43

2 48.05

- 0.2.-,

- 0.43 + 3 55 16.2

0 57.4

- 1.3

39 o Sagittarii .

3

26 27. 9

54 27.44

2 48. 04

-h 1.47

+ 1.64 — 22 1 24.8

2 44.5

- 1.2

Saturn .

28 50.6

18 56 50.53

2 48.04

+- 1.48

+ 1.66 — 22 12 30.2

2 46.0

- 1.2

i) 30 <5 Aquilas .

49 19.9

19 17 23.19

2 48.03

- (1.17

- 0.23 + 2 40 55.0

0 59.0

- 1.1

6 p Cygni . .

16 50 44.3

19 24 48.81

- 2 48.02

- 1.89

4- 0.37 + 27 29 18.3

- 0 22. 6

+- LI

ft T. Ill assumed as 56m, ; not 57m.

b T. Q assumed as 17s. ; Dot 7s.

c Transit*) discordant,

d g assumed as 44° 22' 42" ; not 44° 22' 33".

e The name and transits and Mag. of this star (if a supposition be
made thai the minutes recorded Bhould be 21 and 22 instead of
22 and 23j indicate it as 64 v Opbiuchi; but the declination is
thai of a star (P. XVII. 307) following 64 v by 58a As the right-

ascension can only be reduced harmoniously with the catalogue
place of 64 v Opbiuchi, thn assumption of the error in minute-
record is made, and observations of a of one star and 6 of the
other air separately entered in ihe Catalogue.

/ Div. assumed as 83 15 0; not 83 15 1.

p Div. assumed as 52 0 9; not 52 0 8.

h T. I rejected; et llel'S diseul d;mt.

i g assumed as 46° 10' ; not 46° 11'.

(64)

GOULD— REDUCTION OF d'AGELEt's OBSERVATIONS.

Gb

17*3 APRIL »8— Continued

Zero corr. = + ]

' 41". 5.

Naino

Mag.

r

App. Bid. time

Clock corr.

n tan o

'/

f— 0

Reft.

?'

h m s

h m s

m s

s

5

o ' a

/ //

It

50 y Aquilfe

17 HI 43.0

19 38 49.81

— 2 48.01

— 0.65

— 3.69

+ 10 4 42.6

— 0 46. 3

— 1.8

18 d Cygni - -

12 55.4

4 1 2. 57

2 48.01

3. 57

+ 1.81

+ 44 34 24.8

4.3

+ 5.0

53 a Aquilse

14 55. 2

43 2. 70

2 48.01

0. 53

— 1.44

+ 8 17 28.4

49.3

— 1.7

60/3 " . .

17 19 21.4

19 47 29.61

2 48.nl

0.37

— 0.90

-j- 5 51 46.6

53.7

— 1.5

a Cygni . .

18 8 36.5

20 36 52.80

— 2 47.98

— 3.56

+ 1.79

+ 44 28 37.4

— 0 4.4

+ 4.9

17S3

APRIL. 29

Ze

■o corr. = -J- 1

' 48". 5.

Shins .

4 8 25. 0

6 38 19. 84

— 2 47. 48

+ 1.07

+ 1.67

— 16 25 45. 8

— 2 2.5

— 0.5

a Geminorum

4 53 3H.2

7 23 32. 45

2 47.43

— 2.29

+ 1.39

+ 32 19 27. 0

0 16.9

+ 2.5

Procyon .

5 0 41.9

30 45. 33

•2 47.42

0.36

— 0.87

-j- 5 45 8. 6

53. 0

— 1.5

p Geminorum

5 4 46.2

7 34 5H.3II

2 47.42

1.96

+ 0.79

+ 28 30 43. 6

21.1

+ 1.5

1 k Looms .

6 44 28.7

9 11 49.18

2 47. 35

1.85

+ 0.24

+ 27 4 58.6

0 22.8

+ i.o

a Hydrse

— 7 44 9.8

1 26.0

— 0.5

o Leonis .

7 2 4.0

32 27. 37

2 47.35

0.69

— 4.29

+ 10 51 10.2

0 44.5

— 1.9

e "

+ 24 44 30. 4

25.5

+ 0.3

") f " - -

12 4S7

43 13.84

2 47. 33

1.84

+ 0.20

+ 26 59 47. 4

22.8

+ 1.0

]9 Leon. Min.

5.6

10 45.4

47 11.19

2 47.33

3.27

+ 1.43

4-42 3 11.1

6.8

+ 4.5

29 n Leonis -

21 8.3

51 34.81

2 47. 33

0.57

— 1.67

+ 93 32. 3

47.4

— 1.8

21 Leon. Min.

5

26 57. 8

57 25.27

2 47. 32

2.66

+ 1.30

+ 36 16 5.0

12.7

+ 3.3

b) 30 j] Leonis -

27 52.4

58 20. 00

2 47. 32

1.17

— 1.40

+ 17 47 33.4

34.3

— 1.6

Regulus .

29 11.6

9 59 39. 42

2 47.32

0.83

— 1.79

+ 13 0 3.9

41.1

— 2.0

:!1 Leon. Min.

7.8

32 19.8

10 2 48.14

2 47. 32

0.93

— 1.62

+ 14 23 57.5

39.0

— 2.0

36 J Leonis -

36 51.2

7 20.28

2 47. 32

1.66

— (1.51

+ 24 33 5.0

25.7

+ 0.2

36 56. 9

7 26. 00

2 47. 32

1.65

— 0.53

+ 24 28 8.3

25.8

+ 0. 1

41 y " . .

40 20. 8

10 50.46

2 47.32

1.39

— 1.15

+ 20 54 36.6

30.2

— 0.8

43 " . .

6

43 58. 4

11 28.66

2 47. 31

0.48

— 1.28

+ 7 37 12.7

49.8

— 1.7

44 " . .

46 9. 1

16 39.72

2 47. 31

0.63

— 3.31

+ 9 51 42. 5

46.1

— 1.8

7.8

46 29. 2

16 59. 88

2 47. 31

0.63

— 2.99

45 " . .

48 32.9

19 3. 92

2 47. 31

0.68

— 4. 26

+ 10 50 38.0

44.5

— 1.9

31 Sextantis -

7

51 35.7

22 7.22

2 47. 31

0.20

— 0.33

+ 3 14 36.5

58.0

— 1.2

48 Leouis - -

5.6

55 46. 5

26 18.70

2 47. 31

0.51

— 1.38

+ 8 2 50. 0

49.0

— 1.7

8

57 2.2

27 34.60

2 47. 30

0. 51

— 1.40

+ 8 8 28. 2

48.9

— 1.7

7.8

7 59 37. 5

30 10.33

2 47. 30

2.92

+ 1.28

+ 38 56 24.5

10.0

+ 3.9

8

8 2 21.7

32 54.97

2 47. 30

0.98

— 1.57

+ 15 5 10.2

38.2

— 1.9

52 k Leonis -

7 12.2

37 46.26

2 47. 30

0.99

— 1.54

+ 15 18 54.4

37.8

— 1.9

43 Leon. Min.

9 12.7

39 47. 09

2 47. 30

2.12

+ 1.26

+ 30 32 3.8

18.9

+ 2.1

45 u Ursse Maj.

13 42. 0

44 17.13

2 47. 29

3.53

+ 1.75

+ 44 is 40.6

4.5

+ 4.9

46 " . .

15 55. 3

46 30.80

2 47. 29

2.50

+ 1.36

+ 34 38 5. 6

14.5

+ 3. 0

c) 49 " . .

20 52. 3

51 28.61

2 47. 29

3.08

+ 1.32

+ 40 20 41. 2

8.5

+ 4.2

6.7

24 15.7

10 54 52.57

2 47. 29

1.84

+ 0.17

+ 26 54 1-. 1

23. ii

+ 1- o

6

29 21.7

11 0 2.42

2 47.28

1.21

— 1.35

+ 18 21 34.2

33.7

— 1.5

d)

7

33 4.6

3 42.92

2 47.28

1.75

— 0.16

+ 25 48 8. 0

24.3

+ 0.6

68 6 Leonis .

34 45. 3

5 23. 89

2 47. 28

1.44

— 1.05

+ 21 41 9.8

29.3

— 0.6

54 v Ursa; Maj.

38 54. 7

9 33.97

2 47.28

2.47

+ 1.38

+ 34 14 55.0

14.9

+ 2.9

77 a Leonis .

42 7.5

12 47. 30

2 47.27

0.46

— 1.19

+ 7 11 48.6

50.6

— 1.6

79 " . .

5.6

45 3.4

15 43.68

2 47. 27

0. 16

— 0.21

+ 2 34 48.4

59.5

■— 1.1

83 " . .

7

47 55.0

18 35.75

2 47. 27

0.26

— 0.49

+ 4 10 35.0

56.3

— 1.3

84 r " . .

48 55. 0

19 35. 91

2 47. 27

0.25

— 0.45

+ 4 1 57. 1

56.5

— 1.3

88 " . .

52 42. 2

23 23. 73

2 47.27

1.01

— 1.52

+ 15 33 0.2

37.5

— 1.8

90 " . .

55 33.5

26 15.50

2 47.27

1.17

— 1.39

+ 17 58 18.2

0 34.1

— 1.5

91 v " . .

H 57 56.8

28 39. 19

2 47.26

0.02

+ 0.25

+ 0 21 25. 4

1 4. 5

— 0.8

e) 92 " . .

9 1 37.3

32 20. 29

2 47. 26

1.50

— 0.93

+ 22 32 0.2

0 28.3

— 0.3

63 Urste Maj.

6 39. 8

37 23.62

2 47. 26

4.13

+ 3.24

+ 48 57 2.0

0.1

+ 5.6

94 }3 Leonis .

10 6.1

40 50.48

2 47. 25

1.03

— 1.51

+ 15 45 45.6

37.2

— 1.8

/) 5 3 Virginis .

11 27.4

42 12.00

2 47.25

0.17

— 0.28

+ 2 58 14.7

58.8

— 1.2

65 Ursse Maj.

6

15 51.3

46 36.62

2 47. 25

3.97

+ 2.92

+ 47 39 12.5

1.1

+ 5.5

1 C'omie -

7

22 41. 3

53 27. 74

2 47.25

1.56

— 0.80

+ 23 16 44. 0

27.4

— 0.2

2 " . .

25 13.9

56 0. 78

2 47.24

1.51

— 0. 91

+ 22 38 37.4

28.1

— 0.3

8.9

29 0.5

11 59 48. 00

2 47. 24

0.46

— 1.20

+ 7 13 38.9

50.6

— 1.6

3 " . .

9 31 30.9

12 2 18.81

— 2 47. 24

— 1.18

— 1.39

+ 17 59 42.8

— 0 34. 1

— 1.5

a T. II assumed as 48m

. 5s. . ii'

t 56m. js.

'■ Div. assumed

i< :> 1 ; uot 9 10

c M

icr. corr. assumed

18 -(- 5 ; not —

-5.

b g assumed as 31° 3'; l

ot31c 3:

1'.

d > assumed as :

.3°; not 33°.

/ S

assumed as 45° 52'

51"; not 45° 5

2' 21".

(65)

66

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1783 APRIL 29— Continued Z

ero corr. = 4-

1' 48".5.

Name

Mag.

7'

App. sid. time

Clock coir.

n tan <5

1

C— ?

Refr.

1'

h m s

h m s

m s

s

s

o / '/

/ ,,

II

6 " . .

9 37 L7

12 7 50.52

— 2 47. 24

— 1.05

— 1.49

+ 16 5 9.7

— 0 30.8

— 1.8

14 Virginia

7

40 8. 7

111 58.03

2 47. 24

+ 11.49

+ 1.88

— 7 42 58. 2

1 20.2

— n.5

8

46 50.4

17 4ii.-:;

2 47.2::

— 0. 34

— 0.77

+ 5 23 9. 4

0 54.2

— 1.4

0.7

50 50.3

21 41.39

2 47.23

1.03

— 1.50

+ 15 49 48. 5

37.2

— 1.8

«)

7

54 23.8

25 15.48

2 47. 23

0.58

— 1.71

+ 9 7 47.0

47. :,

— 1.8

6

54 32.2

25 23.90

2 47. 23

0.56

— 1.60

-j- 8 51 20. 0

47. 9

— 1.8

6

55 27.7

26 19.55

2 47. 22

0. 57

— 1.63

+ 8 54 58. 5

47.8

— 1.8

7

9 58 41.6

29 33.98

2 47.22

0.74

— 4.:.;i

+ 11 45 34.0

43. 2

— 2.0

h) 27 " . .

6

10 2 39. 7

33 32.74

2 47.22

0.74

— 4.91

+ 11 35 54.5

43.6

— 2.0

30 p " . .

2 55.6

33 48.68

2 47. 22

0.73

— 5.70

+ 11 24 46.0

43.8

— 1.9

33 " . .

7 21.2

38 15.00

2 47.22

— 0.68

— 4.17

+ 10 44 8.0

0 45.0

— 1.9

39 " . .

7

34 13.1

45 8. 03

2 47.21

+ 0.50

+ 1.88

— 7 53 25. 0

1 27.0

— 0.5

c) 40 <l> " . .

14 57.2

12 45 52.25

2 47.21

+ 0.53

+ 1.87

— 8 21 55. 2

1 28.8

— 0.5

7

37 20.6

13 8 19.33

2 47.20

— 0.48

— 1.29

+ 7 38 24. 0

n 50. 1

— 1.7

00 (T " . .

38 30.8

9 29. 72

2 47.211

— 0.42

— 1.05

+ 6 35 50.11

II 52.11

— 1.6

62 " . .

7

40 45. 1

11 44.39

2 47. 19

+ 0.64

+ 1.79

— 10 0 58.2

1 35.2

— 0. 4

8

44 19.8

15 19.68

2 47.19

II.,-:,

+ 1.58

— 13 10 10.0

1 48. II

— ii.:;

67 a " . .

45 33.6

16 33.68

2 47. 19

+ O.04

+ 1.79

— 10 1 5U.2

1 34.7

— 11.4

70 " . .

6. 5

49 40. 7

20 41.40

2 47. 19

— 0.97

— 1.58

+ 14 55 15.2

(i 38.6

— 1.9

8

53 34. 6

24 3ri.no

2 47. 19

+ 0. 10

+ ti.--:.

— 1 18 59.5

1 8.0

— 0.7

7

10 58 31.2

13 29 33.41

— 2 47. 18

— 0.22

— 0.36

+ 3 28 43. 2

— 0 58. 1

— 1.2

1JS3

APBIL 30 Zero corr. ■= +

1' 50".3.
— 5.2

Capella

2 29 54. 6

5 3 29.82

— 2 46. 52 — 3. 69

+ 2.28

+ 45 43 47. 3

— 0 3.1

Rigel . .

33 15.5

6 51.27

2 46. 52 + 0. 53

+ 1.87

— 8 28 19.8

1 27.8

— 0. 5

112/?Tauri .

41 40.2

15 23.37

2 46.50 — [.'94

+ 0.73

+ 28 22 59.7

0 21.1

+ L4

50 f Orionis

2 58 54.0

32 33.98

2 46.49 + 0.13

+ 1.08

— 2 5 II. 4

1 9.4

— 0.7

58 a " . .

3 12 31.7

5 46 13.92

2 46. 48 — 0. 46

— 1.23

+ 7 20 5. 5

0 50. 0

— 1.6

24 y Geminorum

3 54 10. 6

0 27 59. Oi;

2 46.44 — 1.07

— 1.47

-j- 16 32 50. 9

0 35.9

— 1.7

Sinus .

4 4 28. 1

0 ::- is.,«5

2 40.44 + 1.06

+ 1.67

— 16 25 48.6

2 2. 3

— 0. 5

66 a Geminorum

49 33.3

7 23 31.46

2 40. 39 — 2. 29

+ 1.39

+ 32 19 25. 0

0 10.9

+ 2.5

Procyon .

4 56 44.7

30 44. 04

2 46. 39

0. 30

— 0.87

-j- 5 45 (i. 2

53.0

— 1.5

78 (3 Geminorum

5 0 49. 1

7 34 49. 1 1

2 40. 39

1.95

+ 0.79

+ 28 30 43.6

21.0

+ 1.5

12 k Ursse Maj.

6 17 20.6

8 51 33.18

2 46.33

3.99

+ 3.01

+ 47 58 26. 8

0.9

+ 5.5

1 k Leonis .

40 31.4

9 14 47.79

2 46.31 — 1.84

+ n.22

+ 27 4 58. 0

0 22.8

+ 1.0

30 a Hydrae .

45 2:t. 2

19 40.39

2 46. 30 + 0. 49

+ 1.88

— 7 44 11.6

1 20.M

— 0.5

14 o Leonis .

6 58 6.2

32 25. 48

2 46.29

— 0. 69

— 4.26

+ 10 51 10.5

0 44.5

— 1.9

17 e " . .

7 I 59.7

36 19.61

2 46.29

1.66

— 11.45

+ 24 44 27. 4

+ 11.3

24 ii " . .

8 51.7

43 12.74

2 46. 28

1.83

+ 0.20

+ 26 59 40. >

22.9

+ 1.0

27 v "

15 0.2

49 22. 25

2 46.28

0.86

— 1.72

+ 13 27 9. 8

40.6

— 2.0

29 7T " . .

17 11.2

51 33.61

2 46. 27

0.57

— 1.68

+ 93 32.2

47.4

— 1.8

429 Mayer . .

8

20 58. 3

55 21.33

2 40. 27

0.81

— 2. 48

+ 12 39 0.2

41.7

— 2.0

30 7/ Leonis .

23 55. 4

58 18.91

2 40. 27

1.15

— 1.4H

+ 17 47 33.5

34.4

— 1.5

Regulus .

25 14.6

9 59 38. 33

2 40. 27

0.63

— 1.79

+ 13 n 2.2

41.2

— 2.0

33 7l Ureas Maj.

32 22. 1

10 6 47.00

2 40.20

3.47

+ 1.68

+ 43 57 43. 0

4.9

+ 4.9

30 Leon. Min.

41 48.5

16 14.95

2 40.25

2. 51

+ 1.34

+ 34 52 4. 5

14.3

+ 3.1

31 " . .

6 5

43 39.8

18 6. 55

2 40.25

2.79

-j- 1.27

+ 37 47 9.7

11.2

+ 3.7

0

46 24.8

20 52. 00

2 40.25

2.75

+ 1.27

+ 37 21 l-.O

11.6

+ 3.6

5.6

48 53. 6

23 21.21

2 46.25

3. 19

+ 1.39

+ 41 30 30.2

7.4

+ 4.4

7.8

52 27.4

26 55.60

2 40. 25

3.95

+ 2. 92

+ 47 38 19.8

1.2

+ 5.5

7

55 27.:.

29 56. 19

2 40. 21

3.99

+ 3.01

+ 47 56 17.6

0.9

+ 5.5

6

59 4. 5

33 33.78

2 46.24

3.90

+ 2.84

+ 47 18 35.0

1.5

+ 5.4

d)

7

7 59 32.5

34 1. 86

2 46. 24

3.90

+ 2. 84

+ 47 18 5(1.5

1.5

+ 5.4

7

8 3 52. 2

38 22. 27

2 46.24

3.12

+ 1.30

+ 40 51 19.6

8.0

+ 4.2

8

5 15.0

39 45.30

2 46.24

3. 30

+ 1.47

+ 42 30 14.9

6.4

+ 4.6

45 Leon. Min.

6

9 11.7

43 42. 65

2 46.23

1.99

+ 0.98

+ 28 59 9. 1

20.7

+ 1.0

47 " . .

6

11 9.8

45 41.H7

2 46.23

2.54

+ 1.33

+ 35 9 43.8

13.9

+ 3.1

6

15 41.1

50 13.11

2 46. 23

2.74

+ 1.27

+ 37 13 40. 6

11.7

+ 3.5

7

20 2 i. 0

54 58.79

2 40.22

3.02

+ 1.31

+ 40 0 20.7

8.9

+ 4.1

7

8 24 52. 2

in 59 25.72

— 2 40. 22

— 2. 73

+ 1.27

+ 37 9 15.0

— 0 11.8

+ 3.5

a T. Ill assumed as 47s.

: not 27s

d T. I assumed as 22s.;

not 23s. : anil

)iv. as.

b £ assumed us 37° ; not

39 >.

sumed as 8 8 7; ii"i

8 8 46.

c Div. assumed :ts til o 1

: not 61

« n.

(66)

GOULD UEOITOTION OF D AGELET S OBSERVATIONS.

G7

irSS APRIL 30— Continued

Zero corr. = + V 50".3.

Name

Mag.

T

App. sid. time

Cloi'k corr.

H tan i!

'/

f— f

Eefr.

1'

A m s

h m s

m s

s

s

o / It

/ //

u

7

8 25 36.4

II 0 10.04

— 2 40. 22

— 2. 70

+ 1.27

+ 37 27 21.4

— 0 11.5

4-3.5

7.8

28 53.2

3 7.32

2 40.22

2. 82

+ 1.27

-|- 38 2 28. s

11.0

+ 3.7

n) 54 v

Orsse Maj.

34 57.3

9 32. 47

2 40.21

2.45

+ 1.3S

+ 34 14 50.2

14.9

4- 2. 3

6

30 2. 7

in 38.05

2 46. 21

2. 43

+ 1.39

-|- 33 58 5:.'. 3

15. 1

4 2,9

8

37 55.2

12 30.86

2 40.21

3.20

+ 1.39

-f- 41 35 35.0

7.3

4-4.4

7

39 4.3

13 40.10

2 40.21

3.17

+ 1.38

-f 41 20 5.2

7.5

4 4.3

9.10

43 55. 1

18 32. 06

2 40. 20

3. 92

+ 2- 87

+ 47 27 39.5

1.4

4- 5.4

7

46 57. 7

21 34.86

. 2 40.20

3. 57

+ 1.87

+ 4111 23.2

4.1

4 5.0

6.7

50 31.1!

25 11.75

2 40.20

2.81

+ 1-27

+ 37 59 16.2

ll.o

4-3.7

6

53 2.4

27 40.56

2 40. 10

1.99

+ 0.90

-j- 28 .".7 12.0

20. s

+ 1.6

8 57 45. 7

32 24.63

2 46. 19

2.56

-|- 1.32

+ 35 23 54. 1

13.7

4- 3.2

m

CI

9 0 17.3

34 56.65

2 46. 19

2.33

+ 1.40

+ 32 56 25.4

10.3

+ 2.7

0.7

3 54.6

38 34.54

2 40. 19

1.67

— 0.41

+ 24 53 58.4

25. 4

4- o.4

6

6 32.2

41 12.57

2 40. is

2. 02

+ 1.30

-f 30 6 33.2

13.0

4- 3. 3,

9

7 1.4

41 41.85

2 46. 18

2.01

+ 1.31

+ 35 58 5

13. 1

4-3.3

7

10 40.8

45 21.85

2 40. |s

3. 25

+ 1.44

+ 42 5 37.2

6.8

4- 4.5

7.8

12 55.3

47 36.72

2 46. 18

3.22

+ 1.41

+ 41 49 39.0

7.0

4 4.5

7.6

14 10.7

48 52. 33

2 40. J -

3.19

+ 1.39

+ 41 31 29.4

7.4

4-4.4

l>)

8

J7 19.7

52 1 . 85

2 40. 17

3.7o

+ 2.32

+ 45 4S -JO. 2

3.0

+ 5.2

67

"

0

19 10.9

53 53.35

2 40.17

3.51

+ 1.73

+ 44 13 11.0

4.0

4-4.9

7

19 31.11

54 16.51

2 46. 17

3.51

+ 1.75

+ 44 17 40.0

4.0

4-4.9

9

2:: 22.7

58 5.84

2 46. 17

3.92

+ 2.87

+ 47 27 45.0

1.4

4- 5.4

8.9

25 13. 1

11 59 56.54

2 46. 17

3.11

+ 1.36

+ 40 50 4.3

8.1

4- 4.3

c)

7.8

27 54.2

12 2 3 1 -

2 46. 17

3.14

+ 1.37

+ 41 4 13.7

7.9

+ 4.3

31 33.9

6 18.38

2 40.10

4.04

+ 3.08

-|- 48 13 20.0

0.6

4-5.5

32 27. -

7 12.43

2 46.16

4.04

+ 3.09

+ 48 17 34.0

0. 0

4- 5.5

d)

8

36 20.3

1 1 5. 57

2 46.16

3.18

+ 1.39

+ 41 29 22.0

7.4

+ 4.3

0

8

38 23. 1

13 8.71

2 46. 16

3. 82

+ 2.01

+ 46 41 28.0

2.2

+ 5.4

4

Can. Ven.

7

41 8.6

15 54.66

2 46. 15

3.44

+ 1.03

+ 43 42 58. 0

5.2

4-4.8

7

44 50.0

19 42.68

2 46. 15

3.30

+ 1.47

+ 42 31 30.ii

6.4

4-4.6

8

47 38.2

22 25. 32

2 46. 15

3.07

+ 1.33

4- 40 25 34.3

8.5

+ 4.1

7

48 28. 2

23 15.40

2 46. 15

3.10

+ 1.35

4- 40 15 15.0

8.1

+ 4.3

/ 8

"

5

51 27.3

26 15.05

2 46. 15

3. 30

+ 1.47

+ 42 30 29.5

6.4

4-4.6

8.9

53 15.6

28 3. 65

2 46. 14

3.12

+ 1.36

4- 40 51 9.5

8.1

+ 4.3

9

"

7

56 2O.0

31 8.55

2 46.14

3.24

+ 1.43

4 42 2 26. 0

6.9

4-4.5

6.7

9 59 47.5

34 36.62

2 40.14

2.51

+ 1.34

4- 34 51 30.5

14.3

4- 3.1

6.5

10 2 55.2

37 44.83

2 46. 14

3.81

+ 2.01

4- 46 35 52. 0

2. 2 4- 5. 4

30

Coma? .

7

10 6 41.2

12 41 31.45

— 2 46. 13

— 1.97

+ 0.86

4- 28 42 36. 1

— 0 21.0 4- 1.5

1»S

3 MAY 1

Zero corr. = 4-1' 49". 5.

31

Leon. Min.

5.6

7 39 42. 8

10 18 5.48

— 2 44.91

— 2. 78

+ 1.27

4- 37 47 9. 1

— 0 11.1

4- 3.7

450 Mayer .

7.8

42 10.2

20 33.28

2 44.91

0.71

— 4.77

4- 11 14 26.5

43.8

— 1.9

47 p

Leouis -

45 49.2

24 12.88

2 44.91

0.66

— 3. 95

4 10 23 50.6

45. 2

— 1.8

7

48 17.5

26 41.50

2 44. 90

0.21

— 0. 33

4- 3 18 15.0

58.0

— 1.2

50

tj

7

51 39.8

30 4. 44

2 44.90

1.11

— 1.42

4. 17 13 57.0

35. 0

— 1.7

6.5

55 7. 1

33 32. 31

2 44.90

3.88

+ 2.84

4- 47 18 35.0

1.0

4- 5.4

7

55 35.3

34 0. 59

2 44.90

3. BS

+ 2.84

4- 47 18 47.0

1.6

4- 5.4

7

7 59 54.7

38 20.7H

2 44. 90

3.09

+ 1.36

4- 40 51 15.0

8.0

+ 4.3

8

8 2 47. 3

41 13.77

2 44. so

2.33

+ 1.40

4- 33 8 44. 1

16.0

4-2.7

8

4 55.4

43 22. 22

2 44. so

2. 42

+ 1.38

4- 34 6 45. 6

15.0

+ 2.9

g) 46

Leon. Min.

5.6

5 28. 8

43 55. 71

2 44.80

2. 54

+ 1.32

4- 35 21 13. 0

13.7

4- 3.1

47

" "

6

7 12.8

45 40.00

2 44. SO

2.52

+ 1.33

4- 35 9 43. 0

13.8

4- 3.1

40

Ursa? Maj.

8 1.0

46 28. 33

2 44. 89

2.47

+ 1.30

+ 34 38 4.9

14.4

+ 3.0

6.7

11 43.8

50 11.74

2 44. 88

2.72

+ 1.27

4- 37 13 38. 9

11.7

4-3.5

49

k ii

6.7

+ 40 20 47. 0

8.5

+ 4.1

7.8

15 39.0

54 7. 58

2 44.88

3.64

+ 2.18

4- 45 28 9. 7

3.4

+ 5.1

8

18 46. 3

10 57 15. 39

2 44.88

3.61

+ 2.08

4 45 15 14.8

3.6

+ 5.1

52 i

" "

21 43.0

11 o 13.17

2 44.87

3.66

+ 2.25

4- 45 38 3::. 8

3.2

+ 5.2

469 Mayer .

0

8 26 34. 3

11 5 4.67

— 2 44. 87

— 1.40

— 1.10

4- 21 17 27.4

— 0 29.7

— 0.8

a Micr

corr. assumed a

s — 7 ; E

.t 7.

c T. Ill assume

1 ae -- : not 2

is. / T

III assnroi d at 58

<.5; not 288.5.

6 £ assumed aa 3- 2' 40

'; not 3°

2' 30": Div.

d £ assumed ;i-

"3 21' 42"; not 7

0 22' 12". g 11

iuute assumed as 5

; not 57.

assumed as 3 3 15;

not 3 3 1

6 : and Micr.

e Transits over

Ts. II and IL

assumed as

corr. -f- 2, not — 2.

recorded ov

;r Ts. I and II.

(67)

68

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 MAY 1— Continued

Zero corr. = -\- V 49". .').

Name

Mag.

App. sid.time Clock corr,

n tan c5

Refr.

81 Leonis -
86 " .

4 f2 Virginis

493 Mayer .
13 n Virginia

15 ;/ " .

29 y Virgiuis
33 " .

43(5
a)

5i e

b) 56
65

6.7

6.7
6.7

8 27 12. 1
36 32.7

::- :;-j. -

43 24. 4

8 55 29. 9

9 0 57. 9

3 59.2

12 6. 3

31 38.8

32 53.6
39 11.4
43 41.0

46 37. 7

47 33.7
50 14.2
52 19.9
54 41.5

9 59 26. 8

0 8.6

1 27.6

4 25. 3
8 9.4
8 40.6

13 9.4
17 26.2
22 39.5
27 18.2
34 52. 1

10 35 58. 6

In

11 5 42. 57
15 4.91
17 5. 14

21 57.54
34 5. 03

39 33.93

42 35.73

11 50 44. 15

12 10 19.86
11 34.87
17 53.70

22 24. 04

25 21.22

26 17.37
28 58. 31
31 4. 35
33 26. 34
38 12.42
38 54. 35

40 13.57

43 11.76

46 56. 47

47 27.75
51 57.29

12 56 14.74

13 1 28.95
6 8.41

13 43.55
13 14 50.23

m s

2 44. 87

2 44.86

2 44. 86

2 44.86

2 44. 85

2 44.84

2 44. 84

2 44. 83

2 44. 82

44.82

44.81

44.81

44.80

44. 80

44.80

44.80

44.80

2 44. 79

2 44.79

2 44. 79

2 44. 79

2 44. 79

2 44.79

2 44.78

44. 78

44.77

44.77

44.76

44.76

- 1.39
1.19
1.14
1.28
0.23
0.61
0.86
0.11
0.03
0. 03
1.10
0.69
0. 57
0.57

- 0.63
0.32
0.02
0.68
0.65
0,65
0. 59
0.26
0.28
0.50
0.47
0.28
0.5-
0.22
0.24

+

+

s

1.11
1.36
1.41
1.27
0.37
2.04
1.72

0. 05
0.14
0.20
1.43
4.32
1.60

1. 62
3.56
1.72
0.45
4.17
3.85
3.72
1.92
0.49
0.56
1. 38
1.--
1.64
1.84
1.45
1.52

+ 21 11
-f 18 18 30.0
-j- 17 37 31.0
+ 19 34 49.2
+ 3 32 51.0
+ 9 25 48.4
+ 13 27 46. 0
+ 1 43 17.0
+ 0 24 16.0
+ 0 31 27. 6
+ 17 2 39.8
+ 10 53 58. 0

8 51 22. 0

8 54 59. 5

9 58 24. 0
4 55 4.5
0 16 17.8

f 10 44 5.0
+ 10 14 1.0
+ 10 16 36.6
9 22 26. 0
4 12 35. 0
4 33 45.0
7 56 6. 0
7 24 44. 0
4 23 19. 8
9 1 3 20. 5
3 32 10.0
3 47 49. 0

0 33.7
34.6
32.0
57.5
46.9

0 40.6

1 1.3
4.2

1 4.0

0 35.4

44.6

47.9

47.7

0 46. 1

1 17.9
1 5. 8
0 44.9

45. 6
45.6
47.1
56. 5

0 55.7

1 27.2
25.6
16.5
31.6
14.2

1 15.0

1.5
1.6
1.2
1.3
1.8
2.0
1.0
0.8
0.9
1.7
1.9
1.8
1.8
1.8
0.5
0.8
1.9
1.8
1.8
1.8
1.3
1.4
0.5
0.5
0.6
0.4
0.6
0.6

lJS.'I MAY 3

Zero corr. = -f- V 47". £

30 a Hydra
24 /i Leonis -
29 7T " . .
c) 30 v " - -
Regulus -
42 Leonis .
44 " . .

450 Mayer .

50 Leonis .
40 Leon Miu.
42

46

46 Ursa; Maj.

63 x Leonis .

d)

81 Leonis -
86 " .

/)

7.8

7

7

6.5

5

8

7.8

6

6 37 28.7

7 0 57. 1

9 16.4

16 1.3

17 20. 0

30 38.6

34 18.1

38 13. 1

44 19.5

47 42.0

51 30.6

54 10.2

54 12.2

7 58 50.7

8 1 31.6

4 4.3

9 18.5

14 11.2

15 15.2

27 58.4

29 21.4

31 27.2

34 36.5

39 27. 4

40 29.7

41 49.6

44 40. 1

51 44.8

8 54 21.3

9 19
43
51
58
9 59
10 12
16
20
26
30
33
36
36
41
43
46
51
56

11

37.70
9.96
30.62
16.63
35.55
56.34
36. 44
31.98
39.4-
2.53
51.76
31.80
33.80
13. 06
54. 40
27.52
42. 58

30. 0-
40.26
25.55
48.78
54.92

4.74
56.44
58. 91
19.03

9.99
15.85
52.98

43.69
43.67
43. 66
43.66
43.66
43.64
43. 64
43. 64
43. 63
43. 63
43. 63
43. 63
43. 63
43.62
43. 62
43. 62
43.61
43.61
43.61
43.60
43. 60
43. 59
43. 59
43. 59
43.59
43.. 59
43.58
43. 58

2 43. 58 —

+ 0. 49

— 1.83
0.57
1.16

0.83

1.03
0.63
0. 72
0.21
1.12
1.87
2.23
2. 23
2. 35
2.56

— 2. 49
+ 0.15

— 0. 54
0. 52
1.00
1.20
1.21
1.14
1.28
1.23
1.25
1.24
1.27
1.39

+ 1.88
+ 0.20

— 1.68

— 1.40

— 1.79

- 1.49
3.30

- 4.77

— 0.33

— 1.42
+ 0.36
+ 1.38
+ 1.37
+ 1.40
+ 1.32
+ 1.36
+ 1.15

1.49
1.44

- 1.52

- 1.34
1.33
1.41

- 1.26
— 1. 32

- 1.3.0
1.31
1.28

- 1. 12

+ 26
+ 9
+ 1-

+ 11

+ 27
+ 31
+ 31
+ 33
+ 35
f 34
2
- 8
+ 8
+ 15
+ 18
+ 18
+ 17
+ 19
+ 18
+ 19
+ 19
+ 19
+ '-'1

44

8.0

59 47.4

3

35. 0

47

35.0

0

5.6

2 34.2

51

47.0

14

29.8

18

17.0

13 53.0

26

9.4

47

43.5

11

24.0

8

47.8

21

12.9

38

3.6

19 39. 1

29

12.0

17

10.0

i

28 34. 0

36

13.0

37

33. 6

34

51.0

55

33.7

III 3.',. II

3

1.4

25

21.3

4 26.2 -

1 26.0
0 22.8
47.3
34.3
41.1
36.6
46.1
43.8
58.0
35. 0
22.3
17.5
17.5
15.9
13.7

0 14.4

1 10.5
0 48.2

48.7

33.4
33!2
34.5
31.9
32.7
32.4
32.6
32.1
0 30. 0

— o.r,
+ 1.0

— 1.8

— 1.5

— 2.0

— 1.8

— 1.8

— 1.9

— 1.2

— 1.7
+ LI
+ 2.5
+ 2.5
+ 2.7
+ 3.1
+ 3.0
-0.7

1.7

— 1.7

1.4
1.4
1.6
1.2
1.3
1.3
1.3
1.2
0.8

a T. Ill assumed as 17m. 49s. 5; not 17m.

S'.is. 5.
b g assumed us r.s"' 4' 2.V. 5 ; not 58° 4' 1 5". ■".

c Minute assumed as 16.

d g and Div. readiug discordant.

e Transits over Ts. II and III assumed as

recorded over Ts. I and II.
/ I assumed as 89° 25' ; not 29° 20'.

(68)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

G9

1783 MAS" 2— Continued

Zero corr. = -f- 1

47". 8.

Nome

Mag.

T

App Bid. time

Clock corr.

n tan iS

v

f-0

Refr.

9'

It m s

h m s

m s

s

s

O ' "

/ //

ll

6

8 56 0.6

1 1 ::- :','_'. ::;>

— 2 43. 57

— 1.67

— 0.41

1- -.'1 54 l.o

— 0 25. 3

+ 11.4

6

9 0 2.2

42 34.61

2 43. 57

0.86

— 1.72

+ 13 27 50.0

40.5

— 2.0

8.9

2 47.4

45 20. 26

2 43. 57

0.62

— :\. in

+ 9 45 35.11

46.2

- 1.8

6 A Yirsrinis

4 9.2

46 42.28

2 43.57

0.61

2.58

+ 9 37 5.-i. 2

46.4

— 1.8

8

6 51.2

49 24. 72

2 43. 57

0.52

— 1.41

-j- 8 10 4.H

48. -

— 1.7

8jt

"

9 58. 2

52 32.23

2 43.56

0.49

— 1.32

+ 7 48 22. 6

49.4

— 1.7

8

17 9. •_'

11 59 44.41

2 43. 56

0.46

— 1.20

+ 7 13 ln.4

50. 3

— 1.6

9

21 23.7

12 3 59.61

2 43. 55

0.45

— 1.16

+ 7 3 59.4

50.7

— 1.6

17

k

31 39.5

14 17.1H

2 43. 54

0.41

— 1.04

+ 6 29 47. 0

51.8

— 1.5

7

35 14.3

17 52. 50

2 43. 54

1.10

- 1.43

+ 17 2 43.0

35. 2

— 1.7

6

38 58. ">

21 37.31

2 43. 54

1.03

- 1.50

+ 15 49 :.ii.:.

37.0

— 1.8

42 40. 3

25 19.71

2 43. 53

0.75

— 4. 43

+ 11 51 25.0

1 42.9

— 2.0

43 36.7

26 16.26

2 43. 53

— 0.57

— 1.63

+ 8 55

29 y

"

9 .".II 45.2

33 25. 93

2 43.53

+ 0.02

+ 0.45

— 0 16 12.5

1 5. 5

— 0.8

4:5 (i

u

10 4 44.2

47 27.23

2 43.52

— 0.29

- 0.56

+ 4 33 50.4

0 55.4

— 1.4

38

Coma? .

6

in 29.8

53 13.78

2 43. 51

1.19

— 1.36

+ 18 16 30.1

33.7

— 1.5

39

"

6

15 49.8

12 58 34.66

2 43.51

1.48

— 0.97

+ 22 17 56.4

28.4

— U.5

42

" • "

6

10 19 28.5

13 2 13.96

— 2 43.50

— 1.22

— 1.33 + 18 39 33.2

— 0 33.2

— 1.4

17>

.3 MAY 3

Zero corr. — + 1

' 46". 8.

66 a

Geminoram

4 37 41.7

7 23 27.58

— 2 42.61

— 2.29

+ 1.39

+ 32 19 20.7

— 0 16.8

+ 2.5

Procvon .

41 53.3

30 4H.36

2 42. 61

0.36

— 0.87

+ 5 45 9. 4

52. 9

— 1.5

78 )3 Geminorum

4 4S r,?.C

7 34 4:.. :;:;

2 42. 60

1.96

+ 0.79

+ 28 3ll 4'-'. 4

21.0

+ 1.5

Regulus

7 13 23. 2

9 59 34. 66

2 42. 51

0.83

— 1.79

+ 13 (1 5.9

40.9

— 2.0

36 f Leonis - .

21 8.8

10 7 21.53

2 42.50

1 . 6.-i

- 0.53

+ 24 28 7.6

25.7

+ 0. 1

41 7

c<

24 32.6

10 45.89

2 42. 50

1.39

— 1. 15

+ 20 54 37. 4

30.1

— 0.8

51 rr

"

7 51 10.7

37 28.37

2 42. 48

1.32

— 1.23

+ 20 0 34.5

31.2

— 1.1

55

it

8 0 57. J

47 16.37

2 42.47

0.12

— II. IIS

+ 1 53

52

Leou. Min.

11 48.6

58 9. 66

2 42.47

1.82

+ 0.08

+ 26 40 56.0

23.1

+ 0.9

53

13 34.0

10 59 55. 35

2 42. 47

1.75

— 0.16

-f 25 48 22. 6

24.1

+ 0.6

6

16 45.3

11 3 7.17

2 42. 46

1.01

— 1.52

+ 15 33 23. 9

37.2

— 1.8

68 rf Leonis . .

18 57. 1

5 19.33

2 42. 46

1.44

— 1.05

+ 21 41 14.2

29.1

— 0.6

55

Ursa? Maj.

6

23 38.7

10 1.70

2 42.46

2.97

+ 1.28

+ 39 20 43.2

9.5

+ 3.9

a)

8.9

25 24.7

11 48.00

2 42. 46

1.21

— 1.34

-j- 18 28 35. 0

33.3

— 1.5

81

Leonis -

7

8 30 39.5

11 17 3.66

— 2 42. 45

— 1.15

— 1.41

+ 17 37 35.0

— 0 34.4

— 1.6

17S

(3 MAY 4

Zei

o corr. = -f- 1

47". 8.

6.7

10 2 16.9

12 52 52.65

— 2 41.45

— 0.35

— 0.81

+ 5 30 46.4

— 0 53. 5

— 1.4

39

Coma? . .

7 55.7

12 58 32. 38

2 41.45

1.48

— 0.97

+ 22 17 48. 2

28. 4

— 0.5

42

"

11 34.7

13 2 11.98

2 41.45

— 1.23

— 1.33

+ 18 39 27. 6

0 33. 1

— 1.4

55

Virgiuis

14 38.7

5 16.80

2 41.45

+ 1.24

+ 1.46

— 18 46 55. 0

2 16.9

— 0.7

57

(4

16 19.2

6 57. 25

2 41.45

-j- 1.24

+ 1.46

— 18 46 45. 0

2 16.9

— n.7

6

21 42.5

12 21.30

2 41.44

— 0. 38

- 11.92

+ 5 57 11.7

0 52.5

— 1.5

67 a

"

25 48.6

16 28. 20

2 41.44

+ 0.64

+ 1.79

— 10 1 54.5

1 33.9

— u.4

69

" . .

— 14 50 42. 6

54.3

— 0.5

7.8

31 42.2

22 22.77

2 41.44

0.12

+ 1.05

— 1 56 25. 9

9.5

— 0. 7

8

34 56.8

25 37.90

2 41.44

+ 0.48

+ 1.88

— 7 30 33.8

1 25.2

— 0.5

9

42 53. 0

33 35. 40

2 41.43

— 0. 37

— 0.90

+ 5 51 29. 0

0 53. 0

— 1.5

6.7

48 4. 2

38 47. 4.',

2 41.43

+ 0.36

+ 1.80

— 5 37 26.0

1 19.3

— 0. 5

88

"

48 56. 1

39 39. 49

2 41.43

+ 0.36

+ 1.82

— 5 45 31.4

19.9

— 0.5

7.8

53 : ;:..n

44 19. 15

2 41.43

— 0. 12

— 0.08

+ 1 53 9.0

0. 9

— 1.0

92

"

10 57 25. 0

48 9.78

2 41.43

0.13

— n. 12

+ 26 11.0

1 0.3

— 1.0

b) 93 t

" . .

11 2 35.0

53 20.67

2 41.42

— 0. 16

— 0.21

+ 2 35 4. 8

0 59.3

— 1.1

9

7 52.7

13 58 39. 23

2 41.42

+ 0.59

+ 1.83

— 9 17 2H. (1

1 31.1

— 0.4

96

"

6

9 22.7

14 0 9.48

2 41.42

0.59

+ 1.83

— 9 18 24.4

31.3

— 0.4

r) 98 K

(1

13 14.7

4 2. 12

2 41.42

0.59

-(- 1.83

— 9 15 :.n. T

31.0

— 0.4

d) 99 i

" • "

11 16 33.4

14 7 21.36

— 2 41. 42

+ 0.31

+ 1.69

— 4 58 6.8

— 1 17.7

-0.5

a

Min. assumed a

8 25m ;

lot 24m.

c Div. assumed as 61 15 13;

not 61 15 14.

b

Miu. assumed a

s 2m.; n

ot 0m.

i § assumed as 53d 49' 11". 5;

not 53° 49' 21"

5.

(69)

70

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

1783 J1AV 4— Continued

Zero core. = -f 1' 47". 8.

Name

Mag.

T

App. sid. time

Clock corr.

n tan S

1

?— #

Refr.

'/'

h vi s

h vi s

m s

s

s

o i n

/ //

II

8

11 18 29. 0

14 9 17.28

— 2 41.42

+ 0.31

+ 1. 69

— 4 58 17.6

— 1 17.7

— 0.5

104 Virginis

27 54. 1

18 43.93

2 41.41

0.32

+ 1.76

— 59

10G " . .

29 7.8

19 57.83

2 41.41

0. 37

4 1.83

— 5 55 42.2

20.3

— 0.5

a)

7

34 5.0

24 55. 84

2 41.41

0.37

+ 1.83

— 5 55 1.0

20.3

— 0.5

6.7

38 20.8

29 12.34

2 41.41

0.29

+ 1.69

— 4 36 29.0

16.6

— 0. 5

4 Librae . .

42 31.2

33 23. 42

2 41. 40

1.62

+ 2.23

— 24 2 37. 7

3 2.1

— 1.8

5 " . .

45 50. 3

36 4::. in ;

2 41.40

0. 93

4 1.59

— 14 32 12.6

1 52.8

— 0.5

b) 6 " . .

5

49 20. 7

40 14.03

2 41.4U

1.84

+ 3.65

— 27 1 7. 5

3 41.3

— 3.2

c) 12 " - -

53 32.4

44 26.42

2 41. 40

1.60

+ 2.11

— 23 43 34. 8

2 58.8

— 1.7

</) 14 " . .

11 56 38.7

47 33.23

2 41.40

1.66

4 2.46

— 24 32 9. 0

3 7.5

— 2.0

19(5 " . .

12 1 10.5

52 5. 78

2 41.39

0.49

+ 1.88

— 7 39 24. 7

1 25.8

— 0.5

2 16.3

53 11.70

2 41.39

0.47

4 1.88

— 7 29 15.7

25.2

— 0. 5

21 v< " . .

6 18.3

57 14.42

2 41.39

1.00

+ 1.63

— 15 24 13. a

1 57.3

— 0.5

22 r- " . .

6 29.6

14 57 25. 75

2 41.39

1.02

+ 1.63

— 15 38

24 << " . .

11 37.8

15 2 34.79

2 41.39

1.25

4 1.44

— 18 57 11.6

2 18.4

— 0.7

25 i: " - -

12 43. 1

3 40.27

2 41. 39

1.24

+ 1.46

— 18 48 47. 0

2 17.5

— 0.7

27 8 " - -

17 4.6

8 2. 4 -

2 41.39

0. 51

4 1.87

— 8 34 45. s

1 28.8

— 0.4

29 ol " . .

20 38.3

11 36.77

2 41.38

0.96

+ 1.60

— 14 45 14. 6

54. 1

— 0.5

31 e " - -

24 9.8

15 8.85

2 41.38

0.62

+ 1.82

— 9 32 14.6

1 32.4

— 0. 4

32 £ '■ . -

27 44.5

18 44.14

2 41.38

1.04

4 1.65

— 15 56 44.5

2 0.3

— 0.5

34 C " . .

32 22. 2

23 22.60

2 41.38

1.05

4 1.67
+ 1.58

— 16 6 10.7

2 1. 1

— 0.5

29 o1 " - .

6

35 5. 2

26 6.05

2 41.38

0.91

— 14 3 18.3

1 50.9

— 0.4

41 " . .

38 6.4

29 7.75

2 41.38

1.22

+ 1.48

— 18 34 5.8

2 15.9

— 0. 7

43 /c " - -

'41 7.4

32 9. 25

2 41.37

1.25

4 1.44

— 18 57 19.7

18.5

— 0.7

7.8

44 34.7

35 37. 1 1

2 41.37

1.21

+ 1.51

— 18 24 17.5

2 14.9

— 0.6

7

47 32.2

38 35. in

2 41.37

0.56

+ 1.86

— 8 48 10.8

1 29.9

— 0.4

4.", / " . '.

52 23. 2

43 26. 89

2 41.37

1 . 28

+ 1.40

— 19 29 47.4

2 22. 4

— 0.7

6

55 59. 2

47 3. 49

2 41.37

0. 92

+ 1.58

— 14 in 56.0

1 51.6

— 0.4

49 " . .

12 59 46.9

50 51.81

2 41.36

1.03

+ 1.65

— 15 52 46. I

2 0.0

— 0.5

51 f " , .

13 4 2. 9

15 55 -.51

2 41.36

4- 0.68

+ 1.73

— 10 46 5. 2

1 37.0

— 0.3

5

9 47.0

16 li 53.55

2 41.36

— 0.25

— 11.45

4 4 1 24. 8

0 56.5

— 1.3

1 <S Opliiuchi .

13 14 34.4

16 5 41.74

— 2 41.36

+ 0.20

4 1.37

— 3 8 10.5

— 1 12.9

— 0.7

ir

S3 MAY 9

Ze

ro corr. = -\-V 48". 15.

66 a Geminorum

2

4 14 1.7

7 23 23.03

— 2 38. 04

— 2. 34

+ 1.39

4 32 19 22.0

— 0 16. 8

4 2.5

Procyon .

1

21 13.0

30 35. 51

2 38.04

1 1. 37

— 0.87

4 5 45 5. 4

52. 7

— 1.5

78 ft Geminorum

25 17.7

7 34 40.88

2 38.03

2.01

4 0.79

4 28 30 41.6

20.9

4 1.5

30 n Leonis .

6 4* 23.7

9 58 10.39

2 37. 96

1.19

— 1.40

4 17 47 31.0

34. 0

— 1.5

Regulus .

6 49 42. 9

9 59 29.81

2 37. 96

0.85

— 1.79

4 13 0 2.4

40. 8

— 2. 0

11 ; Leonis.

7 0 52.0

in 10 40.74

2 37. 96

1.41

— 1.15

4 20 54 35. 6

30.0

— 0.8

e) 47 p "

14 1 1.5

24 5. 44

2 37. 95

0.68

— 3.95

4 10 23 53. 2

44.9

— 1.8

37 Leon. Min.

19 16.6

29 8.37

2 37.95

2.41

4 1.40

4 33 4 19.4

16.0

4 2.7

41

24 23. 9

34 16.51

2 37.95

1.67

— 0.57

4 24 17 44. 8

25.9

4 0.1

53 I Leonis -

30 41.0

40 34.64

2 37.94

0.76

— 4. 75

4 11 40 5

0 43. 0

— 2.0

55 " - .

5.6

37 17. 1

10 47 11.62

2 37.94

0.12

— 0.08

4 1 52 26. 9

1 0. 6

— 1.0

6.7

7 53 14. 1

11 3 11.44

2 37.93

— 2.68

4 1.31

4 35 56 11.2

0 13.0

4 3. 3

Double

8 1 0.1

111 58.72

2 37. 93

4 0.03

4 0.53

— 0 28 35. 0

1 5.8

— 0.8

1 42.7

11 41.44

2 37. 93

— 1.25

— 1.34

4 18 28 33. 6

0 33.3

— 1.4

4 49. 1

14 48.35

2 37. 93

2.93

+ 1.27

4 38 23 44.6

10.5

4 3.7

6

11 13.2

21 13.50

2 37.92

2.24

+ 1.32

4 31 8 42.0

18.1

4 2.2

12 51.9

22 52.47

2 37.92

1.27

— 1.32

4 18 55 28.1

32.7

— 1.3

7

14 12.6

24 13.39

2 37.92

1.29

— 1.30

4 19 10 35.0

32.3

— 1.3

/)

6

17 30.0

27 31.33

2 37.92

2. 05

+ 0.95

4 28 57 12.2

20.6

4 1-6

62 Ursae Maj.

6.7

22 53.7

32 55.91

2 37.92

2.40

4 1.40

4 32 55 11.0

16.2

4 2.7

7.8

24 45.6

34 48. 12

2 37.92

2.4(1

4 1.40

4 32 56 25.2

16. 2

4 2.7

7

32 24. 7

42 28. 48

2 37.91

0.89

— 1.72

4 13 27 47. 0

40.3

— 2.0

g)

7.8

32 56. 4

43 0. 27

2 37. 91

0.85

— 1.79

4 12 59 34. 0

41.li

— 2.0

65 " . .

7

36 22. 1 1

46 26. 43

2 37.91

4.06

4 2.93

4 47 39 13.5

1.2

4 5.4

4'J2 Mayer .

7

39 41.8

49 46. 78

2 37.91

0.30

— 0. 59

4 4 411 23.0

54.9

— 1.4

7 b Virginia .

7

8 41 25. 0

11 51 30.26

— 2 37. 91

— 0.31

— 0.63

4 4 50 48. 4

— 0 54. 6

— 1.4

a g assumed as 54° 46' I

'; lint ;>

° 46' 38".

d § assumed as "

33 23'; not 73°

28'.

/ T

<, K and III a-suii

id as 17m. 89S.5, and

b Micr. coir, assumed ;

s -f 5; l

..t — 5.

e T. Ill rejectee

.

L7m. 56s.; not 17m.

:t!is.r>. and 18m. lis.

c T. I rejected.

g g

issumed as 35° 51' .'

1"; not 35° 51' 41".

(70)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

71

17S3 «ll 9— Continued

Zero eon-. = -f-

I' 48".G.

Name

Mag.

T

App. sid. time

Cluck corr.

n tan '!

1

j— ^

Rcfr.

?'

k. 711. s.

//. III. s.

VI. s.

s.

s.

o / //

/ //

„

9 o

Virginia -

8 46 45.7

11 56 51.84

— 2 37.91

— (i.65

— 3.44

+ 9 55 -. 1

— 0 45. 8

— l.H

«) Id r

"

51 7.2

12 1 11.(6

2 37.90

( '.2d

— 0. 30

-j- 3 0 li.li

1 0. 1

— 1.2

-1

( lomae -

53 2:;. 2

:; 30.43

2 37. 90

1.89

+ (1.21

+ 27 3 16.6

0 22.6

4- i.o

*)

7

56 57. 2

7 5.H2

2 37.90

4.14

+ 3.08

+ 48 17 32.0

0.5

4 5.5

7.8

8 59 36.9

9 45. 16

2 37.9(1

1.32

— 1.26

+ 19 37 10.3

31.7

— 1.1

16 c

Virginia

9 1 51.8

12 0. 41

2 37. 90

0.29

— 0.55

+ 4 30 17.4

55. 4

— 1.4

17

•'•

4 1.7

14 Ki.CT

2 37.90

(i. 42

— 1.H4

4- 6 29 43. 6

51.5

— 1.5

8

7 26. Ii

17 36.13

2 37.89

0. 2)

— 0.32

+ 3 13 43.9

57.9

— 1.2

511 M

7

9 45.5

19 55.41

2 37.69

o. :!t;

— 0.83

+ 5 IS4 56.4

53. 2

— 1.5

7.8

15 3.7

25 14.48

2 37. 89

0.35

— 0. 76

+ 5 24 9. (1

53.7

— 1.4

7

16 34.7

26 45.73

2 37. 89

0.56

— 1.54

+ 8 37 36.0

47.8

— 1.8

6.7

18 40.4

28 51.77

2 37. 89

0. 65

— 3.54

-j- 9 56 22.(1

45.7

— 1.8

7

22 25.8

32 37.79

2 37. 89

0.65

— 3. 60

+ 1(1 0 17.8

45.7

— 1.8

c) 33

Virginia

27 52. 1

38 5. 28

2 37.88

0.711

— 3.69

+ 10 44 8.6

45.0

— J. 9

31

Conise .

33 34.0

4:1 47.82

2 37.88

2. 1 13

4- 0.86

-f- 28 41 53.8

20. 8

4- 1.5

45 6

Virginia

37 6. :;

47 2(1.76

2 37. 88

— 0.30

— 0. 56

+ 4 33 47. :i

0 55. 1

— 1.4

44 k

" . .

40 52.7

51 7. 72

2 37.88

+ 0. 17

+ 1.25

— 2 39 4. 8

1 11.0

— 0.7

48

it

6

45 6. 7

12 55 22.41

2 37.88

0. 16

+ 1.20

— 2 30 10. 8

10.9

— 0.7

.M 6

it

9 51 5.(1

13 1 21.69

2 37. 87

0.28

+ 1.65

— 4 23 17.::

15.7

— 0.6

7.8

HI 4 51.7

15 10.65

2 37. 86

((.64

+ 1.81

— 9 44 11.0

32.6

— 0.4

67 a

'•

6 5.2

16 24.35

2 37.66

0. 65

+ 1.79

— 10 1 51.5

33.7

— 0. 4

69

"

— 14 50 36.8

54.1

- 0.5

76 /i

"

13 50.4

24 10.83

2 37.86

+ 0.59

+ 1.85

— 92 56.9

1 30. 1

— 0.4

6

19 51.7

30 13. 12

2 37. .-6

— 1.02

— 1.54

+ 15 23 31.4

0 37.5

— 1.9

7.8

22 37.9

32 59. Bl

2 37.86

1.37

— 1.21

+ 20 17 5.2

30.9

— 1.0

0.7

25 49. 1

36 11.79

2 37. 86

— 1.63

— 0.70

+ 23 46 32. 0

0 26. 5

0.0

88

"

6

29 12.8

39 35.75

2 37. 85

+ 0.37

+ 1.81

— 5 45 30. 6

1 19.7

— 0. 5

7.8

33 37.7

41 1.38

2 37.85

0.63

+ 1.81

— 9 36 35

32.2

— 0.4

7

36 37.4

47 1. 57

2 37. 85

+ 0.57

+ 1.86

— 8 41 38.5

1 29.0

— 0. 4

10 c

Bootis .

4(1 46.4

51 10.85

2 37.85

— 1.55

— 0.90

+ 22 44 14.9

0 27.9

— 0.3

7

4:i 11. 8

53 37.05

2 37.85

— 1.57

- 0.85

4- 23 0 38. 8

0 27.5

— 0.2

94

Virginia

7

47 1.2

13 57 27. 08

2 37. 85

+ 0.51

+ 1.88

— 7 51 27.2

1 26.2

— 0.5

6.7

55 15.0

14 5 42.23

2 37. 84

0.32

+ 1.73

— 4 56 25.0

17.3

— 0.5

99 i

"

56 49.5

7 16.99

2 37.84

0.32

+ 1.74

— 4 58 7.6

17.4

— 0.5

Kill X

"

10 59 32. 9

10 0.84

2 37. 84

0.81

+ 1.62

— 12 22 1.0

42.9

— 0.3

103 i-

1 1

7

11 2 58. (i

13 27. 10

2 37. 84

+ 0. 07

+ 0.73.

— 1 0 4.6

1 7. 0

— 0.7

7.6

5 35.2

16 4.13

2 37. 84

— 1.83

— 0.03

+ 26 18 11.3

0 23.6

4-0.8

22/

Bootis .

- :;4.d

19 3.42

2 37.64

1.36

— 1.22

4- 20 11 11.5

31.0

— 1.1

7

19 :;. l

29 34.24

2 37. 83

2. mi

+ 0.76

+ 28 24 39.8

21.1

+ 1-4

7

24 10.7

34 42. 68

2 37. 83

1.50

— 1.01

+ 22 2 18.6

28.7

— 0.5

35 o

"

4

27 17.2

37 49.7(1

2 37.83

1.19

— 1.40

+ 17 52 5.9

34.1

— 1.5

7.8

27 55. 1

38 27.711

2 37. 83

1.18

— 1.40

+ 17 41 53.0

34.4

— 1.6

'')

7.8

29 41.5

40 14.4(1

2 37. 82

1.34

— 1.23

+ 19 56 24.0

31.3

— 1.1

8

32 5. •"■

42 38.79

2 37.-2

1.36

— 1.2(1

4. 20 23 47. 5

30.8

— 1.0

8

34 22.5

44 5( i. 17

2 37.82*

1.43

— 1.11

4. 21 in 1.8

29.8

— 0.8

6.7

38 7.5

48 41.79

2 37. 82

1.01

— 1.54

+ 15 18 39.0

37.6

— 1.9

8.9

41 53.7

52 28. 61

2 37.82

1.04

— 1.51

+ 15 41 3.4

37.2

— 1.8

7.8

44 liT.n

14 55 12.35

2 37.82

1.12

— 1.44

+ 16 53 19.0

35.4

— 1.7

6

49 30.3

15 (I 6.45

2 37. 81

1.29

- 1.29

-f- 19 15 54.6

32.2

— 1.3

6.7

54 17.4

4 54.33

2 37. 81

1.33

— 1.25

-f- 19 46 38.7

31.6

— 1.1

7

11 55 7.:!

5 44. ::7

2 37. ?1

1.35

— 1.23

+ 20 4 3.2

31.2

— 1.1

6

12 0 45.3

11 23.33

2 37.81

1.45

— 1.09

+ 21 21 1.4

29.6

— 0.8

7.8

5 4.4

15 4::. 14

2 37.81

1.32

— 1.26

+ 19 40 29. 9

31.7

— 1.1

6

8 11.3

18 5(1.55

2 37.80

1.37

— 1.22

4 20 13 42.8

31.0

— 1.1

0

6.7

11 16.3

21 56.06

2 37. so

1.14

— 1.42

+ 17 7 34.2

35. 1

— 1.7

/) 12 r"

Serpentis -

6

14 12.5

24 52.7(1

2 37.6(1

1.12

— 1.45

4 16 46 48.0

35.6

— 1.7

8.9

23 41.2

:'.4 22.97

2 37. 80

11.55

— 1.50

4 8 30 18.0

48.1

— 1.8

7.S

26 18.3

37 0.5(1

2 37.79

0.78

— 4.32

4 11 56 31.5

42.7

— 2.0

■J- 1

"

4.r.

28 ll.ii

38 53.50

2 37.79

1.07

— 1.49

4-16 5 22.8

36.6

— 1.8

35 /t

"

5

30 58. 4

41 41.36

2 37. 79

1.26

— 1.32

4- 18 47 54.4

32.9

— 1.3

7.8

34 1.2

44 44. 00

2 37.79

1.05

— 1.5(1

4- 15 52 56. 0

36.8

— 1.8

7

37 55. 6

48 :'.'.•. 7(i

2 37. 79

1.29

— 1.29

4- 19 14 32.0

32.3

— 1.3

13 c

Cor. Bor. .

4(i :;::.7

51 18.26

2 ::7.79

1.92

4- 0.38

4 27 29 18. 0

22.2

+ 1.2

14 (

" " "

12 44 41.4

15 55 26.62

— 2 37.79

— 2.17

+ 1.25

4- 30 26 21.2

— 0 18.9

+ 2.0

1 .<■ 8881
6 ^ assu

met! as 4">' 4."-':

nr.t tv

14'.

f § assumed ;i* .'

8° li' : not 38° 1

1'.

c Micr. corr. assumed a

b -f- 5 ; not —

5.

med as 0° 3'.i'; l

.,; 0 .:-

d <? assumed as

- M 11"; 11.

t 28° 54' 31

'. / Micr. corr. assumed a

— G ; not + 6

(71)

72

GOULD REDUCTION OF D ACELET S OBSERVATIONS.

17S3 MAY 13

Zero corr. = + 1' 47". 2.

Name

Mag.

T

App. sid. time

Clock corr.

n tan 5

1

?-0

Reft.

?'

h m s

h m s

m s

s

s

o / "

/ //

//

Virginia

9 29 13.5

12 51 16.28

— 2 35.97

— 0.83

— 2.68

+ 11 49 17.0

— 0 42.8

— 2.0

47 £ "

3-3 1.5

54 4. 74

2 35.97

— 0.85

— 2.43

+ 12 6 30.5

0 42. 4

— 2.0

6

37 47. 3

12 59 51.49

2 35. 97

+ 0.54

+ 1.88

— 7 49 41.0

1 25.8

— 0.5

a)

7.8

44 7.0

13 6 12.23

2 35.97

0.71

+ 1.79

— 10 12 20. 3

34.1

— 0.4

7

46 29. 4

8 35.02

2 35.97

0.72

+ 1.77

— 10 20 31.8

34.7

— 0.4

G7 a " - .

54 16.6

16 23.50

2 35. 96

0.69

+ 1.79

— 10 1 55.0

33.4

— 0. 1

69 " - -

9 56 23. 4

18 30. 64

2 35. 96

1.04

+ 1.60

— 14 50 44.4

53.8

— 0.5

76 " . .

10 2 2.2

24 10.37

2 35. 96

4- 0.63

+ 1.85

— 92 59. 6

1 29.9

— 0.4

6

8 3.8

30 12.96

2 35.96

_ 1.09

— 1.53

+ 15 23

5 v Bootis -

19 31.6

41 42.65

2 35. 96

1.19

— 1.44

+ 16 51 27. 3

0 35.4

— 1.7

6

22 37. 1

44 4*. 06

2 35. 96

1.26

— 1.40

+ 17 47 6.8

34.1

— 1.5

7.8

24 44.8

46 56.71

2 35.95

1.15

— 1.48

+ 16 19 46.2

36.1

— 1.8

7

26 40. 5

48 52. 73

2 35.95

1.20

— 1.44

+ 16 55 57.6

35.2

— 1.7

6.7

31 24.2

53 37.21

2 35.95

1.67

— 0.85

+ 23 0 36. 0

27.5

— 0.2

7.8

34 5. 2

56 18.65

2 35.95

2.14

+ 0.79

+ 28 31 58.7

21.0

+ 1.5

7.8

37 45.7

13 59 59.75

2 35. 95

2.83

+ 1.31

+ 35 47 26. 2

13. 2

+ 3.3

7

41 32.7

14 3 47. 15

2 35.95

3.51

+ 1.41

+ 41 46 40. 2

7.0

+ 4.5

7

43 19.3

5 34.25

2 35.95

3.71

+ 1.56

+ 43 2o 8.2

5.5

+ 4.7

8

45 59.8

8 15.19

2 35.95

4. 13 + 2.54

-|- 46 24 50. 1

2.4

+ 5.3

6.7

48 6.1

10 21.83

2 35.95

4.14

+ 2.60

+ 46 32 36.9

2.3

+ 5.4

'')

7

50 8.1

12 24. 16

2 35.95

4.47

+ 3.18

+ 48 58 49. 0

0.2

+ 5.6

7.8

53 43.3

15 59.95

2 35. 94

2.60

+ 1.40

+ 33 28 36.0

15. 6

+ 2.8

6

54 45.8

17 2. 62

2 35. 94

2.13

+ 0.73

+ 28 22 41. 0

21.1

+ 1-4

6

57 1.7

19 18.89

2 35.94

3.22 + 1.29

+ 39 21 1.5

9.5

+ 3.9

6.7

10 59 15. 8

21 33.36

2 35. 94

3.54

+ 1.42

+ 41 58 28.6

6.8

+ 4.5

6.7

11 1 26.1

23 44. 03

2 35.94

3.63

+ 1.49

+ 42 45 2. 0

6.1

+ 4.7

7

3 24.8

25 43.H5

2 35.94

3.84

+ 1.75

+ 44 19 3. 6

4.5

+ 4.9

7

6 41.2

29 o.ni

2 35.94

1.76

— 0.60

+ 21 10 35.7

26.0

0.0

6

8 31.5

311 50.611

2 35. 94

1.37

— 1.30

+ 19 13 32.8

32. 2

— 1.3

6

10 52.8

33 12.28

2 35. 94

1.66

— 0.87

+ 22 53 17.2

27 7

— 0.2

7.6

12 48. 1

35 7.. -9

2 :::. 94

1.10

— 1.51

+ 15 37 10.0

37.2

— 1.8

35 o Comae .

15 28. 6

37 4>-. 83

2 35. 94

1.27

— 1.40

+ 17 52 5. 0

34.0

— 1.5

7

16 7.1

38 27. 44

2 35.94

1.25

— 1.40

+ 17 41 47. 1

34.3

— 1.5

6

19 6.2

41 27.03

2 35.94

1.85

— 0.31

+ 25 14 57. 4

24. 8

+ 0.4

8

21 24.2

43 45. 41

2 35.94

1.73

— 0. 70

+ 23 47 27.5

26. 5

0.0

7.6

23 52. 8

46 14.42

2 35.93

1.43

— 1.23

+ 20 0 40. 1

31.3

— 1.1

<•)

9

26 46. 1

49 7. 99

2 35.93

1.27

— 1.39

+ 17 58 5. 0

34.0

— 1.5

6.7

27 36.4

49 58.63

2 35. 93

1.62

— 0.95

+ 22 24 54. 3

28. 2

— 0.4

7.8

29 36. 4

51 5-. 90

2 35.93

1.90

— 0.13

+ '.'". 53 50. 0

24.0

+ 0.7

7

31 27.6

53 50. 46

2 35. 93

1.66

— 0.87

+ 22 53 21.5

27.7

— 0.2

43 i/f Bootis .

35 26. 1

14 57 49.61

2 35.93

2. 07

+ 0.47

+ 27 46 27. 4

21.9

+ 1.3

45 e " . .

38 3.5

15 0 27.44

2 35. 93

1.89

— 0. 19

+ 25 41 45. 0

24.3

+ 0.6

6

39 25. 3

1 49.46

2 35.93

1.90

— 0. 13

-j- 25 55 14. 8

24.0

+ 0.7

6

42 29.5

4 54. 16

2 35. 93

1.41

— 1.25

-j- 19 46 40.7

31.6

— 1.1

48* " - .

45 39.4

8 4.58

2 35.93

2.27

+ 1. 18

+ 29 57 1.8

19.5

+ 1.9

49 i) Bootis . .

47 0. 2

9 25.00

2 35.93

2.66

+ 1.38

+ 34 6 13.4

14.9

+ 2.9

8

49 28. 0

11 53.81.

2 35. 9::

2.68

+ 1.37

+ 34 21 58.7

14.7

+ 2.9

7

53 27. 8

15 54. 27

2 35. 92

3. 96

+ 2. 06

+ 45 11 44.6

:;. 6

+ 5.1

7

11 57 0.8

19 27.85

2 35.92

4.07

+ 2. 39

-j- 46 0 42. 1

+ 5.3

8

12 0 41.2

23 8.85

2 35. 92

3.24

+ 1.29

+ 39 27 2. 1

9.4

+ 4.0

5 a Cor. Bor. .

5 42. 0

28 10.47

2 35. 92

2.04

+ 0.36

+ 27 25 39. 0

22.3

+ 1-1

7

9 50.0

32 25.17

2 35. 92

1.20

— 1.43

-f 17 0 11.0

35.3

— 1.7

19 r1 Serpentis -

11 13.6

33 42.98

2 35. 92

1.18

— 1.45

+ 16 42 43.6

35.7

— 1.7

9 it Cor. Bor. -

15 36. 8

38 6. 91

2 35. 92

2. 57

+ 1.40

+ 33 10 49.4

16.0

+ 2.7

6

18 18.5

40 49. 05

2 35. 92

1.01

— 1.6-.'

+ 14 27 3.5

39.0

— 2.0

10(5 " . .

20 39.4

43 10. 34

2 35. 92

1.98

+ 0.09

+ 26 42 55. 1

23.1

+ 1.0

11 K " . .

23 13. 1

45 44. 46

2 35. 91

+ 1.30

-f 36 18 31.4

12.7

+ 3.3

7.8

30 56.8

53 29. 43

2 35.91

0.97

— 1.67

+ 13 52 23.0

39.9

— 2.0

7.8

31 55.3

54 28. 09

2 35.91

0.99

— 1.62

+ 14 3 58.0

39.5

— 2.0

6 v Herculis .

36 11.0

15 58 44.49

2 35.91

4.16

+ 2.61

+ 46 36 40.8

2.2

+ 5.4

48 Serpentis -

12 41 47.0

16 4 21.41

_ 2 35. 91

— 1.22

— 1.42

-(- 17 12 50.5

— 0 35. 1

— 1.7

a T. II assumed as 7s.;

not 2s.

b Measurement

of £ assumed a

a negative. c g

assumed as 30° 53

0" ; not 30° 53' 10".

(72)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

73

17S3 MAY 13

Zero corr. = + 1' 46". 3.

Name

M.I'.;.

T

App.sid. time

Clock corr.

n tan i!

1

c-#

Refr.

?'

A in s

/* m s

m s

5

s

o ' /

/ //

„

8 7 6.5

1 1 32 52. 34

_ 2 36. 54

— 3.61

+ 1.46

+ 42 24 48.4

— 0 6. 3

+ 4.5

94 |8 Leonis .

1 4 52. 7

40 39. 82

2 36. 53

1.12

— 1.50

+ 15 45 44.6

36.7

— 1.8

6

21 4.7

46 52. 84

2 36. 52

1.99

+ 0.119

+ 26 42 19.2

22. 9

+ 1.0

6

23 48. 3

49 36. 89

2 36. 52

2.62

+ 1.40

-f 33 27 31.2

15.5

+ 2. 8

6

27 22.2

53 LI. 38

2 36.52

3.01

+ 1.27

+ 57 13 42.2

11.6

+ 3.5

7

29 16.2

55 5.69

2 36. 52

2. 37

+ 1.29

+ 30 51 48.(1

1 8. 3

+ 2. 2

8

33 14.4

11 59 4.54

2 36. 52

1.78

— 0. 59

+ 21 13 36.0

25.8

0.0

6

36 32. 7

12 2 23. 38

2 36.52

2.15

+ 0.78

+ 28 27 52.0

20.9

+ 1.4

7.8

41 12.7

7 4. 15

2 36. 52

4.45

+ ::. 10 + 48 17 33.0

0.5

+ 5.5

8 ConifE .

45 9. 2

11 1.30

2 36.51

1.78

— H.59 + 24 13 0.0

0.0

12 " . .

48 22.2

14 14.83

2 36. 51

2.d2

+ 0.21

+ 27 1 33. 4

+ l.o

13/ " . .

50 11.3

16 4.23

2 36.51

— 2. H4

+ 0.30

+ 27 16 39.7

0 22. 3

+ l.o

7

53 30.7

19 24. J 7

2 36. 51

+ 0.93

-f- 1.58

— 13 15 9.4

1 45.8

— (1.3

518 Mayer . .

7

55 36.5

21 30.31

2 36.51

0. 86

+ 1.63

— 12 11 43.2

41.3

— (1.5

6

8 59 1.5

24 55. B!

2 36.51

0.81

+ 1.67

— 11 38 29.8

39.0

— 0. 3

7

9 1 20.3

27 15.05

2 36.51

0.76

+ 1.72

— in 52 52.8

36. 1

— 0. 3

26 i Virginia .

5

4 44.4

30 39.71

2 36.51

0.47

+ 1.87

— 6 48 37. 2

22. 1

— 0.5

28 " . .

8

7 25.5

33 21.25

2 36.51

0.44

+ 1.85

— 6 19 4.0

20.6

— 0.5

7.8

9 45. 2

35 41.33

2 36. 51

+ 0.11

+ 0.96

— 1 39 57.2

1 8.1

— 0.7

7

16 3.6

42 0. 77

2 36.51

— 0. 52

— 1.24

+ 7 23 39. 6

0 49. 6

— 1.6

«)

6.7

19 7.0

45 4.67

2 36.50

+ 0.21

+ 1.31

— 3 3 13. 3

1 11.7

— 0.7

7

21 4:;. 2

47 41.30

2 36.50

0.26

+ 1.5(1

— 3 41 55.0

13.3

— (i.6

7

9 23 19.3

12 49 17. CO

2 36.50

0.97

+ 1.57

— ]3 48 14.2

48.5

— 0.4

2 Libne .

6.7

10 49 26. 7

14 15 39.21

2 36. 48

1 1. 75

+ 1.74

— 10 41 2. 1

35.4

— (1.3

574 Mayer . .

7

53 21.2

19 34.35

2 36. 48

+ 0.63

-(- 1.85.1- - 9 1 55.0

1 29.6

— 0. 4

26 Bootis . .

10 59 8.2

25 22. 30

2 36.48

_ 1.69

— 0.82 + 23 11 52.2

0 27.2

— 0.2

6.7

11 2 45. 0

28 59.69

2 36.48

1.77

— 0.60 + 24 10 36.0

25.9

0.0

6

4 35.1

30 50. 09

2 36. 48

1.38

— 1.30

+ 19 13 33.6

32.1

— 1.3

6

6 56.9

33 12.28

2 36. 4*

1.67

— 0.88

+ 22 53 16. 6

27.6

— 0.2

34 " . .

10 18.2

36 34. 13

2 36. 48

1.97

+ 0.36

+ 27 25 53. 4

21.9

+ 1-1

36 e " - -

11 54.8

38 11.00

2 36. 48

2. JO

+ 0.55

+ 27 58 14.3.

21.6

+ 1.3

7

15 56.8

42 13.66

2 36. 47

1.47

— 1.20

+ 20 23 44. 0

30.6

— 1.0

!>)

7.8

18 38. 1

44 55.40

2 36. 47

1.53

— 1.11

+ 21 9 57.2

29.7

— 0.8

37 i " . .

7

19 56. 5

46 14.02

2 36.46

1.44

— 1.23

+ 20 0 39.1

31.1

— 1.1

6

22 22. 9

48 40.82

2 36. 46

1.08

— 1.54

+ 15 18 36.8

37.5

— 1.9

7

24 24.7

50 42. 95

2 36.46

1.04

— 1.58

+ 14 53 36.8

38.1

— 1.9

0

8

26 9. 1

52 27.64

2 36.46

1. 11

— 1.51

+ 15 40 57.4

37.0

— 1.8

41 u " . .

28 58. 1

55 J 7. 10

2 36.46

1.92

— 0. 15

+ 25 50 56. 8

24.0

+ C7

<n

8.9

30 50. 1

57 9.41

2 36.46

2.01

+ 0.52

+ 27 54 45.0

22.0

+ i.o

43 f " . .

31 30.3

14 57 49. 72

2 36. 46

2.09

+ 0.47 + 27 46 30.2

21.8

+ 1.3

7

34 26. 4

15 0 46.30

2 36. 46

3.02

+ 1.27

+ 37 16 4.4

11.6

+ 3.5

8

38 11.7

4 32. 22

2 36.46

2.66

+ 1.39

+ 33 52 45.7

15.1

+ 2.9

6.7

41 32.7

7 53.77

2 36.46

2.53

+ 1.39

+ 32 34 38. 0

16.5

+ 2.6

49 6 " . .

43 4.9

9 26. 22

2 36.46

2.70

+ 1.38

4- 34 6 10.4

14.9

+ 2.9

6.7

45 31.2

11 52.92

2 36.46

2.71

+ 1.37

4- 34 21 58.4

14.6

+ 3.0

6.7

47 3. 3

13 25.27

2 36.45

2.60

-(- 1.40

+ 33 16 50.0

15.7

+ 2.7

2 )7 Cor. Bov. .

5.6

50 32. 1

16 54.64

2 36.45

2.38

+ 1.31

+ 31 3 7.8

18.2

+ 2.2

5J /t Bootis .

52 36.2

18 59. 08

2 36.45

3.1J

+ 1.27

+ 38 6 55.8

10.7

+ 3.7

9

55 15.2

21 38.52

2 36.45

3.92

+ 1-87

+ 44 44 27. 5

4. 1

+ 5. 1

7

11 58 3.8

21 27.58

2 36.45

4.39

+ 3.00

+ 47 55 J5.7

0.9

+ 5.5

52 d1 Bootis . .

12 0 18.2

26 42. 35

2 36. 45

3.51

+ 1.40

+ 4 1 3(5 40. 0

7.2

+ 4.4

6 fi Cor. Bor. .

6

3 34.2

29 58.89

2 36. 45

3.29

+ 1.30

+ 39 42 27. 3

9.1

+ 4.0

6

6 41.2

33 6.40

2 36. 45

2.81

+ 1.32

+ 35 21 40. 0

13.6

+ 3. 1

8y " . .

9 53 2

36 18.93

2 36. 45

2.01

+ 0.17

+ 26 57 53. 1

22.7

+ l-o

e) 28 3 Serpentis -

12 26. 8

38 52. 95

2 36. 45

1.14

— 1.49

+ 16 5 17.3

36.3

— 1.8

29 " . .

12 40. 9

39 7. 09

2 36. 45

1. 14

— 1.48

+ 16 11 15.0

36.2

— 1.8

38 p Ophiuchi .

17 58.9

44 25.96

2 36.44

1.56

— 1.06

+ 21 36 54. 8

29.1

— 0.6

7

19 21.8

45 49.09

2 36. 44

1 . 29

— 1.38

+ 18 2 14.1

33.7

— 1.5

41 y Serpentis -

22 40.5

49 8. 33

2 36.44

1. 16

— 1.47

+ 16 21 28.5

36.1

— 1.8

13 e Cor. Bor. .

5

24 48. 5

51 16.68

2 36.44

2.06

+ 0.38

+ 27 29 18.0

22.1

+ 1-1

6.7

27 9.1

53 37.67

2 36. 4 1

3.01

+ 1.27

+ 37 14 16.2

11.6

+ 3.5

7

29 26. 1

55 55. 02

2 36.44

3.30

+ 1.3(1

+• 39 45 43. 2

9.0

+ 4.1

8

12 30 40.7

15 57 9. 82

- 2 36.44

- 3.39

4- 1.34

+ 40 35 59.7

— 0 8.2

+ 4.2

a g assumed as 51° 54' ;

not 51°

4'.

d g assumed as 20^ ; no

21°.

6 g assumed aa 27° 41' 8

".."> ; not

27°41'38".5.

e g assumed as 32° 45' 48

".5-,not32°45'18".5.

' -Micr. corr. assumed a

f 5 ii

)t — 5.

10

(73)

74

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 MAY 13— Conlinncd

Zero corr. = + 1' 4G".8.

Name

6 i' Herculis
48 Serpentis

17 a Cor. Bor.
19 Herculis

32 ComsE .
35 o Herculis

59 d

68 u

72 w

55 a Ophinchi
«) 7'J Herculis

83 " .

84 " .

h) 91 e

r)

104 A

0

9 v2 Lyrre .

11 <5> '• . .

12 <V2 " . .

13 e Aquilie

Saturn .
41 ir Sajrittarii -
20 Aquilie

25 <j' " . .
f)

g) 4 Vulpeculse

Mas

6

0.7

6

0.7

7

7.8

0

6.7

6

8

7

8

6

8

7

8.9

7.8

6

6.7

6

7
6.7

fi

6.7

7.8
8.9

7.8

7

7

8.9

6

9

7

7

6.7

7

0.7

6

12

13

12 32 15.0
37 51.3
39 57. 4

42 42.7
-15 33.5
48 38.7
52 58. 0
55 28. 7

.7 16.4
1 8. 5

3 13.6
5 58.5

19 50.7
22 44. 7

26 4.7
29 37. 4

32 10.7

34 30.5
37 35.5
41 20.0
45 17.3
48 31.3

50 35.8

13 58 13.2

14 0 49.7

4 31.2

8 6.5

9 30.4
10 22.2
13 29.1
15 17.1
17 34.7
21 25.8

24 41.7

27 17.0

28 55. 3

33 31.4

35 52. I
39 33.8
41 40.6
44 43.7

48 2.5

51 47.7
55 25. 8

14 58 21.2

15 0 47.0
3 13.2

12 36.6
15 29. 3
17 30.3

21 51.9

22 36.8

25 29. 8

29 8. 2
32 27. 7

30 30.5
39 50. 1

43 19.2

49 40. 4

52 23. 3
15 51 37.2

App. sid. time Clock eorr. n tan 6

15 58 44. :;s

16 4 21.00
6 28. 06
9 13.81

12 5. 08
15 10.79
19 30.80

22 1.91

23 49.91
27 42.65

29 48.09
32 33.44
40 27. 92

49 22.40
52 42. 95

50 10.2::

10 58 49.95

17 1 10.13
4 15.04
8 1.30

11 58.71
15 13.24

17 18.07

24 56.72
27 33.65
31 15.76
34 51.05

36 15.78

37 7.72
40 15. 13

42 :;. i:;

44 21.41
48 13.14

51 29.58
54 5. 30

17 55 43. 87

18 0 20.73
2 41.81
6 21. 12
8 31.27

11 34.87
14 54.21

18 40.03
22 18.73

25 14.01
27 40.81

30 7.41
39 32.35
42 25. 52
44 26. 85

48 49. 17

49 34. 19

52 27. 60
56 0.00

1- 59 20.71

19 3 30. 17
6 50. 32

10 19.99
10 42.23

19 25.57
19 18 39. 33

m s

2 36.44

2 30. 44

2 36. 44

2 36. 44

2 36. 43

2 36.43

36. 43

36. 43

36. 43

36. 43

30. 4:i

36.43

2 30.42

2 36. 42

2 30.42

2 36.42

2 36.42

2 36.42

2 36.42

2 36.41

2 36.41

2 30.41

2 36.41

36. 4 1

36.41

36.41

36.41

36.41

30.41

30. 41

36. 40

36.40

30.40

2 30.40

2 30. 40

2 30.40

2 30.40

2 36.40

2 36.40

36. 40

36. 40

36. 39

36.39

36. 39

36. 39

30. 39

30. 39

36. 39

30. 38

36.38

36. 38

36.38

30. 38

2 36. 38

2 36.38

2 36.38

2 36.38

2 36. 38

2 36.37

2 36. 37

2 36. 37

4.20
1.23
2.03
2.71
1.97
3.35

1. 17
1.33
1.51
2.38
3. 67
4.25
4.25

3. 72

4. 35

2. 66
2.14

3. 84
4.50
4.05

2. 60
2.54
3.34
1.21
0. .-9
1.80
1.81
1.82
1.79
1.26
1.38
1.63
2.33

3. 02
3.74
3.71

3.:::;

1.83
2.41

::. 17

3. 57

4. 15
4.55
4.42
1.57
1.46
1.58
2.57
2.43
2. 50
2. 94
2. 94
1.04

f- 1.62
1.54
+ 0.58
0.79
0.78
1.09
1.41
1.39

s

+ 2. 0]
1.42
+ 0.28
+ 1.37
0.00
+ 1.32
- 1.47
1 . 32
1.15
(- 1.30
+ 1.50
+ 2.75
+ 2.74
+ 1.54
+ 2.94
+ 1.39
-)- 0.73
+ 1.70
+ 3. 15
+ 2.21
+ 1.40
+ 1.40
+ 1.32
1.43
1.88
0.54
0.49
0.48

0. 54
1.40
1.29
0.9(1

f 1.24
+ 1.27
+ 1.57
+ J. 54
+ 1.31
— 0.40
+ 1.34
+ 1.28
+ 1.43
+ 2. 49
+ 3.25
+ 3.06

- 1. 05
1.20

- 1.02
+ 1.40
+ 1.36
+ 1.39
+ 1.29
4 1.29

1 . 59
f- 1.67

4 l.:,l
4 1.88

— 3.00

- 2.90
1.52
1.26
1.28

4 40
4 17

427

4 34

4 20

4 40
4 H)
4 is
4 20
4- 30
4 42
4 47
4 46
+ 43
4 47
4 33
4- 28
4 44
4 48
f 45
4 33
4 32
4- 40
4 16
4 12
4 24
4 24
+ 24
4 24
4- 17
4 19
4 22
4 30
+ 37
4- 43
4 43
4 40
4 24

4 31

4 38
+ 42
4 46
4- 48
48
f 21

4 20
4 21
+ 32
4 31
+ 32
4. 36
4 30
4 14
- 22
21
— 8
4 11
4- 11

4 15
19
f 19

36 42.9

12 52.0
12 30.0

23 15.4

24 29.7
12 13.5
27 0. 0
51 22.0
56 21.8
56 7. 0
51 32.6

1 27.2
59 19.0

10 19.8

40 40.0
51 42.6

22 15.9
4 51.0

38 52.7

33 30.2
18 46.8

43 35. 3
9 50.4

58 20. 2
42 33.8

25 24. 4
30 !5.7

39 29. 4
24 24.5
45 55.8

18 41.8
21 46.8

23 42.4

15 24.6

24 35.0
12 54.0

2 35.5
54 53.2

19 57. 1

41 23.5

3 35.2
17 30.6
58 55. 3

8 28. 7

44 1.9
17 6.2
54 49.0
56 36. 0
29 46.0

16 48.8

40 41.0
36 5.4

45 45.6
15 4.4

20 17.2

17 3S. 0
19 59.6

11 44.2

34 57.0
39 15.4
22

— 0

Eefr.

2.2

34. 8
22. 4
14.6
23.4

8.6

36. 0

32. 7

30.0

lo.3

O.o

1.8

1.8

5.6

1.2

15.2

21.2

4.7

0.2

3.2

15.7

10.4

8.6

35. 2
41.4
25.8
25.5
25. 5
25. S
34.1
32.1
28.2
18.9
11.6

5.4

5.6

8.8

25. 2

17.9

10.2

6.8

2.6

0.2

0.7

29.0

30. 8

28.7

16.1

17.7

16.9

12. 2

12.3

0 38.3
2 43.8
2 35.9

1 27.6
0 43.6

43.8

37.2

0 31.8

4

4 5.4

— 1.7

4 1.0

4 3.o
4- 0.8
+ 4.1

— 1.8

— 1.3

— 0.8

4- 2.2

4- 4.7
+ 5. 4
+ 5.4
4-4.7
+ 5.5
+ 2.9
+ 1-4
4 4. 9

4 5.0

-f 5.2
4- 2.7
+ 2.7
4.1
1.7

— 2.0
4 0.1

4 0.2
+ 0.2
+ 0.1

— 1.5

— 1.3

— 0.4
+ 2. 0
+ 3.5
+ 4.8
+ 4.7
+ 4.1
+ 0.4
+ 2.2
+ .-,. 8
+ 4.5
+ 5.3
+ 5.6
+ 5.5

— o.O

— 1.2

— 0. 5
+ 2.7
+ 2.4
+ 2.5
+ 3.4
+ 3.4

— 1.9

— 1.2

— 1.0

— 0.5

— 1.9

— 1.9

— 1.8

— 1. 1

a Div. assumed as 2fi 0 14: not 26 013.
b Div. assumed ns 12 ."> II ; not 12 5 9.

c S assumed as 23= 56' 11"..", ; not 23° 511' 41".5.

(74)

Div. assumed as 10 13 7; not 10 7 13.
Div. ussuiiiL-d a* 17 10 13; not 17 1U 11.

/ Div. asstim<<l as 35 7 ; not 35 ■"'.
g Div. assumed as 51 ; not 52.

GOULD — REDUCTION OF D A(il'.LET S OBSERVATIONS.

75

1783 H iv I.J-«'oiui

lined Zero com : 1' 46".8.

Name

Mag;.

T

App. sill, time

Clink corr.

u tan ti

1

f-T

Refr.

1'

h m s

h in 8

m s

s

s

o / //

II

6 Vnlpeculae

15 55 18.3

19 22 21.06

— 2 36. 37

— 1.78

— 0.59

+ 24 12 37.4

— 0 26.0

0. 0

8 " . .

7

i;> 55 31. 1

22 33.90

2 36.37

1.79

— 0.56

+ 24 18 20.0

26.0

+ 0. 1

."in ■ Aquilse

16 11 32.6

38 38. 03

2 36, ::7

0.70

— 2.34

+ 10 4 34.0

45.6

- 1.8

I.-1 it Cygni .

13 45.7

40 51.49

2 36. 36

3.90

+ 1.81

+ 44 34 21.3

4.3

+ 5.0

5:! a Aquilse

15 45. 5

42 51.62

2 36. 36

0.58

— 1.44

+ 8 17 18.8

48.5

1.7

60/3 " . .

2(1 11.8

19 47 IK 65

2 36. 36

— 0.41 — 0.90

+ 5 51 34. 0

0 52.9

— 1.5

Jupiter

16 54 14.7

20 21 27.14

2 36.35

+ 1.44 +1.41

— 1!) 58 28.8

2 25. 3

— 0.8

a Cygni . .

17 9 26.8

20 36 41.74

— 2 36. 35

— 3.89 + 1.79

+ 44 28 38. 1

— 0 4.4

+ 5.0

17S3 MAY 15 Zero corr. = + 1M5". 5.

Siiius .

1

3 5 18.8

6 38 8. 18

— 2 35. 53

+ 1.17

+ 1.67

— 16 25 46.6

— 2 0. 9

— 0.5

9 14 48.2

12 48 38.28

2 35. 35

0.54

+ 1.88

— 7 44 30.0

1 25.0

— 0.5

49 g Virginia -

25 16.2

J2 59 8.00

2 35.34

0.67

+ 1.81

— 9 35 6.3

31.3

— 0.4

8

28 43.5

13 2 35. i-7

2 35.34

0.65

+ 1.83

— 9 21 52.8

30. 5

— 0.4

«) 56 " . .

7.8

32 6. 2

5 59. 13

2 35.34

0. 65

+ 1.84

— 9 13 27.2

29.9

— 0.4

7

34 48.2

8 41.57

2 35.34

0.65

+ 1.83

— 9 24 25. 8

30. 5

— 0.4

62 " . .

37 38.6

11 32.43

2 35.34

0.71

+ 1.79

— 10 10 0.6

33.2

— 0.4

67 a "

42 27. 5

16 22. 12

2 35.33

+ 0.70

+ 1.79,

— 10 1 54.5

1 32.8

— 0.4

78 " . .

6

51 51.0

25 47. 17

2 35. 33

— 0.33

— 0. 60

+ 4 45 41.0

0 54.3

— 1.4

6.7

57 18.6

31 15.67

2 35.33

1.39

— 1.28

+ 19 21 4.0

31.8

— 1.3

4) 2 Bootis . .

6

9 59 28. 9

33 26. 33

2 35.33

1.72

— 0.75

+ 23 34 33.4

26.6

— o. 1

6.7

10 2 11.7

36 9. 57

2 35.32

— 1.74

— 0.71

+ 23 46 30.7

0 26. 4

0.0

4 43.2

38 41.48

2 35. 32

+ 0.39

+ 1.80

— 5 37 31.3

1 18.6

- (1.5

6

8 11.7

42 10.55

2 35. 32

— 0.46

— 1.06

+ 6 33 43. 1

0 51.2

- 1.6

92 Vircinis .

7

14 3.5

48 3. 31

2 35. 32

0. 15

— 0. 12

+ 2 6 11.2

59. 6

-1.0

r)

7.8

16 20.5

13 50 20.69

2 35. 32

— 1.25

— 1.41

+ 17 26 43.2

0 34. 4

- 1.6

,1) 1211 Lacaille .

4

10 40 58.2

14 15 2.44

2 35.31

+ 1.75

+ 2.14

— 23 47 41.0

2 57.9

— 1.8

«)

7

11 15 47.4

49 57. 36

2 35.29

— 1.64

— 0.95

+ 22 24 56.9

0 28.1

— 0.4

41 u Buotis .

21 5.5

55 16.33

2 35.28

1.93

— 0.15

+ 25 50 55. 6

23.9

+ 0.7

43 V " - -

23 37.0

14 57 48. 24

2 35. 28

2. 10

+ 0.48

+ 27 46 34.7

21.7 + 1.3

7.8

28 37. 7

15 2 41). 7(1

2 35. 28

2.69

+ 1.38

+ 34 4 15.0

14.0 +2.9

7.8

30 18.3

4 30.04

2 35.28

2.67

+ 1.39

+ 33 52 49. 8

15. 1 + 2. 9

6.7

33 39. 9

7 52. 79

2 35.28

2.54

+ 1.39

+ 32 34 41.6

16. 4 + 2. 6

49 <S ' . .

35 11.7

9 24..-1

2 35.27

2.70

+ 1.38

+ 34 6 13.4

14.9 + 2.9

7

37 38. 5

11 52.04

2 35.27

2. 72

+ 1.37

+ 34 21 59.4

14.5 + 2.9

1 o Cor. Bor. .

39 35. 8

13 49.66

2 35. 27

2. 33

+ 1.24

+ 30 23 4.0

18.8 +2.0

2r/ " "

42 39. 4

16 53.76

2 35.27

2.40

+ 1.31

+ 31 3 6.8

18.1

+ 2.2

51 u. Buotis -

44 43.2

18 57.90

2 35.27

3.12

+ 1.27

+ 38 6 55. 8

10.7

+ 3.7

/)

8.9

47 22. 9

21 38.03

2 35.27

3.94

+ 1.87

+ 44 44 25.2

4.1

+ 5. 1

7

50 10.7

24 26.29

2 35.27

4.41

+ 3.00

+ 47 55 16.7

0.9 + 5.5

52 !•• " . .

0

52 25.2

26 41.16

2 35. 27

3. 53

+ 1.40

+ 41 36 38. 0

7.2 +4.4

6 /j. Cor. Bor. .

55 41. 1

29 57.60

2 35.27

3.30

+ 1.30

+ 39 42 27. 0

9.1

+ 4.1

7

11 58 48.7

33 5. 71

2 35.26

2.83

+ 1.32

+ 35 21 39. 6

13.6

+ 3.1

8y " "

12 2 0.3

36 17.84

2 35.26

2.02

+ 0.20

+ 26 57 54. 2

22. 6

+ i.o

28 :i Serpentis .

4 33.3

38 51.26

2 35.26

1.14

— 1.49

+ 16 5 19.3

36.3

— 1.8

29 " . .

4 48.0

39 6. 00

2 35.26

1.15

— 1.48

+ 16 11 25.0

36.1 — 1.8

35 k " . .

7 20.7

41 39.12

2 35.26

1.35

— 1.32

+ 18 47 54.2

32.7 — 1.3

38p " . .

10 5.8

44 24.67

2 35.26

1.57

— 1.06

+ 21 36 58. 0

29.1 — 0.6

41 y " . .

14 47.2

49 6.84

2 35.26

1.17

— 1.47

+ 16 21 25.5

36.1 — 1.8

13 e Cor. Bor. .

16 55.5

51 15.49

2 35.26

2.07

+ 0.38

+ 27 29 16.5

22.1 +1.1

6

19 16.7

53 37.09

2 35.25

3.02

+ 1.27

+ 37 14 14.9

11.6 + 3.5

9

21 32.6

55 53.36

2 35. 25

3.31

+ 1.30

+ 39 45 46.0

9. 0 + 4. 1

9

22 47.7

57 8. 66

2 35.25

3.41

+ 1.34

+ 40 35 58. 0

8.2 + 4.2

6 u Heronlis -

6.7

24 21.0

15 58 42.21

2 35.25

4.21

+ 2.61

+ 46 36 41.0

2. 2 1+ 5. 4

g) 7 K " . .

6.7

26 36. 3

16 0 57.88

2 35.25

1.27

— 1.40

+ 17 36 44. 0

34.0 — 1.6

8? " . .

7

27 18.8

1 40. :ii

2 35. 25

1.27

— 1.40

+ 17 46 8.0

34.0 — 1.5

48 Serpentis -

7

29 58. 1

4 20.2:;

2 35.25

1.23

— 1.42

+ 17 12 54.2

34.8 — 1.7

7

32 4.8

6 27. 28

2 35.25

2.04

+ 0.28

+ 27 12 37.0

22.4 + 1.0

A) 17 a Cor. Bor. -

7.6

34 49. 6

9 12.53

2 35.25

2.74

+ 1.37

+ 31 23 15.9

14.6

-f- 2.9

19 Hereulis .

6

12 37 40.8

16 12 4.20

— 2 35. 2 1

- 1.98

0.00

-f- 26 24 29.2

— 0 23. 4

-f- 0.8

a Div. assumed as 61 1."

2; not

51 15 3.

i Div. assumed i

s 77 7 13; not

77 7 7. g g assumed as 31° 14' ;

not 310 4'.

b j? assumi <t as -±:p V& 3

3"; not

!o3 1(1' 52".

umed as 2

t, US' B"; not S

6°26'28". h Div. assumed as 15 6

14; not 15 6 13: and

c T. II assumed as 20s.

nut :ai.-

f Div. assui I

1-4 6 3 ^not 4

6 5. g1 assumed ;^ 14 "J?

; nut 14^24'.

(75)

7G

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

.1783 MAY 15— Continued Zero corr. = + 1' 45". 5.

Name

Mag.

T

App. sid. time

Cluck coir.

n tan (5

1

C-<P

Eefr.

•i'

h m s

I
h in s

m s

s

s ° ' "

// //

6

12 40 45.5

16 15 9.41 ■

- 2 35. 24

- 3.36

4- 1.32 + 40 12 14.0 -

- 0 8.6+4.1

20 v' Cor. Bor. .

42 27. 4

16 51.62

2 35.24

2. 72

-j- 1.38 + 34 17 23.0

14.7 + 2.9

7.8

45 5. 2

19 29. 85

2 35. 24

1.17 ■

- 1.47 i+ 16 27 6.8

35.9 — J. 8

7

47 35.7

22 0. 76

2 35.24

1.35 ■

- 1.32 + 18 51 21.7

32.7 — 1.3

32 Herculis .

8

53 15.5

27 41.49

2 35.24

2.39

-f 1 . 30 + 30 56 5. 0

18.3 + 2.2

35 a " . -

55 21.0

29 47. 33

2 35. 24

3.69

-1- 1.50

■f 42 51 33. 8

5.9 + 4.7

6

12 58 5.8

32 32.58

2 35.24

4.28

-f- 2.75

+ 47 1 30.7

1.8 '+ 5.4

40 C " - -

13 1 18.6

35 45. 91

2 35. 23

2.48

i- 1.38

+ 31 58 31.5

17.1 + 2.5

44 // "

3 39.8

38 7.50

2 35.23

3.25

+ 1.28 + 39 18 41.6

9.5 +3.9

7

6 36. 0

41 4.17

2 35.23

3.79

-|- 1.00 + 43 35 21.6

5.2 + 4.8

")

7

10 43.0

45 1 1 . 85

2 35.23

2.58

+ 1.40 -j- 32 53 59.5

10.1 + 2.7

8.9

11 57.2

46 26. 26

2 35.23

4.27

+ 2. 74 + 46 59 24. 0

1.8 + 5.4

8.9

14 51.5

49 21.03

2 35. 23

3.73

+ 1.54 !+ 43 9 42.4

5.6 +4.7

8

18 12.0

52 42. 08

2 35.22

4.37

+ 2. 93 1+ 47 40 46. 8

1.2 + 5.5

59 d " - -

6

21 44.7

56 15.36

2 35.22

2.67

+ 1.39 + 33 51 41.6

15.1 + 2.9

9

24 17.3

16 58 48.38

2 35. 22

2. 15

+ 0. 73 + 28 22 17. 9

21.1 + 1.4

7.8

26 37.6

17 1 0. DO

2 35.22

3.85

+ 1.70 + 44 4 49.6

4.7 +4.9

4)

8

29 42. 8

4 14.76

2 35.22

4.52

+ 3. 17 + 48 38 56. -

(1.2 +5.6

7.8

33 27. 8

8 0. 38

2 35. 22

4.06

+ 2.21 '+ 45 33 27.4

3.3 + 5.2

67 7T " . .

35 36.3

10 9.23

2 35. 22

3.00

+ 1.27

+ 37 1 53.1

11.9 + 3.5

66 u " . .

0.5

37 24.4

11 57.63

2 35.22

2.62

+ 1.40

+ 33 18 47.5

15.7 +2.7

c) 72 w "

6

40 37.0

15 11.64

2 35.21

2.50

+ 1.40

+ 32 43 37. 3

10.3 + 2.7

d)

7

42 42. 3

17 16.40

2 35.21

3.36

+ 1.32

+ 40 10 1. 1

8.6 + 4. 1

8

44 48.5

19 22.95

2 35.21

3. 19

+ 1.28

+ 38 15 21.0

10.1 +3.9

7.8

47 2. 9

21 37.72

2 35.21

2. 78

+ 1.34

+ 34 51 23. 0

14.1 1+ 3.1

76 A " . -

50 2. 6

24 37.91

2 35.21

1.96

— 0.04

+ 26 15 26.7

23.6 + 0.7

9. JO

51 34. I

26 9.56

2 34.21

1.20

— 1.44

+ 16 54 45. 0

35.2 j— 1.7

7.8

52 50.8

27 26. 57

2 34.21

1.18

— 1.46

+ 16 38 23. 5

35.6

— 1.7

79 " . -

6.7

13 56 38.2

31 14.59

2 34.21

1.61

— 0.54

+ 24 25 25. 0

25.7

+ 0. 1

7.6

14 0 13.5

34 50. 48

2 34.20

1.82

— 0. 50

+ 24 36 15.7

25.5

+ 0.2

83 " . .

7

1 37.4

36 14.01

2 34.20

1.83

— 0.48

+ 24 39 28. 1

25.5

+ 0.2

84 " . -

7

2 29.7

37 7.H5

2 34.2H

1.81

— 0.55

+ 24 24 24.0

25.7

+ 0.1

6

5 35.7

40 13.56

2 34.20

1.27

— 1.40

+ 17 45 55.8

34.2

— 1.5

7.8

7 24.4

42 2.55

2 34.211

1.39

— 1.29

+ 10 18 44.6

32.1

— 1.3

<0

7.8

9 41.6

44 20. 13

2 34. 10

1.63

— 0.96

+ 22 21 51.1

28.2

— 0.4

9

13 32.8

48 11.90

2 34. 10

2.34

+ 1.24

+ 30 23 41.8

IS. 9

+ 2.(1

91 0 " - -

16 49.0

51 28.70

2 34. 10

3.03

+ 1.27

+ 37 15 21.1

11.6

+ 3.5

8.9

19 24. 3

54 4.4-2

2 34.19

3.76

+ 1.57

+ 43 21 35.(1

5.4

+ 4.7

8

21 2. 5

17 55 42.89

2 34. 19

3.73

+ 1.54

+ 43 12 54.4

5.6

+ 4.7

8

25 38. 3

18 0 19.45

2 34. 19

3.34

+ 1.3J

+ 40 2 32.2

8.8

+ 4.1

f)

7.8

27 59.2

2 40.74

2 34.19

1.84

— 0.40

+ 24 54 56.0

25. 2

+ 0.4

104 yl " - -

5.6

31 40.4

6 22. 55

2 34.10

2.42

+ 1.34

+ 31 19 54.4

17.9

+ 2.3

6.7

33 47. 3

8 29. 80

2 34.19

3. 18

+ 1.28

+ 3- 11 23.5

10.2

+ 3.8

7

36 50.7

11 33.70

2 34.18

3. 50

-f 1.43

+ 42 3 34.7

6.7

+ 4.5

9

40 in. 0

11 53.54

2 34.18

4.17

+ 2.51

+ 46 17 32. 1

2.5

+ 5.3

6

43 54.4

18 38.56

2 34. 18

4. 58

+ 3.25

+ 48 58 52.8

0.2

+ 5.6

9

47 33.0

22 17.76

2 34. 18

4.44

_|_ 3. 06 1+ 48 8 27. 0

0.7

+ 5. 5

8

55 58. 7

30 44. 84

2 34. 18

3.18

+ 1.28 + 38 41 38.0

10.2

+ 3.8

3 a Lyric .

1

14 57 28.4

32 11.70

2 34.17

3.17

+ ) . 27 + 38 33 28. 2

10.3

+ 3.8

7

15 0 25.6

35 12.48

2 34. 17

3.42

+ 1.35 + 4" 42 43.0

8.1

+ 4.2

?)

7

3 54.3

38 41.75

2 34. 17

3. 22

+ 1.28 + 39 3 32.0
+ 1.29 + 39 25 9.6

9.8

+ 3.9

A) 4 e " . .

5 1.7

39 4ii.:;:;

2 34. 17

3.27

9.4

+ 3.9

G.7

7 36. 1

42 24.15

2 34. 17

2.44

+ 1.36 + 31 29 48.0

17.7

+ 2.4

9 r2 " . .

9 36.8

44 25. 1 -

2 34.17

2. 52

+ 1.39 1+ 32 Ki 52.il

16.9

+ 2.5

11 (5i " . .

7

13 58.2

48 47. 28

2 34. 17

2. 06

+ 1.29 i+ 36 40 41.0

12.2

+ 3.4

1'.' ,V " . .

14 44.7

49 33.91

2 34. 17

2.96

+ 1.20

!+ 36 36 4.7

12.3

+ 3.4

13 e Aquilse

17 30.3

52 25. 98

2 34. 16

— 1.05

— 1.59

+ 14 45 52.0

ii 38.3

— 1.9

Saturn .

10 50.9

54 46.97

2 34. 16

+ 1.63

+ 1.07

— 22 15 26.9

2 43.8

— 1.2

41 -k Sagittarii .

24 34.7

1 8 59 25. 53

2 34. 16

1 . 55

+ 1.51

— 21 20 15.9

2 35.8

— 1.0

»)

5.6

28 50.7

19 3 42. 23

2 34. 16

0.89

+ 1.61

— 12 37 54.7

1 44.1

— 0.3

i)

6.7

32 9.9

7 l.-l

2 34. 10

+ U.04

+ 1.85

— 0 :; 39.2

30. 1

— 0.4

6

15 35 9.6

JO 10 2. 17

— 2 34. 16

0.00

+ 0.35

+ ii 1 47.0

1 4.0

— 0.8

a £aSHUmedasl5057'5".5; not 15° 5T L5". 5.
b Min. assumed as 29m. and 30m. ; not 30m.

and 3 1 in.
c T. I rejected.

d § assumed aa t-:' 41' 4" ; not 8° 41' 14"

c Div. reading disronlaut.

/ T. HI assumed it* -.'."is. ; not 28s.

g T. HI as.suined^as 24s. ; not 4s.

h a of 5 £- Lyrse and § of 4 c" Lvrfe observed.
i g assumed" as 61° 29' ; not 61° 34'.

T. U assumed as 32m. KM.; not-31ni. 10s.

(76)

GOULD — REDUCTION OF D AOELET S OBSERVATIONS.

77

17S3 MAY 15— Continued Zero corr. ; 1'45".S.

Name

Mag.

r

\pp. bid. time

Clock corr. n tan .1

'1

c-0

Kelt.

1'

h in s

h m s

m s s

s

C ' "

/ //

11

24 Aqnilaj

6

15 35 29.0

19 10 21.62

— 2 34.16 o.oo

+ 0.36

— 0 :; 11. 1

— 1 4.8

— 0.8

6

38 55. 1

13 48.58

2 34.15 -f o. or.

4- 0.60

— 0 39 39. 1

1 6. ::

— 0.7

30 d " . .

42 17.2

17 10.93

2 34. 15 — 0. 19

— 0.2:;

+ 2 40 56.0

0 58.9

— 1. 1

»)

6

45 10.0

2o 4.20

2 34. 1..

0.17

— 0. 19

+ 2 29 2'.'. 6

59. 3

— 1. 1

'<)

6.7

46 59. ■■>

21 53.80

2 34.15

0. 17

— 0. 19

+ 2 27 15.8

59.:,

— i.i

6.7

54 28.8

29 24.53

2 34.15

2.62

+ 1.40

+ 33 17 52.2

15.7

+ 2.7

r> a Sagittarii -

15 58 7.ii

33 3.33

2 34. 14

1.25

— 1.11

+ 17 30 16.7

34.5

— 1.1;

52 ; Aquilse

16 3 40. 1

38 37. 34

2 34. 14

0.71

— 2. 35

+ 10 4 11.0

45.5

— l.s

is ,S Cygni . .

5 5-.'. s

40 50. 40

2 34.14

3.92

+ 1.81

4- 44 34 24.8

4.2

4- 5.0

53 a Aquilse

7 52.5

42 50.43

2 34. 14

0. 58

— 1.44

+ 8 17 29.6

4s. 4

— 1.7

GO, J " . .

16 12 18.8

19 47 17.46

— 2 34. 14

— 0.41

— 0. 90

+ 5 51 41.9

— 0 52. 7—1. 5

1 7S3 MAY 16 Zero corr. = + 1' 48". 5.

30 a Hydra; -

5 42 17.2

9 19 28.91

— 2 34. 64

+ 0.54

+ 1.88

— 7 44 11.0

— 1 25.7

— 0.5

c) 18r Leouis .

5 58 53. 2

9 36 7.64

2 34. 63

— 1.83

— 0.45

+ 24 44 28. 1

0 25.3

+ 0.3

36 f " . -

6 'JO 53. 8

10 7 13.33

2 34.61

1.81

— 0.53

+ 24 28 5. 8

25.5

4- 0.2

'/) Rogulus .

1

22 8.6

9 59 26. B6

2 34. ill

0.92

— 1.79

-f 13 0 1.3

40.8

— 2. 0

e) 41 y Leunis .

6 33 17.9

10 10 37.99

2 34.61

1.52

— 1.15

+ 20 54 34. 4

30.0

— 0.8

/) 84 r " . .

7 41 52.2

11 19 23.56

2 34.56

— 0.28

— 0. 45

+ 4 1 :.;;.:.

0 56.0

— 1.3

87 e " - .

44 17.6

21 49.36

2 34. 56

+ 0. 13

+ 1.01

- 1 49 20.7

1 8.8

— 0.7

i') 90 " - -

48 30. 4

26 2.86

2 34. 56

— 1.29

— 1.39

+ 17 58 17.7

0 33.8

— 1.5

1 u Virginis -

7 52 21.2

29 54. 29

2 34. 56

0.65

— 1.80

4- 9 18 52.7

46.7

— 1.8

94 3 Leouis - .

2

8 3 3.2

40 38.05

2 34.56

1.12

— 1.51

+ 15 45 42. 5

36.9

— l.s

5 li Virginis -

3

4 25.4

42 0.47

2 34.55

0.20

— 0.28

4- 2 58 12.7

58.4

— 1.2

7

9 15.0

46 50. 86

2 34.55

2.00

+ 0. 19

4- 26 42 17.0

23.1

4- 0.9

6

11 57.5

49 33. 80

2 34.54

2.63

+ 1.40

4 :::; 27 31.7

15.6

+ 2.8

6.7

13 48.3

51 24.90

2 34.54

2.81

+ 1.33

4- 35 12 48. 2

13.7 4- 3. 1

6.5

15 32.6

53 9.49

2 34. 54

3.02

+ 1.27

4- 37 13 40.9

11.6 4-3.5

7.8

17 25.7

55 2. 90

2 34. 54

2.38

+ 1.29

4. 30 51 45. 6

18.4 '+ 2.2

8

19 55.7

11 57 33.31

2 34.54

1.81

— 0.55

4- 24 23 22. 3

25. 8 + 0. 1

6.5

24 43. 2

12 2 21.60

2 34. 54

2.16

+ 0.77

4- 28 27 51.7

21.0 14- 1.4

7.8

28 40. 3

6 19.35

2 34.54

3.40

+ 1.33

4- 40 31 18.8

8.3

4- 4.2

8.9

30 47.9

8 27. 29

2 34.53

3.43

+ 1.35

4- 40 46 11.2

8.1

+ 4.3

8

33 14.2

10 53.99

2 34.53

3.52

+ 1.39

4- 41 29 -jo.:,

7.3

4-4.4

7

36 1.3

13 41.55

2 34. 53

1.28

— 1.39

+ 17 55 45 1

34.0

— 1.5

6

39 17.11

16 57.79

2 34.53

1.86

— 0.36

+ 35 6 27. 0

24.9 +0.4

17 d Comce .

5

43 0.3

20 41.70

2 34.52

2.03

+ 0.22

4- 27 5 23. 5

22.7

4- 1.0

A)

6.7

42 50.2

20 31.57

2 34. 52

2.03

+ 0.22

2\g " . .

45 6. 3

22 48. 04

2 34. 52

1.92

— 0.18

+ 25 44 38.0

24.2 +0.7

22 " . .

47 40.6

25 22. 76

2 34.52

1.89

— 0.26

4. 25 27 '4-. 1

24.5 4- 0.5

25 " . .

51 1.3

28 44. 0 1

2 34.52

1.31

— 1.36

4. 18 15 53.8

33.5 — 1.5

26 " . .

53 14.9

30 57.98

2 34. 52

1.63

— 0. 98

4- 22 14 3. 3

28.4

— 0.5

10 Cau. Ven.

8 59 36.8

37 20. 93

2 34.51

3.39

+ 1.33

+ 40 25 50.7

8.4

4- 4.1

30 Corns) . .

9 3 35. 3

41 20.08

2 34.51

2.18

-f 0.86

4- 28 42 40. 1

20. B

+ 1.5

31 " . .

5 59.2

43 44.:!-

2 34. 51

— 2. 18

-f 0. si;

4- 28 41 54.8

0 20.8

4- 1.5

7

9 19 47.8

12 57 35.25

2 34. 50

+ 0.97

+ 1.57

— 13 45 16.8

1 48.8

— 0.4

7.8

10 6 3.7

13 43 58.75

2 34. 47

+ 0.68

4- l.sl

— 9 36 41.0

1 32.1

— 0.4

i)

7.8

14 3.0

51 59.35

2 34. 46

— 0.27

— 0.40

4- 3 43 5. 0

0 5S. 0 -- 1.3

93 t Virginis -

15 17.5

53 14.05

2 34. 46

— 0. 18

— 0.21

+ 2 35 7.0

0 59. 1

— 1. 1

j) 557 Mayer.

19 51.2

13 57 48.53

2 34. 46

+ 0.58

+ 1.88

— 8 16 45.0

1 27. 1;

— 0.5

8

24 13.3

14 2 11.32

2 34. 46

0.35

+ 1.73

— 4 57 12.0

17.4

— 0.5

8

25 7.9

3 6. 07

2 34. 46

0.36

4 1.76

— 5 6 39. 0

17.7

— 0.5

564 " . .

7

27 39.9

5 38.49

2 34. 45

0.35

+ 1.73

— 4 56 31.0

17.2

— 0.5

99 i Virginis

•

29 15.4

7 14.25

2 34.45

0.35

+ 1.73

— 4 58 10.6

17.3

— 0.5

102 i<> " . .

6

32 58. 8

10 58.26

2 34. 45

0.09

+ 0.84

— 1 16 8.6

7.8

— 0.7

1(13 u» " . .

6

35 24. 1

13 23.96

2 34. 45

0. 0JL

-k 0.74
-F 0. SJ

— 1 0 5.4

7.1

— 0.7

105 <p " . .

41 37.7

19 38.58

2 34.44

+ 0.09

— 1 15 39.2

1 7.8

— 0.7

9

10 49 18.5

14 27 20.64

— 2 34. 44

— 0.31

— 0.53

+ 4 24 33. 0

— 0 55.5

— 1.3

a g assumed as 46° or

nf.t 46°

22'.

c Miti. assumed

as 33m. and 34m ; not 34m. h £ assumed as Oiat of

1. star^vhose Catal.

6 g assumed as 46° 23'

I1'' . not

46° -'.T 19".

and 35m.

plan- differs ."in" froi

th;it <>i' 7 Coujie.

c T. Ill assumed as 1

3s 5 : 11

■ t L5s.5: ati'l

/ Div. assumed

as 47 1-2; not 47 11. i g assnmed as45 B'; □

>t 45° 3'.

name assumed a* 17

€ Leoni*

: not is £ Leonis.

g Miu. assumed

a* 4-. n. ; not 47m. j T. Ill assumed as 20m.

Us.5.; not20m. 243.5.:

d § assumed as 35° 51'

5"; not

15° 51' 15".

not 557 .Mayer, but L

') Virginia.

(77)

78

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 MAY 10— Continued Zero c6rr. = + 1' 48". 5.

Name

Mag.

r

App. sid. time

Clock corr.

ii tan iS

?

r-t

Refr.

9'

h m *

h m s

m s

s s

o / '/

/ //

a

a) Libia; . .

6

10 55 13.0

14 33 16.11

— 2 34. 43

+ 1.75 + 2.10

— 24 2 41.5

— 2 58. 6

— 1.7

b)

6

in -V 11.7

36 15.30

2 34. 43

1.62 + 1.66

— 22 12 41.6

2 43.4

— 1.2

7 fi " . .

5

11 1 57.5

40 1 . 72

2 34.43

0.94 +1.58

— 13 14 17.9

1 46.6

— 0.3

10 " . .

4 11.9

42 16.49

2 34. 43

1.25 -f 1.60

— 17 26 49. 4

2 8. 3

— 0.5

14 " . .

6.7

9 2(1.2

47 25.63

2 34.43

1.81 + 2.41

— 24 32 13.6

3 7.2

— 2.0

19 <5 " . .

13 52.5

51 58.68

2 34.42

0.54 -f- 1.88

— 7 39 24.4

1 25.4

- 0.5

21 v1 " . .

19 0.6

57 7. 62

2 34. 42

1.09 + 1.63

— 15 24 18.0

56.8

— 0.5

c) 22 v1 " . .

19 11.1

14 57 18. 15

2 34.42

1.11 + 1.63

— 15 38 1.0

] 58.4

— 0.5

24 i1 " . .

24 19.2

15 2 27.09

2 34. 42

1.36 + 1.44

— 18 57 11.8

2 17.8

— 0.7

i) 26 " . .

26 46.3

4 54.59

2 34.41

1.21 -f L64

— 16 56 38.8

2 5.4

— 0.5

27/3 " . .

29 46. 8

7 55.58

2 34.41

0.60 + 1.87

— 8 34 43. 0

1 '.'-. 6

— 0.4

28 " . .

33 1.3

11 10.62

2 34.41

1.24 + 1.61

— 17 21 17.6

2 7.8

— 0.5

30 o5 " . .

35 21.2

13 30.90

2 31.41

J. 01 + 1.59

— 14 20 58.5

1 51.8

— 0.4

603 Mayer -

6.7

41 43.5

19 54.25

2 34.4(1

1.18 + 1.66

— 16 40 40.6

2 4.0

— 0.5

34 <? Librae . -

6.7

42 51 . 1

21 2.04

2 34.40

1.13

-f 1.64

— 15 51 5.0

1 59.5

— 0.5

35 f " . .

45 4. 3

23 15. On

2 34.40

1.15

+ 1.67

—16 6 12 2

2 0.6

— 0.5

7

47 6. 7

25 1^. :;:;

2 34.40

1.17

-j-1.67

— 16 23 45. 0

2.5

— 0.5

7.8

48 44.0

26 55.9(1

2 34.4(1

1.16

+ 1.67

— 16 16 36.5

2.0

— 0.5

7.6

51 1 58.1

,29 10.37

2 34. 411

1.64

+ 1.71

— 22 24 47. 4

2 45.7

— 1.3

0

6

11 56 4::. i

34 56.31

2 34. 39

2. 23

+ 4.61

— 29 18 17.2

4 23.4

— 4.9

5 X Lupi .

3

12 1 28.5

39 42.59

2 34.39

2.57

+ 5. 30

— 32 52 43. 6

6 9.3

— 8.2

2 A1 Scorpii

4.5

4 55.7

43 111. 26

2 34. 38

1.82

+ 2. 47

— 24 38 40. 0

3 9.1

— 2.0

4 " . .

6

6 42.5

44 57.36

2 34.38

1.91

+ 2.95

— 25 35 15.0

3 20. 6

— 2.4

7.8

21 3. 0

15 59 211.22

2 31.37

1.36

+ 1.46

— 18 51 34.2

2 17.5

— 0.7

14 v " - -

23 41.2

16 1 58.85

2 34.37

1.36

+ 1.45

— 18 52 34.2

2 17.8

— 0.7

1 it Ophiuchi -

27 16.2

5 34.44

2 31.37

H.22

+ 1.37

— 3 8 2.2

1 12.7

— 0.7

/) 2n o Scorpii

32 15.3

10 34.36

2 34.37

-1- L.86

+ 2.63

— 25 2 3,. s

3 13.7

— 2.2

20 >• Hereulis .

36 40.8

15 0.59

2 34. 37

— 1.41

— 1.26

+ 19 39 0.2

0 31.8

— 1.2

Antilles

1

40 19.7

18 4ii. i 9

2 34.: 16

+ 1.94

+ 3.13

— 25 54 33. 7

3 25.2

— 2.6

6.7

44 17.3

22 38. 34

2 34.36

1 1. 85

+ 1.64

— 11 57 15.7

1 41.3

— 0.3

g) 13 s Ophiuchi .

49 26.2

27 48. i 9

2 34. 36

+ (1.71

+ 1.79

— 10 7 11.0

1 34.1

— 0.4

3" Hereulis -

6.7

54 8.0

32 3(1.611

2 34.35

— 0. 32

— 0.58

+ 4 38 23. 2

0 55.2

— 1.4

43 i

6

12 59 4H.5

38 4.(17

2 34. 35

0.63

— 1.65

+ 8 58 17.4

47.3

— 1.8

47 k " . .

13 4 2.2

16 42 26.49

— 2 34. 35

— H.53

— 1.30

+ 7 36 5-. I

— 0 49. 8

— 1.7

17S.

i MAY 1 7 Zero corr. = + 1' 45". 6.

6

8 41 10. 3

12 22 47. 95

— 2 33.53

— 1.27

— 1.40

+ 17 47 41.6

— 0 34. 0

— 1.6

20 Virginia .

43 5. 5

24 43. 47

2 33.53

0.81

— 3.01

+ 1 1 28 29. 0

43. 2

— 1.9

6

44 27.7

26 5. 89

2 33.53

0. 63

— 1.62

4- 8 54 58. o

47.0

— 1.8

•6

47 8.2

. 28 46. S3

2 33.53

0.68

— 2. 29

+ 9 58 22. 5

45.5

— 1.8

50 54. 4

32 33. 65

2 33. 52

— (I.7H

— 2. 30

-f 10 0 13.0

0 45. 4

— 1.8

7

55 2.2

36 42. 13

2 33.52

+ (i. 19

+ 1.26

— 2 42 43. 8

1 10.9

— 0.7

35 " . .

6

8 57 44. 9

39 25. ys

2 33. 52

— (1.33

— 0.6U

+ 4 44 35.2

0 54.5

— 1.4

37 " . .

6

9 1 29.8

43 10.80

2 33.52

— (1.31)

— 0.50

+ 4 13 16.8

0 55.5

— 1.3

40 V " - -

3 56. 8

45 38.20

2 33. 52

+ 11.59

+ 1.87

— 8 21 57.8

1 27.2

— 0.5

7

6 54.0

48 35. 88

2 33. 52

11.54

+ 1.88

— 7 44 33.6

25.2

— 0.5

8.9

10 4.5

12 51 46.90

2 33. 51

(1.56

-[- 1.88

— 7 56 0.0

25.8

— 0.5

6

19 2.7

13 0 46.57

2 33. 5]

1. 1(1

+ 1.62

— 15 21 21.0

55. 9

— 0.5

03 " . .

6.5

21 21.2

3 5. 15

2 33.51

+ 1.07

+ 1.61

— 15 1 32.4

1 54.4

— 0.5

ft) 534 Mayer . .

6.7

23 46.(1

5 311.72

2 33. 51

— 0.18

— 0.22

-f 2 35 5 1. 1

0 58.8

- 1.2

61 Virgiuis

6.5

27 52.3

9 37.62

2 33.51

4- 1.22

+ 1.63

— 17 6 1.6

2 5.4

— 0.5

(17 a " . .

34 34. 1

16 20.52

2 33. 5ii

4- 0.71

+ 1.79

— 10 1 53.0

1 33.0

— 0.4

79 C " - -

44 26. 5

26 1 1.51

2 33.5(1

— 0.(13

+ 0.20

+ 0 30 14.6
— 13 39 55.0

3. 1

— 0.8

53 28. 3

35 17.-2

2 33. 49

4- 0.97

4- 1.57

1 47. X

— 0.4

5 v Boiitis .

9 59 48. 9

41 39.46

2 33. 49

— 1.20

— 1.41

+ 16 51 26.6

0 35.2

— 1.7

7 " . .

7

10 3 38. 2»

* 45 29.39

2 33. 49

— 1.37

— 1.31

+ 18 59 6.9

32.4

— 1.3

S„ " . .

5 7. 8

46 59.23

2 33. 49

1.40

— 1.27

-f 19 28 6.2

31.8

— 1.2

9 " . .

10 7 24.8

13 49 16.62

2 33. 49

— 2.16

+ 0.79

+ 28 32 7. 3

— 0 20. 9

+ 1-4

a g assumed as 7S1 53';

ant 72°

■S3'.

1 ? assumed as i

5° 47' 44" ; not 65° 47' 14". g g assumed as 58 ; <••■

55°.

/» T. I assumed a. 57m

not 55i

i.

e £ assumed as 8

1° 5' 14"; not 83° 5' 13". h T. Ill assumed as 24i

i. Us ; not 24m. 49s. :

c $? assumed as 04 D -..^t'

1" ; ll'it 1

1° 29' 26".

T. 1 assumed a

s50s; not .'.Is. g assumed as 46° 1."

' 8"; not 46° l.V 48".

(73)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

79

I»s:s MAY 30

Zero corr. = i 1'aO". 1.

Name

94 (3 I.ionis .

5 ji Vireinis

•' .

9 o " .

4 Comae .

«) 7 /« "

13/ " .

18 " .

•2\g " .

Ii) 27 ^ irginis

30 p " .

31 Comae -

::<; " .

38

"

41

"

0

4-2

CI

23

Can. Ven

rf)

07 a

Virgiuis

Mai;-.

Booth

3

i;

7
8,

12 rf " .

Arctuius
19 X Bootis .
37 S " .

/)
g)
A)

42 18

45 c

6.7

6.5

7

6
6
5.6

7

7.8

1 o Cor. Bor. .

I,
7 47

16.;

7 59 0.

8 3 24.
in 2,
14
22
27
29

33. 7
35. 3
45. 3
19.4

39 50.0

411
44

48
50

4.6
19.7

17.(1
12.7

57 17.7

8 59 31.9

9 5 48. 9
6 33. 1

8 29. 3
19 36.8
22 44.3
31 31.4
35 45.8
37 42.8
39 45.8
42 28.5
45 36.5
48 25.4

51 48. -
53 19. 1
56 23. 5
56 38. 0

2 12.4
6 5. 8

9 24. 1
14 40.7
17 1.2
511 11.0

52 1.0
55 52.5

10 59 55.7

11 2 32.6
6 31.5

10 30.8

12 40.2

17 23.7

11 19 52.3

9
10

A.pp. Mil. time

// III s

II 40 35.17

Clock curl, u tan <i

52

11 56

12 3

7
15
21
22
33
33
37
41
43
50
53

12 59

13 ii
-2

13
16

25
29
31
33
36
39
42
45
46
50
50
55

13 59

14 3
8

10
43
45
49
53

14 56

15 0
4
6

11
15 13

20.90
15. -.'
24. 51
66.65
59. 57
10.42
44.78
17. 11
31.75
47. 54
45. 49
41.51
47.67
2. 24
■.'I i. 27

4. 59
1.11

10.44
18.45
6. 99
22.09
10.41

22. 75

5. 90
1 4.42

3.78
27. 74
58. 29

3.18
17.72
53. 03
47. 07

5.91

23. 38

44. 26
59.51
49. 81
41.95

45. 81
23. 14
22. 69
22. 65
32.40
16.68
45. 69

m s
2 31.97

2 31.97

2 31.97

2 31.96

2 31.96

2 31.96

2 31.96

2 31.95

2 31.95

2 31.95

2 31.05

2 31.95

31.95

31.95

31.94

31.94

31.94

31.94

31.04

31.04

31.93

31.93

31.93

31.93

31.93

2 31.93

31.93

31.93

31.93

31.93

31.02

31.02

31.02

31.92

31.92

2 31.02

2 31.91

31.91

31.91

31.90

31.00

31.90

31.90

2 31.00

2 31.00

2 31.90

— 1. 12

0. 54
0.69
2.03

1 . 85
2.01
1.86
1.90
0.81

0.80
2.7 1
2. 06
2. 16
1.32

1 . 30

2. 1 8
2.18
1.34

— 3. 47
+ 0.70

— 1.88
1 . 00

1 . 86
1.72
1.74
2 00
1.62
1.36
1.40
1.22
1.24
1.72

2. 23
1.94
1.46
1. 24
1.44
1.18
1.23
1.67
3.46
1.90
1.50
1.74

• 1.54

— 2. 32

s
- 1.51

— 1.32

— 2. 24
+ 0.20

— 0.34
+ 0.30

— 0.30

— o. 18

— 2. 07

— 3.01
+ 1.35
+ 0.41
+ 0.86

— 1.34

— 1.36
+ 0.88

+

+
+

0.88
1.33
1.38
1.79
0. 26

- 0. 10

— 0.32

— n.75

— 0.71
+ 0. 1 1

— 0.06

— 1.31

— 1.27

— 1.42

— 1.41

— 0.76
1.00
0.09

- 1.21
+ 2.76

— 1.23

— 1.47

— 1.42

— 0.87
+ 1.37

0.19

- 1.16
0.71

- 1.10
+ 1.24

4- 1.". 45 46.4

+ 2 58 11.4

4- 7 48 10.0

-I 0 .V, 1. 1

+ 27 :; 2n. 1

+ 25 7 41.6
+ 27 16 40.4
+ 2:. 17 7.8
+ 25 44 37. 2

+ 11 24 44.3
+ 34 42 27. 9
+ 27 35 20.6
+ 28 11 51.2
+ 18 33 35.0
-j- 18 16 25.8
+ 28 40 0. 4

Refr.

o 36.6

.57. 8
48. 0
45.5

24. 8
22. 3
21. 6
24.0

— 1.8
- 1.2
1.7
1.8

I- l.o
+ o. 1
+ l.o
+ 0.4
+ 0.6

43.2
14.2

+

+ 18
+ 41
— 10

+ 25

+ 25
+ 25
+ 23
+ 23
+ 26
+ 22
+ 18
+ 19
+ 17
+ 17
+ 23
+ 29
+ 26
+ 20
47
h 19
+ 16
+ 17
+ 22
+ 41
+ 25
+ 20
+ 23

+ 21

+ 30

39 31.8

15 50. 0

1 58.2

27 1.',. 0
41 58.2

12 57.0
31 34.4
10 31.4
46 13.3
19 23.5
59 6.4

28 3. 4
14 50.0

26 41.2
31 17.6

27 5. 8
6 0.4

17 41.6
3 32. 1
59 5.4
34 36.5
14 50.3
53 11.6

13 23.5
41 47.3
50 53. 3
46 20. 6
21 3.7
23 5.0

1.9

3.0
21.0 + 1.2
2H.7 + 1.5
3::. 0 — 1.4
:;.;.:: — 1.5
20.7 + 1.5

32.9

0 7.5

1 33. 1
0 21.4

24.2
24.7
26. 6

26. 4
22. 0

28. 2
32. I
31.8
34.7
34.4
26.7
10.0
23.7
30.8

1.8
31.2
35. 7
34. 8

27. 5
7.6

24. 2
30. I
26.4

29. 4
0 18.9

— 1.4

+ 4.3

— 0.4
+ 0.5
+ 0.6
+ 0.4

0. o

0. 0
+ 1.0

— 0.5

— 1.3

— 1.2

— 1.7

— 1.7
o.o

+ 1-7
+ 0.7

— 1. 1
+ 5.4

— 1. 1

— 1.7

— 1.7

— 0. 2
+ 4.3
+ n.6

— 0.8
o.o

— 0.8
+ 2.0

17 S3 MAY 39

+ 1' 45".5.

25 p Bootis
i) 28 a

31

j)

6.7

9 49 32.4

55 52.0

9 58 37. 0

10 3 26.0

4 23.2

7 31.0

12 7. 7

14 25.5

16 34. 8

10 18 37.1

14 18 40. 00
25 0. 63
27 46.08

32 35.87

33 3.:.2:;
36 41.55
41 10.01
4:: ::7. 10
45 46.84

14 47 49.48

— 2
2
2
2
2
2
2
2
2

— 2

28.67

— 0. 62

28. 67

2. 28

28.67

2. 22

28. 67

0.66

28. 67

0.60

28.67

0.56

28.66

1.77

28. 66

1.66 ■

28. 66

1.12

28. 66

— 2.42

1.81
1.34

1 . 28
2. 23
1.70
1.53
0.31
0. 70
1.47
1.40

+ 9
+ 31

+ 30
+ 9

!+ 9

+ 8
+ 25

+ 23

+ 16

+ 32

20 44

7

1-

17

i

40

8

■i

53

59

2

4 44

-

36

31

8

15

4.

t

47

36.0

:u

39.

0

52

45.

2

0 46. 3
17.8

18.7
45. 5
46.8
47.4
24. ii
26.3
35.6
0 16. 1

— 1.8
+ 2. 2
+ 2.2

— 1.8

— 1.8

— 1.8
+ 0.4

o.o

— 1.7
+ 2.7

Div. assumed a- 25 I ; not 25 5.
T. II assumed as 51s. ; Dot 41s.
£ assumed as that of aal ir whose Catalogue
place differs-}' 15" from that of 41 Comae.

d <? assumed as 58° 53' ; not

c <? assumed as ■_'."> > 57' ; nut 25° 27'.

/ T II assumed as 30 5s.; not 33.5a.

g T. Ill assumed as 5.5s.; not 15.5s.

k T II assumed as 22.5s.; not 52.5s.
i S assumed as 18^ 10' ; not 18° 20'.
£ assumed as 25° 3' 29"; not 25 3 3' 39"

(79)

80

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 MAY 29— Continued

Zero corr. = -J- !

' 45". 5.

Name

Mag.

T

App. sitl. time

Clock corr.

n tan 6

1

s—t

Refr.

?'

h m s

h m s

m s

s

s

O 1 II

II

7

10 21 29.0

14 50 41..-.".

— 2 28.66

- 1.80

— 0. 24

4- 25 31 39. 8

— 0 24. 3

+ 0.6

9

27 58.3

14 57 12.21

2 28.66

1.41

— 1.18

-)- 20 40 23.2

30.1

— 0. 9

45 c

Bootis . .

31 5.0

15 0 19.41

2 28. 66

1.80

— 0. 19

-f- 25 41 51.6

24.1

+ 0.(3

6

32 26. 8

1 41.43

2 28.66

L.88

— 0. 13

4- 25 55 20.2

23; 8

+ 0.7

6.7

35 44.5

4 59.07

2 28. 66

1.60

— 0.84

4- 23 7 0.7

27.3

— 0. 2

6.7

37 13.9

6 29. 31

2 28.66

1.65

— 0.71

4 23 40 24. 4

26.5

0.0

7

42 -21).:,

11 36.75

2 28.65

2. 31

+ 1.37

4- 31 36 43. 9

17.5

4-2.5

6

47 52. 2

17 9. 36

2 28.65

3.18

+ 1.32

4 4li 20 1.0

8.5

4- 4-1

49 24. 4

18 41.81

2 28.65

1.39

— 1.22

4- 20 13 45. g

30.7

— 1. 1

6

54 50.8

24 9.1(1

2 28. 0.".

2.31

+ 1.38

4- 32 0 39. 9

17.0

4- 2.5

5 a

Cor. Bor. -

10 58 44. 1

28 3. 04

2 28. 65

1.95

4- 0.36

4- 27 25 42. 2

22. 1

4- 1.1

a)

7

11 2 58. 4

32 18.(14

2 28.65

1.15

— 1.43

4- 17 0 14.8

35. 0

— 1.7

19 T3

Serpentis -

4 15.0

33 34.85

2 28.65

1.12

— 1.45

-j- 16 42 49.6

35.4

— 1.7

2 1 a

"

6 48.5

36 8. 77

2 28.65

0.46

— 1.17

4- 7 6 4.5

50. 1

— 1.6

b) 28 /3

it

9 24.0

38 45.3(1

2 28. (15

1.08

— 1.49

4- 16 5 23. 8

36.2

— 1.8

35 «

"

12 11.2

41 32.36

2 28.64

1.29

— 1.32

4- 18 47 59. 2

32. 7

— 1.3

38 p

"

14 56.6

41 18.21

2 28.64

1.49

— 1.06

4- 21 36 59.0

29. 0

— 0.5

40

"

17 23.2

46 45.21

2 28. 64

(1.01

— 1.76

4- 9 12 44.6
4- 43 10 24. 7

40.7

— 1.8

1*

Herculis -

21 23.0

5(1 45.67

2 28. 04

3.51

+ 1.54

5.6

4- 4.7

5 r

"

2 4 40.7

54 3. 92

2 28.64

1.24

— 1.35

-j- 18 24 31.2

33. 2

— 1.5

6 w

"

29 12.1

15 58 36.1 6

2 28. 04

3. 97

+ 2.61

+ 46 36 47.2

2.2

4-5.4

X

it

31 20.8

16 0 51.13

2 28.64

1. 19

— 1.40

4- 17 36 50.0

34.0

— 1.6

48

Serpentis .

34 48.7

4 13.58

2 28. 04

1.17

— 1.42

4- 17 12 59.0

34.9

— 1.7

12

Herculis -

37 20.0

6 45.29

2 28. r.4

0. 55

— 4.40

4- 8 23 58. 8

48.0

— 1.7

18 v

Cor. Bor. -

41 9.9

in 35.82

2 28. 04

2.14

4 1. 14

4- 29 40 16.2

19.6

4- 1.8

c) 22 r

Herculis .

46 20. 3

15 47.07

2 28. 63

3.98

+ 2.09

-j- 46 48 15.2

2.0

4-5.4

25

"

50 46. 2

20 13.70

2 28.63

2.91

+ 1.27

-I- 37 52 1.4

11.0

4- 3.7

27/3

"

53 59.0

23 27.(13

2 28.63

1.51

— 1.02

4- 21 56 53. 1

28.6

— 0.5

,/i 31

" . .

56 26.2

25 54. 64

2 2-. (13

2. 53

4- 1.39

4- 33 57 35.8

15.0

4-2.9

33

"

1 1 59 23. 5

28 52.41

2 28.03

0. 50

— 1.29

4- 7 32 34. 0

49.4

— 1.7

36

" . .

12 2 52.0

32 21.48

2 28.6 i

0.30

— 0.58

4- 4 37 38.4

54.7

— 1.4

37

"

2 55. 7

32 25. 19

2 28.63

0.30

— 0.58

4- 4 38

39

k

5 51.4

35 21.37

2 28.03

1.94

4- 0.32

4- 27 19 13.4

22.3

4- i.o

19

Opliiuchi .

9 15.0

38 4.".. .".3

2 28. 03

0. 10

— 0.19

4- 2 27 15.0

59.1

— 1.0

48

Herculis .

13 50. 1

43 21.38

2 28.(12

2. 19

4- 1.23

4 30 19 13.0

18. 9

4- 2.0

50

"

15 11.8

44 43.30

2 28. 02

2.18

+ 1.21

+ 30 9 39.0

19. 1

4- 1.9

50

ti

49 10. 1

48 42. 25

2 28.62

1.83

— 11.09

4 26 3 57. 1

23.7

4- 0.7

58 e

"

24 58.5

54 3l.dll

2 28. 62

2. 26

4- 1.32

+ 31 13 44.5

17.9

4-2.2

60

"

28 L9.0

16 57 52.65

2 28.62

li. -7

- 1.79

+ 13 1 52.6

40.6

— 2.0

62

"

32 34.2

17 2 8. 55

2 28. 62

1.72

— 0. 45

4- 24 45 19.5

25.2

4- o.3

(14 a

"

37 44.2

7 19.40

2 28. 02

0.98

— 1.60

4- 14 37 45.8

38.4

— 1.9

66 u

" . .

41 24. 1

10 59.91)

2 28.61

0.73

— 2. 90

4- 11 5 30.9

43.7

— 1.9

49 a

Opliiuchi -

48 40. 1

1* 17.09

2 2-. HI

0.28

— 0. 52

4- 4 19 37.2

55.4

— 1.3

77 K

Herculis .

53 54. 5

23 32. 35

2 28. 61

4. 22

4- 3. 12

4- 48 24 54. 1

0. 4

4-5.5

55 a

Opliiuchi .

12 57 47.2

27 25.09

2 28. 61

ii. -1

— 1.84

4- 12 42 37. 6

41.3

— 2. 0

e) 82 s

Herculis -

13 3 50. 1

33 29. 58

2 28.61

4.20

+ 3.18

4- 48 41 6. 0

0.2

4- 5.0

85 s

"

6 12.8

35 52. 68

2 28.61

3.88

4- 2.43

4- 46 5 43.0

2.7

4- 5.3

86 /j

"

1(1 50.1

40 30.75

2 28.00

1.98

+ 0.49

4 27 49 51.6

21.7

4- 1.3

/)

7.8

19 9. 5

43 50.70

2 28.0(1

4.12

4- 2.93

+ 47 39 37. 2

1.2

4-5.5

88?

"

17 13.9

4(1 55.60

2 28. (ill

4. 22

+ 3. 12

+ 48 25 30. 4

0.4

+ 5. :.

94 !>

" " "

13 23 1. 5

17 52 44. 16

— 2 28. 60

— 2. 18

4- 1.21

+ 30 11 23.0

— 0 19. 1

4 !•'-'

17S

3 MAY 31

Ze

o corr. = -4- ]

' 45". 4.

94 0 Leonis .

2

7 3 57.2

11 40 30.69

— 2 27. 57

— I.U7

— 1.51

+ 15 45 r.. 1

— 0 36. 2

— 1.8

5/3

Virginia

5 19.4

1141 53. 1 1

2 27.57

— 11.20

— 0.28

+ 2 58 13.4

0 57. 3

— 1.2

2e

Corvi -

24 48.8

12 1 25.71

2 27.56

+ 1.49

+ 1.52

— 21 24 13.6

2 33.3

— 1.0

7;

"

30 28.6

7 6. 44

2 27.511

+ 1.11

4- 1.67

— 16 20 14.8

1 59.5

— 0.5

16 a

Comae .

41 58.3

is 38.03

2 27. 55

— 2. 12

+ 0.58

4- 28 0 14.4

0 21.2

4 1.3

29 7

Virginis

7 56 27. 3

33 9.41

2 27. 54

+ 0.02

4- 0.44

— 0 16 16. 1

1 4.0

— 0.8

32 d

" " "

8 0 27.9

12 37 10.07

— 2 27. 54

— 0.59

— 1.00

+ 8 50 36. 1

— 0 46. 6

— 1.8

a g assumed as 31° 50' ; not 31 ° 4!)'.

r Name not 22 t

Herculis.

e S

ipsumed as 0° 9' 59

' ; not 0° 9' 2S

".

6 Div.

assumed as 34 15 2; not 34 12 15.

d Min. assumed

is 5(3in. ; not 5'

m.

f i

wsuuled as 1° ; not

11°.

(SO)

C.OITLP REDUCTION OE D AGELET S OBSERVATIONS.

81

1783 MAX 31— Continued

Zei

CO] . -f- 1

45". 4.

Name

Mag.

T

App. sid. time

Clink coir.

n tail ii

'/

r-?

15 IV.

'/'

h m S

h in s

Ill s

s

s

0 * "

/ //

II

29 Comae . .

8 3 50.4

12 Hi :•:■;. 72

— 2 27. 54

— 1.04

— 1.55

4 15 17 21.0

— 0 36.9

— 1.9

37 " . .

15 38.3

[2 52 23.56

2 27.55

2. 37

4 1.38

4 3,1 5:, 55.9

17.0

4 2. 5

20 Can. Yen.

33 3J.5

13 HI 19.711

2 27. 52

— 3. 33

4 1. in

4 41 II 21.0

11 7.0

4 4.4

a) 67 a Virginis

39 24. 7

16 13.87

2 27.52 + 0.67

4 1.73

— 10 1 54.5

1 31.9

- 0.4

542 Mayer -

7

43 46.7

20 3,6.59

2 27.52 + 0.H2

4- 0.43

— I) 14 50.2

1 4.2

— 0.8

6

48 LI. 8

25 2.42

2 27.52 — 1.80

— (1.26

4 25 -.'7 15.0

0 21. 1

4 0.5

6

52 26.7

29 18.02

2 27.51

1.83

— (I. 19

4 25 42 1.4

23.9

4 0.6

8. 9

54 23. 4

31 15.04

2 27.51

1.7!)

— 11.::::

4 25 12 57.6

24. 3

4 o.4

2 Bootis . .

8

56 25. 9

33 17.87

2 27.51

1.66

— n.75

4- 23 34 :::>. 1

26. 3

0.0

6

8 59 9.5

36 1.92

2 27.51

— 1.67

— 11.71

4 2:; 46 31.4

i) 26. 1

0.0

7

9 1 40.8

38 33.63

2 27.51 + 0.38

4 1.8(1

— 5 37 31.0

1 17.9

- 0.5

Virginia

6.7

2 32. 3

39 25. 27

2 27.51

4 0.38

4 1.81

— 5 45 3.5,. 9

1 18.2

— 0.5

7

4 49.0

41 42.35

2 27.51

— 2.112

4 0.59

4 28 2 43.0

0 21.2

4 1.5

6

8 56.5

45 50.5:;

2 27.51

2.17

+ 1. 14 4 29 41 16.6

13. 1

4 1.8

7

11 50.2

48 44.71

2 27.5H

2. 17

4 1. II + 29 42 52.il

19.4

4-1.8

7

16 53. 7

13 53 49.04

2 27.5H

1 . 29

— 1.33

4 18 42 21.8

3,2. 4

— 1.4

7

.27 39. 3

14 4 36.41

2 27.5U

1.51

— J. 116

4 21 38 48.0

28. 7

— 0.6

Arcturns .

1

31 21.1

8 18. 8-j

2 27. 49

1.41

— 1.21

4- 20 17 41.6

30.3

— 1. 1

33 15.5

111 13.53

2 27.49 — 4.112

4 2.39

4 46 52 3,7.0

0 2.2

4 5.4

7

36 4.(1

13 2.49

•_> 27.49 4. (I.47

+ 1.87

— 7 6 1.0

1 22. !

— 1.6

6

38 55. 3

15 54.26

2 27.49 — 1.88

— (i. 11:'.

4- 26 18 12.8

0 23.2

4 0.7

22/ Bootis .

41 54.8

18 54.25

2 27.19 I. in

— 1.22

4 20 11 8.9

30.5

— 1. 1

7

44 21.:;

21 24.16

2 27. 49 3. 42

4 1. '2

4 41 58 3.2. 1

6.7

4- 4.5

6.7

46 35.6

23 35.82

2 27.49 5.51

4 1. 13

4- 42 45 6.2

6.0

4 4.6

8

48 33.3

25 33.84

2 27.49 3.71

+ 1.76

4- 44 19 4.3,

4.4

4 4.9

6

51 49.3

28 50.38

2 27. 48 1.7(1

— 11.611

4 21 10 40.8

25. 6

0. 0

7

56 29. 2

33 3I.H5

2 27.48 2.31

4 1.31

4 31 21 31.1

17.6

4 2.3

7

56 39. 1

:;:; 41.28

2 27. 48 2. 52

4 1.34

4 31 26 5.0

17.5

4 2. 3

34 Bootis - -

9 59 22. 4

14 56 24.72

2 27.48 — 1.97

4 11.56

4- 27 25 55. 1

0 21.9

4 1.1

6

10 5* 15.2

15 35 27.19

2 27.45 4. 1.96

4- 3.77

— 27 20 11.2

5 42.9

— 3. 3

6 - Librae .

II 10 57.5

48 11.5-

2 27.44 1.80

4 2.88

— 25 27 0.0

3 15.5

— 2. 3

- 3 Scorpii -

18 3.0

15 55 [8.25

2 27. 44

1 . 32

4 1.42

— 19 11 24.4

2 17.5

— 0.7

13 c2 " - -

5

24 7.3

10 1 25.55

2 27. 11

1.96

4 3.77

— 27 18 57.5

5 42.3

— 3.4

641 Mayer .

30 11.2

7 17.42

2 27. 44

2.02

4 4.06

— 28 1 22. 5

54. 5

— 5,. 8

20 a Scorpii-- .

33 10. 1

10 27. 84

2 27.43

1.77

4 2.64

— 25 ] 58. •.!

5 10.6

- 2.2

5 a Ophiuchi -

6

57 44.5

15 2.77

2 27.43 1.61

4 1.85

— 22 54 53. 4

2 47.6

— 1.5

b) Antares

41 14.7

18 33.75

2 27.45 1.85

4- 3.12

— 25 54 37. 0

3 21.9

— 2.6

6

43 58. 0

21 17.49

2 27.43 4 (1.22

4- 1.40

— 3 16 59.6

1 11.9

— 0.7

29 h Herculis .

47 41.5

25 1 . 60

2 27.43 — 11.8I)

— 2.62

4 11 56 48.2

0 42. 1

— 2.0

<0

7

52 54.5

511 15.40

2 27. 12

4 H.61

4- 1.84

— 9 6 24.8

1 2:1.0

— 0.4

14 Ophiuchi .

6

55 52.2

33 13.65

2 27.42

— 0. 11

— 0.03

4 1 3,5 47. 0

1 0.4

— 1.0

41 Herculis -

6

11 59 36.2

36 58.26

2 27. 42

0.43

— 1.04

4 6 50 2.0

0 51.0

— 1.6

d) 45 e " - -

12 2 14.7

39 37.19

2 27. 42

0.38

— 0.84

4- 5 37 59.5

0 52. 5

— 1.5

21 Serpentis -

5 32.7

42 55.75

2 27.42 0.11

— 11.112

4- 1 35 8.2

1 0. 4

— 1.0

49 Herculis .

7 21. 1

44 4 1.43

2 27. 42

1.04

— 1.54

4- 15 19 49.8

0 37. 1

— 1.9

54 " . .

10 58.8

48 22. 73.

2 27. 4 i

1 . 29

— 1.53

4- 18 46 9.2

32. 5

— 1.3

7.8

12 36.2

50 0.39

2 27.41

1 . 28

— 1.34

4 1 33 44.6

52. 7

— 1.4

6.7

16 56.6

5 1 21.50

2 27. ! 1

1.61

— 11. -1;

4 22 56 22. 7.

27.2

— 0. 2

60 " . .

20 26. 3

16 57 51.77

2 27.41

II. -8

— 1.79

4 13 1 54.6

10.5

— 2.0

62 " . .

7.8

24 41.4

17 2 7. 57

2 27.41

1.75

— 11.45

4- 24 45 17.0

25. 1

4 0.3

7

27 Ki.ii

4 36.58

2 27.41 1. 75.

— 11.53 4 24 29 19.4

25. 1

4 ".I

64 a " . .

29 51. 4

7 18.42

2 27.4(1 — (1.99

_ 1.60 + 14 37 47.4

0 58. |

— 2. 0

8

33 54.8

11 22.49

2 27.40 + 0.01

4 0.39

— 0 6 0.0

1 4. 2

— 0.8

70 " - -

37 1.6

14 29.80

2 27.411 — 1.75

— 0.47

4 24 42 9.0

0 25. 1

4 0.5

73 " . .

40 6.0

17 34.70

2 27. Ill 1.62

— 0.83

4 2:: 9 0.2

27.0

- 0.2

54 Ophiuchi .

49 25.6

26 55. 83

2 27.39

11.911

— 1.75

4 15 18 5.0

40. 1

— 2.0

55 a " . -

49 54. 4

27 24.71

2 27.39

0.86

— 1.87

4- 12 42 40.9

40.9

— 2.0

e)

7.8

55 51.7

33 22. 99

2 27.39

4. 32

4 3. 18

82 y Herculis .

7

55 58. 0

:;:; 29.32

2 27. 39

4.32

4- 3. 18

4- 48 41 2.8

0.2

4- 5.6

B5< " . .

12 58 20.8

35 52.51

2 27.31)

::. 94

4 ■». 13 4 46 5 45.7

2.7

4 5. 5

62 y Ophiuchi .

13 1 59.2

39 31.51

2 27.59 0.18

— 0.25 4 2 47 19.9

58. 1

— 1.2

87 Hercuhs .

5 0. 4

42 33.21

2 27.39 1.83

— 11.20 4 25 40 49.4

24.0

4 0.6

89 " . .

11 38.0

49 11.90

2 27.38 1.86

- 0.09 4 26 4 15.0

23. 6

4 0.7

92 " . .

15 14 17.0

17 51 51.::::

- 2 27.38 — 2.1:;

4 1.06 4- 29 15 21.0

— 0 20. 0

4- 1.6

a T. IH assumed as 17

7: not

17s. 7.

c j? as > 1 1 i 1 :

1 ' 1:.' -J'; not 61° 13' 1".

c g assumed as that of

1 star differing

7' from

b <; aasnmed as 74° 45' 4

I ' ; DOl

::i".

d £ assumed as 4

. not -HP 1' B".

E J ij Herculis.

11

(81)

82

GOULD — REDUCTION OK D AGKLET S OBSERVATIONS.

17S3 MAY :il I'uiiliiiued

Zero corr. = + ]

'45". 4.

Name

Mag.

T

App. sid. time

Clock corr.

» tan (S

'I

f-0

Rcfr.

?'

h m s

It 111 5

HI s

s

s

o / "

, //

II

95 Herculis .

13 17 15.4

17 54 511.'.".'

— 2 27. 38

— 1.50

— 1.07

+ 21 35 5. 8

— 0 29. 0

— 0. 6

a) 98 " . .

21 5(1.0

17 59 26. 17

2 27. 38

1 . 53

— 0.99

+ 22 1 1 12. 4

28. 2

— 0.5

104 A " . .

28 38.6

18 6 15.29

2 27. 37

2.31

+ 1.34

+ 31 20 2.0

17.7

+ 2.3

8

34 27.9

12 5. 55

2 27.37

1.72

— 0.56

+ 24 20 31.0

25.6

+ 0. I

105 " . .

35 0. II

12 40.70

2 27. 3,7

1.72

— 0.50

+ 24 20 30.0

25. 0

+ o. 1

6

37 59. 4

15 37.03

2 27. 37

1.63

— o. ■->

+ 2!i 9 44.3

27.11

— 0.2

7

41 13.5

18 52.26

2 27.: ',7

1.96

+ 0.30 + 27 15 3,9.2

22. 2

+ 1.0

8

47 22. 3

25 2.07

2 27.36

3. 97

+ 2.48 + 46 15 12.9

+ 5.3,

7.8

5ii 27.3

28 7.58

2 27.36

3.04

+ 1.27

+ 38 39 14.2

10.2

+ 3.8

7

52 56.6

30 37.29

2 27. 30

3.04

+ 1.28

+ 38 41 47.0

10.2

+ 3.8

3 a Lyr;p .

54 20.11

32 6.93

2 27.36

3. 03

+ 1.27 + 38 33 38.0
+ 1 . 27 + 38 8 35. 1

10.3

+ 3.8

7

13 57 4H.9

35 22.30

2 27. 3,0

— 2. 9.-'

o 10.6

+ 3. 7

0.7

14 3 40.7

41 23. 15

2 27. 36

+ 1.92

+ 3.00 — 20 51 10.2

3, 36. .'

— 3.2

h) 34 a Sagittarii .

0 311.11

44 12.91

2 27.30

1.89

+ 3.42 I— 20 31 9.0

3 31.4

— 2.9

7

III :;. 3

47 40.79

2 27.35

1.59

+ 1.80 — 22 40 58.2

2 47. 3

— 1.5

Saturn.

13 37.2

51 21.28

2 27. 35

1.56

+ [.68 — 22 20 3.6

2 43. 1

— 1.3,

40 t Sagittarii .

18 2.8

55 47.01

2 27.35

2.02

+ 4. 04 — 27 55 53. 4

3 53.8

— 3. 8

41 77 " . .

5.0

21 32.7

18 59 18.08

2 27. 3,5

1.48

+ 1.51 — 21 20 8.9

2 31.5

— 1.0

0

25 48.5

19 3 34.58

2 27. 35

+ o.>:,

+ 1.01

— 12 37 51.7

1 43.2

— 0.5

22 A qui la'

30 30.3

8 17. 15

2 27. 34

— 0. 30

— 0.56

+ 4 27 3.0

0 55. 0

— 1.3

<■)

6.7

33 16.4

11 3.70

2 27. 34

0.62

— 1.76

+ 9 13 12.6

40.0

— 1.8

3 Vulpeculse

6

38 40.7

10 28.89

2 27. 34

1.84

— 0. 15

+ 25 19 54. 0

23.8

+ 0.0

7

41 10.2

18 58. 80

2 27. 34

1.73

— 0.52

+ 24 30 25. 5

+ 0.2

6 "...

6

44 23.3

22 12.43

2 27.31

1.71

— 0. 59

+ 24 12 44.6

25. 8

o.o

8 " . .

7

44 30.2

22 25. 37

2 27. 34

1.72

— 0.57

+ 21 18 35.0

25.7

+ ".1

8 Cygni . .

48 23. 3

20 13.09

2 27.31

2.56

+ 1.39

+ 33 58 2:;. o

15.0

+ 2. 9

7.8

51 50. S

29 11. 10

2 27.33

3. 35

+ 1.38

+ 41 25 39.0

7.3

+ 4.5

6

54 35. 1

32 25.91

2 27.33

3.0!)

+ 1.72

+ 44 11 18.9

4.6

+ 1.9

d)

7

50 34. 1

34 25. 24

2 27. ::::

4.32

+ 3.20

+ 48 45 13.0

0. 1

+ 5.0

6

14 58 47.4

36 38.91

2 27. :!::

3. 80

+ 1.98

+ 44 59 3. 3

3.8

+ 5.1

6

15 1 10.0

39 1.90

2 27. 33

3. 34

+ 1.37 + 41 13 40.4

7.5

+ 1. 3

0.7

4 24.4

42 16.83

2 27. 33

2.95

+ 1.27

+ 37 50 .-,:;.■_'

11.11

+ 3.7

7

0 25.11

44 17.70

2 27. 33

2. 98

+ 1.27

+ 38 8 31 . 3

10.0

+ 3. 7

19 " . .

6

7 30.7

45 23. 04

2 27. 32

2. 98

+ 1.27

+ 38 8 31.4

10. 0

+ 3.7

6

11 29.8

49 23.39

2 27. 32

2. mi

+ 1.30

+ 36 24 6.9

12.4

+ 3. 3

c) 22 " . .

0.7

11 19.8

52 13. Mi

2 27.32

2.90

+ 1.27

+ 37 51 6.8

II. 0

+ 3.7

6

17 8.0

55 2. .",2

2 27. 32

3.81

+ 2.05

+ 45 9 lo.3,

3.6

+ 5. 1

/) 26 •' . .

4.5

19 48.4

19 57 43.36

2 27. 32

4.44

+ 3.3,2

+ 49 28 28. I

o. 0

+ 5.0

27 ¥ Cygni . .

22 52. 8

20 0 48.26

2 27.32

2.09

+ 1.31

+ 35 21 14.5

13.5

+ 3.1

28 48 " . .

5. 6

25 50.7

3 52.00

2 27.32

2. 78

+ 1.3,0

+ 36 10 10.4

12.7

+ 3.3

22 Vulpeculse

30 42. 8

8 39.51

2 27. 31

— 1.00

— o. 88

+ 22 49 53. 0

0 27.5

— 0.2

] 1 p Capricorn i

3.4

40 50.2

18 54.62

2 27. 31

+ 1.27

+ 1.49

— 18 30 20.4

2 14. 1

— 0. 7

Jupiter

42 49.2

20 47.93

2 27. 31

+ 1.39

+ 1.41

— 20 3 40.0

2 24.8

— 0.8

2 f Delphiui .

47 24.3

25 23.78

2 27.30

— 0.71

— 2.00

+ 10 33 30.2

0 14.0

— 1.9

9 a " . .

54 4.6

32 5.18

2 27.30

1.03

— 1.50

+ 15 8 14.2

37.7

— 1.9

a Cygni . .

15 58 31.7

30 33.01

2 27.311

3. 73

+ 1.79

+ 44 28 39.2

4.3

+ 5.0

53 f " . .

16 1 54.6

20 39 56.47

— 2 27.30

— 2. 48

+ 1.40

+ 3,3 8 15.6

— 0 15.9

+ 2.7

ir

§3 JUNE

1

z

ro corr. — -4-

1' 47".7.

01 ,i' Leonis .

2

6 56 4. 0

1 1 40 29. 32

— 2 26. 20

— 1.03

— 1.51

+ 15 45 45. 1

— 0 3,0. 5

— 1.8

5 ji Virginis -

+ 2 58 13.0

0 57. 0

— 1.2

4 y Corvi .

7 22 35.6

12 7 5. 28

2 26. 19

+ 1.07

+ 1.07

— 10 20 15.0

2 0.3

— 0. 5

10 a Coirife -

34 4. 8

18 36. 37

2 21 i. 18

— 1.94

+ 0.58

+ 28 0 14.4

0 21.3

+ 1.3

8 Can. Ven.

41 21.8

25 54. 57

2 26.18

3. 35

+ 1.47

+ 42 30 35.5

6.2

+ 4.6

27 Coma? . .

7 53 43. 7

38 18.50

2 20. 17

1. 16

— 1.40

+ 17 44 35.0

33.8

— 1.0

41 Virginis

8 0 51.3

45 27. 27

2 20. 16

0.88

— 1.70

+ 13 34 48.4

39. 6

— 2.0

( lor. t laroli.

3 43. 3

12 48 19.74

2 26. 16

3.01

+ 1.29

+ 39 27 43. 0

9.2

+ 4.0

42 Comae .

17 17. 1

13 1 50.37

2 20. 10

1.23

— 1.33

+ 18 39 30. 5

32. 7

- 1.4

15 Can. Ven.

17 55.4

2 34. 17

2 26. 16

— 3.02

+ 1.29

+ 3,9 37 40.8

0 9.1

+ 4.0

00 Virginis

8 31 2. 2

13 15 43.13

— 2 20. 15

+ 0.20

+ 1.58

— 4 2 18.8

— 1 13.9

— 0.0

a T. Ill asBumed as 22]

i. j not ~

lm.

d <: assumed as C

° 5' ; not 0° 6'

f £ assumed as 89° 22' .

17"; not 89° 2

2' 47".

b Div. assnmed as r^i) 6

5; not £

0 G 4.

e T. 11 assume

d as 19s.5; n

•t 9b.5: u

id

c Div. asBumed as 42 4

6 ; not 4

2 4 2.

name not 22

Cygni.

(82)

GOULrt — UKIH'CTION OK DAGELETS OBSERVATIONS.

83

l?s:t JtrlVE 3— Continued Zero corr. = + 1' 47".7.

Name.

Mag.

T

App. sid. time t Hock corr. n ta q „' — o

Refr.

?'

h III 8

h in s

III If s

s a ' a

/ //

It

07 n Virgipis .

8 :il 31.7

13 16 12.71

— 2 26. 15 + 0.64

4- 1.79 - lo 1 :,:;.:,

— 1 32.4

— 0.4

542 Mayor .

7

::;, 53. 4

20 35. 13

•2 26. 15

+ il. 0-2

-j- 0.45 — 0 14 51.0

4.5

— 0.8

7.8

40 58.8

25 11.37

2 -20. 15

— 11.115

4. (.1. 14 + II 47 15.8

2.3

— 0.9

7.8

4-2 55. 7

27 38.59

2 '26. 15

0.01

4- 0.30 + 0 lo 16.0

1 3.6

— 0.8

«)

7.8

49 20. 1

34 4.23

2 26. 11

3.96

+ 2.85 + 47 '21 14.0

0 1.5 4- 5.4

7

52 1J.5

36 55.91

2 26. 11

3.87 1+ 2.IKI + 40 35 II. 2

•2.2 4- 5.4

6

54 45. S

39 30.63

2 26. 14

3.30 +1.44 + 42 9 8.8

6.6 + 4.5

7.8

57 21.2

42 6. 45

2 26. 14

3.44 1+1.57 + 43. '23 52.2

5.3, 4. 4.8

7

8 56 41.5

41 26.64

2 '26. 14

3.40 1+ 1.53 '+ 43 (i 35.11

5.6

4- 4.7

6.7

9 3 57. 1

48 43. 33

2 26.14

2.08 + J. 14 + 29 42 50.5

19.5

4- 1.8

7

6 50.2

51 37. mi

2 '26.13 — 1.85 + II. 14 + 26 51 4.8

0 22. 0

4- l.o

5 a Centauri .

11 31.0

13 56 18.57

■2 26.13 j+ 2.58 + 5.511 — 35 11 31. 2

8 5. 6

— 10.3

562 Mayer .

6

it; 38.7

11 1 27. 11

2 26.13 + 1.00 + 1.6-2 — 15 16 J-2.ll

1 54.9

— 0. 5

7

22 [8.8

7 8. 14

2 26.13 — 1.54 — 0.88 + 22 5-2 9.2

II 27. 1

— 0.2

Arcturus. .

23 27.6

8 17. 13

2 26.13 — 1.35 — J. -21 + -20 17 44.9

0 30.6

— 1. 1

569 Mayer . .

7

9 28 46. 7

14 13 37.10

— 2 26. 1-2 + 0.43 + 1.87 — 6 4li 81.8

1

— 1 21.7

— 0.5

»7S

.1 .Fl'NE 3 Zero con-. = + 1' 47".0.

4) 94 ft Leonis . .

2

(i 52 7.4

11 40 28.63

— 2 25. 55

— 1.02

— 1.51

4- 15 45 17. 1

— 0 36.4

— 1.8

23 k Comae -

7 38 1.8

12 26 30.57

2 25. 53

— 1.58

— 0.70

+ 23 4S Hi. 1

0 26. 2

o.ii

<) 2\> y Virginia .

44 37.4

33 7.25

2 25. 52

+ 0.0-2

+ 0.45

— Oil', 15. 2

1 4.6

— 0. -

il) 27 Comse .

49 47.4

38 18. in

2 -25. 5-2

— 1.15

— 1. 11

4- 17 44 36.8

0 33.7

— 1.5

Cor. Caroli.

7 59 47.3

48 19.04

2 25.51

2.96

4- 1.29

4 39 27 59.2

9. 2

4- 4.0

37 Comae .

8 3 48. 1

52 21.40

2 25.51

2.25

4- 1.38

4- 31 55 58.2

17. 0

+ 2. 5

e) 14 Can. Ven.

9 29.9

58 3. 84

2 25. 51

2.71

4- 1.28

4. 3i; 511 8.0

11.8

+ 3.5

40 Comae .

9 4:!. 8

12 58 17.77

2 25. 51

1 . 58

— 0.71

4 23 45 30. 1

2i;. 2

0.11

17 Can. Ven.

13 58.6

13 2 33.27

2 25. 51

2.98

4- 1.29

4- 39 37 41..6

9. 1

4- 4.o

64 Virginis .

25 6.4

13 4'2.9il

2 25. 50

— 0. 40

— 0.99

4- 6 16 44.8

0 51.2

— 1.5

67 a " . -

8 27 35. 2

16 12.11

2 25. 50

+ 0.64

4- 1.79

— 10 1 51.5

1 32.4

— 0. 4

7

9 8 36.5

13 57 20. 15

2 25. 48

— 1.82

4- o. 14

4 -21; 50 43.4

0 22. 7

4- l.o

Arcturus .

9 19 31.0

14 8 16.44

2 25. 47

— 1.33

— J. 21

4- 20 17 45.0

0 30.6

— l.l

1, Opbiiichi .

II :;- 17.2

10 27 25. 44

2 25. 40

+ o. 11

4- 1.0-2

— 1 51 37.0

1 8.9

— 0.7

46 28. 8

35 38.39

2 25. 40

— 1.45

— 1.01

4- 21 59 37.li

0 28.6

— 0.5

46 48.9

35 58. 55

2 25. 40

1.45

— 1.01

4- 22 3

6

51 43.7

40 54. 16

2 25. 39

3.43

4- l.oo

4- 43 3,5 -2-. 0

5.2

+ 4.8

50 Hereulis -

6

55 29. 5

44 40.58

2 25. 39

2.09

4- 1.21

+ 30 ;i 32. 0

19. 1

4- 1.9

6

11 59 59.2

49 11.02

'2 25. 39

3.37

4- 1.54

4- 43 111 20.4

5.6

+ 4.7

7

12 4 17.8

53 30.33

2 -25. 39

2. 34

4- 1.50

4 42 49 24. 2

6.0

4- 4.7

59 d " . .

7.8

6 52.2

16 56 5. 15

•2 -25.39

2.41

+ 1.39

-j- 33 51 4s. 0

15.2

4-2.9

67 k " " . .

20 44. CI

17 9 59.23

•2 -25.38

2. 7-2

4- 1.27

4- 37 1 55.5

11.9

4- 3.5

69 " - .

6.7

12 23 26. 0

17 12 41.67

— -2 -25.33

— 2.76

4- 1.27

4- 37 -29 43.6

— 0 11.4

4-5.6

irs.

i JUI.,1- 5 Zei

0 err. = + 1' 45''. 3.

67 a Virginis .

1

6 21 31.2

13 15 57.29

— 2 10. 53

+ 0.66

4- 1.79

— 10 1 55. I

— 1 30.5

— 0.4

Arcturus -

7 13 27. 0

14 8 1.62

2 10.49

— 1.39

— 1.21

4- 20 17 47. 2

,i ->;i. ;|

— 1.1

11k Cor. Bor. .

8 50 27.6

15 45 18. 16

2 10.41

•2. 76

4- 1.30

4- 36 18 46. 0

12.2

4-3.3

41 ) Serpentis .

53 51.2

48 4-.'. 3-2

2 in. in

1.10

— 1.47

4- 16 21 34. 8

35.1

— 1.8

12 A Cor. Bor. .

55 17.6

50 8. 95

•2 10.40

2.99

+ 1.27

4. 38 33 is. 0

10.0

4- 3.8

7

8 58 12.3

53 4. 13

2 10.40

0.92

— 1.67

4. 13 52 36.0

38. 5

— 2.0

6

9 1 28.7

56 21.07

2 in. in

1.24

— 1.35

4- 18 23 19.4

32.4

— 1.5

6.7

4 50.1

15 59 43.112

2 111.311

3.11

4- 1.30

4- 39 43 23.8

4-4.0

7

8 34.2

16 3 27. 73

2 10.39

::. 88

4- 2.36

4- 45 55 56. 1

2.8

4- 5. 3

8

9 29. (i

4 23.26

2 10.39

3.88

4- 2. 35

4- 45 53 57. 0

•2. 8

4-5.3

6 7

11 57.9

6 51.99

2 10.39

3.49

4- 1.51

4- 4-2 54 38.6

5.7

4- 4.7

f)

8

15 17.7

10 J 2. 34

2 10.38

2.83

4- 1.27 + 37 4 33.8

11.5

4-3.5

6

18 0. 2

12 55.28

2 10.38

— 1.49

— 1.06

4- 21 38 lo. 0

ii 28.3

— 0.6

5 g Ophiuchi .

3.4

9 19 50.3

10 14 45.68

— 2 10.38

+ 1.59

4- 1.84

— 22 54 58. 4

— 2 44. 5

— 1.5

" T. I rejected.

Lined :l^ 1

1° T ; not 49° &. e Tlla-si idasShn.S

9s.5; no! 9m 39s.5.

b T. Ill assumed as 31s

: not 1 1>

/ Div. asaumi 1 ;

- :;:!; nut 31 f T. 1 assumed as 14m.

not l.'mi-

(83)

84

GOULD REDUCTION OF D'AGELET's OBSERVATIONS.

1783 JL'tiYr 5— Coutiuucd Zero corr. = 4 ]

' 45". 3.

Name

Map;.

T

App. sid. timf

( Hock corr.

n tan 6

'J

f— <t>

Refr.

1'

h m s

A m s

m s

s

s

o / '/

/ //

II

Antnres

9 23 20-. 8

16 18 16.76

— 2 I0.3S

+ 1.83

+ 3. 12

— 25 54 39.0

— 3 18.2

— 2.6

23 r Scorpii

9 -."J 35.2

16 21 3-.'. 17

2 10.3:

1 . 97

+ 3. or,

— 27 43 2. 0

3 44.9

— 3.6

Saturn

11 4.3 24.2

18 40 43.49

10. -JO

1.50

+ 1.74

I ' 33 22.4

2 42.3

— 1.4

34 Sagittarii .

— 26 31 2.2

3 28.6

— 2.9

38 f " . .

55 33.7

50 54.66

2 10.25

2.17

+ 4.88

— 3,0 7 17.0

4 34. 1

— 5. 5

39 o " . .

1 1 58 29. 2

18 ;-,:s 50.64

2 10.25

1.52

-(- 1.03

— 22 1 29.2

2 3,7.7

— 1.2

707 Mayer .

12 6 17.5

19 1 40.22

.' 10.24

1.52

+ 1.02

— 21 59 2.0

2 37.4

— 1.2

42 \p Sagiitarii .

8 59.3

4 22.40

2 10.24

1.80

+ 2. 95

— 2.3 35 7. 6

3, 15.2

— 2. 4

7

12 (1.6

7 -JI. J6

2 10.24

1.10

+ 1.07

— 10 19 50.9

1 58.9

— 0.5

4ti v " . .

16 4.1

11 28.43

2 1(1.23

1.10

-)- 1.07

— 16 20 20.2

59. 2

— 0.5

6

24 25.6

19 51.30

2 1'

-f- 0.49

+ 1.88

— 7 28 40.5

1 22.7

— 0.5

8

29 25. 4

24 51.92

2 10.22

— 1. in

- 1.19

+ 20 27 39.1',

0 29. 9

— l.o

7.8

31 50.8

27 17.7V!

2 10.22

1.80

— 0.22

4- 25 3,4 41.6

23. 8

4- 0.6

6.7

35 39. 1

31 6. 95

2 10.22

1.39

— 1.21

4- 20 17 4.2

30.1

— ].]

«)

7

37 47. 3

33 15. -JO

2 10.22

1.36

— 1.23

4- 19 57 50.5

30. 5

— 1.1

b)

7.8

4(1 53.2

36 21.61

2 10.21

1.51

— I.iil

4- 21 58 5.8

28.0

— 0.5

■ >3 a Aquilse

46 57.2

42 26. 61

2 1(1.21

0.55

— 1.44

4- 8 17 34. 1

47.3

— 1.7

60 ji " . .

51 23.3

40 53. 44

2 10.20

0.38

— 0.90

4- 5 51 47.2

51.5

— 1.5

13 i Sagittae .

12 57 (Ml

52 31.00

2 10. 20

1.14

— 1.44

4- 10 55 1.5

34.5

— 1.7

7.8

13 0 1.(1

55 32.56

2 10.19

1.19

— 1.41

4- 17 40 5','. o

33.5

— 1.0

7

0 1(1. 1

55 47. 70

2 10. 19

1.21

— 1.40 14- Vi 53 5.0

33. -J

— 1.5

16 F

2 15.6

57 47. 53

2 10.19

1.32

— 1.28

4- 19 21 34.5

31 . 3

— 1.3

17 Vulpeeulie

6

4 17.1

19 59 49.36

2 10. 1<J

— 1.59

— 0. 85

4- 22 :<* 4i.i

o -ji;. 9

— 0.2

Jupiter

13 13 (1.7

20 8 34. 39

— 2 10. 18

+ 1.42

+ 1.47

— 20 47 40.2

— 2 2*. 1

— 0.9

irs

S3 JULY 8 Ze

ro corr. = -f ]

' 17". 0.

Arcturus .

I

7 1 35.7

14 7 58.04

— 2 6.73

— 1.43

— 1.21

4- 20 17 45.2

— 0 29.8

— 1.1

'.'7 • Bootis. .

19 5.7

25 30.91

2 6. 70

3. 15

+ 1.28

4- 3,9 14 10.3

9.3

4- 3.9

30 f " . .

26 32.7

32 59.13

2 0.09

1.01

— 1.00

4- 14 38 49. s

37.2

— 1.9

36 i " . .

31 13.6

37 4'(. ,-o

2 6. 69

- 2.H.".

+ 0.57

4- 27 58 22. 2

0 -jo. 9

4- 1.3

r) 20 7 Libras . .

46 59. :;

53 29.09

2 6.68

+- 1.74

+ 2. 3,7

— 24 24 1.2

2 59. 2

— 2.0

42 ji Bootis . .

49 27. 3

14 55 57.50

2 6.68

— 3.38

+ 1.38

4- 41 13 3,3.9

0 7.4

4- 1.3

</) 24 , Libra . .

7 55 27.7

15 1 58.87

2 0.07

4- 1.32

+ 1.48

— 1- 57 is. 0

2 13.2

— 0.7

'.'7 ) " . .

8 0 56. 2

7 28. 28

2 0.00

+ 0.58

+ 1.87

— 8 34 49.2

1 25.6

— 0.4

49 6 Bootis . .

2 23. 4

8 55.72

2 6.66

— 2.60

+ 1.38

4- 34 6 22.7

0 14.4

4- 2.9

3] e Librae -

— 9 32 18.0

1 28.8

— 0.4

5 a Cor. Bor. .

2.::

21 5.7

27 41.09

2 6. 64

— 1.99

+ 0.30

4- 27 25 46. 4

0 21.5

4- l.i

44 // Librae -

27 2::. 8

34 0.23

2 6. 03

+ 1.03

+ 1.00

- 11 58 13.2

1 51.0

— 0.5

24 a Serpentis .

29 9. 8

35 40.52

2 6.63

- 0. 48

- 1.17

4- 7 6 6.5

0 48. 9

— 1.6

e) 28/3 " . .

4- 16 5 29. 4

0 35.3

— 1.8

/) 46 0 Libra . .

36 58. 5

43 30.50

2 6.62

+ 1.11

+ 1.66

— 16 4 45.0

1 56.5

— o.:,

5 p Scorpii

— 28 31 56. 5

3 58. 7

— 4.2

6 - " . .

41 11.3

47 49. 99

2 6.62

+ 1.83

+ 2.88

— 25 27 14. 6

3 11.9

— 2.3

7

47 19.7

53 59.411

2 6.62

— 0.96

— 1.66

4- 13 56

C

49 37. 1

50 17.4-

2 6.01

1.28

- 1.3,:;

4- 18 23 19.4

0 32.3

— 1.5

6.7

52 59.0

15 59 39.0.:'.

2 6.01

3.19

+ 1.30

4- 39 43 24. 0

4- 4.1

7.8

56 42.9

16 3 24. 14

2 6.61

3.98

+ 2.36

4- 45 55 54. 1

2.8

4- 5. 3

g)

H.lll

8 57 IN. 1

4 19.40

2 6.60

3.98

+ 2.35

4- 45 53 57. 0

2.8

4- 5. 3,

6

9 9 6. (i

0 48. 39

2 0.00

3.5i

4- 1.51

4- 42 54 37. 1

5.7

+ 4.7

7.8

3 26. 6

10 8. 91

2 6.60

■J. 90

4- 1.27

4- 37 4 31.8

11.5

4- 3.5

9. Ki

4 20.3

11 2.79

2 6.60

2.90

4- 1.27

4- 37 1 51.0

11.5

4- 3.5

5. 6

4- 21 38 41. 2

28. 3

— 0.0

2(i y Hereulis .

7 49. 1

1 1 32. 16

2 6.59

- 1.38

- 1.26

4- 19 39 6.0

0 30.7

— 1.2

Antares

11 28.7

1.- 1'.'. 30

2 6.59

4- 1.87

-t- 3. 12

- 25 54 45.0

3 17.8

— 2.0

23 r Scorpii

17 43.2

■J 1 27 . 88

2 6.58

2.02

+ 3.9:,

— -J7 43 10.9

3 44.9

— 3.6

A)

7

22 111. II

29 31.67

2 0. 58

4- 0.05

-f- 0.66

— 0 47 49. 0

1 4. 6

- 0.7

ll' - 1 IcICIllis .

28 31.2

35 17.65

2 6.57

- 2.40

4- 1.38

+ 31 58 45. 8

o 16.7

4-2.5

ii n " . .

9 3D 52. 2

16 37 39.04

2 6.57

3. 10

-j- 1.28

4- 39 18 59.7

9.3

- 3.9

11)3 " . .

1(1 .",1 11.9

18 1 15.44

2 0. 1!!

2. 1 1

-f 0.86

4- 28 43 7. 4

20.1

4- 1.5

6.7

11 4 42.9

18 11 45.16

-2 6.48

- 1.74

- 0.56

4- 24 20 39. 0

— 0 25.1

4- o.l

n DlV. :iSMnn<-<! ;i :0 12

15; nut

so 12 14.

! r ii ass ■

3 55m. ; not 57m. & T.IIassumeds

:;--.: not 57n

. Ms.

b <? assumed ;i^ ■:■■ ■ ; i

'.5 ; aol

!6 '53' 24 i

<" :ls>ih

!° 45' 38"; not 33 45' -2s". k Min. assumed as 22m

; not 23m.

- £ assumi '1 as 73 15* <

: nol ^

; i.v hi". j

Div. assumed ;

j 69 17. nol li'.i 1 S.

(84)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

85

1783 .15 1.1 S— « on I in ■■< <1

Zero corr. . L1 47". 0.

X ; 1 1 m . ■

Mag.

105 Berculis

lo7 I " .

109 " .

2 // Lyra .

3 a Lyras .
Saturn
.' I :'..". - Sagittarii

b) .:- . '- .

r) 4U r " .

41 ir " .

53 a Aquiloa

,/, 60 ; •• .
e) 11 Sag

13, x " -

16 T) " . .

2 j ( lapricorni
Jupiter

8

7.8

9

8

8. 9

8.0

7

0.7

7.8

7

6

7

11

m s

5 24.2

7 41.2

;i 50.2
1'.' 13.2
16 .v.i. t
20 42.3

23 I •-'. 1

24 -11.3
32 30.8
36 58.5
43 42.0
■1J 17.4

11 51 I-.:;

12 23 17.7

29 1 . 4
35 5. 8

30 31.8
42 48.0

45 r\ 3
48 9. 8
48 25. 1
r.'i 24.1
55 G. G
12 59 38.5

App. sid. time

1- 12 26.57

1 1 13. 95
l(i 39.27
11) 16.70
24

27 47. I'.t
3H IT. -Ill
3,1 46.84
311 43.G-1
4 1 6.06
5ii 50.67
55 21 ;. 82
1- 58 56. 10
Hi 31 2.96
3:; 11.11
36 17.52
42 22.32
46 49.65
50 6.39
52 27.U7
55 211.07
14.41

19 37 43.74

20 2 27.01
20 G" 59.60

( Hock i 101 i. n Ian A

6. 48
6.47

G. 47

6.47

6.46

6.40

6.46

6.46

6.45

6.44

6. l i

6.43

G. 13.

G. 4U

6.40

G. 39

6.39

6.38

6.38

6.

G. 37

G. 37

G. 37

G. 3.7

6.36

1.74

2. 12

1.53

3. 16

3.72

3. us

3.08

—

3.(17

4

I.GI

1.63

2.23

2.(1-1

+

1.5(1

—

1 . 42

J. -Ill

1 . 55

(I. 5G

11.33

1. 13.

1.17

1.22

1.25

—

1.3.5

4

0.91

4

1.47

s
II. 5G
f 0.87
— 1.06
+ 1.23
4 1.7(1
+ 1.27
4 1.28
4 1.27
+ 1.74

4- 1.83
4 4.89
4 4.04

4 1.51
1.21
1.23
1.01
1.-11
0.90
1.48
1.44
1.41
1.4(1
1 . 28
f 1.58

4 1.47

Rel'r.

+ 24

b ■-

+ 21

+ 33

+ 4-1

4 38

4 38
+ 38

— 22

— 22

— 3d

— 27

— 21
4 2d
4 19
4 2' I
4 8
4 3
4 16
4 16
4 17
4 J7
4 13

— 13

— 2(1

20 37.2

15 8. I
31) 37.8
22 H. 4

5 35. 8
511 21.1)
11 5G.5
35 48.9
51 36.2
51 29.8

7 27.2

56 3.2

20 20. G

16 58.9

57 53.6

58 5.0

17 29.5
51 44.2
11 45.4

51 55.0

in 49.0
53 7.2

21 33.0
14 18.9

52 47. G

0 25. I
20. I
28. 3.
11.2
4.6
H.li
U.li

o 10.0
2 41.9

2 44.9
4 53.5

3 4S.1I
2 31.2
o 30.0

30.4
27.9
47.2
51.4
35.4
34.4
33. -1
33. 1

0 3.1.5

1 43.7

2 28. 1

4 o. i

4 l.G
— 0.6

4 5.11

4 4.9
4 3.8

4-3.8

4 3. 8

- 1.4

1.5

5. 8
1.0

1.1
1.1

0.5
1.7
1.5
1.8
1.7
l.G
1.5
1.5
0.3
1.0

1JS:J JCJB.Y 9

Zero corr. = + 1' 46". 0.

/)

g)

h)

i)

27 8 LiGra> .
41 i " .

( !or. Bor.
5 a " "
24 a Serpentis

2- I " .

32 ft " .
37 e " .

5 p Scorpii

6 - " .

" .

10 u'- " .

12 c1 " ".

15 f- " .

G40 Mayer .
2o a Scorpii
4 ip Ophiuchi
~x " -
A ntarcs
G43 Mayer .

23 r Scorpii
G53 Mayer .
655 •'• .

24 Scorpii
51 Herculis

4 £ 8 l ;<ltH'

j) 6/3

53 a Aquilae

56 58. I

4 3.7

in 32.0

17 8. 4
23 12.3
27 48.4
29 51.5
51 55.11
54 58.8
37 13.8
44 20.2

7.8
G

15 7 26.40
14 32, 36

21 2. 22
27 39.70
35 44. 92
38 21. 15
40 24. 89
42 1). 58
45 33.04
47 48. 4 1
15 54 55.98

50 18.4

16 0 55.16

50 23. 1

0 59. 87

53 12.4

3 49.03

8 59 25. 5

10 4.75

9 2 52. 2

13 31.01

5 54.1

16 33.41

7 31.2

18 10.78

9 28. 4

20 8.30

13 45. 3

24 25.90

17 18.6

27 59. 78

20 7.6

30 49.24

20 2G. 1

31 7.79

9 34 11.7

16 44 55.65

12 18 27.1

111 29 38.03

20 35.6

31 46.87

22 16.9

33 28.45

25 4.6

3G 1G. ill

28 3i i. 3

39 42. 87

29 40. 1

411 52. 88

31 8. 4

42 21.45

12 35 0. 1

19 46 13.77

- 2
2
2
2
2
2
2
2
2
2
2

2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2

4.93 4 0.59
4.93 4 o. GG

4. 92
4. HI
4.90
4.H0
4.90
4.90

2.24

2.02
0.411

— 1. 12

4 o. in

— 0. 35

4.89 4 2. 12

4. 89

4. -.i

4.88
4. 88
4.88
4. 87
4. 83
4.86
4. 86
4. 8G
4.86
4.85
4.85
4. 85
■1. 85
4.G7
4. 67
4.67
4.GG
4.66
4.GG
4.66
4. 55

1.85

1.3G

2.05
2.02
1.81
l . 82
1.38
1.20
1.110
l.lio
2.05
1.25
1.24
f 1.22

— 1.82
1.12
1.12
I. HI
1.57
1.79

1.8(1

0.57

— 0.45

4 1.87
4 1.82

4 i.n
4 0.36

— 1.17

— 1.411

4 1.28" -

— 0.69 4
4 4.28 —
4 2.88
4 1.42

4 4.00 -
4 3.77 —
4 2.58 _
4 2.G5 —
4 1.4(1 -
4 1.54 —
4 3.11 -
4 3. 1G -
4 3.95 —
4 L57 -
4 1.58 -
4 1.62 —

— ii. 3fi 4
1.49 4
1.4!) 4
1. 13 4

- 1.01 4

— 0. 5(1 4

— 0. 42 -)-
1.44 4

l.i'7 4

.0

2-.o

1.2

34.0

0.8

17.3

8 31 50.0

H 5,2 17.8

23 5(1 15. G

27 25 47.6
7 6

16

2 46
5 7

28 32
25 27

19 11 35. 1

20 15 42.2
27 18 27.0
27 19 14.9
2-1 53 5i'. -
25 2 14.8
19 30 34.0
17 56 47.11
25 54 43. 4
2G 1 32.11
27 43 12.4
17 45 58.6
17 37 5. 1
17 18 20.0
25 0 33.9
15 58 4.8
IG 4 0.7
1G 57 55.2

21 58 4.G
2 1 55 22.2
2 1 50 10.11

8 17 32.4
G 31

1 25.4

1 28.6

0 18.8

21.5

48.7

0 35. 2

1 8.9
0 52. 3
3 58. 7
3 12. 1

2 15. 1

2 22. 3

3 45. 8
37.9

5.4

6.9

17.2

7.2

17.11

19.7

44. G

6.1

5.5

2 3.5

0 24.3

36.0

55. 8

3,1. G

2-. 3

25. I

24. 8

0 47.7

— 0. 4

— 0.4
4 1-9
4 LI

— l.G

— 1.8

— 0.7

— 1.4

— 4.2

— 2.4

— 0.7
-0.8

— 3.G

— 3.4

— 2.2

— 2.2

— 0.8

:— o.6

— 2.6

— 2.6

— 3.5

— 0. G

— 0.6

— 0.5
4 0.4

— 1.8

— 1.8

— 1.7

— 0.5
4 0.3

4-0.3

— 1.7

. i 15 :;i .5; ii"1 71°45'44 .5.

ramed a- 7- 58 ::: : not 78 58' 41".
c j?aei 17' 18".

<( I assumed i i; not 42° 59

e T. Ill assumed as 43m. ; not 42m.

/ g assumi ds I I I uol 29 0 13".

g T. I s56s. ; not als.

h ^assumed Of . i H 36 i; i I H'4C".5.

i Micr. con*, assumed as 5; not — 5.
j Div. assumed as 34 0 3; not 34 0 4.

(85)

86

GOULD REDUCTION OF I> AGELET S OBSERVATIONS.

1783 JI'LV 9— Continued

Zl-i

o corr. =41' 46". 0.

Name

M;i^.

T

App. >iil time

Clod

c corr.

//

tan (5

'J

C— <P

Reft.

'/'

h in s

h m s

n

s

s

s

o l a

/ //

//

60 8

Aquilse

12 35 34.7

19 46 48.46

— 2

4.65

—

0.40

— 0.90

+ 5 51 44. 4

— 0 51.9

— 1.5

11

Sagittse

6

38 50.6

50 4.90

2

4. 65

1.14

— 1.48

4 16 11 51.2

35.8

— 1.8

23 X

"

41 10.6

52 -J.".. 28

2

4.65

1.19

— 1.43

4- 16 54 59.11

34.8

— 1.7

8

41 16.3

52 31.00

2

4.65

1.19

— 1.43

+ 17 0 35.0

34.0

— 1.7

7.8

44 12.6

55 27.78

2

4.64

1.24

— 1.41

+ 17 40 52. 4

33.8

— 1.6

7.8

44 27.7

55 42. 1C2

2

4.64

—

1.26

— 1.40

4 17 53 9.8

0 33.5

— 1.5

04

Aquilse

47 40. 1

19 58 55.85

2

4.64

+

0. 09

+ 0.85

— 1 17 58.8

1 6.S

— 0.7

a) 65 6

Antinoi

50 56. li

20 2 13. 19

2

4.64

0. 17

+ 0.89

— 1 27 45.0

1 0. 9

— 11.7

Jupiter

12 55 10.2

6 27. 18

a

4.63

1.49

+ 1.48

— 20 54 31.9

2 30.2

— 1.0

111 -

Capricorni

13 5 39.2

16 57.911

2

4.62

4

1.34

4 1.45

— 18 53 59. -'

2 15.0

— 0.7

2f

Delphini

13 41.0

25 1.02

2

4.61

H.73

— 2.67

4 in 33 38.2

11 44.2

— 1.9

4f

"

15 59. 8

27 20.20

2

4.61

11.97

— 1.66

+ 13 55 5. 4

39.2

— 2.11

6/3

ti

18 12.2

29 32.96

2

4.01

0.96

— 1.07

4 13 49 57.5

39. 3

— 2.0

1) a

"

20 23.2

31 44.32

2

4.61

1.15

— 1.50

+ 15 8 18.2

37.4

— 1.9

8

22 52. 2

34 13.73

2

4.61

3.89

4 1.93

+ 44 52 33. 6

3.8

4 5.1

50 a

Cygni .

24 4!'. -

36 11.65

2

4.0U

3.83

+ 1.79

+ 44 28 54.2

4.2 4 4.9

12}

Delphini -

27 -.'3. 1

38 45.36

2

4.60

1.H7

— 1.54

4 15 211 2.0

57. 2

— 1.9

<-)

8

33 19.0

44 42.24

2

4.60

1.21

— 1.42

4 17 12 29.8

34.7

— 1.7

32 ?

Vulpeculse

6.7

36 4.5

47 28. 19

2

4.59

2. 01

4 0.28

+ 27 13 5.0

22. 4

— I.11

1

Equulei

li. 7

38 57.8

50 21.96

2

4. 59

—

11.23

— 0. 3.6

4 :: 27 36.7

11 56.8

— 1.2

22 //

Capricorni

42 42. 3

54 7. us

2

4.511

+

1. 17

+ 1.46

— 20 41 9. s

2 29. 2

— (1.9

6.7

46 52. 5

20 58 17.96

2

4. 58

+

n. 11

+ 0.95

— 1 38 11.5

1 8. 1

— 11.7

0.7

50 9. 7

21 1 35. 7n

2

4.58

2. 19

-f 1.07

4 29 18 47.2

0 19.9

4 1.6

0

8. 9

53 49.0

5 15.66

2

4.57

3. 30

+ 1.32

4 4U 16 31.5

s. 0

4 4 1

8. 9

56 42.0

8 9.19

2

4.57

3.311

+ 1.32

+ 40 13 31.3

S. 0

4 4.1

7

13 59 52.6

11 20.19

2

4.57

3. 48

+ 1.40

4- 41 45 7.2

7. 1

4 4.5

1 e

Pegasi- .

14 2 45. 3

14 13.36

2

4.57

1.33

— 1.32

+ 18 51 51.6

82.6

— 1.3

7

5 37. 0

17 5.53

2

4.56

—

1.S4

— 0.32

+ 25 13 33.8

0 24.7

4 0.4

22 (8

Aquarii

10 43.0

22 12. 37

2

4.56

4

0. 44

+ 1.86

— 6 31 14.5

1 21.5

— 11.5

39 e

Capricorni

15 'in 3

26 59.46

2

4.55

+

1.45

+ 1.44

— 2ii 24 46.8

2 26.7

— 0.9

7

21 42.8

33 14. ihi

2

4.55

3. in

+ 1.27

4 38 3ii 38.2

0 10.2

4 3.8

77

Cygiii .

6

24 17. 1

35 18.71

2

4.54

3.28

+ 1.31

4 411 3 50.3

8.7

4 4.1

6

25 1.1

36 32.83

2

4.54

3. 28

+ 1,32

4 4H 8 33.2

8.6

4 4.1

7

28 16.9

39 49. 18

2

4.54

3.51

+ 1.43

+ 42 2 4. 4

6.8

4 4.5

8.9

31 -li.:,

43 0.30

2

4.54

3.28

4- 1.31

+ 40 6 54. 7

.-.0

4 4.1

7.8

34.48.6

46 21.95

2

4.53

2.02

4 0.32

4- 27 is 31.7

22.4

4 1.0

<')

8.9

38 21.0

21 49 54.93

2

4.53

2.10

+ 0.69

4 28 15 5:1. 2

0 21.3

4 1.5

34 a

Aquarii

— 1 22 28. 8

1 S. 0

— 0.7

6.7

54 26.7

22 6 3.27

2

4.51

—

1. 12

— 1.49

+ 10 6 20. 2

0 36.6

— l.s

7

14 57 26.0

9 3. 06

2

4.51

-i-

ii. i Hi

4 0.85

— 1 19 13.0

1 8.0

— 0. 7

48 ;

"

15 0 55. 1

12 33.03

2

4.51

0.17

4 1.20

— 2 28 51.7

11.0

— 0.7

923 Mayer .

7

3 51.9

15 30.01

2

4.50

0.16

+ 1.15

— 2 17 18.8

10.5

— 0. 7

Aquarii

8 7.0

19 45.77

2

4.50

+

0.08

4 n.79

— 1 7 52. 1

1 7. 8

— 0.7

6.5

12 1 1. 7

23 40.11

2

4.50

2.11

4 0.74

4- 28 24 45. 7

0 21.3

— 1.4

7

14 32. 1

26 11.93

2

4.49

3.24

+ 1.29

4- 39 40 40.0

9. 2

4 4.0

7

15 26.7

27 6.68

2

4.49

3.23

+ 1.29

4 3'.l 37 55.7

9. 2

4 4.0

7

18 14.4

29 54.84

2

4. 49

3.47

4- 1.40

4- 41 39 34.7

7.2

4 4. 4

.) 11)

Lacertae -

5. 6

20 1.4

31 42.00

2

4. 49

3.04

4 1.27

4- 37 53 53. 4

11.1

+ 3.7

44 ;/

Pegasi -

23 is. 2

34 59. 48

2

4.49

2.17

4 1.01

4 29 4 1 . s

20.6

4 1.0

6

25 55.3

37 37.(i|

2

4.48

—

2. 19

+ 1.07

4 29 is 16.0

II 211.3.

4- 1.0

Forualbaut

1

35 53. S

47 37. 16

2

4.48

+

2. 32

+ 5.05

— 30 42 33. 5

4 59.9

— 6. 1

1 0

Andromedse

42 •.'-.'.7

54 7.14

2

4.47

3.40

+ 1.37

4-41 8 6.1

7.8

+ 4.3

53 /i Pegasi -

15 43 40.7

22 55 25. 36

2

4.46

—

1.98

+ 0.15

4- 26 53 11.5

— 0 23. 1

4 i-11

1»S

.3 JULY lO

Zci

0 corr. = + 1' 45".8.

Regulus .

1

2 45 22. 6

9 58 55.97

o

4. NO

11.91

— 1.79

4 13 0 8.4

— 0 38.8

— 2.0

94 0

Leonis .

4 26 16.4

11 4H 6.35

2

3.94

—

1. 11

— 1.51

+ 15 45 49.5

0 35. 0

— l.s

67 a

Virginia -

1

6 1 44.7

13 15 50.33

2

3. 82

+

U.7II

+ 1.79

— 10 1 57.2

1 29.0

— 0.4

85 -/

Ursse Maj.

26 55. 6

13 11 5.37

2

3.79

4.70

+ 3.45

4 5ii 2'.' 22.0

II 1.4

4 5.7

Areturus .

1

6 53 40.6

14 7 54.77

2

3.70

—

1.40

— 1.21

4 20 17 47.4

— 0 29. 4

— I. 1

a <! assumi

i,i ,

not 5! '.

d T. I ass I ■

s 37in.: nol 36m. :

Hid ^ as-

b £ assumi

,1 an 31°

IE .;-

58' 58".

siiiiiril ;if- 20c

35' 11"; not 20° 35

' 21".

c ? assumi

i , ..-I e 39'.

i Miii. assumed

is 2(1-. not 22

(86)

fiOULl) — REDUCTION OF D AGELET S OBSERVATIONS.

ST

1T83 JUI,V lO-Continued Zen

corr. = -|- 1

l.Y .8.

Name

Mag.

T

App. sid. time

Clock corr.

n tan A

'/

s — #

Refr.

</

It in s

h m s

s

s

s

O ' II

/ /.

//

27 Bootis .

7 11 ll.d

14 25 28.05

— 2

3.. 74

— 3.23 + 1.2-

4- 39 n 18.0

- 0 9.2

+ 3.9

30 ( " . -

is 38. I

3.2 56. 37

<>

3.73

1.(13 — 1.6H

4- II 38 48.8

36.8

— 1.9

36 . " . .

23 18.8

3.7 37. ,-4

2

3.73

— 2. Ill

+ 0.56

+ 27 58 23. 4

1 1 21 1. 7

+ 1.3

9 i Librae .

26 ::-.:;

in 57. >0

2

3. 72

+ 1.06

4 1.61

— 15 7 55. 6

1 50.2

— 0.5

" . .

39 4.3

14 53, 25.o:;

2

3. 7 1

1.70

+ 2. 37

— 24 21 5.2

2 59.2

— 1.9

" . .

7 :.:; 1.2

15 7 25.12

2

3.69

4 0.60 + 1.87

— 8 34 18.0

1 24.4

— 0. 1

:: i Cor. Bor. .

s 6 34.6

21 H.75

2

3.68

— 2.24

+ 1.17

4 29 50 15.6

0 18.6

+ 1.9

'• . .

13 Id.'.)

27 38. 13

2

3. 67

2.114

4. 0.36

■f 27 25 48. 1

21.3

+ 1.1

24 a Serpentis .

21 14.7

35 13.25

2

3.66

11.49

— 1. 17

4-7 6 6.8

48. 1

— 1.6

::; , " . .

27 38.6

42 8. 2i i

2

3.65

0.35

— 0.73

4- 5 7 31.(1

51.7

— 1.4

5 r Herculis -

39 7. 3

:,:; 38.79

2

3. 64

1.31

— 1.35

4 1- 24 25.6

31.8

— 1.5

45 Serpentis .

4 1 53.2

15 50 25.63

2

::.(;::

— H.72

— 2. 61

4- in 27 50.6

(1 42. 9

— 1.8

1 (! Ophiuchi .

511 31.2

16 5 4.56

2

3. 63

+ 0.21

+ 1.37

— 3 8 5.0

1 9.1

— (1.7

13 H«reulis .

53 23. 2

7 57.03

2

3. 62

— 0.84

— 2.61

4 II 57 21.4

II 40.6

— 2.0

.".ii r, Serpentis .

8 58 37.3

13 11.00

2

3. 62

— 0. 10

— (i. in

4- 1 32 15. S

(I 58.7

— 1.0

:'. i' Ophiuchi .

5

o :; :;;;. 7

Is 0.2M

2

3.61

+ H.55

+ 1-88

— 7 52 51. 1

1 22.3

— 1 1. 5

7.8

6 17.ii

20 52.05

2

3.61

+ 11.40

+ 1.87

— 72 7.0

1 19.9

— 0.5

7

12 35.5

27 12.49

2

3. 60

— 0.13

— 0.08

4- 1 10 52.0

0 58.0

— 1.0

«) 42 Herculis <

6.7

19 53.5

::t 3i.uo

2

3.59

4.C.H

+ 3.30

9 2H 7.4

34 45.6:;

2

3. 59

4.6H

+ 3.30

4- 49 19 46.3

0.5

4- 5.6

62 - Ophiuchi .

10 24 10.(1

17 30 7.7-

2

:;. 52

— II. 10

— 0.24

4- 2 47 18.9

0 56.1

— 1.2

63 " . .

2- 45.8

43 35.31

2

3.51

+ 1.82

+ 2.55

- 24 48 17.6

3 2.8

— 2. 1

'.in./' Herculis -

33 32. 1

48 22.60

2

3.50

— 3. 52

+ 1.31

4- 40 1 51.4

0 -. 5

+ 4.1

b) 57 .." Serpentis -

36 15.4

51 6. 14

2

3.50

4 n.25

+ 1.49

— 3 4(i 16.6

1 in. 9

— 0.6

96 Herculis .

in 24.1

55 15.50

2

3. 50

— 1.50

- 1.16

4 20 49 25.2

0 29.0

— 0.8

71 / Ophiuchi .

44 12.5

17 59 4.52

2

3. 40

0.6U

— 1.55

4 8 42 8.6

45. -

- 1.8

7:! 7 " - -

46 1.6

18 0 53.02

2

3.40

1 1. 27

— 0. 44

4- 3 57 21.0

54.1

— 1.3

74 r " . .

57 15.2

12 9. 36

2

3. 48

0.22

_ ii.:;:;

4- 3 16 45.7

— 1.2

1(17 / Hc-rculis .

in 59 46.2

14 4(1.77

2

3.47

2.16

+ 0.88

4- 28 45 13.5

20.0

4- 1.5

Herculis .

11 1 40.7

16 35.59

2

3.47

1.57

— 1.06

4- 21 39 42. 1

2-.ii

— 0.6

7.8

5 Hi. 0

2d 5.46

2

3.47

1.95

— (1.(13

4- 26 18 23.9

22.6

+ 0.7

7

11 2. 4

26 17.85

2

3.46

1 . 25

— 1.41

+ 17 :;:: 30.8

33. 1

— 1.6

8

15 16.8

3ii 13.92

2

3.46

3.16

+ 1.28

4- 38 41 55. 3

9.8

4-3.8

3 a Lyrre .

1

16 15.7

31 13.06

2

3.45

— 3. 15

+ 1.27

4- 38 33 50.2

0 0.9

4-3.8

28 Sagittarii .

7

2(1 20.4

35 18.35

2

3. 45

+ 1.64

+ 1.75

— 22 35 14.2

2 40.0

— 1.4

Saturn .

24 4. 5

39 3. 00

2

3.45

1.64

+ 1.75

— 22 35 26.8

40.0

— 1.4

3-2 Sagittarii .

6

28 7. 3

43 6.52

2

:;.4i

1.68

+ 1.87

— 22 58 43.(1

43. 8

— 1.5

35 " . .

29 3. 1

44 2. 47

2

3.44

+ 1.67

+ 1.84

— 22 54 31.8

2 43.0

— 1.5

«■)

G.7

34 27.4

49 27. 66

2

3.43

— 1.02

— 1.61

4 14 32 26.7

ii 37.2

— 1.0

13 e A inula?

36 54.6

51 55.26

2

3.43

1.H4

— 1.59

4- 14 45 59.6

36. B

— 1.9

7.8

41 31.0

18 56 32. 42

2

:;. 43

1.51

— 1.15

4- 20 56 15.8

28. 8

— 0.8

</) 18 1 Lyrse . .

46 30.2

19 1 41.46

2

::. 42

2.84

+ 1.31

4- 55 44 38.2

12.7

4- 3.2

«)

6.7

51 16.li

6 19.02

2

3. 42

3.32

+ 1.31

4- 40 2 59.6

4- 4.1

20 ,l " . .

53 26.4

8 29.7-

2

3.41

3.16

+ 1.28

4- 38 45 17.4

9.7

4-3.9

21 e " . .

11 55 54.3

ln 58.09

2

3.41

.,.115

4- 1.27

+ 3.7 43 43.4

10.7

4- 3.6

6.7

12 8 3.1 (.3

23. 36. 16

2

3.39

0.49

— 1.15

4- 7 1 37.il

48. 7

— 1.6

38 a Aquilse

in 31.2

25 37.39

2

3.39

('. 4-'

— 1.13

4- 6 51 58.6

18.9

— 1.6

•14 <r '• . .

15 '.".1.2

3d 36.29

2

3.39

0.34

— 0.64

4- 4 54 6.8

— 1.4

17 \ " - -

6.5

10 2::. 11

34 30.65

2

3.38

0.79

— 3. mi

4- 11 18 36.0

42.0

— 1.9

7.8

21 6. 7

36 14.64

2

3.38

1.6H

— l.lll

4- 21 58 5. 6

27. 7

— 0.5

10

23 43.4

3- 51.77

2

3.38

1.72

— 0.75

+ 23 33 25.0

25. 8

0.0

7.8

25 42. 1

411 50.80

2

3.37

1.83

— 0.42

4- 24 50 8.H

24. 4

4- 0. 4

53 a " . .

27 10.7

42 19.64

2

3.37

0.58

— 1.45

4 8 17 32.6

46.7

— 1.7

6.7

31 2.4

46 11.98

2

3.37

0.46

— 1.05

-j- 6 51 7.0

49.6

— 1.6

60(3 " . .

4 5 51 43.0

50.8

— 1.5

1 1 Sagiltse

34 52.8

5n 3.01

2

3.36

1.15

— 1.48

4 16 M 40.o

35.0

— 1.8

7

35 20. 1

511 30.38

2

3.36

1.35

— 1.50

4 15 51 4. 1

35. 4

— 1.3

7.8

in 14.5

55 25. 58

2

3.36

1 . 21 1

— 1.41

4 17 40 50.5

33.0

— 1.6

7

12 411 20. 1

10 55 4(1.22

— 2

3.36

— 1.28

— 1.40

4 17 53 7.8

— 0 32.7

— 1.5

a Transits of star mar

ted "Pr

seeding" assum

id as belonging 1

it,'

d The two observations of this star. July In :

nd 19,

closely.

Herculis, and thos

• recordi

it for 42 a- bi !"i

giug to the pre

iug

both measures of £ being recorded for

each night.

But on

star, the differea

3es of t

le threa 1- h.ivi

tg been applied

by

examining the conversion of divisions int

o arc we fim

in each

d'Agelet with the

wrong si

?n.

date a result differing by in' from the

true value *

•hich i-

6 Div. assumed a- 56 i

; not 56

6.

correctly recorded in tiie column "t ■■ nitb

distance in at

c. Div.

c £ assumed as 34

8 5; n

t :;l I8'9".5.

assumed as 13 12 13; not 1:1 15 11.
e £ assumed as 83 45' 4". 5: not 8C I.Y ::!'.. ~i.

(87)

88

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

17S3 JUIilf tO— Coutinued Zero corr. = + 1' 45". 8.

Name

Mag.

T

App. sid. time

Clock corr.

n tan 6

1

c — 0

Refr.

l'

h vi s

It in s

VI s

s

s

O ' ll

/ n

II

64 Aquilae

7.8

12 43 42. 9

19 58 54.55

— 2 3. 35

+ 0.09

+ 0.85

— 1 18 1.2

— 1 5.2

— 0.7

65 8 Antinoi

46 59. 1

20 2 11.29

2 3. 35

0. 10

+ 0.90

— 1 27 42.2

1 5.7

— 0.7

Jupiter

50 41.9

5 54.70

2 3.35

+ 1.51

+ 1.48

— 20 56 12. 1

2 26.7

— 1.0-

7

54 23.0

9 36.40

2 3.34

0.00

+ 0.36 -■ 0 1 57.3

1 2.4

— 0.8

7

12 56 46. 1

Jl 59.89

2 3. 34

— 0.75

— 2. 78 + 10 46 53. 2

0 42.8

— 1.9

7

13 2 45.7

18 0.48

2 3. ?.:!

0.93

— 1.77

+ 13 11 54.8

39. 2

— 2.0

a)

8.9

5 32. 4

20 47.01

2 3. 33

1.39

— 1.28

+ 19 22 56. 8

30.8

— 1.3

b)

9

8 8.8

23 24. 47

2 3. 32

1.43

— 1.24

+ 19 51 46.8

30.3

— 1.1

4 C DeTphini .

12 2.1

27 18.41

2 3. 32

0.98

— 1.66

-f 13 55 6.6

38.2

— 2.0

6 a " . .

14 14.2

29 311.87

2 3. 32

0.97

— 1.67

+ 13 50 0.0

38.3

— 2.0

9 a " . .

16 25. 1

31 42. 13

2 3. 32

1.06

— 1.56

+ 15 8 19.9

36.5

— 1.9

50 a Cygni .

20 52. 4

36 10. 16

2 3.31

2-88

+ 1.79 l-j- 44 28 54.0

4.2

+ 5.0

c)

8

29 21.5

44 40.65

2 3.30

1.22

— 1. 12 + 17 12 23.3

33.7

— 1.7

<0

7

13 32 6.6

20 47 20.2H

— 2 3. 30

— 2.04

+ 0.28

+ 27 13 4. 8

— 0 21.7

+ 1.0

178

3 JTITLIT 12 Zero cnrr. = + 1' 44".l.

55 a Ophiuchi .

10 4 18.8

17 26 57. 39

— 1 59.21

— 0.90

— 1.86

+ 12 42 43.2

— 0 40.0

— 2.0

58 n •' . .

6

9 46. 4

32 25.89

1 59. 19

+ 1.58

+ 1.54

— 21 32 57.4

2 32.5

— 1.1

62 y " . .

16 23.3

39 3.88

1 59.18

— 0.19

— 0.25

+ 2 47 18. 6

0 56.8

— 1.1

c) 63 " . .

20 49.4

43 30.71

1 59.17

+ 1.84

+ 2. 55

— 24 48 15.0

3 2.9

— 2.0

/) 5 Sagittarii .

26 9. 8

48 51.99

1 59.17

1.80

+ 2.30

— 24 13 37.0

2 57. 9

— 1.8

10) " . .

31 5. 0

53 47. 99

1 59. 16

2. 34

-f- 4.96

— 30 21 38.8

4 34.0

— ... 1

716 Mayer. .

7

33 32. 8

17 56 16. 20

1 59.10

2.10

+ 4.26

— 28 25 40. 6

:: 56. 9

— 4.1

19 c! Sagittarii .

46 16.7

18 9 2.19

1 59.14

2. 29

+ 4.81

— 29 51 26. 8

1 26.6

— 5. 1

23/ " . .

53 45. 9

16 32.00

1 59. 13

1.91

+ 2.90

— 25 29 57. 4

3 12.8

— 2.4

728 Mayer . .

6

56 38. 9

19 26. 07

1 59. 12

1.36

+ 1.46

— 18 50 25. 0

2 12.8

— 0.7

730 " . .

7

10 57 55. 1

20 42.78

1 59. 12

+ 1.34

+ 1.49

— 18 31 34.7

2 10.7

— 0.7

3 a Lyra? .

11 8 50.3

31 39.47

1 59. 1 1

- 3.20

+ 1.27

+ 38 33 52. 4

0 10.0

4 3.8

Saturn -

15 31.6

38 21.87

1 59.10

+ 1.67

+ 1.75

— 22 36 2.2

2 41.9

— 1.4

32 j>' Sagittarii .

2ii 12.2

43 3. 2 1

1 59.(19

1.70

+ '-87

— 22 58 40. 5

45.3

— 1.5

35 Vs " . .

21 7.8

43 58. 99

1 59.011

1 . 69

-f- 1.84

— 22 54 30. 0

44.5

— 1.5

37 f " . .

23 55. 2

46 46.85

1 59.09

1.57

4- 1.51

— 21 21 40.0

2 31.2

— 1.0

8

28 48. 9

51 41.35

1 59.08

0.33

+ 1.70

— 4 44 16.5

1 14.4

— 0.5

g) 14 g A quite

6

30 36.9

53 29. 65

1 59.08

0.28

+ 1.57

— 40 23.0

12.4

— 0.6

15 A " . .

0.7

32 38.0

55 31.08

1 59.ii-

+ 0.30

+ 1.64

— 4 20 49. 6

13.3

— 0.6

8.9

35 14.0

i 7. 51

1 59.07

— 0.02

+ O.20

+ 0 18 30.2

1 2.1

— 0.8

h)

7.8

43 20.5

19 6 15.34

1 59.00

3. 30

+ 1.31

+ 40 2 59. 9

0 8.5

+ 4.1

21 6 Lyrse . .

47 58.7

10 54.30

1 59.06

3.09

+ 1.27

+ 37 4:'. 46.8

10.8

4- 3.6

30 A Aquilae

53 39. 7

16 36.23

1 59.05

— ii. 19

— o.2:i

+ 2 40 57.4

0 57.2

— 1. 1

35 c " . .

G

11 58 21.8

21 19.10

1 59.04

+ 0.23

+ 1.39

— 3 14 9.9

1 10.4

— 0.7

38 p " . .

12 2 34.8

25 32.80

1 59.04

— 0.49

— 1.13

+ 6 54 59. 6

0 49.2

— 1.6

41 i " . .

— 1 45 49.5

1 6. 9

— 0.7

44 a " . .

7 33.2

30 32.01

1 59.03

0.34

— 0.64

+ 4 54 1 1 . 1

0 52. 9

— 1.4

47 \ "

11 27.5

34 26.96

. 1 59.02

0.80

- 3.00

+ 11 18 39.0

42. 4

— 1.9

50 y " - -

15 1.2

38 1.24

1 59.02

0.71

— 2. 34

+ 10 4 48.0

41. 3

— 1.8

53 a " . .

19 15.4

42 16. 14

1 59.01

0.58

— 1.44

+ 8 17 34.6

47.1

— 1.7

8. 9

21 36.5

44 37. 64

1 59.0]

- 0.27

— 0.41

+ 3 50 25. 7

0 55.0

— 1.3

8

25 T.o

48 8.70

1 59.nl

4 0.02

+ 0.42

— 0 13 28.6

1 3. 4

— 0. s

16 Vulpecnlse

31 50.7

54 53.51

1 59.00

- 1.81

— 0.57

+ 24 19 7.0

0 25.2

+ o.l

»)

8

34 40.0

57 43.27

1 58.99

1.67

- 0.92

+ 22 35 25. 0

27.2

— 0.3

17 " . .

36 34.6

19 59 37.60

1 58.99

1.70

— 0.85

4- 22 58 41.1

26.7

- 0.3

8.9

40 30.8

20 3 35. 14

1 58.99

- 1.49

- 1.19

-f- 20 28 4::. 2

0 29.8

— 1.0

5 a1 Capricomi

44 31.5

7 30.40

1 58.98

4 0.94

+ 1.58

— 13 9 5o.o

1 43.2

- 0.3

6 </: " . .

44 55.2

8 0. 16

1 58. 98

4- 0.94

4- 1.58

- 13 12 6.0

1 43.4

— 0.3

37 y Cygni -

12 53 24.0

16 30.37

1 58.97

— 2.31

4- 1.29

4. 39 32 30.0

0 9.0

4 4.0

4 f Delphini .

13 4 6.6

27 14.73

1 58.95

0.99

- 1.66

4 13 55 9. 4

38.6

- 2 0

6

7 57. 1

31 5. so

1 58.95

1.08

- 1.57

4 15 4 5.0

36.9

- 1.9

9 a " . .

8 29.4

31 38.25

1 58.95

1.08

- 1.56

4 15 8 26. 0

36.8

- 1.9

5 o Cygni .

13 12 56.4

20 36 5.98

- 1 58.94

- 3.93

4 1.79

4- 44 28 55. 5

- 0 4.2

4 5.0

a T. Ill assnmed

; not 36]

t

g assume I a "i

i°39'20"; not 73° 39' 30". g Div. assumed as 56 6

'_'; .Mil 56 6 4.

b g assumed as28 59

. ii. .1

H° 59' 18". J

Minute assumi

1 us g5m. ; not 28m. : T. I h Div. assumed as 9 t> !

; not 9 ii I.

r g assumed as 31

1"; lint :

p:i.i i".

assumed as

11, i n i !4s.5: T. II as i T. II assumed as 41s

; not 21s. Transits

d Transits over Ts. II

ail III

assumed as

10s. ; not 0s.

and g as 7:P 4'j not 73° 5'. discordant

recorded over Ts. 1

and II.

.88)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

89

f)s:l JIT|,V 12— Comiuiird Zerocorr. = + 1' 44". 1.

Name

Mag.

T

App. ski. time

Clock coir.

71

tan 6

'/

f-4>

Refr.

<?'

h m s

A m s

m s

s

s

o / "

/ //

„

56 Cygni .

6

13 21 15.2

20 11 26.15

— I 58.93

3.76

+ 1.54

+ 43 13 12.3

— 0 5.4

+ 4-7

58-/ " . .

27 57. 0

51 9.05

1 58.92

3.40

+ 1.32

+ 4(1 18 42.2

8.3

+ 4.1

59/' " . .

31 17. 1

51 29.70

1 58.92

4.24

+ 2.63

+ 46 38 59. 8

2.1

+ 5.4

61 " . .

6

36 1.8

20 59 15. 18

1 58.91

3. 09

+ 1.27

+ 37 39 55. 8

10.9

+ 3.6

64 C " . .

42 30.9

21 5 45. 35

1 58.90

+ 1.H7

+ 29 19 15. 0

19.6

+ 1.6

66 v " . .

13 47 48.0

1 1 3. 32

1 58.90

2.70

+ 1.39

+ 33 58 3. 0

0 14.7

+ 2.9

39 e Capricorni

14 3 35.6

26 5S. 52

1 58.88

+

1.49

+ 1.44

— 20 24 45.0

2 24. 3

— 0.9

7

7 46.2

31 4.80

1 58.87

3. 16

+ 1.27

+ 38 19 14.0

0 10.3

+ 3.7

12 Pegasi .

6

11 50.7

38 10.45

1 58.86

1.61

— 1.02

+ 21 56 6. 0

28.0

— 0.5

n) 13 " . .

6.7

18 33.8

41 54.16

1 58.85

1.17

— 1.48

+ 16 15 58.2

35.3

— 1.8

6.7

20 6.7

43 27. 31

1 58.85

1.36

— 1.32

+ in 47 53.7

32.0

— 1.4

8.9

22 55. 5

46 16.57

1 58.85

2.07

+ 0.31

+ 27 18 26.7

0 21.8

— 1.1

7.8

26 13.0

49 34.61

1 58.84

+

0.38

+ 1.78

— 5 23 31.2

1 16.5

— 0.5

28 Aquarii

7

28 37.5

51 59.51

1 58.84

0.03

+ 0.52

— 0 26 17. 0

1 4.0

— 0.8

32 " . .

32 15.7

55 38. 3 1

1 58.84

+

0. 14

+ 1.H5

— 1 57 20.6

1 7.5

— 0.7

6.7

35 50. 2

21 59 13.40

1 58.83

1.33

— 1.35

+ 18 24 7.0

0 32.5

— 1.4

7.8

38 39.7

22 2 3.37

1 58.83

1.34

— 1.34

+ 18 32 35.8

32.3

— 1.4

8.9

40 43.2

4 7.21

1 58.82

1.73

— 0.69

+ 23 51 54.2

26.5

— 0. 2

8

42 22. 0

5 46.28

1 58.82

2.08

+ II. 3.9

+ 27 31 2.6

21.6

+ 1.2

10

45 7. 8

8 32.54

1 58.82

1.60

— 1.04

+ 21 48 9.H

28.2

— 0.6

8

48 4. 5

11 29.72

1 58.82

2.98

+ 1.29

+ 36 39 29. 4

11.9

+ 3.4

7.8

51 9.7

14 35.43

1 58.81

3.31

+ 1.29

+ 39 33 3.8

9.0

+ 4.0

7

55 45.4

19 11.89

1 58.80

2.94

+ 1.30

+ 36 19 4.6

12.3

+ 3.3

7.8

57 25.5

20 52.24

1 58.80

3.73

+ 1.52

+ 42 59 19. 0

5.7

+ 4.7

5 Lacertoe .

14 59 6.5

22 33. 52

1 58.80

4.23

+ 2.59

+ 46 34 12.8

2.2

+ 5.4

'0

7.8

15 2 38.7

26 6. 30

1 58.80

3.32

+ 1.29

+ 39 in 39.8

9. 0

+ 4.0

8.9

:: 32.9

27 0. 65

1 58.79

3.32

+ 1.29

+ 39 37 53.7

9.0

+ 4.0

c)

6.7

7 36.9

30 59. 30

1 58.79

3.86

+ 1.69

+ 44 1 46.2

4.7

+ 4.9

43 o Pegasi .

10 9.6

33 38.43

1 58.79

2.14

+ 0.65

+ 28 9 21.0

20.9

+ 1.3

6

14 1.9

37 31.37

1 58.78

2.24

+ 1.07 + 29 18 15.8

19.7

+ 1.6

5.6

16 48.8

40 18.73

1 58.78

2.94

+ 1.30 + 36 15 11.7

0 12.4

+ 3.3

Fomalhaut

1

24 0. 5

47 31.61

1 58.77

+ 2-

+ 5. (14

— 30 42 29. 8

4 49.0

— 6.1

1 o Androm. .

30 29.2

54 1.38

1 58.76

—

3.49

+ 1.37

+ 41 8 1.6

0 7.5

+ 4.3

56 Pegasi -

35 4.2

22 58 37. 12

1 58.76

1.81

— 0.58

+ 24 16 46. 3

25.3

0.0

15 38 27. 0

23 2 0.48

— 1 58.75

—

1.18

— 1.47

+ 16 24 12.2

— 0 35. 2

— 1.8

178!

t JCIY 14

Zei

o corr. = + :

' 47".4.

5 a Cor. Bor. .

2.3

7 57 19.6

15 27 30.45

— 1 55.91

2.10

+ 0.36

+ 27 25 47. 2

— 0 21.4

+ 1.1

41 y Serpentis .

8 18 13.5

48 27. 78

1 55.89

—

1.19

— 1.47

+ 16 21 37. 6

0 34.8

— 1.8

8 i Scorpii

8 24 31.3

15 54 46. 62

1 55.88

+

1.41

+ 1.42

— 19 11 35.6

2 14.4

— 0.7

43 Sagittarii .

6

11 36 4.8

19 6 51.59

1 55.66

+

1.42

+ 1.41

— 19 18 49.4

2 16.3

— 0.7

7

39 28. 3

10 15.66

1 55.65

1.58

— 1.09 + 21 24 51.8

ii -j-.i;

— 0.7

7

42 51.8

13 39.71

1 55.65

1.61

— 1.04 + 21 46 56.3

— 1.24 + 19 50 1.6

28.2

— 0.6

7

45 33.0

16 21.35

1 55.65

1.46

30.6

— 1.1

7

47 8.1

17 56.71

1 55.64

1.46

— 1.24 + 19 50 5.0

30. 6

- 1.1

5 VulpeculsB

47 57.6

18 46. 34

1 55.64

1.45

— 1.26 -j- ]9 39 29.4

30.8

— 1.1

3V U Aquiloe

54 39.8

25 29. 64

1 55.64

0.49

— 1.13 + 6 54 57.6

49.3

— 1.6

44(i " . .

11 59 38.2

30 28. 86

1 55.63

0.35

— 0.64

+ 4 54 7. 1

53.0

— 1.4

d) 10 Vulpeculae

6

12 5 50.2

36 41.88

1 55.62

1.91

— 0.32

+ 25 14 25. 7

24.1

+ 0.4

53 a Aquilaj

11 19.6

42 12. 18

1 55.61

—

0.59

— 1.45

+ 8 17 31.8

0 47.1

— 1.7

58 " . .

14 43. 1

45 36.24

1 55.61

+

0.02

+ 0.46

— 0 17 29.3

1 3.6

— 0.8

12 y Sagittre .

20 13.4

51 7. 44

1 55.60

1.39

— 1.32

+ 18 53 38.4

0 31.8

— 1.3

15 Vulpecula?

23 15.6

54 10. 14

1 55.60

2.08

+ 0.26

+ 27 8 25. 8

22.0

+ 1.0

7.8

26 28. 2

19 57 23. 27

1 55.59

2.87

+ 1.32

+ 35 23 40. 0

13. 1

+ 3.1

27/3' " . .

29 22. 5

20 0 18.05

1 55.59

—

2.87

+ 1.32 +35 21 23.8

0 13.2

+ 3.1

Jupiter

32 44. 2

3 40.30

1 55.59

+

1.56

+ 1.48

— 21 2 59. 9

2 29. 0

— 1.0

e) 5 a' Capricorni

39 32. -

in 30.02

1 55.58

1.11

+ 1.63

/) 6 a* " . .

12 39 47.3

20 10 44.55

— 1 55.58

+

1.11

+ 1.63

— 15 26 58. 0

— 1 53.8

— 0.5

a Div. assum

ed as 34

12 2; not ;)4 12 1

e Name assumed as 8 /?' Caprict

rni ; not 5

b g assumed

is 9 1"'

not 9° 12'.

«' Capricorni.

c g assumed

i- 4"- 111'

; not 4° 48' : an

d T. I

/ Name assumed as 9 0 Capricor

ni ; not 6 a3

as 6m. ; i

lot 7m.

Capricorni.

d Min. asBUii

ed as 5 £

nd 6 ; not 4 and

5.

12

(89)

90

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 JILV 19 Zero corr. = + 1' 46". 4.

Name

Mag.

r

App. siJ. time

Clock corr.

n t au 6

<l

f-#

Refr.

?'

A m s

h m s

m s

s

s

o / "

, //

/;

85 r) Urs. Maj. .

2

5 51 17.6

13 40 50. 54

— 1 48.58

— 4.95

4 3.45

+ 50 22 23. 0

- 0 1.4 4 5.7

Arctunis -

1

6 18 2.1

14 7 39.44

1 48.56

1.52

— 1.21

+ 20 17 45.8

29.6 |— 1.0

30 f Bobtis . .

42 59.7

32 41.14

1 48.53

1.07

- 1.60

+ 14 38 47.8

37.1 1— 1.9

36 e " . .

47 40.5

37 22. 71

1 48.53

- 2.18

4 0.56

4 27 58 23.6

0 20.8

4 1.3

9 o'^Libne .

6 50 59.9

11 411 42.65

1 48.52

4 1.11

+ 1.61

— 15 7 58.5

1 51.0

— 0.5

5 a Cor. Bor. .

7 37 32.5

15 27 22.90

1 48.48

— 2. 12

+ 0.36

4 27 25 48.0

0 21.4

4 i.l

24 a Serpen tis

45 36.5

35 28. 22

1 48.48

— 0.51

— 1.17

+ 7 6 6.0

0 48.7

— 1.6

32/, " . .

50 16.4

40 8. 89

1 48.46

4 0.20

4 1.28

— 2 46 2. 2

1 8.9

— 0.7

37 £ " . .

52 0. 1

41 52.88

1 48.46

— 0. 37

— 0.71

+ 5 7 33.4

0 52. 3

— 1.4

a) 7 <S Scorpii

7 59 25.7

49 19.70

1 48.45

4 1.66

-f 1.62

— 21 58 35.7

2 35.9

— 1.2

8/3 " - -

8 4 44.2

15 54 39. 07

1 48.45

+ 1.43

4 1.42

— 19 11 31.1

2 14.7

— 0.7

16 r Cor. Bor. -

12 58. 8

16 2 55. 02

1 48.44

— 3.09

+ 1.27

4 37 1 29.6

0 11.5

4 3.5

l>)

6

15 48.7

5 45.39

1 48.44

3.09

4 1.28

4 36 58 5.6

11.5

+ 3.5

16 Hcrculis .

6.7

17 49. 1

7 46. 12

1 48.44

— 1.44

— 1.29

4 19 20 46. 6

0 31.0

— 1.3

Antares

27 55. 5

17 54. 18

1 43.43

4 2.00

4 3.11

— 25 54 41.8

3 17.0

— 2.6

9 u Oplriuchi .

31 7. 5

21 6. 70

1 48.42

1.57

+ 1.48

— 20 58 40. 6

2 27.6

— 1.0

23 t Scorpii

34 9.8

24 9. 50

1 48.42

4 2. 15

4 3.94

— 27 43 9. 2

3 43.9

— 3.5

38 Hcrculis -

7

42 39. 5

32 40.60

1 48.41

— 0.38

— 0. 74

4 5 17 18. 1

0 51.9

— 1.1

41 " . .

6

46 17.5

36 19.20

1 48.41

0.47

— 1.04

+ 6 30 3.2

49.8

— 1.6

0

6.7

50 0.3

40 2.60

1 48.40

1.01

— 1.67

+ 13 58 5. 0

38.3

— 2.0

46 ff.C.1712.

6

51 25.8

41 28. 33

1 48.40

1.02

— 1.65

4 13 38 0.8

38.6

— 2.0

6.7

54 22.5

44 25. 50

1 48.40

2.66

+ 1.40

4 32 54 17. 8

15.7

4 2.7

d)

7

8 58 30. 0

48 33.69

1 48.40

3. 84

+ 1.54

4 43 10 37.0

5.4

4 4.7

6.7

9 2 49.0

52 53. 40

1 48.39

3.811

+ 1.50

+ 42 49 35. 0

5.8

4 4.7

7.8

6 34.2

16 56 39.22

1 48.39

3. 82

4 1.52

4- 43 1 5.8

5.6

4 4.7

8

10 52.7

17 0 58.43

1 48.38

2. 12

+ 0.33

4 27 21

8

11 4.5

1 10.26

1 48.38

2.12

+ 0.33

4 27 22 10. 0

21.6

4 Li

7

16 11.4

6 18.00

1 48.38

1.63

— 1.06

+ 21 40 29. 3

28.2

— 0.6

6.7

20 17.5

10 24.77

1 48.37

1.77

— 0.79

4 23 18 49.6

26.2

— 0. 2

70 Hcrculis .

23 43.3

13 51.13

1 48.37

1.88

— 0.47

4 24 42 13.4

24.6

4 0.3

73 " - -

0.7

26 47.5

16 55.83

1 48.37

1.75

— 0.83

4 23 9 3.5

26.4

— 0.2

c) 55 a Opliiuclii .

9 36 36. 2

17 26 46. 14

1 48.36

0.92

— 1.86

4 12 42 44.6

40.2

— 2.0

112 Hcrculis .

in 54 31.2

18 44 53.94

1 48.28

1.58

— 1.11

4 21 9 16.5

29.0

— 0.8

63 6 Serpeutis .

10 56 54.9

47 18.04

1 48.27

0.28

— 0.43

+ 3 55 14.5

54. 9

— 1.3

13 £ Acruiko

11 1 16.8

51 40.66

1 48.27

1.08

— 1.59

4 14 46 1.0

37. 2

— 1.9

8

5 49. 1

56 13.71

1 48.27

0.92

— 1.89

4 12 40 5.0

40.3

^2.0

17 f " . .

6 55.0

18 57 19.79

1 48.27

0.99

— 1.71

4 13 32 4.7

39.1

— 2.0

/) 18 i Lyras . .

11 0.6

19 1 26.06

1 48.26

2.95

+ 1.31

+ 35 44 3s. 2

12.8

4 3.2

7.8

13 40.1

4 6. 00

1 48.26

3.13

+ 1.27

+ 37 25 32. 1

11.2

4 3.0

7

16 6.5

6 32.80

1 48.26

3.32

+ 1.28

-+- 39 2 10.0

9.6

4 3.9

20 f " . .

17 48.5

8 15.08

] 48.26

3.29

+ 1.28

4 38 45 17. 2

9.8

4 3.9

21 e " . .

20 16.5

111 43.49

1 4S.25

3.17

-f- 1.27

4 37 43 45.7

10.9

4 3.6

7.8

23 5.2

13 32.65

1 48.25

1.64

— 1.04

4 21 40 58. 8

28.2

— 0.6

30 (5 Aquilae

25 57. 3

16 25.22

1 48.25

0. 19

— 0.23

4 2 40 59. 4

57.4

— 1.1

9 Cygni .

6.7

31 2.3

21 31.H6

1 48.24

2.27

+ 0.98

4 28 59 40. 0

20.0

4 1.6

6.7

40 14.2

30 44.47

1 48.23

1 . 52

— 1.21

+ 20 17 3.8

30.1

— 1.0

5 a Sagittre

41 46.8

32 17.32

1 48.23

1.29

— 1.41

-j- 17 30 27.0

33.6

— 1.6

6/3 ' . .

42 41.4

• 33 12.07

1 48.23

1.25

— 1.43

+ 16 57 57. 0

34.4

— 1.7

43 iji Aquilae

6.7

45 51.6

36 22.79

1 48.23

0. 93

— 1.81

4 12 46 37.0

40.3

— 2.0

50 y " . .

47 18.6

37 50.03

1 48.23

0.73

— 2.35

4 10 4 48.6

44.4

— 1.8

53 a "

51 32.8

42 4.93

1 48.22

0.60

— 1.44

4 8 17 35.4

47.2

— 1.7

7

53 54. 0

44 20.52

1 48.22

0.28

— 0.41

4 3 50 22. 0

55.1

— 1.3

60,3 " . .

11 55 58.9

19 46 31.75

1 48.22

— 0.42

— 0. 90

+ 5 51 51.5

0 51.4

— 1.5

Jupiter

12 10 16.6

20 0 51.80

1 48.20

4 1.59

4 1.49

— 21 11 17.8

2 30.5

— 1.0

5 «' Capricorui

16 49.3

7 25.58

1 48.20

0.96

4 1.58

— 13 9 54.0

1 43.7

— 0.3

6os " . .

17 13.1

7 49.45

1 48.20

0.96

+ 1.58

— 13 12 9.5

43.9

— 0.3

9/3 " . .

20 0.0

1(1 37.41

1 48. 19

4 1.13

+ 1.63

— 15 26 54. 5

1 54.1

— 0.5

37 y Cygni . .

25 42. 1

16 19.84

1 48. 19

— 3. 38

4 1.29

4 39 32 34.2

0 9.1

4 4.0

7

31 43.3

22 22. 03

] 48.18

1.39

— 1.33

+ 18 41 8.6

32.2

— 1.4

7

33 52. 2

24 31.28

1 48.18

1.66

— 1.00

-j- 22 4 44. 0

27.9

— 0. 5

g)

6

38 1.4

28 41.16

1 48.17

4.24

+ 2.37

+ 45 55 32. 6

2.8

4 5.3

7

12 43 16. 8

20 33 57. 42

— 1 48.17

— 4. 08

4 1.92

4 44 52 33. 0

— 0 3.9

4 5.1

a ? assumed as 70Q 4!T 23".5 j not 7(P 49' o3".5, d § assumed as 53 40' 28" ; uot 55 40' 8".
b I assumi d as I I 52' 59"; not 11° 52* 20?'. e £ assumed as 36° 8'; not 36° 9': and Micr.

c S assumed as 34° 53' ; uot 34° 58'. corr. as + 1 ; not — 4.

/ Div. assumed as 13 12 13; not 13 15 11.

(See also note d, July 10.)
g Div. assumed as 3 1 15; not 3 1 11.

(90)

GOULD EEDU( TION OF D AGELET S OBSERVATIONS.

91

1»S3 JIT.Y 19— Continued Zero corr. = + 1' 46". 4.

Name

Mag.

T

App. ski. time

Clock corr. 71 tan <!

'/

?-♦

Eefr.

< i

h m s

h m s

771 s

s

s

0 / //

t II

//

50 a Cygni .

12 45 13. 9

20 35 54. 84

— 1 48. 17 -

- 4.03

+ 1.79

f 44 28 57.5

- 0 4. 2 4- 5. 0

53 £ " . .

48 37. 1

39 18.80

1 48.17

2.68

+ 1.40

4- 33 8 -.'7. 1

15. 5

4-2.7

5G " . .

53 33.2

44 15.51

1 48.16

::. 85

+ 1.54

4- 43 13 11. 6

5.5 4-4.7

57 " . .

12 56 44.4

47 27.23

1 48.16

3.89

+ L.59

-|- 43 32 37.9

5.1

4-4.8

58 u " . .

13 0 15.3

50 58.71

1 43.15

3.48

+ 1.32

4- 40 18 39.7

8.3

4- 4.1

o) 59/ " . .

3 35.5

54 19.46

1 48.15

4.34

+ 2.63

4- 46 38 59. 1

2.1

4-5.4

62| " . .

8 10.7

20 58 55. 41

1 48.14 3.82

+ 1.52

+ 43 2 22. 8

5.6

4-4.7

7

13 51.5

21 4 37. 14

1 48.14

2.34

+ 1.14

4- 29 42 42. 8

19.2

4- 1.8

64 ; " - .

14 48. 6

5 34.40

1 48. 14

2.30

+ 1.07

+ 29 19 16. 4

19.7

4- 1.7

b) 60 v " . .

20 6.0

10 52. G7

1 48. 13

2. 76

+ 1.39

4-33 58 6.4

14.7

4-2.9

1 c Pegasi .

23 10. 1

13 57.27

1 48.13

1.40

— 1.32

4- 18 51 55.6

32.0

- 1.3

7

26 6.3

16 53.95

1 48. 13

3.02

+ 1.30

4- 36 24 6. 0

12. 2

4-3.4

69 Cygui . .

G.7

28 0. 4

18 48.36

1 48. l'J

2. 95

+ 1.31

+ 35 42 42. 2

12.9

4-3.2

2/ " . .

31 12.1

22 0.59

1 48.12

J. 71

— 0. 91

+ 22 40 30. 6

27.2

— 0. 3

6

36 13.6

27 2.92

1 48.12

4.0S

+ 1.92

+ 44 52 0.6

3. 9

4- 5.1

7:iP " . .

36 53. 0

27 42.43

1 48.12

4. 05

-f- 1.83

+ 44 36 32.2

4.1

4-5.0

8

42 8. 7

32 58. 99

1 48.11

2.15

+ 0.47

+ 27 45 7. 0

21.4

4- 1.2

78 p " . .

45 28. 3

36 19.14

1 48.11

2.15

+ 0.47

+ 27 44 48. 0

21.4

4- 1.2

0

6.7

45 43.8

36 34.68

1 48.11

2.16

+ 0.50

+ 27 4G 20. 0

21.4

4-1.2

13 Pegasi -

50 51 . 3

41 43.02

1 48.10

1.20

— 1.43

+ 16 15 58.4

35.4

— 1.8

6

54 26.2

45 18.51

1 48.10

1.38

— 1.33

+ 18 37 59.2

32.3

— 1.3

6

55 7.1

45 59.52

1 48. 10

1.39

— 1.33

+ 18 41

d)

6

13 59 42. 8

50 35.97

1 48.09

— 1.33

— 1.39

+ 17 58 25.6

0 33.1

— 1.5

32 Arjnarii

14 4 33.2

55 27.16

1 48.no

+ 0.14

+ 1.05

— 1 57 22. 1

1 8.0

— 0.7

34 a " . .

5 34.0

56 28. 13

1 48.09

+ 0. 10

+ 0.86

— 1 22 26. 8

1 6. 3

— 0.7

6.7

9 4.1

21 59 58. 64

1 48.08

— 0.12

— 0. 04

4- 1 40 8.8

0 59.7

— 1.0

6.7

12 21.2

22 3 16.44

1 48.08

1.10

— 1.57

4- 14 57 42. 5

37.3

— 1.9

7.8

15 38. 3

6 34.08

1 48.08

— 2. 22

-|- 0.78

4- 28 28 50. 6

0 20. 6

4- 1.4

48 y " . .

21 19.3

12 16.01

1 48.07

+ 0.18

+ 1.20

— 2 28 49. 4

1 9.1

— 0.7

55 f " . .

28 32. 0

19 29.90

1 48.06

0.08

+ 0.80

— 1 7 55.2

1 6.0

— 0.7

59 v " . .

33 37. 3

24 36. 04

1 48.06

+ 1.64

+ 1.59

— 21 47 38. 8

2 36.4

— 1.2

8.9

38 29. 7

29 29.24

1 48.05

— 0.58

— 1.39

4- 8 7 25. 6

0 47.7

— 1.7

42 C Pegasi .

41 31.2

32 31.24

1 48.05

0.70

— 2 06

+ 9 41 22. 9

45. 2

— 1.8

44 7i " . .

43 42. 4

34 42.80

1 48.05

2.28

+ 1.00

4-29 4 9. 4

20.0

— 1.6

47 X '* - -

46 58. 1

37 59.04

1 48.05

1.69

— 0.95

4- 22 24 32. 5

27.6

— 0.4

6.7

50 54.2

41 55.79

1 48.04

1.33

— 1.39

4- 17 58 46. 2

33.2

— 1.5

6

14 55 1.8

46 4.07

1 48.04

3.34

+ 1.28

4- 39 11 47.5

0 9.4

4-3.9

Fomalhaut

— 30 42 33. 8

4 50. 3

— 6.1

7

15 1 36.4

52 39. 64

1 48.03

3.98

+ 1.72

4- 44 10 58. 0

0 4.5

4-4.9

1 o Audrorn. .

2 47.3

53 50. 83

1 48.03

3.58

+ 1.37

4-41 8 3.8

7.5

4- 4.3

54 a Pegasi .

4 47.2

55 51.06

1 48.03

1.02

— 1.65

4- 14 1 34.1

38.6

— 2.0

6

7 36. 1

22 58 40.42

1 48.02

1.49

— 1.23

4- 19 56 55. 8

30.6

— 1.1

6.7

9 51.1

23 0 55.79

1 48.02

2.22

+ 0.78

4- 28 28 24. 5

20.6

4- 1.4

7

11 28.7

2 33.66

1 48.02

2.26

+ 0.92

4- 28 50 43.3

20.3

4- 1.5

6.7

14 2.7

5 8.08

1 48.02

1.36

— 1.35

4- 18 26 19.2

32.7

— 1.4

7

18 0.6

9 6.63

1 48.01

2.65

+ 1.40

4- 32 50 31.6

16.0

4- 2.7

12 Androm. .

21 12.7

12 19.26

1 48.01

3.09

+ 1.28

4- 36 58 25. 6

11.7

4- 3.5

6.7

24 57.0

16 4. 17

1 48.01

3.44

+ 1.30

4- 39 53 46. 3

8.8

4- 4.1

13 " . '.

27 27.5

18 35.08

1 48.01

3.65

+ 1.40

4- 41 41 26.7

7.0

4-4.4

6.5

33 48.4

24 57. 02

1 48.00

1.46

— 1.26

4- 19 37 30. 4

31.1

— 1.2

17 t " . .

38 15.5

29 24. 85

1 48.00

3.69

+ 1.43

4- 42 2 21.2

0 6.7

4-4.5

18 ?. Piscium

15 41 39.0

32 48. 91

1 47.99

0.04

+ 0. 19

4- 0 34 40.0

1 2.1

— 0.9

21 a Androm. .

16 7 49.6

23 59 3. 81

1 47.96

2.17

+ 0.50

4- 27 52 10. 4

0 21.4

— 1.3

88 y Pegasi . .

16 12 42. 6

0 3 57.61

1 47.96

— 1.02

— 1.65

4- 13 57 44. 0

38.8

— 2.0

Capella

4- 45 43 37. 0

0 3.0

4- 5.2

Rigel . .

21 13 49. 8

5 5 54. 29

— 1 47.66

+ 0.61

+ 1.87

— 8 28 7. 3

— 1 26.4

— 0.5

17.

S3 juli ao z

ro corr. = -f V 47". 9.

Jupiter

12 5 46.9

20 0 17.91

— 1 46.80

1+ 1.60

+ 1.50

— 21 13 5.4

— 2 29. 8

— 1.0

9 /8 Capricorni

3

16 3.3

10 36.00

1 46.79

+ 1.13

+ 1.63

— 15 26 59. 0

1 53.2

— 0.5

37 y Cygui . .

12 21 4.".. II

20 16 18.64

— 1 46.79

— 3.38

+ 1.29

4- 39 32 32.2

— 0 9.0

4-4.0

a g assum

sda»2° 12' 7".5; not 2D

2' 37".5.

c i assumed as 28° 4' ; not 28° 1'.

b T. I ass

imed as 383.5 ; uot 58s.5.

d Div. assumed as 32 ; not 33.

(91)

92

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 JUtV SO— Continued

Zero corr. = 4- 1' 47". 9.

Name

j Mag.

T

App. sid. time

Clock corr.

ii tan 6

'/

f-0

Refr.

l'

h m s

h m s

VI s

s

S

o / "

/ //

„

7.8

12 27 39. 0

20 22 13.61

— 1 40.78

— 1.39

— 1.33

-f- 18 41 36. 0

— 0 31.9

— 1.4

7.8

27 46.0

22 20. 63

1 46.78

1.39

— 1.33

-j- 18 41 4.1

31.9

— 1.4

7.8

29 55. 6

24 30.59

1 46. 7S

1.66

— 1.01

-f- 22 4 42. 1

27.7

— 0.5

6

34 4.5

28 in. 17

1 46.78

4.23

+ 2. 36

+ 45 55 31.9

2.8

4-5.3

7

38 3.0

32 39.32

1 46.77

3.89

+ 1.59

+ 43 32 53. 0

5.1

4-4.8

50 a Cygui .

41 17.3

35 54. 15

1 46.77

4. 03

+ 1.79

+ 44 28 56.8

4.2

4- 4.9

53 e " . .

44 40.2

39 17. lid

1 46.77

2.68

+ 1.40

-f 33 8 25. 0

15.4

4-2.7

6

52 0. 8

46 39.40

1 46.76

0.26

— 0.39

+ 3 42 4. 5

55.0

— 1.3

a) 1 Equulei

12 55 25. 4

20 50 4. 56

— 1 46.76

— 0.25

— 0. 30

-f- 3 27 32.2

— 0 55. 5

— 1.2

17S3 JUir 2

■i

Zc

"o corr. = 4- 1' 44". 8.

14 v Scorpii

4

7 55 28. 2

16 1 7.76

— 1 4::. 20

+ 1.40

+ 1.45

— 18 52 38.4

— 2 13.8

— 0.7

9 Herculis -

7 58 39.2

4 19.28

1 4::. 20

— 0.40

— 0.82

+ 5 34 19.6

0 51.9

— 1.5

2 e Ophiuclii .

8 2 54. 8

8 35.58

1 43.20

-f 0.30

-f- 1.60

— 49 37.6

1 13.0

— 0.6

7X " - -

10 29.7

16 11.72

1 43.19

1.33

+ 1.54

— 17 56 41.8

2 7.7

- 0.6

Antares

12 6.6

17 48.89

1 43.19

2.00

-f- 3.12

— 25 54 37. 3

3 19. 1

— 2. 6

8 <j> Ophiuchi -

— 16 7 24.2

1 57.3

— 0.5

23 t Scorpii

18 21.3

24 4. 62

1 43.18

2. 15

+ 3.94

— 27 43 2. 6

3 46.0

— 3.5

13 f Ophiuchi .

21 13.6

26 57. 39

1 43.18

+ 0.73

+ 1.79

— 10 7 7.7

1 31.4

— 0.4

38 Herculis -

26 50. 2

32 34.91

1 43.18

— 0.38

— 0. 75

4- 5 17 20.8

0 52. 4

— 1.4

41 " . .

6.7

30 29. 0

36 14.31

1 43.17

0.47

— 1.04

+ 6 30 4.0

50. 3

— 1.6

46 " . .

7

32 28.7

38 14.37

1 43. 17

2.25

+ 0.97

+ 28 44 26. 6

20.2

4- 1.5

6.7

34 11.7

39 57.63

1 43. 17

1.02

— 1.65

+ 13 58 8.6

38.6

— 2.0

46 II. C. 1712

6

35 :;i;. 8

41 22.96

1 43. 17

0.99

— 1.69

+ 13 38 1.0

39.0

— 2.0

6

38 33.7

44 20. 34

1 43. 17

2.66

-f 1.40

+ 32 54 17.6

15.8

4- 2.7

7

42 42.2

48 29. 52

1 43.16

3.81

+ 1.54

+ 43 10 39.8

5.5

4- 4.7

9

45 2.1

50 49.80

1 43. 16

2.62

+ 1.39

+ 32 33 40.0

16.1

4-2.6

6

47 0. 4

52 48. 42

1 43.16

3. 80

+ 1.50

+ 42 49 34. 0

5.8

4- 4.7

58 t Herculis .

47 58. 8

53 46. 98

1 43.16

2.49

+ 1.33

-j- 31 13 52. 1

17.6

4- 2.2

8

50 46.0

16 56 34.64

1 43.16

3.82

+ 1.52

-f- 43 1 6.8

5.6

-f-4.7

8.7

57 13.2

17 3 2.90

1 43.15

1.61

— 1.08

+ 21 28 25. 5

28.7

— 0.7

7

8 58 48. 6

4 38.56

1 43.15

1.61

— 1.08

+ 21 28 49. 0

28. 7

— 0.7

7

9 0 22.5

6 12.72

1 43. 15

1.63

— 1.06

-(- 21 40 30.6

28.4

— 0.6

'')

6

2 38.0

8 28. 59

1 43.15

1.82

— 0. 65

+ 23 58 24. 6

25.7

0.0

6.7

4 28.4

10 19.29

1 43.15

1.77

— 0.79

+ 23 18 48.2

26. 5

— 0.2

70 " . .

7 54.6

13 46. 05

1 4::. 15

1.89

— 0. 17

+ 24 42 14.4

24.8

4- 0.2

73 " . .

6.7

10 58.4

16 50.35

1 43.14

1.75

— 0. 82

+ 23 9 6.2

26.7

— 0.2

8.9

16 57.0

22 49. 93

1 43.14

1.30

— 1.41

+ 17 40 16.0

33.5

— 1.6

c) 55 a Oplijuchi .

20 47. 5

26 41.06

1 43. 13

0.92

- 1.86

+ 12 42 45.4

40.4

— 2.0

79 Herculis .

6

24 29. 1

30 23. 27

1 43. 13

1.86

— 0.54

4- 24 25 40.0

25.1

4- 0.1

<l)

6

35 15.1

41 11.03

1 43.12

1.44

— 1.29

+ 19 18 58.4

31.4

— 1.3

6.7

9 37 32. 7

17 43 29.01

1 43.12

— 1.69

— 0.96

+ 22 22 2.4

0 27. 6

— 0.4

7

11 41 36.0

19 47 52.69

1 43.01

+ 0.02

+ 0.43

— 0 13 31.0

1 4.2

— 0.8

6

43 49. 4

50 6. 46

1 43.01

— 0.06

+ 0.14

-f 0 47 14.6

1.8

— u.9

9.10

45 58.6

52 16.02

1 43.01

+ 0.06

-j- 0.65

— 0 47 44.5

1 5.5

— 0.7

14 y Sagittse

49 5.2

55 23. 13

1 43.01

— 1.13

— 1.53

+ 15 24 57.4

0 36.6

— 1.9

Jupiter

52 18.4

19 58 36. 86

1 43.01

+ 1.60

+ 1.51

— 21 17 54. 6

2 32.9

— l.o

65 0 Aquilse

6.5

55 32.5

20 1 51.49

1 43. 00

+ 0. 10

+ 0.90

— 1 27 40.7

1 7.0

— 0.7

20 Vulpeculse

1 1 58 23. 3

4 42.76

1 43.00

— 1.99

— 0. 16

4- 25 49 9.7

0 23.7

4- 0.7

29 43 Cygui . .

12 1 51.8

8 11.83

1 43.011

2.99

+ 1.30

4- 36 7 26.2

12.6

4- 3.3

25 Vulpeculse

6

8 10.9

14 31.97

1 42.99

1 . 80

— 0.71

-(- 23 44 31.4

26.1

0.0

c) 39 h Cygui .

10 37.5

16 58. 97

1 42.99

2.51

+ 1.36

-f 31 28 29.2

17.5

4- 2.::

40 " . .

6

14 57 5

21 19.68

1 42.99

3.17

+ 1.27

4- 37 42 32. 8

11.0

4- 3.6

/)

6

19 7.8

25 30.67

1 42.98

4.72

+ 3.25

-f- 49 1 45.5

0.2

4- 5.6

24 26.4

30 50. 14

1 42.98

1.10

— 1.57

4- 15 4 0.5

37. :!

— 1.9

9 a Dolpliiui .

24 58. 6

31 22.42

1 42.98

1.11

— 1.56

4-15 8 22. 8

37.2

— 1.9

50 a Cygui .

29 25. 7

35 50. 25

1 42.97

4. 03

+ 1.79

4- 44 28 59. 2

4.3

4-4.9

53 c " . .

32 48. 3

39 13.40

1 42.97

2.68

4- 1.40

4- 33 8 26. 6

15.7

4- 2.7

15 Delphini .

34 41.0

41 6.41

1 42.97

ii.-:.

— 2.85

4- 11 43 40.7

42. 2

— 2.0

55 Cygui . .

36 54. 8

43 20.58

1 42.97

4.14

+ 2.11

4- 45 17 10.0

3.5

4- 5. 1

57 " . .

40 55. ■■-,

47 22.24

1 42.97

3. 89

4- 1.60

4- 43 32 36.0

5.2

4- 4.8

1 I Equulei .

7

12 43 33. 8

20 50 0.67 -

- 1 42.96

- 0.25

— 0.36

4- 3 27 37. 2

- 0 56.5

— 1.2

a Div. assumed as 48 6 1

1 , IL.,1 1

3 61& c

§ assumed as :n

° j not 2fi°.

c £ a

ssumed as 17° 22';

not 17^ S3'.

b I assumed as 24° 52' 9

'.5; not

!4° 52' 39".5. i

Min. assu 1 ;

s 35m. -. not 36

ii. / Di

v. assumed as ''."> t!

15; not 95 12 14.

(92)

GOULD REDUCTION OP D AGEL.ET S OBSERVATIONS.

93

1 »S:$ J CIi Y 33— Continued Zero corr. = + V 44".8.

Name

Mag.

T

App. sid. time

Clock corr.

n tan 6

9

e—t

Refr.

</

It m s

h m s

m s

s

s

O ' //

/ //

II

a) 2 Equulei

7

12 46 50.7

■.'II 53 18. II

— 1 42.96

— 0.45

— 1.00

+ 6 19 27.7

— 0 51.1

— 1.5

3 •• . .

6

49 5. 1

20 55 33.18

1 42.96

0.33

— 0.58

4 4 38 21.5

54.1

— 1.4

5 ; " . .

55 6.4

21 1 35. 18

1 42.00

0.67

— 1.76

4 9 15 8.9

40. 2

— 1.8

6 " . .

5.6

55 18. 1

1 46.93

1 42.00

0.66

— 1.73

+ 9 11 18.0

46.3

— 1.8

6) 7 cS " . .

12 59 13.7

5 42. 99

1 42.05

0.65

— 1.71

+ 97 22.4

46.4

— 1.8

8 a " . .

13 (i 15.9

6 45.52

1 42.05

0.31

— 0.52

+ 4 20 58.0

54. 7

— 1.3

66 u Cygni .

4 17.6

10 47.88

1 42.95

2.76

+ 1.39

4 33 58 5.4

14.9

4-2.9

] e Pegasi .

7 21.1

13 51.88

1 42.04

1.40

— 1.32

4 18 52 0.6

32. 3

— 1.3

69 Cygni . .

32 11.5

18 43.07

1 42.04

2.95

-I- 1.3.1

4 35 12 41.0

13.1

4 3.2

71 g " . .

16 42.6

23 14.91

1 42.94

4.18

+ 2. 22

4 45 33 33. 4

3.2

4-5.2

72 " . .

21 10.3

27 43. 34

1 42.03

3.15

-j- 1-27

4 3,7 32 20.0

11.2

4-3.6

74 " . .

23 30.4

30 3.82

1 42.03

3.37

+ 1.29

4 39 25 4. 6

9.3

4-3.9

75 "

26 55. 1

33 29. Ki

1 42.03

3.72

4 1.45

4 42 15 58. 4

0.4

4-4.5

77 " . .

6

28 53. 4

35 27. 7 1

1 42.03.

3.45

4 1.31

4 40 3 56.0

8.6

+ 4.1

Cygni . .

29 37.2

36 11.64

1 42.02

3.46

+ 1.32

4 40 8 31.0

8.6

4-4.1

7.8

32 53. 4

39 28. 39

1 42.92

3.69

+ 1.43

+ 42 2 6.2

C.7

4-4.5

7

39 25. 1

46 1.16

1 42.92

2. 12

4 0.32

4 27 18 33.3

22.1

4 Li

17 Pegasi .

41 34.1

48 10.51

1 42.92

— 0.80

— 2.89

4 11 2 17.5

0 43. 4

— 1.9

28 Aquarii

6

45 7. 7

51 44.70

1 42.01

4- 0.03

+ n.51

— 0 26 12.5

1 4.8

— 0.8

31 o " . .

6

47 12.0

53 49.94

1 42.91

0.23

4- 1.38

— 3 12 6.0

11.5

— 0.7

32 " . .

48 45. 0

21 55 22.59

1 42.91

+ 0.14

4 1.05

— 1 57 18.1

8.5

— 0. 7

34 a " . .

— 1 22 25. 5

1 7.1

— 0.7

26 0 Pegasi .

54 23.9

22 I 2. 42

1 42.90

— 0.37

— 0.73

4-5 7 36.0

0 53.5

— 1.4

5

13 59 43. 6

6 22.99

1 42.90

3.28

4 1.27

4 38 37 1.2

10. 1

4-3.8

1 Lacertse .

5

14 1 39.5

8 19.21

1 42.90

3.05

+ 1.29

4- 36 38 51.2

12.1

4- 3.4

2 "

7 11.9

13 52.52

1 42.89

4.16

+ 2. 15

4- 45 25 5. 2

3.5

4- 5.1

4 " '. '.

10 50.8

17 32.H2

1 42.89

4.61

4-3.10

+ 48 20 58. 2

0.5

4-5.5

5 " . .

15 36.3

22 18.30

1 42.89

— 4.33

4 2.oo

4 46 34 12.6

0 2.2

4 5.4

62 ?/ Aquarii

19 14.5

25 57. 10

1 42.89

+ 0.09

+ 0.82

— 1 14 14.8

1 6.7

— 0.7

40 Pegasi -

23 28. 4

30 11.70

1 42.88

— 1.36

— 1.35

4 18 23 13.4

0 33.0

— 1.5

42 f " . .

25 43. 0

32 26. G6

1 42.88

0.70

— 2.00

4 9 41 23.6

45. G

— 1.8

c) 45 " . .

7

29 59.3

lit; 43.66

1 42.88

1.35

— 1.37

+ 18 12 37. 0

33.1

— 1.5

d) 48 /; " . .

34 35.6

41 20.72

1 42.87

1.78

— 0.79

4- 23 26 27. 2

26.2

— 0. 1

50 p " . .

39 20. 3

46 6. 20

1 42.67

0.55

— 1.30

+ 7 39 3.3

48.9

— 1.7

51 " . .

41 51.1

48 37. 41

1 42.86

1.46

— 1.26

4- 19 35 32. 9

31.4

— 1.2

53 a " '. .

48 16.7

55 4. 07

1 42.86

2.08

4- 0.15

4 26 53 18.5

22.6

4- l.o

7

51 47.8

22 58 35. 75

1 42.86

1.49

— 1.23

+ 10 50 50.0

30.9

— i.i

7

54 3.0

23 0 51.32

1 42.85

2.22

+ 0.78

4- 28 28 29. 5

20.8

4- 1-4

•)

7

14 58 13.8

5 2.81

1 42.85

1.36

— 1.35

+ 18 26 21.4

33.0

— 1.4

8

15 2 12.0

9 1.66

1 42.85

2.65

+ 1.40

4 32 50 28.5

16. 1

4-2.7

8

3 6.7

9 56.51

1 42.85

2.61

4 1-39

4- 32 31 19.5

16.4

4-2.6

12 Androm. .

6

5 24.2

12 14.39

1 42.84

3.09

4- 1.28

+ 36 58 27. 6

11.8

+ 3.5

7

9 8.6

15 59.40

1 42.84

3.43

4 1.30

4 39 53 46. 8

8.9

4- 4.1

/) 13 " . .

6

11 39.2

18 30.30

1 42.83

3.65

+ 1.40

+ 41 41 25. 3

7.1

4-4.4

5.6

17 59.6

24 51.86

1 42.83

1.46

— 1.26

+ 19 37 38.7

31.4

— 1.2

7.8

21 13.1

28 5. 89

1 42.-3

3.70

4 1.43

-j- 42 4 50. 0

6.7

4-4.5

17 i " . .

3.4

22 26. 9

29 19.89

1 42. B3

3.70

4 1.43

+ 42 2 20. 5

6.7

4-4.5

76 Pegasi .

6

26 38. 7

33 32. 38

1 42.83

1.11

— 1.56

+ 15 7 1.8

37.5

— 1.9

20 Y< Androm. .

30 13.3

37 7.57

1 42.82

4.12

4- 2.06

4 45 11 8. 1

3.6

4- 5.1

79 Pegasi .

33 34.7

40 29.52

1 42.-2

2.14

4 0.42

+ 27 36 48.9

21.8

4- 1.2

81 <t> " . .

36 21.4

43 16.68

1 42.82

1 . 33

— 1.4Q

+ 17 53 57. 9

33. 6

— 1.5

7.8

39 13.9

46 9.65

1 42.82

1.89

— 0.40

+ 24 43 43. 6

25. 1

4 0. 3

84 V " . .

41 35.5

48 31.64

1 42.81

1.82

— 0.67

+ 23 55 0. 7

20.1

o.o

7

44 10:7

51 7.26

1 42.61

1.97

— 0.20

+ 25 41 40.5

24.0

4 o.o

g) 83 " . .

45 42. 0

52 39. 4 1

1 42.81

2.00

— 0. 14

+ 25 54 47. 2

23.8

4 0.7

86 " . .

49 26. 4

56 23. 82

1 42.81

0.88

— 2.30

4 12 10 26.4

41.8

— 2.0

87 " . .

52 42. 5

23 59 40. 46

1 42.81

1 . 25

— 1.43

4 Hi 59 24.4

35.0

— 1.7

88 y " . .

15 56 54.6

0 3 53. 25

1 42.811

1.02

— 1.65

4 13 57 43.7

30.3.

— 2.0

24 0 Androm. .

16 0 36.4

7 35.66

1 42.80

3. 13

4 1.27

+ 37 26 57.8

11.4

4-3.6

27 p " . .

4 31.7

11 31.60

1 42. -ii

— 3. 06

4 1.29

4- 36 44 20.4

0 12. I

4- 3.4

7 Mayer .

6.7

8 8.3

15 8.79

1 42.79

+ 0.24

4 1.43

— 3 25 26. 0

1 12.5

— 0. 7

29 it Androm. .

20 4.6

27 7. 05

1 42.79

— 2.61

4 1.39

4- 32 20 58.6

0 16.5

4-2.6

Mars .

25 19.4

32 22. 7 1

1 42.78

+ 0.09

4 0.82

— 1 15 1.7

1 7.0

— 0.7

63 & Piseium

16 32 8.6

0 39 13.03

— 1 42.78

— 0.46

- l.ol

+ 6 23 30.2

— 0 51.4

— 1.5

a Div. assumed as 45 5

13; not

15 5 11.

/ § assumed as -

5° ; not 35°.

g g assumed as 22° 56']

3".5; not22D56'8".5.

6 Min. assumed as 59m.

; no! 58]

l.

Div. assumed

is 32 ; not 37.

c Div. assumed as :i-j n

15 ; not

32 10 14.

f T. 11 rejected.

(93)

94

GOULD REDUCTION OF D AOELET S OBSERVATIONS

17S3 JULY 26

Zero corr. = + 1' 48".7.

Name

Mag.

T

App. sid. time

Clock corr.

11

tan c!

'I

f-0

Refr.

?'

/* m s

h m s

m s

s

s

O ' '/

/ //

II

67 a Virginia

1

4 58 26. 8

13 15 26. 95

— 1 40.72

+

0.73

+

1.79

— 10 1 55.8

— 1 29. 3

— 0.4

Arcturus .

5 50 22. 9

14 7 31.58

1 40.68

1.53

1.21

+ 20 17 44.5

0 29. 5

— 1.0

27 y Bobtis - .

6 7 52.9

25 4. 45

1 40.66

3.36

+

1.28

+ 39 14 16.6

9.2

+ 3.9

«) 30 f " . .

15 20.8

32 33.58

1 40.65

•1.08

1.00

+ 14 38 50. 4

37.0

— 1.9

36 c " . .

20 1.5

37 15.05

1 40.65

—

2.19

+

0.57

+ 27 58 22. 4

0 20.8

+ L3

9 a3 Librae - -

23 20.5

40 34.59

1 40.65

+

1.12

+

1.61

— 15 7 59.2

1 50.8

— 0.5

20 y " . .

35 46. 7

53 2.83

1 40.64

+

1.87

+

2.37

— 24 24 4.4

2 58.0

— 1.9

42 j3 Bootis . .

38 14.5

14 55 31. 04

1 40.01

3. 01

+

1.37

+ 41 13 34.6

0 7.3

+ 4.3

'27 /3 Librae . .

6 49 43.2

15 7 1.63

1 40.62

+

0.62

+

1.87

— 8 34 48.9

1 24.9

— 0.4

24 a Serpentis .

7 17 57. 3

35 20. 37

1 40.60

0.51

1.17

+ 7 6 6.4

0 48.5

— 1.0

28/3 " . .

20 33.2

37 56.70

1 40.00

1. 19

—

1.49

+ 16 5 28.6

35.1

— 1.8

37 e " - -

24 20. 7

41 44.82

1 40.60

—

0.37

—

0.70

+ 5 7 33.2

0 52. 0

— 1.4

6 it Scorpii .

29 58. 6

47 23.65

1 40.59

+

1 . 90

+

2.88

— 25 27 16. 6

3 10.7

— 2.3

b) 8/3 " . .

37 5.2

15 54 31.42

1 40.59

1.43

+

1.42

— 19 11 33. 1

2 14.1

— 0.7

14 v " . .

43 37.7

16 1 4. 97

1 40.58

1.41

+

1.45

— 18 52 41.:;

2 12.3

— 0.7

] 6 Opbiucbi .

47 13.5

4 41.36

1 40.58

0. 22

+

1.37

— 3 8 4.8

1 9.6

— 0.7

c) 2 £ " - -

51 4.5

8 32. W

1 40.57

+

0.30

1-

1.60

— 4 9 41.4

1 12. 1

— 0. 6

26 y Herculis .

7 56 37. 5

14 6.911

1 40.57

1.47

1. 26

+ 19 39 7. 6

0 30.5

— 1.2

Antares

8 0 16. 0

17 40.IIM

1 40.57

+

2.00

+

3.11

— 25 54 45. 6

3 16.5

— 2.6

9 u Opbiucbi .

3 27.8

20 58.34

1 40.50

1.58

+

1.48

— 20 58 43. 6

2 26.8

— 1.0

23 t Scorpii -

6 30.7

24 1.74

1 40.50

+

2.16

+

3.94

— 27 43 13. 6

3 12. 9

— 3.5

j:'> J Ophiuchi .

— 10 7 13.0

1 30.1

— 0.4

40 C Herculis -

17 18.5

34 51.34

1 40.55

—

2.57

+

1.38

+ 31 58 49.5

0 16.5

+ 2.5

26 c Scorpii .

20 10.2

37 43. 48

1 40. .v.

+

2.76

+

5.30

— 33 48 17. 8

6 34.1

— 8.8

52 Herculis .

27 4.7

44 39.11

1 40.54

4. 32

+

2. 52

+ 40 20 23.8

0 2.4

+ 5.3

27 k Opbiucbi .

31 34.4

49 9. 55

1 40.54

0. 70

2.08

+ 9 42 22. 8

44.5

— 1.8

32 " - .

37 21.5.

54 5/.0H

1 40.54

1 . 00

—

t . ('.2

+ 14 23 49. 4

37.4

— 2.0

d) 60 Herculis .

39 28. 5

16 57 4. 95

1 40..".:'.

0.95

• —

1.79

+ 13 1 57.9

39.5

— 2.0

6.7

42 37.3

17 0 14.27

1 40.53

3.99

+

1.70

+ 44 5 9.3

4.5

+ -1-9

7

45 45. 5

3 22. 98

1 40.53

2.74

+

1.40

+ 33 37 33. 9

14.9

+ 2.8

64 a " - -

48 53. 7

6 31.69

1 40.53

1.08

1.60

+ 14 37 51.0

37.2

— 1.9

69 " - -

54 17.6

11 56.48

1 40.52

3. 10

+

1.27

+ 37 30 5.0

11.0

+ 3.6

8

8 56 55.0

14 34.31

1 40.51

1.83

o. OS

+ 23 53 12. 4

25.4

o.o

0

7

9 0 40.7

18 20. 63

1 40.51

2.66

+

1.40

+ 32 51 1.2

15. 6

+ 2.7

76 ^ " . .

6 2.6

23 43. 42

1 40.51

2.04

0.04

+ 26 15 41.3

22.7

+ 0.7

55 a Opbiucbi .

8 57. 0

26 38.30

1 40.51

0. 93

—

1.86

+ 12 42 44. 6

40.0

— 2.0

7

12 13.5

29 55. 34

1 40.51

0. 15

—

0.14

+ 2 9 15.0

57.9

— 1.0

8

15 13.1

32 55. 43

1 40.50

0.32

—

0.54

+ 4 28 2;;. n

53.4

— 1.3

60 0 " . .

16 47. 3

34 29. 89

1 40..".n

0.34

0. 58

+ 4 39 22.0

53. 0

— 1.4

62 y " - .

21 1.7

38 44. 99

1 40.50

0.20

0. 25

+ 2 47 19.6

56.6

— 1.1

6

25 58. 6

43 42. 70

1 40.49

2.32

+

1.08

+ 29 22 1.6

19.4

+ 1.6

7.8

28 7.8

45 52.26

1 40.49

2.58

+

1.39

+ 32 3 5.0

16.5

+ 2.5

89 Herculis

30 40.5

48 25. 38

1 40.49

2.01

o.iiO

+ 20 4 21. 8

22.9

+ 0.7

66 n Opbiucbi .

33 30.2

51 15. .V,

1 40.49

0.32

—

0.52

+ 4 22 50. 4

53.5

— 1.3

97 Herculis .

7

37 2:.. 8

55 11.80

] 40.49

1.74

—

0.87

+ 22 54 39. 4

26. 5

— 0.2

/) 70 P Opbiucbi -

40 24.2

58 10.82

1 40.48

o. 17

—

0.19

+ 2 27 10.0

57.2

— 1.0

6.7

41 9. 0

17 5S 55. 61

1 40.48

0.16

—

0.13

+ 2 11 23.0

57.8

— 1.0

g)

6

44 26.0

18 2 13. 15

1 40.48

1.21

—

1.47

+ 16 25 42. 8

34.8

— 1.8

h)

6

9 47 32.2

5 19.86

1 40.48

1.20

—

1.48

+ 16 12 38. 3

35.1

— 1.8

3 a Lyrse . .

10 13 28.8

18 31 20.72

1 40.46

3.28

+

1.27

+ 38 33 52. 9

10.0

+ 3.8

6

10 59 41.5

19 17 41.00

1 40.42

1.49

1.24

+ 19 5ii ii.ii

30.8

— 1.1

5 Vulpcculae

6.5

11 0 31.1

18 30. 73

1 40.41

1.46

—

1.26

+ 19 39 27. 0

31.0

— 1.2

6.7

O 49. 1

18 48.78

1 40.41

1.49

—

1.24

+ 19 48 59.0

30.8

— 1.1

7 "

3 38.5

21 38.64

1 40.41

1.49

—

1.24

+ 19 49 22. 1

30. 8

— 1.1

6

6 47.1

24 47. 76

1 40.41

1.20

—

1.42

+ 17 16 30.8

34.1

-= 1.7

4 e Sagittse

11 12.7

29 14. 09

1 40.41

1.18

—

1.49

+ 15 58 2.8

35.9

— 1.8

12 <p Cvgni .

14 30.6

32 32.53

1 40.40

2. 34

+

1.12

+ 29 38 20.0

19.4

+ 1-8

i) 48 yj> Aquilse

18 12.3

36 14.84

1 40.40

0.93

1.81

+ 12 40 34.2

40.2

— 2.0

7.8

22 21.6

40 21.-2

1 40.40

0. 50

—

1.31

+ 7 43 50.5

48.0

— 1.7

53 a " . .

23 53. 6

41 57.07

1 40.40

ii. On

—

1.44

+ 8 17 30.6

47.1

— 1.7

60/3 " . .

28 19.7

46 23.90

1 40.39

0.42

—

0.90

+ 5 51 45.4

51.3

— 1.5

12 y Sagittae

11 32 47.7

19 50 52.63

— 1 40.39

—

1.41

—

1.32

+ 18 53 36. 4

— 0 32.0

— 1.3

a Ts. II and III assnni

3d as 21

s. and 'Hs.5;

e Div. assumed

as 1? 1 ; not 17

5.

* D

iv. assumed ;i- 34 ;

not 39.

nol 31s. and 54s.5,

espectft

ily.

/ Transits over

Ts. I aad 11

assumed

is

h D

v. assumed aa 34 1

3 1; not 34 J3 0.

b T. Ill assui 1 as 29e

. ; li. i! :i

Is.

40m. Is. an

1 40m. 5

ot 40m. 51

i T

III assumed aa 18i

n. 3fis. ; not 18ui. 2'Js.

<* T. 1 assumed as 41S.5

; not 51

-.5.

and 41m. 1

4s.5 ; and nan

e

not 70

P.

d T. II assumed as 28s

; nol 38

s.

Ophiuchi.

CM)

COULD— REDUCTION OK D AOELET S OBSERVATIONS.

!l.r)

f>s:i Jl'l.T B«_ Continued Zero corr. — + 1' 48". 7.

Name

Mag.

T

App. siJ. time

Clock coit.

n tan tS

<I

f— 0

Refr.

1'

h m s

h m s

m s

s

s

O ' "

/ fl

II

25 Cygni .

11 35 37.2

19 53 42.60

— 1 40.39

_ 3.04

+ 1.30

+ 36 25 17. 4

— 0 12.2

+ 3.3

16 i) Sagittse

39 12.0

57 17. 9S

1 40.38

1.45

— 1.28

+ 19 21 33.0

31.4

— 1.3

17 Vulnecula;

6

41 13.0

19 59 19.31

1 40.38

1.75

— 1 '. 85

+ 22 58 42. 1

20.9

— 0.2

18 " . .

45 S. 6

20 3 15.56

1 40.38

2.03

— 0.04

-4- 26 14 53.5

23. 1

+ 0.7

«) 19 " . .

46 22. 2

4 29.36

1 40.38

2.02

— 0. 07

+ 26 8 57.2

23. 2

+ 0.7

22 " . .

6.5

49 45! 6

7 53.32

1 40.38

1.73

— 0.88

+ 22 50 4.4

27.1

— 0.2

37 ; Cygui . .

11 58 2.6

16 11.68

1 40.37

3.40

+ 1.29

+ 39 32 35.2

9.1

+ 4.0

41 i •' . .

12 4 6.3

22 16.38

1 40.36

2.34

+ 1.12

+ 29 37 47.4

19.4

+ 1.8

0

8 5.0

26 15.73

1 40.36

1.52

— 1.22

+ 20 13 53.4

30.3

— 1.1

27 Vnlpeculse

11 23.0

29 34.27

1 40.36

1.98

— 0.19

+ 25 41 36.0

23.8

+ 0.6

6.7

11 21. J

32 32.86

1 40.35

3.91

+ 1.59

+ 43 32 50.8

5.2

+ 4.8

7

15 37. 2

33 49. 17

1 40.35

4.10

+ 1.92

+ 44 52 37.0

3.9

+ 5. 1

50 a Cygni .

17 35.6

35 47. 90

1 40.35

4.115

+ 1.79

+ 44 28 57. 8

4.2

+ 5.0

52 it. " . .

20 14.3

38 27.02

1 40.35

2.37

+ 1.18

+ 29 54 44. 2

19.0

+ 1.9

54 A " . -

22 29. 2

40 42.29

1 40.35

2. 96

+ 1.32

+ 35 40 30. 6

13.0

+ 3.2

56 " . .

25 54.3

44 7.95

1 40.34

3.87

+ 1.54

+ 43 13 15.0

5.5

+ 4.7

b) 57 " . .

29 5. -

47 19.97

1 40.34

3.91

+ 1.60

+ 43 32 39. 2

5.2

+ 4.8

58 v " . .

32 35. 8

50 50. 54

1 40.34

3.50

+ 1.32

+ in 18 39.7

8.3

+ 4.1

59/' " . .

35 57. 1

54 12.39

1 40.34

4.36

+ 2.63

+ 46 39 1.4

2.1

+ 5.4

7

39 42.4

20 57 58. 31

1 40.33

4.26

+ 2.48

+ 45 58 55. 8

2.8

+ 5.3

&ip " . .

42 36.9

21 0 53. 29

1 40.33

4.38

+ 2.67

4- 46 45 7.6

2.0

+ 5.4

7

46 0. 7

4 17.65

1 40.33

2.26

+ 0.91

+ 28 48 26. 0

20.3

+ 1.5

64 f " . .

47 9. 8

5 20. 94

1 40.33

2.32

+ 1.07

+ 29 19 17.0

19. -

+ 1.6

6.7

53 49. 8

12 8.04

1 40.32

1.58

— 1. 13

+ 21 5 44. 8

29.3

— 0.8

6

12 57 39.3

15 58. 17

1 40. 32

1.77

— 0.79

+ 23 19 42.8

26.6

— 0. 2

35 Vulpeculae

13 1 32.2

19 51.71

1 40.31

2.07

+ 0.08

+ 26 38 58. 3

22.7

+ 0.9

2/ Pegasi. .

3 33.0

21 52.84

1 40.31

1.72

— 0.91

+ 22 40 33. 4

27.4

— 0. 3

6.7

6 0.9

24 21.15

1 40.31

1.70

— 0.95

+ 22 25 25. 1

27.7

-0.4

3 " . .

10 18.4

28 39.36

1 40.31

0.41

— 0.84

+ 5 38 23. 5

51.7

— 1.5

0

8.9

13 31.6

31 53.08

1 40.30

0.29

— 0.45

+ 4 1 56.8

54.7

— 1.3

7 " . .

6

14 40.6

33 8. 28

1 40.30

0.34

— 0. 59

+ 4 41 19.5

53.5

— 1.3

12 " . • .

19 29.2

37 51.65

1 40.30

1.66

— 1.02

4- 21 56 10.6

28. 2

— 0.5

13 " . .

23 12.6

41 35. 66

1 40.30

1.20

— 1.48

+ 16 16 3.2

35.6

— 1.8

17 " . .

29 43. 8

48 7.93

1 40.29

0.80

— 2.89

+ 11 2 18.4

42. 9

— 1.9

1- " . .

6

32 37.5

51 2. 1 1

1 40.29

0.41

— 0.85

+ 5 40 25. 0

51.8

— 1.5

21 " . .

36 1.4

54 26. 57

1 40.29

0.75

— 2.52

+ 10 19 49.9

44.0

— 1.8

23 " . .

39 4. 5

21 57 30.17

1 40.28

2.18

+ 0.53

+ 27 53 40.9

21.3

+ 1.3

6

42 55. 8

22 1 22. 10

1 40.28

2.58

+ 1.39

+ 32 5 40. 0

16.8

+ 2.5

d) 27 " . .

43 39.8

2 6. 22

1 40.28

2.58

+ 1.39

-j- 32 5 46. 0

16. 8

+ 2.5

6.7

46 29. 4

4 56.29

1 40.28

2.73

+ 1.40

+ 33 30 56. 9

15.4

+ 2.8

1 Laccrta; .

49 48. 9

8 16.34

1 40.27

3.07

+ 1.29

+ 36 38 51.3

12.0

+ 3.4

7

53 23. 5

11 51.53

1 40.27

0.95

— 1.80

+ 12 55 58.5

40.1

— 2.0

7

56 43. 5

15 12.08

1 40.27

1.06

— 1.63

+ 14 10 25. 6

38. 3

— 2.0

7

13 58 29.9

16 58. 77

1 40.27

1.28

— 1.42

+ 17 19 45.9

34.2

— 1.7

6

14 2 16.5

20 45. 99

1 40.26

1.98

— 0.20

+ 25 38 18.6

23.9

+ 0.6

6.7

4 46. 3

23 16.20

1 40.26

2.23

+ 0.74

+ 28 21 48.0

20.8

+ 1.4

43 Pegasi .

14 48.3

33 19.85

1 40.26

2.21

-j- 0.65

+ 28 9 29. 2

21.1

+ 1.3

47 ?. " . .

19 18.7

37 50.99

1 40.26

1.70

— 0.95

+ 22 24 32. 8

27.7

- 0.4

49 o- " . .

24 36.6

43 9. 76

1 40.25

0.63

— 1.55

+ 8 40 20. 0

46.6

— 1.8

6.7

33 57. 7

52 32.40

1 40.24

4.00

+ 1.72

+ 44 11 2.5

4.6

+ 4.9

1 o Androm. .

+ 41 8 5. 0

7.6

+ 4.3

56 Pegasi .

39 42.7

22 58 18. 33

1 40.23

1.86

— 0.57

+ 24 16 48.2

25. 5

0.0

57 m ;' . .

41 43.8

23 0 19.76

1 40.23

0.54

— 1.27

+ 7 29 34.2

48.7

— 1.6

6.7

45 41.3

4 17.91

1 40.23

2. 22

+ 0.68

+ 28 14 45. 7

21.0

+ 1.3

61 " . .

6.7

48 19.7

6 56. 74

1 40.22

2.10

-j- 0.21

+ 27 2 49. 0

22.3

+ 1.0

«)

7.8

50 59.5

9 36.98

1 40.22

2.04

0.00

+ 26 24 5.0

23.1

+ 0.8

7.8

56 42. 7

15 21.12

1 40.22

1.71

— 0.93

+ 22 33 6.8

27.6

— 0.3

63 " . .

14 57 41.1

16 19.68

1 40.22

1.68

— 0.99

+ 22 11 34.0

28.0

— 0.4

69 " . .

15 0 0. 9

18 39.86

1 40.22

1.83

— 0.66

+ 23 57 29. 8

25.9

0.0

71 " . .

5 42. 8

24 22.7H

1 40.21

1.61

— 1.10

+ 21 17 4.0

29.2

— 0.7

8

8 6.3

26 40. 59

1 40.21

1.28

— 1.42

+ 17 12 59.0

34.4

— 1.7

/) 75 s " .

10 5.4

28 46.02

1 40.21

1.28

— 1.42

+ 17 11 2.0

34.4

— 1.7

77 " . .

15 23. -

34 5.29

1 40.21

0.66

— 1.71

+ 9 6 58.0

46.0

— 1.8

6.7

15 19 36.2

2:: 38 18.38

— 1 40.20

— 1.86

— 0.56

+ 24 21 23. 0

— 0 25. 5

+ 0.1

a g assumed as 22° 40'

V'.5\ not

■22' 4i' 36".5.

c Div. assumed

as 47 ; uot 48.

e T. Ill 1. jected.

b T. I assumed as 34s.5

; not 3U

~.5.

d Div. assumed

as 17 13 15 ; uo

17 13 14. / Min. ass'd as 9m. and

10m.; not 8m. and 9m.

(95)

96

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

17S3 JUXY 26— Continued Ze

'O corr. = -f

L' 48". 7.

Name

Mag.

T

App. sid. time

Clock oorr.

n tan S

'I

f— 4>

Eefr.

?'

h m s

It. m s

in s

s

S

O ' "

/ //

II

7

15 21 55.0

23 40 37.56

— 1 40.20

— 2.05

+ 0.0]

+ 26 27 18. 6

— 0 23. 1

+ 0.8

6.7

25 0. 5

43 43.57

1 40.19

1.23

— 1.46

+ 16 40 48.0

35.2

— 1.7

6.7

26 46. 5

45 39.86

1 40.19

1.30

— 1.41

+ 17 31 25.2

34.0

— 1.6

6

28 41.2

47 34.87

1 40.19

1.61

— 1.09

+ 21 25 23.2

29.0

— 0.7

Double

6.7

31 27.7

50 11.82

1 40.19

2.62

+ 1.39

+ 32 29 56.2

16.4

+ 2.6

7

33 41.6

52 20. (19

1 40.19

3.60

+ 1.37

+ 417 52. 0

7.6

+ 4.3

7

36 31.1

55 16.05

1 40. 19

3.56

+ 1.36

+ 40 51 26. 1

7.9

+ 4.3

7

39 28.6

23 58 14. 04

1 40.18

3.32

+ 1.28

+ 38 54 52. 2

9.8

+ 3.9

a) 22 Androm. .

5.6

42 5.0

0 0 50.87

1 40. 18

4.10

+ 1.92

+ 44 50 3. 8

3.9

+ 5.1

7.8

44 28. 6

:: 14.87

1 40. is

4.10

+ 1.92

4- 44 51 32.0

3.9

+ 5.1

4

50 6.3

8 53.50

1 40. 18

— 0.72

— 2. 39

+ 9 59 16.8

0 44.9

— 1.8

10 Ceti . .

15 58 23.2

17 11.76

1 40. 17

+ 0.09

+ 0.83

1 15 30.8

1 6.2

— 0.7

28 Androm. .

16 1 37.5

20 26.59

1 40.16

— 2.24

+ 0.79

+ 28 31 53. 8

0 20. 8

+ 1.5

51 Pisciuio

4 6.9

22 56.40

1 40. 16

0.41

— 0.93

4- 5 44 45. 4

51.9

— 1.5

b) 29 7t Androm. -

8 13.9

27 4. 08

1 40. 16

2.62

+ 1.39

+ 32 29 57. 8

16.4

+ 2.6

31 $ " . .

111 39.2

29 29. 78

1 40.16

2.35

+ 1.13

+ 29 38 56. 0

19.5

+ 1.8

32 " . .

12 17.2

31 8.05

I 40.15

::. 25

+ 1.27

+ 38 14 22.2

10. 5

+ 3.7

34 f " . .

18 45.5

37 37.41

1 40. 15

1.75

— 0.85

+ 23 3 54. 2

27.1

— 0.2

35 v " . .

20 46.6

39 38.84

1 40.15

3.44

+ 1.30

+ 39 51 59. 0

8.9

+ 4.1

37 fi "

27 36.9

46 30.26

1 40.15

3.14

+ 1.27

+ 37 17 32.6

11.5

+ 3.5

71 f Piscium

34 31.4

53 25.9(1

1 40.14

0.48

— 1.08

+ 6 42 28. 4

50.3

— 1.6

43 \i Androm. .

16 40 26.4

0 59 21.87

— 1 40.14

— 2.82

+ 1.37

+ 34 26 27. 6

— 0 14.4

+ 2.9

178

i jruiiY 'i

f Ze

•o corr. = + ;

' 48".0.

6.7

9 51 28. 7

18 13 13.56

— 1 39. 10

— 2.34

+ 1.11

+ 29 33 31. 0

— 0 19.2

+ 1.8

108 Hereulis -

5-2 34.7

14 19.74

1 39.10

— 2.35

+ 1.15

+ 29 44 35.2

0 19.0

+ 1.8

c) 59 (/ Serppntis -

6

56 3.2

17 48.81

1 39.10

0.00

+ 0.34

4 0 4 6.4

1 2.4

— 0.8

60 c " . .

9 58 18.8

20 4.79

1 39.09

+ 0.15

+ 1.09

— 2 7 16. 1

7.5

— 0.7

61 e " . .

10 0 39.4

22 25.78

1 39.09

0.08

4- 0.80

— 1 9 12.0

5.2

— 0.7

1 m Aquilsa

3 17.3

25 4.11

1 39.09

+ 0.61

+ 1.87

— 8 23 13.4

1 24.8

— 0.5

7.8

8 2.2

29 49. 79

1 39. OS

— 3. 32

+ 1.28

+ 38 41 59. 0

0 9.8

+ 3.8

3 a Lyrse .

9 31.6

31 19.43

1 39.08

3. 30

+ 1.27

+ 38 33 52. 4

10.0

+ 3.8

4 Aquilae

13 47.2

35 35. 73

1 39.08

0.13

— 0. 08

+ 1 50 45.4

58.7

— 1.0

111) Hereulis .

16 15.6

38 4. 54

I 39.08

1.54

— 1.21

+ 20 19 48. 1

29. 8

— 1.)

6

21 25.2

43 14.99

1 39.07

2.52

+ 1.34

+ 31 21 53. 0

17.3

+ 2.3

10 /3 Lyrse . .

+ 33 5 46. 4

15.4

+ 2.7

d) 63 ft Seqieutis .

25 1 8. 1

47 8.56

1 39.07

0.28

— 0.43

+ 3 55 15.8

54.6

- 1.3

18 Aquilae

36 39.2

18 58 31.48

1 39.00

— 0.78

— 2.75

+ 10 43 57. 8

0 43. 0

— 1.9

e) 20

40 41.2

19 2 34.14

1 39.05

+ 0.60

+ 1.88

— 8 17 35.2

1 24.6

— 0.5

22

45 36.2

7 29. 95

1 39.05

— 0.32

— 0.54

+ 4 27 6. 0

0 53.0

— 1.3

27 d

49 10.6

1 1 4. 93

1 39.04

+ 0.09

+ 0.84

— 1 17 31.2

1 5. 5

— 0.7

30 6

54 20.6

16 15.78

1 39.04

— 0. 19

— 0.23

+ 2 40 57. 4

0 57. 1

— 1.1

5 Vulpeculaj

56 33.6

18 29. 14

I 39.04

1.48

— 1.26

+ 19 39 31.0

30.7

— 1.2

7

58 15.2

20 11.02

1 39.03

1.49

— 1.25

+ 19 47 50.5

30.5

— 1.1

7 " . .

Id 59 41.2

21 37.25

1 39.03

1.49

— 1.24

+ 19 49 24. 4

30.5

— 1.1

6

11 2 50.2

24 46. 77

1 39.03

1.29

— 1.42

4 17 16 31.6

33.7

— 1.7

/)

7

6 38.0

28 35. 19

1 39.03

1.68

— 1.00

+ 22 5 42. 4

27.6

— 0.5

13 ft Cys'iii . .

4

10 22.4

32 20. 20

1 39.02

4.87

+ 3.36

+ 49 41 45. 4

0.8

+ 5. 7

g) 49 u Aquilae

14 52.0

36 50. 54

1 39.02

0.51

— 1.17

+ 7 5 6.8

48.8

— 1.6

A)

7.8

24.6

40 23.70

1 39.01

0.50

- 1.31

+ 7 43 51.0
+ 8 17 34.8

47.8

- 1.7

53 a " . .

19 50.5

41 55.87

1 39.01

0.61

— 1.44

41 i. 9

— 1.7

7.8

22 10.9

44 16.65

1 39.01

0.28

— il. II

-f 3 50 18.5

54.7

— 1.3

6.7

25 2. 6

47 2.80

1 39.01

1.82

— 0.72

+ 23 44 24. 8

25.7

0.0

12 y Sagittse .

28 50. 6

50 51.42

1 39.00

1.42

— 1.32

+ 18 53 39. 4

31.6

— 1.3

15 Vulpei-ul;i'

31 51.6

53 52. 92

1 39.00

2.12

+ o. -jr.

+ 27 8 31.7

21.9

+ 1.0

36 f': ( iygni .

34 54.4

19 56 56. 22

1 39.00

4.84

+ 3.33

+ 49 28 37.7

0.6

+ 5.6

17 ft Sagittse .

0.7

40 4. 5

20 2 7.19

1 38.99

1.53

- 1.31

+ 20 15 46. 0

29.8

— 1.1

fi

41 11.4

3 14.28

1 38.99

1.55

— 1.19

+ 20 28 48.6

29. 6

— 1.0

22 Vulpeculie

45 48.6

7 52.24

1 38.99

1.74

— 0. 88 -(- 22 50 6. 4

26.8

— 0.2

34 Cygni .

11 49 26.7

20 11 30.94

— 1 38.98

— 3.16

+ 1.27 + 37 20 25.0

— 0 11.2

+ 3. 5

a g assumed ag 4° 1' 1";

mil 1 1

il".

i Tr'sitoverT. I

I assumed as rei

'doverT. III. / T. I assumed as 12s.;

not 22s.

b t assumed us 16° 21' £

".7; not

Hi ■■■ 21' 38".7.

Observation m

irked as uncert

Aiu by d'Agelet g § assumed as 41° 45'

9".5| not 41°

45' 2a".5.

c T. Ill assumed as 5(ju]

. 2«s.2.j

lot "illm. 21S.2.

bat found cc

rrect.

h Minute assumed as Is

.

(96)

GOULD — REDUCTION OF D AGELET 8 OBSERVATIONS.

<>7

11 S3 .Bl'

I, V '£7 — Continue!! V.v

" 1 "ii - + 1' 48". 0.

Name

Mag.

T

App. siil. time

Clink corr.

n tan i*

'/

c-t

Reft.

?'

ll III .V

// III s

m s

s

s

Q 1 II

/ /,

II

37 y Cygni . -

11 54 5.6

20 16 11.60

— 1 38. 98

— 3. 42

+ 1.29

+ 39 32 3.',. 2

— 0 9.0

+ 4.0

(i.7

12 6 24.8

28 31.82

1 38. 01;

4.28

+ 2. 36

f 15 55 34.5

+ 5. 3

6.7

9 54.2

32 1.79

1 38.96

::. 7:'.

+ 1.43

+ 42 3 24.0

l\.C>

+ 4.5

6.7

12 4.7

34 12.65

1 38.00

3. 82

+ 1.48

+ 42 40 18. (J

6.0

+ 1.6

50 a " . .

+ 44 29 2.8

4.2

+ 5.0

12 j Delpliini .

16 11. 1

38 19.72

1 38.05

1. 11

— 1.54

+ 15 20 5.6

36.3

— 1.9

7

20 13.5

12 22.78

1 38.95

1 . 28

— 1.42

+ 17 13 56.4

33.9

— 1.7

31 r Vulpeeulae

22 23. 3

44 32.94

1 38.95

2.04

— 0.04

+ 26 16 21.0

22. 8

+ 0.7

329 •• . .

24 52. 1

47 2. 45

1 38.95

. 2.13

+ 0.28

+ 27 13 i\.K

21.8

+ l-o

7.8

27 45.3

49 55. 82

1 38.94

4.98

— 0.23

+ 25 32 56. 9

23. 6

+ 0.6

«)

8.9

::n 35.4

52 46.39

1 38.94

2. 55

+ 1.37

+ 31 38 10.2

17.0

+ 2.4

7

:::•, 31.4

55 42. 87

1 38.'J4

3.90

+ 1.56

+ 43 18 56.0

5. 3

+ 4.7

7

:::, 44.8

20 57 56.64

1 38.94

4.28

+ 2. 39

+ 15 58 50. 1;

2.7

+ 5.3

63/>Cygni'. .

38 39.2

21 0 51.52

1 38.o::

4.39

+ 2.66

+ 46 45 10.4

2.0

+ 5.4

7.8

42 ::. 8

1 16.68

1 38.93

2. 28

-j- 0.90

+ 28 48 20.5

20. 1

+ 1.5

64 f " . .

43 12.6

5 25. 67

1 38.93

2.33

+ 1.07

+ 29 19 I8.11

19.5

+ 1.6

<;:. r " . .

45 37.9

7 51.37

1 38.93

3.14

+ 1.27

+ 37 6 3.5

11.4

+ 3.5

(17 " . .

5

12 48 23.5

10 37.42

1 38.92

3.29

+ 1.27

+ 38 27 57.9

, 10.1

+ 3.8

7.8

13 2 3.5

24 19.66

1 38.91

1 . 70

— 0.05

+ 22 25 23. 1

27.3

— 0. 4

7

5 5. 7

27 22. 36

1 38.91

1.80

— 0.77

+ 23 28 17. 6

26. 1

— O.J

7.8

8 25.7

30 42.91

1 38.90

1.89

— 0.52

+ 24 30 24.8

24.9

+ 0.2

8

111 511.:'.

33 7. 91

I 38.90

1.59

— 1.15

+ 20 56 in. 0

29. 1

— 0.8

8

11 3.8

33 21.45

1 38.00

1.50

— 4. 18

+ 20 36 17.0

29.5

— 0.9

i) g Pegasi -

13 41.0

35 59.07

1 38.90

1.21

— 1.48

+ 16 20 39.0

35. 1

— 1.8

7.8

16 11.3

38 29.7-

1 38.89

4.20

— 1.48

+ 16 10 54.8

35. 2

— 1.8

13 " . .

19 15.0

41 33.98

1 38.89

1.21

— 1.48

+ 16 15 59.6

35.2

— 1.8

k; " . .

22 36. 1

44 55.63

1 38.89

1.92

— 0. 4 1

+ 21 53 25.4

24.4

+ 0.4

8.9

25 1.1)

47 20.93

1 38.89

2.76

+ 1.39

+ 33 4:', 42.0

14.9

+ 2.8

7.8

28 28.2

50 48.70

I 38. B8

2. 28

+ 0.90

+ 28 46 58.0

20.1

+ 1.5

8

30 31.2

52 52.04

1 38.88

2.43

+ 1.25

+ 3,0 23 33.6

18.4

+ 2.0

34 21.3

21 56 42. 77

1 38.88

2.57

+ 1.38

+ 31 52 20.7

16.8

+ 2.5

27 " . .

39 42. 3

22 2 4.65

1 38.87

2. 59

+ 1.39

+ 32 5 44.4

16.6

+ 2.5

1 Lacerte .

45 51.3

8 14.66

1 38.87

3.08

+ 1.29

+ 36 39

6

57 22. 3

19 47.55

1 38.85

— 2.02

— 0. 13

+ 25 53 55. 5

0 23.3

+ 0.7

6

13 59 18.9

21 44.47

1 38.85

+ 0.29

+ 1.57

— 4 1 19.6

1 12.3

— 0.6

7

14 4 0. 5

26 26.84

1 38. --5

— 2. 28

+ 0.94

+ 28 49 5. 8

0 20. 1

+ 1.5

-1 1 // Pegasi .

12 6.6

34 34.27

1 38.84

2.30

+ 4.00

+ 29 4 4. 1

19.9

+ 1.6

40 c " . .

15 8. <;

37 36.77

1 38.84

— 0.81

— 2. 89

+ 11 2 54.4

0 42.8

— 1.9

7(i <5 Aquavii

22 16.7

44 46.01

1 38.83

+ 1.26

+ 1.64

— 10 57 38.4

2 2.0

— 0.5

Fomalhaut

24 42.2

47 11.91

1 38.83

2. 46 + 5. 05

— 30 42 39. 1

4 48.3

— 6.0

5.6

26 45.2

49 15.28

1 38.83

2. 45 + 5. 02

— 30 33 57.2

4 14.3

— 6.0

82 Aquarii

30 24.8

52 55.48

1 38.82

-f 0.56

+ 1.88

— 7 41 10.2

1 23.3

— 0.5

6.7

33 21 . 1

22 55 52.26

1 38.82

— 0. ill

-j- 0. 31

4- 0 8 4.4

1 2.7

— 0.8

*)

6.7

37 51.3

23 0 2:;. 20

1 38.8]

1.31

— 1.41

+ 47 32 49.0

0 33.6

— 1.6

6.7

41 44.9

4 17.44

1 38.^1

2.23

-f 0.67

+ 2- 11 45.0

20.7

+ 1.3

6.7

43 1.3

5 34.05

1 38.81

2.25

+ 0.80

+ 28 34 16.6

20.4

+ 1.5

7

16 2ii.li

8 53. 29

1 38.81

2.37 + 1.16

+ 29 49 29. 8

49.0

+ 1.8

6.7

48 8.3

10 41.89

1 58.80

2.75 + 1.40

+ :::; 35 ::. 5

15.1

+ 2.8

12 Androm. .

49 36.7

12 10.53

1 38.80

3.12 + 1.2-

+ 36 58 29. ::

14.6

+ 3.5

7.8

52 56. 1

15 30. 17

1 38.811

3. 52

+ 1.33

+ 40 23 47.3

8.2

+ 4.1

13 " . .

55 51.5

18 20.:;5

1 38.80

3.68

+ 1.40

+ 41 41 26.0

6. 9

+ 4.4

8.9

14 58 14.5

20 49.74

1 38.79

4.18

-j- 2.08

+ 45 14 34.4

3.4

4- 5. 1

7.8

15 0 31.4

23 7.02

1 38.79

3.84

+ 1.50

+ 12 50 54.0

5. 8

+ 4.7

7

2 35.5

25 11.46

1 38.79

3.82

+ 1.48

+ 42 40 39.8

6. 0

+ 4.7
+ 5.1

1G X " . .

5.6

6 6.8

28 43. 34

1 38.78

4.18

+ 2.08

+ 45 15 12. 4

3.5

<0

6.7

6 26.2

29 2.79

1 38.78

4. 14

+ 1.98

+ 44 59

8

9 39. 1

32 16.22

1 38.78

4. 14

+ 4.98

+ 44 59 23. 0

3.8

+ 5.1

8

13 8.0

35 45.69

1 38.78

3.79

+ 1.47

+ 12 30 52.5

6.4

+ 4.6

20 V

6

14 25.5

37 3. 40

1 38.78

4.16

+ 2.00

+ 45 11 I5.il

3.5

+ 5.1

7

19 27.4

42 6. 13

1 38.77

3.35

+ 1.28

+ 38 58 12.6

9.8

+ 3. 9

6.7

23 44.0

46 23. 43

1 38.77

4.30

+ 2.44

+ 46 7 7.5

2.6

+ 5.3

84 >/, Fegasi .

25 46.8

48 26.56

1 38.77

4.84

— 0.07

+ 23 54 54. 1

25. 7

0.0

6

27 30.2

50 10.24

1 38.76

2. 64

+ 1.39

+ 32 29 54.5

16.2

+ 2.6

6.7

15 29 44.4

2:; 52 21. -2

— 1 38.76

- 3. 62

+ 1.37

+ 41 7 52.5

- 0 7.5

+ 4.3

a £ assumed as 18° 5'; l

ot IS3 6'

b

g :i--'il ;m 31°

-' L6".5; not 3

1°18'46".5. e g ass'dasthatofastar

1' 8" from Lai. 46424.

13

(97)

98

GOULD— REDUCTION OF D AGELET S OBSERVATIONS.

17S3 JULY 27— Continned

Ze

ro corr. = -r

9 48".0.

Name

Mag.

T

App. siil. time

Clock coir.

n

tan d

'!■

C-?

Refr.

<i'

A VI s

h m s

m s

s

s

o ' "

/ //

II

7

15 32 33.8

2:'. 55 14.68

— 1 38.76

3.58

+ 1.36

+ 40 51 27. 1

— 0 7.8

+ 4.3

7

35 31.3

23 58 12. 66

1 38.76

3.31

+ 1.28

+ 38 54 51.4

9.7

+ 3.9

22 Androm. .

38 7.6

0 0 49.39

1 38.75

4.12

+ 1.92

4- 44 5(1 4.s

3.9

+ 5. 1

6.7

40 31.5

3 13.69

1 38.75

4.12

+ 1.9-2

+ 44 51 34.0

3.9

+ 5. 1

36 Piscram

44 26.2

7 9. 03

1 38.75

ii. r,n

- 1.15

+ 7 1 16.5

49.3

— 1.6

5.6

46 8.6

8 51.71

1 38.75

0. 73

— '2.29

+ 9 59 15.4

44.6

— }.S

28 Androm. .

15 57 40.3

20 25.30

1 38.73

■J. 25

+ 0.79

+ 28 31 53.6

20. 4

+ 1.5

«) 51 Piscium

16 0 lu.l

22 55.51

1 38.73

0. 42

— 0. 86

+ 5 44 46.0

51.5

— 1.5

29 7t Androm

4 16.6

27 2. 68

1 38.73

2. 64

+ 1.39

+ 32 29 56.4

16.2

+ 2.6

31 .1 " . -

6 42.3

29 28.78

1 38.72

—

2. 36

+ 1.13

+ 29 38 53. 8

0 19.3

+ 1.8

Mars .

15 30.2

38 18. 12

1 38.72

+

11.115

+ 0.63

— 0 44 '20.8

1 4.8

-0.7

b) 37 fi Ceti . .

23 39.7

46 28.96

1 38.71

3. 16

+ 1.27

+ 37 17 32.3

0 11.3

+ 3.5

71 c Piscium

30 34.2

53 24.6H

1 38.70

0.48

— 1.08

+ 6 42 22. 1

. 50. 0

— 1.6

43 fi Androm. -

i6_:;o 29. 3

0 59 20.68

— 1 38.69

—

2.83

+ 1.37

+ 34 26 27. 3

— 0 14.2

+ 2.9

1783 JULY 29

Zero corr. — + 1' 46". 7.

67 a Virginia

1

4 46 35. 1

13 15 22.98

— 1 36.56
1 36.54

+

9.74

+ 1.79

— 10 1 56.5

— 1 29.9

— 0.4

r) 85 i) Ursa' Maj.

5 11 46.0

13 40 38.02

5.(17

+ 3.45

+ ."ii 22 13.6

ii 1.1

+ 5. 7

Arcturus -

5 38 30.7

14 7 27.12

1 36.52

1.50

— 1.21

+ 2H 17 46.2

2>.Kf>

— 1. 1

30 ; Bootis . .

6 3 28. 4

32 28. 92

1 36.49

1. Ill

— 1.62

+ 14 38 49. 4

0 37.1

— 1.9

9 a2 Libra? -

11 28.7

14 40 30.53

1 36.48

+

1.13

+ 1.61

— ].". 7 57.9

1 51.0

— Ii..".

3 f) Cor. Bor. .

51 24.8

15 20 33.29

1 3i'.. 44

'J. !1

-f 1.17

4- 29 5H 1.".. 2

0 18.8

+ L9

5 o "

6 58 1.6

15 27 11.08

1 36.43

—

■:. 18

-j- 0.36

+ 27 25 46.6

0 21.4

+ LI

2 i Ophiuchi .

7 39 12.4

16 8 28.64

1 36.40

+

11.31

+ 1.60

— 49 42.8

1 12.3

— 0.6

Antares

48 24.4

17 42. 15

1 36.39

+

2. i 'i i

+ :■■. 12

— 25 54 44. 8

3 17.2

— 2.6

27 j3 Herculis .

7 53 16.9

22 35. 45

1 36.38

1.69

— 1.01

+ 21 57 4.2

0 27. 8

— 0.5

6.5

8 4 21.8

33 42. 17

1 36.37

—

1 . 98

— 11.31

+ 25 15 53.0

II 23.9

+ 0.4

20 Ophiuchi -

10 6.1

39 27.40

1 36.36

+

0.77

+ 1.77

— 19 23 2-1.5

1 31.5

— 9.4

23 " . .

6.5

15 15.4

44 37. 54

1 36.36

0.42

+ 1.82

— 5 47 42.0

1 17.0

— 0.5

26 " . .

18 54.3

48 17.08

1 36.36

L. 93

+ 2.51)

— 24 43 33.8

3 2. 6

— 2.1

666 Mayer .

6.5

19 5.4

48 28.20

1 36.36

1.92

+ '2. 47

— 24 37 22. 0

1.6

— 2.0

28 Ophiuchi .

6.7

23 35. 1

52 58.63'

I 36.35

+

1.98

+ '2.79

— 25 17 52.8

3 9. 7

— 2.3

33 " . .

25 59. 3

55 23.23

1 36.35

1.94

— 1.67

+ 13 51 27.1

0 38. 3

— 2. 0

34 " . .

26 J7. :;

1 6 55 4 1 . 28

1 3i;.::r.

1.04

— 1.67

+ 13 52 23. '2

38. 1

— 2. 0

6.7

31 11.4

17 0 36. 17

1 36.34

3.IU

+ 1.32

+ 35 35 45. 0

12.9

+ 3.2

6.7

33 27. 3

2 52. 44

1 36.34

2.11

+ 0.09

+ 26 42 53.4

22. 2

+ 0.9

7.8

34 54.7

4 20.1 -

1 36.31

'2. 66

+ 1.39

+ 32 26 13.0

16.1

+ 2.6

7.8

36 4H.2

6 5. 87

1 36.34

—

1.67

— 1.06

+ 21 in 29.::

9 28. 1

— 0. 6

45 " . .

3.4

45 36. 5

15 3.64

1 ::i:.:;:;

+

2. 3.9

+ 4.73

— 29 36 38. 8

4 19.9

— 5.1

76 / Herculis

54 10.6

23 39.15

1 36.32

■.'.lis

— 9.04

+ 26 15 43.0

0 22.8

+ 0.7

55 a Ophiuchi .

8 57 5. 3

26 31. 33

1 36.32

11.95

— 1.86

+ 12 42 43.6

40.0

— 2.0

d)

6

9 4 41.6

34 11.88

1 36.31

',». ..I',

+ 1.36

+ 31 23 23.3

17.3

+ 2.3

6

9 39.9

39 ll.ini

1 3(1. 311

'2. 58

+ 1.36

+ 31 34 34.0

17.1

+ 2.3

7

12 1J.7

41 43.22

I 36. 3ii

■J. 87

+ 1.38

+ 34 20 10.1

14.2

+ 2. 9

7.8

15 11.2

44 43.21

1 36.311

3.15

+ 1.28

+ 36 53 18.8

11.6

+ 3.5

8.9

17 37.7

47 in. 11

1 36.30

3.38

+ 1.28

+ 38 51 3.8

9. 7

+ 3.9

9

21 55.7

51 28.82

1 36.29

3. -JO

+ 1.27

+ 37 48 30.2

10.7

+ 3.7

7

23 15.4

52 48. 74

1 36. '.'9

3.(19

-f 1.30

-4- 36 17 26.6

12.2

+ 3.3

7.8

25 46.0

55 19.75

1 36.28

•2.76

+ 1.41)

+ 33 17 47.2

15.2

+ 2. 7

6

28 25. 2

17 57 59. 39

1 36.28

1.66

— 1.06

+ 21 37 9. 6

28.2

— 0.6

1 04 A Herculis

35 4'.l. 3

18 5 24.71

1 36.28

2.56

+ 1.34

+ 31 2li 14.6

17.3

+ 2.3

7

39 4H.5

9 16. 54

1 36.28

2.46

+ 1.23

+ 311 IS 46.3

18.4

+ 2.0

0

6

43 3::. 7

13 10.36

1 36.27

•J. 38

+ 1.11

+ 29 33 3ii.li

19.2

+ 1.8

108 " . .

9 44 39.6

14 16.43

1 36.27

'2.41

+ 1.14

+ 29 44 33.11

19.0

+ L8

3 a Lyras -

10 1 3(1. 9

31 16.52

1 36.25

—

3. 35

+ 1.27

+ 38 33. 53.2

0 10.0

+ 3. -

/) 6 / Aquilas

7 36.0

18 37 16.60

1 36.25

+

0.36

+ 1.73

— 4 58 25.2

1 14.9

— n.5

7

45 46.2

19 15 33.07

1 36.21

(i. 82

— 2.87

+ 11 0 51.6

0 42. 7

— 1.9

7 Vulpeculse

6

51 .17. M

21 34.86

1 3.6.20

1 . 51

— 1 24

+ 19 49 'j;,. n

30. 6

— 1.1

6.5

in 54 55.7

19 24 44.08

— 1 36.20

—

1.31

— 1.42

+ 17 16 32.0

— 0 33.8

— 1.7

« £ assumed as 43 6'

19"; not

13 ii' 'J'J":

c Div. a:- '1

is 94 6 1; nut

14

i ii

/ if

issnmed as 53 ' 49' ;

nol 53 13

:mil Micr. curr. ;is -

— 5; nol

+ 5.

</ ^ assumi d at

. 3D"; no

17

.

b Name Rueumed as 3'

/' And

nut

c Mill, a

.i- 'in. and 44l

a. ;

nut 42]

i.

37 (i & ti.

and 43m.

(98)

UOULD REDUCTION OF D AGELET S OBSERVATIONS.

!ll»

1783 .(('I

iT 29— Continued

Zi ro cut. 1

! .

Name

Mag.

T

App. sid. time

Clock & 1.

11 tan li

1 f— 0

Refr.

</

li in s

li m s

Ill s

s

s C 1 a

/ //

II

9 Vulpocula'

G

in 56 56. 1

19 26 14.81

— 1 30.2H

— 1.47

—

.29 + 19 17 3H.5

— 0 31.2

— 1.3

G.7

in 58 44.1

28 33. 1 1

1 36. 19

1.70

—

.011 4 22 5 12.4

27.7

— (i.5

12 Cygni . .

11 2 39. -

32 29.46

1 36. 19

2. 39

+

1.13

4- 29 38 25. 4

19.2

4- 1.8

7.8

5 13.2

35 3. 28

1 30. 19

2.00

+•

1.39

4 32 33 34.0

10. 1

4- 2.0

7

6 13.9

36 4. 14

1 36. 19

2.62

+

.■■-

-f- 31 53 50.3

16.8

+ 2. 5

7.8

7 31.3

37 21.75

1 30.19

2.70

+

.40

f 33 37 47.0

15.0

+ 2.8

7

9 36. 1

39 26.89

1 30.19

2.91

+

1.37

+ 34 28 4.0

14. 1

4 3.0

53 a Aquilse

12 1.7

41 52.90

1 36. 18

0.0,1

1.44 H 8 17 36.6

47.(1

— 1.7

7.8

14 22.9

44 14. 19

1 36.18

0.26

—

i.4l - ■ 3 50 21.2

54. 9

— 1.3

6.7

17 8.1

47 0.14

1 30.18

1.84

—

1. 72

+ 23 41 27. 3

25.8

0. 0

21 ;; Cygni .

4.5

19 58.3

49 50.81

1 36. 18

2. 91

+

1 . 37

4 34 29 28.6

14.1

4 3.11

7.8

22 32.6

52 25.53

1 30.17

3. 22

+

1.27

4. 3,7 29 59.0

11.0

+ 3.0

7

25 57. 1

55 50.59

1 36. 17

1.25

1.40

+ 16 31

G.7

26 9. 3

56 2.82

1 36.17

1.24

—

1.47

4- 16 28 34.5

34.9

— 1.8

17 Vulpcculce

29 21.6

19 59 15.65

1 36.16

1.78

—

1. .-0

4 22 58 45.0

20.7

— 11.2

28 6" Cygni . .

33 7.8

20 3 2. 47

1 30.16

3.07

+

1.30

4 36 11 C7

12.4

+ 3.3

21 Vulpeculae

37 5. 1

7 0.42

1 30. 16

2.23

+.

'. 58

+ 28 1 20.2

20.9

+ 1.3

24 '• . .

39 15.6

9 11.28

1 36. 15

1.87

1.0;,

4- 23 59 :::. 1

1 .11

o) 04 Cygni . .

41 31.5

11 27.55

1 30.15

3. 20

+

1.27

+ 37 20 25.8

11.2

+ : ■ 5

37 . - . .

4G 10.8

16 7.62

1 36.15

3.48

+

1.29

+ 39 32 30.2

0. n

+ 4.o

7.8

4:i 17.8

19 15. 13

1 30. 14

1.50

1 . 25

+ 19 45 |:,.2

3,0.0

— l.l

41 i " . .

52 14.1

22 11.91

1 36. 1 4

J. 39

+

1.13

+ 20 37 52.5

10. 'J

4- 1.8

b) 471 " . .

11 57 1(1.2

27 -.-1

1 36.14

2.89

+

1.37

4- 34 29 20.0

14.1 4-3.0

6.7

12 1 44. 'J

31 44.26

I 30. 13

2.39

+

1.11

+ 29 33 39.0

10.3

4- 1.8

" . .

5 43.6

35 43. 01

1 30.13

4.13

+

1.81

4 44 28 50.0

4.2

4- 5.0

54 > " . .

in 37.5

40 38.31

I 36.13

3.02

+

1.32

4 35 40 31.8

12.9

4-3.2

6.7

13 5 5.3

43 56.65

1 36.12

2.18

+

1.30,

+ 27 26

21.6

4- 1.1

32 v Vulpeculse

6.7

16 57.4

46 59. 25

1 30. 12

2. 16

+

1. 20

4 27 13 10.2

21.9

4- l.o

0

8.9

19 51 .3

40 52. 62

1 36.11

-MH

1.20

+ 25 33 1.5

23.7

4-0.6

9

22 4H.7

52 43.49

1 36.11

2.59

+

1.37

+ 31 38 12.0

17.1

4- 2.4

8

25 36.2

55 39. 47

1 36.11

3.96

+

1.56

4- 43 18 58. 6

5.3

4- 4.7

62 £ Cygni .

28 39. 9

20 58 43.67

1 36.10

3.92

+

1.52

4- 43 2 25. 0

5.6

4- 4.7

63/ ' •' . .

30 44. 3

21 0 48.41

1 30.10

4.46

+

J. 07

+ 46 45 8. 4

2.0

4-5.4

d)

7.8

33 48. 2

3 52. 81

1 30.10

4.15

+

1.82

4- 44 35 41.1

4.1

4-5.0

65 r " . .

37 43.7

7 48.90

1 36.10

3.17

+

1.27

+ 37 6 2.2

11.5

4-3.5

07 " . .

G.5

40 29.4

10 35.11

1 30,. ill)

3.34

+

1.27 + 38 27 54.0

10.1

4- 3.8

7.8

54 9.1

24 17.05

1 36.08

1.73

3.95

4- 22 25 21.0

27.4

— 0.4

8

12 57 10. 8

27 10.25

1 36.08

1.82

—

1. 77

+ 23 28 20.0

26.2

— o.l

7.8

13 0 30.7

30 39. 72

1 36.07

1.91

—

3.52

+ 24 30 25.0

25. 0

4 0.2

7.8

33 4.62

1 30.1-7

1.61

—

1.14

+ 20 56 40.0

29. 1

— 0.8

7.8

:; 9.6

33 19.06

1 36.07

1.58

—

1. 1

+ 20 30 18.5

29.6

— 0.9

9 g Pegasi -

4.5

.". 46. 3

35 56. 19

1 30.07

1.23

—

1.48 + 10 20 43.li

35. 2

— 1.8

6.7

- 17.1

3- 27.70

1 36.07

1.22

—

1.48 + 10 In 57. i

35.3

— 1.8

13 " . .

11 20.4

41 31.20

1 36.06

1.22

—

1.48

4 10 16 6.3

35. 2

— 1.8

6.5

11 41.4

44 52.75

1 36.06

1.1)2

—

'.41

4 24 53 26. 4

24. 5

4- 0.4

9

17 6. 3

47 18.05

1 36.) 5

2.80

+

1.39

+ 33 43, 45.0

14.11

+ 2. -

9

20 33.5

50 45. 82

1 36. 5

2.31

+

1. On

+ 28 16 50.7

2ii. 1

4-1.5

7.8

23 41.3

53 54. 14

1 30.H5

1.12

1.58 + 14 5;, 53.3

37.1

— 1.9

8

23 57. 1

54 9.98

1 36.05

1.11

—

1.59

4- 14 47

')

6.7

28 44.li

21 58 57.64

1 36.04

4.IC,

+

1.68

4- 43 56 13.0

4.7

+ 4.9

7.8

33 29. -

22 3 44. 24

1 36.04

3.78

+

1.42

-j- 41 56 25.li

0.7

4- 4.5

6.7

30 21.2

6 36. 1 1

1 30.H4

4.10

+

1.76

+ 44 20 27.2

4.3

4- 4.1)

1 Lacertse

6.7

40 51.6

]J 7.25

1 36.03

3. 13

+

1.29

4 36 39 34.4

11.0

+ 3.4

7.8

43 56.4

14 12.50

1 30.113

3.47

+

1.20

4. 39 33 0.8

0.0

4- 4.0

7.8

48 ::■.'. 7

18 49.62

1 30.H2

3. 09

+

1.30

4 36 19 0.4

12.2

4-3.3

6 " . .

6.5

52 32.5

22 50.08

1 30.02

3.7 s

+

1.42

4 4 1 51) 15.7

0.0

4- 4.5

8

56 20.2

26 38.40

1 30.02

3.48

+

1.20

4 39 37 55. 5

0.0

4 4.1

8 " . .

G.7

13 57 37. 1

27 55.5]

1 30.02

3.34

+

1.27

4 38 20 28. 5

10.1

+ 3.8

11 " . .

14 2 23. 1

32 42.59

1 36.01

3.93

+

1.53

4- 43 7 7.0

5. 5

4- 4.7

13 " . .

5 48.2

36 7.05

1 36. 01

3.61

+

1.34

4 4n 39 20. 'j

7.1)

4-4.2

0

7 55.3

38 15.4H

1 36.00

3.96

+

1.57 -f- 43 22 40.5

5.3

4- 4.7

1- Pegasi .

III 53.1

41 13. G9

1 36.00

1 . 82

1.78 + 23 20 25.0

20.2

— 0.1

6

13 42.6

44 3.66

1 30.1111

1.18

—

1.51 + 15 40 42.(1

30. 1

— 1.8

6

14 16 .".-.11

22 47 19.59

— 1 .30. 00

— 2. 96

+

1.3:: 4 05 01 23.9

- 0 13.4 4. 3.1

a T. Ill assumed as 40i

n. ; not -]

3ra.

c T. I assumed 1

not 55s

e T. Ill assumed as 29

n. IBs. ; not 29m. Bs.

h T. I assumed a-S 56m.

a.

(/ J ► i

19 1 6 10 ; not

4 8 11.

(99)

100

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1783 JULY 39— Continued Ze

•o corr. = + 1' 46". 7.

Name

Mag.

T

App. sid. time

Clock coir.

n tan <i

'1

f— 0

loir.

<i

// "1 s

// m s

m s

s

s

o / //

;,

„

7

14 21 40.5

22 52 2. 86

— 1 35.99

— 2.42

+ 1. 18

+ 29 54 0.0

— 0 19.0

+ 1.9

a) 54 a Pegasi .

25 16.2

55 39. 15

1 35.99

1.05

— 1.05

4 14 1 35.8

38. 5

— 2. 0

0.7

26 5ii. 1

22 57 13.31

1 35.99

1.31

— 1.42

+ 17 19 40.0

33. 9

— 1.7

7.8

29 56. 4

23 0 20. 12

1 35.98

1.32

— 1.41

+ 17 32 53.0

3,3.. 0

— 1.0

7

33 49.6

4 13.95

1 35. 9S

2.26

-f- 0. OS

+ 28 14 43.7

20. 8

4 1.3

8

38 25, 2

8 50. 30

1 35.98

2.41

+ 1.17

4- 29 49 32. 0

19.0

4 )•!'

7

40 13.9

in 39.30

1 35.97

2. 79

+ 1.40

4 33 35 6. 0

15.1

4 2.8

12 Androm. -

14 41 41.8

23 J 2 7.44

— 1 35.97

— 3. 10

4 1.28

+ 36 58 30.0

— 0 1 1 . 0

4 3.5

l?.*s* JUIil SO Zero corr. •= + 1' 48". 9.

24 Vnlpeculse

11 35 17.9

20 9 9.48

— 1 34.52

— 1.87

— 0.65

+ 23 59 31.2

- 0 25.5

11.11

b) 35 m Cygni .

38 6. 2

11 58.40

1 34.52

2. ST

4 1.3S

+ 34 17 14.0

14.3

4 2.9

37y " - -

42 13.6

10 6.32

1 34.51

3.47

+ 1.29

+ 39 32 38.2

9.0

4 4.0

7.8

40 1.6

10 54.94

1 34.51

3.48

4 1.29

+ 39 4ii 19.4

8.9

4 4.(1

41 i

4S 17. 1

22 III. .-1

1 34.511

2. 39

4 1. 12

+ 29 3.7 51.ii

19. 2

+ 1-8

47/ " . .

53 12.3

27 0. 82

1 34.511

2.90

4 1.3,7 1+ 34 29 29.8

14.1 14 3.0

7

11 57 47.7

31 42.97

1 34.49

2. 39

4 1.11

4 29 33 30.9

19.2 4-1-8

50 a " . .

12 1 40.(1

35 41.92

1 34.49

4.13

+ 1.79

4- 44 28 50.2

4.2

4 5.11

54 1 " . .

6

0 40.4

40 37. 12

1 34.48

3.02

4 1.32

+ 35 40 31.0

12. 9

4 3.2

0

8.9

8 21.0

42 17.99

1 34. 48

3.48

+ 1.29

4 39 35 20.0

9. 0

4 4.0

0.7

9 58. 1

43 55. 36

1 34.48

2. 18

+ 0.30

+ 27 25 26.5

21.0

+ i-i

32 ij Vulpeculoe

0

12 13 0.2

2H 46 57.90

— 1 34.48

— 2. 16

-j- 0.28

4 27 13 10.8

— 0 21.9

4 1.0

17 S3

AUGUST 17 Zero corr. =+ 1' 46". 5.

d) 54 a Pegasi -

2

13 10 14.0

22 55 19. 19

— 1 15.26

— 1.05

— 1.05

4 14 1 33.8

— 0 38.7

— 2.0

7

20 37.2

23 5 14. Ill

1 15.26

2. 13

+ 0. 14

4 26 52 IO.ii

22. 5

4 1.0

61 " . .

21 24.6

0 31.63

1 15.25

2. 15

4 0.21 + 27 2 48.0

22. 3

4 1.0

7.8

23 34.2

8 41.59

1 15.25

2. 37

-j- 1.00 -(- 29 15 22.0

19.9

4 1.0

12 Androm. -

26 39.2

11 47. Ill

1 15.25

3. 18

4 1.28

4 30 58 37.8

11.7

4 3- 5

07 Pegasi .

7.8

29 21. 1

14 29.44

1 15.25

2. 57

-j- 1.34

4 31 19 11.0

17.6

4 2.2

OS) " . .

33 0.2

18 15. Hi

1 15.24

1.87

— o.oo

4 23 57 3H.0

25. 9

0. 0

14 Androm. .

30 50. 1

21 59.07

1 15.24

3.30

+ 1.27

4 38 1 10.8

111.7

4 3. 7

15 " . .

40 13.4

25 2:..:.::

1 15.24

3.42

4 1.28

4 39 1 1.6

9.7

+ 3.9

16 51 " . .

43 9. 1

28 19.71

1 15.24

4.26

4 2. 08 + 45 15 23. 4

3. 5

4 5. 1

19 K " - -

45 55.5

31 0.57

1 15.24

3. 94

+ 1.53 '+ 43 6 24.8

5. 0

+ 4.7

20 >l> " . .

51 28.4

3.0 40.38

1 15.24

4.24

4 2.00 + 45 II 20.2

3.0

4 5. 1

81 f Pegasi .

13 57 30.2

42 49. 19

1 15.23

1.37

— 1.40 + 17 54 0.8

3.3. 4

— 1.5

7

14 1 40.1

40 59.77

1 15.23

1.66

— 1.119 ,+ 21 25 25.6

20.11

— 0.7

85 " . .

6 57.2

52 11.72

1 15.22

2.115

— 0.14 U- 25 54 49.4
4 0.49 + 27 48 13.0

23.0

4 0.7

11 27.5

56 42.70

1 15.22

2.22

2 1 . 5

4 1.2

'Jl a Androm. .

13 it;, r,

23 58 32.110

1 15.22

2.23

4 0.51

4- 27 52 18.8

21.4

4 1.3

88 y Pegasi .

14 18 9.3

0 3 25.66

— 1 15.22

— 1.05

— 1.00

4- 13 57 47. 4

0 38.9

— 2.0

17S3

AUGUST 20 Zei

0 corr. | I' 48". 7.

58 e Herculis .

6 57 22. 7

16 53 10.311

— 1 12.61

— 2.58

4 1.33 + 31 13 54.4

— 0 17.5

4-2.2

35 ;/ Ophiuchi

7 3 15.2

Hi 59 9.70

1 12.00

4 1. 17

+ 1.63 — 15 26 27.8

1 53.0

- 0.5

37 " . .

0

7 37.8

17 3 33. IIS

1 12.011

— 11.70

- 2.80 + 10 50 32.5

0 43.11

— 1.0

64 a Herculis .

10 7.7

0 3. 39

1 12.60

1. 11

— 1.60 -j- 14 ;" 52-°

37.4

— 1.9

74 " . .

19 33.7

15 311.911

1 12.59

4.40

4 2. 55 + 46 25 57. 6

2.3

4 5. 3

70 X " . .

27 17.2

23 15.72

1 12.58

2.10

— 0. 04 '-j- 20 15 44. 8

22. 9

4 (1.7

6.7

30 5. 2

20 4. 18

1 12.58

1.27

— 1.46 -)- 16 38 38.4

34.7

1.7

7

36 27. 8

32 27. S3

1 12.58

0. 33

— 0. 54 -j- 4 28 30- '

53.9

— 1.3

00 /3 Ophiuehi .

38 1.9

34 2.19

1 12.58

II. 35

_ 0.58 + 4 39 21.7

53. 5

— 1.4

7

7 41 35.8

17 37 36.68

— 1 12.57

- 2.79

4- 1.40 4- 33 1S 16.3

— 0 15. 3

4 2. 7

a Div. assi

mod ;is :

7 2 5; not 37 2 3.

c Transits discordant.

b <; assume

J as 14°

53' 51"; not 14° 33' 11".

d £ assumed as 34° 49' ; not 34° 44'.

(100)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

101

I7W Al'«UST 30— Continued

Zero corr. | 1' 4K '. 7.

Name

Mag.

T

App. sid. time

( Hock corr.

n tan ii

'/

f-0

Eefr.

'/'

li in s

It III s

VI s

S

s

O 1 a

/ a

ii

87 Herculis -

5

7 45 17.".

17 41 18.99

— 1 12.57

— 2.04

— 0.20

+ 25 40 58.3

— 0 23.0

406

li. 5

47 13. 1

13 1 1.91

1 12.57

2. 39

+ 1.08

+ 29 22 3. 4

19.5

h 1.6

8

4'.) 22. 5

45 24.66

1 12.57

2. 66

+ 1.39

+ 32 3 3.0

16.6

4- 2.5

89 " . .

51 54.5

47 57. OS

1 12.56

2.08

— 0.09

+ 26 4 23.8

23. 2

4- 0.7

92 5 " • . .

54 33.7

50 36.72

1 12.56

2. 39

+ 1.06

+ 29 15 30.4

19.6

+ 1.6

95 " . -

5. li

57 32.2

53 35.71

1 12.50

1.09

— 1.07

+ 21 35 16.6

28. 4

— 0.0

7 .".7 32.9

53 30.41

1 12.56

1.09

— 1.07

+ 21 35 16.6

28. I

— 0.6

7

8 I 38.3

17 57 42. 48

1 12.50

0. IS

- 0. 19

-j- 2 27 21.0

57. 7

- 1.1

6.7

1 14.3

18 0 18.91

1 12.55

0.23

— 0.30

4- 3 5 35.0

56. 5

— 1.2

6.7

5 1 . 6

1 li. 34

1 12.55

0.25

— 0.33

-(- 3 10 4s. o

56. 1

- 1.2

lei .1 " . .

8 55. 9

5 1.26

1 12.55

— 2.59

+ 1.34

+ 31 20 17.3

o 17.4

4- 2. 3

a ) 19 6 Sagittarii .

12 9.6

8 15.49

1 12.55

+ 2.44

+ 4.S2

- 29 51 34.2

4 27. 6

- 5. 5

b) 22 a, " . .

l!l 38.4

15 45.52

1 12.54

-j- 2.03

-(- 2.90

— 25 30 0.2

3 13.6

— 2.4

6.7

28 53.6

25 2. 24

1 12.53

— 1.84

— 0.7S

4- 23 20 15. 2

0 20.2

— 0.1

6.7

31 37.0

27 46.09

1 12.53

1.84

— 0.79

4- 23 25 13.6

20.2

— 0. I

3 a Lyrse .

34 42.9

3,0 52.50

] 12.53,

— 3.40

+ 1.27

4- 38 33 56. 4

0 10.0

4- 3. 8

5 Aquilse

40 20. 8

3(1 31.32

1 12.52

+ 0.09

+ o.si

— 1 II 13. li

1 5. 5

— 0.7

0

7

43 39. M

39 50. OS

1 12.52

— 0.05

+ 0. is

-|- o 35 35.8

1 1.0

— 0.9

7

45 40.6

4 1 52. i il I

1 12.52

0.80

— 2.75

4- 10 43 9. 1

0 43.4

— 1.9

8

47 11.3

43 22.95

1 12.52

1.03

— 1.09

+ 13 12 9.0

3,s. 9

— 2.0

113 Herculis

6.5

511 41.0

46 53.22

1 12.51

1.75

— 0.90

+ 22 21 39.8

27.5

— 0. 4

li

53 57.5

50 10.26

1 J 2. 51

2. 72

+ 1.39

+ 32 36 35.2

16.1

4- 2.6

14 > Lyrse .

3.4

8 55 53. 3

52 6. 3,s

1 12.51

2. 69

+ 1.3,9

+ 32 22 37.4

10.3

+ '-'■ 5

17 „" Aquilse

9 ii 30.6

J 8 56 44.44

1 12.51

1.02

— 1.71

4- 13 32 10.0

39. 2

— 2.0

<l) 17 Lyrae -

6

4 15.2

19 0 29.65

1 12.50

2.67

-f 1.39

+ 32 8 45.2

16.6

4- 2.5

21 Aquilse

6

7 47.1

4 2.13

1 12.50

0. 15

— 0.09

4- 1 55 35.3

58. 9

— 1.0

6.7

10 29.5

6 44. 97

1 12.50

1. 11

— 1.59

+ 14 41 59.8

37.5

— 1.9

G

11 55.4

8 11. 10

1 12.50

1 . 63

— 1. 14

4- 20 59 56. 5

29.2

— 0. s

28 A " .

6

14 34.5

10 50.04

1 12.49

0.90

— 2.60

4- 11 58 8.0

41.5

— 2. 0

6

19 21.4

15 38. 32

1 12.49

1.53

— 1.24

+ 19 50 S. 2

30.0

— 1. 1

6

20 57. 1

17 14.28

1 12.49

1.53

— 1.24

+ I'J 50 5.0

30.6

— 1.1

e) 5 Vulpeculse

6. 5

21 46. 1

is 3.42

1 12.49

1.52

— 1.26

-j- 19 39 33,. o

30. 9

— 1.2

li " . .

4.5

24 40.2

20 57.99

1 12.48

1.92

— 0.58

4- 24 12 55.0

25.3

0. 0

/) 6 /J Cygni - -

30 40.2

-|- 33 58 36. 1

14.7

+ 2.9

12 <j> " - -

35 45. S

32 5. 42

1 12.48

2.42

+ 1.12

4- 29 38 20.0

19.3

+ 1.8

7

38 28. li

34 48.67

1 12.48

1.75

— 0.96

4- 22 19 10.5

27.7

— 0.4

53 a Aquilse

45 8.4

19 41 29. 57

1 12.47

0.62

— 1.45

+ 8 17 35.4

47.4

— 1.7

6

37 22.7

22 34 12. 10

1 12.32

0. 73

— 2.16

+ 9 48 11.6

45.1

— 1.8

14 Lacertse

6

45 3. 4

41 54. 12

1 12.32

3.66

+ 1.35

4- 40 46 50.5

7.9

+ 4.2

51 Pegasi -

51 15.5

48 7.24

1 12.31

1.52

— 1.26

4- 19 35 29.0

31.1

— 1.2

7.8

55 1 . 4

51 53.70

1 12.31

1.03

— 1.69

+ 13 41 42.2

39. 1

— 2.0

54 a " . -

12 58 22.8

22 55 15. 71

1 12.31

1.06

— 1.65

+ 14 1 34.6

38.6

— 2.0

58 « " - .

13 3 30.3

23 0 21.05

1 12.30

0.65

— 1.53

4- 8 38 16.5

46.8

— 1.8

6.7

8 19. 1

5 13.64

1 12.30

1.80

— 0.87

4- 22 51 19. 1

27.1

— 0.2

6.7

13 21.2

10 10.57

1 12.30

2.83

+ 1.40

4- 33 35 7. 4

15.2

+ 2.8

64 " . .

6.5

15 42.2

12 3.7.90

1 12.29

2.52

+ 1.27

4 30 36 13. 1

I-.3

4- 2.0

7

19 16.0

16 12. : ',5

1 12.29

1.86

— 0.71

4- 23 44 44. 8

26. 0

0.0

g) <i9 " - -

21 16.4

18 13.08

1 12.29

1 . 89

— 0.05

+ 23 57 30.0

0. 0

14 Androra.

24 59.7

21 56.98

1 12.28

3. 32

-f 1.27

4- 38 1 18.8

10.6

4-3.7

72 Pegasi .

27. 32.5

24 30.20

1 12.28

2.46

-f 1.20

+ 30 6 28.4

18.8

4- 1.9

74 " . .

31 0. 7

27 58. 97

1 12.28

1. 19

— 1.51

+ 15 30 40.2

30.4

— 1.8

19 k Andiom. -

4

34 5. 2

31 3. 98

1 12.28

3.96

+ 1.53

4-43 6 25.0

5.6

+ 4.7

7

38 10.5

35 9. 95

1 12.27

4.27

+ 2.05

4- 45 S 58. I

3.6

4- 5.1

20 V " - -

39 38. 1

30 37.79

1 12.27

4.28

+ 2. 01 i

+ 45 11 23.4

3.6

4- 5.1

6

43 5. 5

40 5.70

1 12.27

2.99

+ 1.33

+ 35 11 53.8

13.5

4- 3.1

6.7

46 19.9

43 20.09

1 12.27

3.05

+ 1.31

+ 35 43 44.8

13.0

+ 3.2

7

49 12.6

4li 13. SO

1 12.26

1.54

— 1.23

4- 19 56 26.8

30.7

— 1.1

84 ip Pegasi .

50 58. 9

48 0.15

1 12.26

1.89

— 0.07

4- 23 55 2. S

25.9

0.0

6.7

53 34. 8

50 36.78

1 12.26

2.0 1

— 0. 19

+ 25 41 38.3

23.8

4- 0.6

6

13 57 48. 1

54 50.77

1 12.26

2.80

+ 1.40

4- 33 25 22.0

!5.3

4-2.7

21 a Aiulrora. .

14 1 26.2

23 58 29. 47

1 12.25

2. 25

+ 0.50

+ 27 52 15. 4

21.4

4- 1.3

88 )' Pegasi .

6 19. 1

0 3 23.17

1 12.25

1.06

— 1.66

4 13 57 42.7

38.8

— 2.0

24 6 Androm. .

14 10 0.8

0 7 5. 48

— 1 12.25

— 3.24

+ 1.27

4- 37 27 5. 8

— 0 11.2

4-3.6

a Micr. c.irr. assumed <i

8 + 3; I

ot — 3.

r Min. assumed

is 21m. ; not 2

)m. g D

tv.at imu'il as 26 8

15+5; not 2(3 8 11—5:

6 Micr. con*, assumed i

:; i

nt — 3.

f Observation ii

Right-ascensii

u worthless ;

and <? ass'd as .'1 '

,:!' 36" ; not 24'^ 53. 26".

c T. Ill assumed as 44

U. 2s.; U

it 44m. 7s.

not 6 (3 Cyg

ni. but 8 Cygn

.

d J)iv. assumed an 17 1

i 3 ; not

17 13 1.

(101)

102

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1783 AUGUST 20— Continued

Zero corr. = + 1' 43". 7.

Name

Mag-.

T

App.sid. time

Clock eorr.

n tan <5

9

:-•>

Refr.

'/'

h m s

It 7)1 S

m s

s

s

o ' '

/ //

I!

7

14 12 32.2

0 9 37.29

— 1 12.25

— 3.50

+ 1.29

+ 39 29 59. 5

— 0 9. 2

+ 4. 0

<0

7

15 47.2

12 52.82

1 12.24

1.00

+ 1.56

+ 43 17 33.0

5.4

+ 4.7

6.7

10 48. 1

13 53.89

1 12.24

3.96

+ 1.52

+ 43 1 57.4

5.7

+ 4.7

6

20 48.9

17 55.35

1 12.24

3. 98

+ 1.54

+ 43 9 52. 0

5.5

+ 4.7

7

23 40.7

20 5".. 04

1 12.24

::. 92

+ 1.49

+ 42 43 6. 2

■ 6.0

+ 4.7

7

28 9. (i

25 10.00

1 12.23

4.69

+ 2.96

-j- 47 47 40.0

1.0

+ 5. 5

G

31 2;;. 5

28 31.69

1 12.23

4.72

+ 3.06

-)- 48 7 43.0

0.7

+ 5.5

7.8

30 22.0

33 31.01

1 12.23

2.6G

+ 1.39

+ 0.2 5 47. 0

16.8

+ 2.5

59 Piseium

G

39 55.2

37 4.70

1 12.22

1.41

— 1.35

+ 18 22 23.4

32. 8

— 1.5

7

44 18.0

41 28.41

1 12.22

2. 72

+ 1.40

+ 32 41 11.5

10. 1

+ 2.6

0.7

46 57.0

44 7.75

1 12.22

4.t'.::

+ 2.88

+ 47 28 I2.li

1.3

+ 5.4

0.7

50 15.7

47 20.99

1 12.21

0.00

+ 1.27

+ 38 10 27.2

10.4

+ :;.7

6

54 42.8

51 54.82

1 12.21

4.43

-f 2. 40

+ 40 10 43.2

2. 0

+ 5.3

7

14 58 43.2

1 1 55 55. 88

1 12.21

4.77

+ :;. 1 1

+ 48 21 43.2

0.5

+ 5.5

6

15 4 8. 8

l i 22.:;;

1 12.20

4.13

+ 1.71

+ 44 0 0.6

4.0

+ 4.9

'<)

0.7

7 45.6

4 59.76

1 12.20

4. 55

-f 2.71

+ 4G 54 4.2

1.9

+ 5.4

6

10 34.0

7 48.62

1 12.20

:;. 12

+ 1.00

+ 36 12 52.7

12.5

+ 3.3

40 Androm.

4.5

13 41.2

lo 50.:;:;

1 12.19

4.15

+ 1.70

+ 44 21 27. 1

4.4

+ 4.9

7.8

15 45.2

13 O.07

1 12.19

3. 82

+ 1.42

+ 41 58 35.0

0.7

+ 4.5

93 i> Piseium

18 37.0

15 52. 94

1 12.19

1.39 — 1.38

+ 18 1 10.8

33. 3

— 1.5

99 ;/ " . .

23 54.8

21 11.01

1 12. 18

1.06 — 1.63

+ 14 12 25.6

38.6

— 2.0

7

27 0.5

24 23.83

1 12.18

1.32

— 1.42

+ 17 19 50.9

34. 2

— 1.7

C) 102 7T " . .

29 37.0

26 55.34

1 12. 18

1.83

— 2. 88

+ 11 0 47. 6

43.2

— 1.9

7

33 12.9

30 31.2:;

1 12. 18

1.94

— 0. 49

+ 24 37 27. 9

25. 1

+ 2.0

6.7

35 27. 4

32 40.11

1 12. 18

2.5G

+ 1.31

+ 31 4 12.4

17.9

+ 2. 2

54 Ceti . .

G.7

43 JO. 7

40 30.7H

1 12. 18

0.74

— 2. 20

-j- 9 50 55. 8

45.0

— 1.8

rf) (i ,j Arietis .

40 38. 2

43 58. 74

1 12. 17

1 . 52

— 1.25

+ 19 43 23. 4

01.0

— 1.1

9 } " . .

49 48. 1

47 9.46

1 12.17

1.75

— 0.93

+ 22 0.0 43.6

27.0

— H. 0,

57 j Androm. .

54 34. £

51 56.64

1 12.16

::.7:i

+ 1.37

+ 41 15 10.0

7.4

+ 4.3

13 a Arietis .

15 58 53.5

50 10.05

1 12.16

1.75

— 0.95

+ 22 24 33. 0

27.7

— 0.4

c) 15 " . .

7

10 2 32.2

1 50 55. 35

1 12. 15

1.42

— 1.30

+ 18 '.'7 5.5

0.2.7

— 1.4

17 " . .

4 35.0

2 1 58.49

1 12. 15

1.50

— 1.22

+ 21 1 9 55. 4

0O.5

— 1. 1

22 01 " . -

9 58.2

7 22.50

1 12.15

1.45

— 1.32

+ 18 52 18.6

32. 2

— 1.3

7

13 45.4

11 10.40

1 12. 14

1.70

— l.o:;

+ 21 51 17. 8

28. 1

— 0.5

8

16 4-.'. 3

14 7.79

1 12.14

2.34

+ 0. 02

+ 28 52 10.2

20.3

+ 1.0

12 c Trianguli .

19 20.2

10 40.12

1 12.14

2.32 + 0.85

+ 28 10 7. 1

2H.5

+ 1.5

14 " . -

6.5

22 45. 3

20 11.78

1 12. 13

2.98 + 1.33

+ 35 8 59. 1

13.6

+ 3.1

/)

7

25 47. 9

2:: 14.88

1 12.13

3.40 + 1.27

+ 38 40 42.8

10.0

+ 3-8

6

28 45. 1

20 12.87

1 12. i::

3.17 + 1.29

-j- 30 45 5.0

12. 0

+ 3.5

33 Arietis . .

6

31 51.7

29 19.68

1 12.13

2.08 — 0.08

-j- 26 5 50. 3

20.. 1

+ 0.7

34 u " . .

33 59. 2

31 27.53

1 12. 12

1 47 — 1.31

+ 19 3 34.8

32.0

— 1.3

37 o "

30 25. 2

33 53.93

1 12. 12

1.08 — 1.02

+ 14 22 5.4

38.4

— 2.0

0.5

41 3.2

38 32. 00

1 12. 12

4. 38 j+ 2. 34

+ 45 54 13.4

2.9

+ 5.3

45 " . .

47 25.5

44 50.01

1 12. 12

1.33 — 1.41

+ 17 25 -j0.il

34.2

— 1.7

4* f " . .

50 36. 1

48 7. 16

1 12. 1 1

1.58 — 1.20

+ 20 20 34.4

:;i i. 2

— 1.0

92 a Ceti . .

54 40.7

52 12.43

1 12. 11

0. 24

— 0.31

+ 3 13 11.7

57.0

— 1.2

g) 20 iS Persei . .

10 57 52.2

2 55 21.45

1 12. 10

3.57

+ 1.31

+ 40 4 43.9

8.6

+ 4.1

a " . .

17 12 37.7

3 10 12.38

— 1 12.00

— 4. 94

+ 3.25

+ 49 2 26.2

— 0 0.2

+ 5. 0

ltS3 A

I'Gl'ST 21

Ze

•o corr. = + 1' 49". 4.

0.7

11 29 42.2

21 30 17.09

— 1 11.05

— 3.38

+ 1.27

+ 38 10 18. 1

— 0 10.3

+ 3.7

7ii Cygtii -

6

33 32. 2

0 1 7.72

1 11.05

:;. 50

+ 1.30

+ 09 4- 0.0

8.8

+ 4.1

77 " . .

6

34 20.0

34 55. 05

1 11.05

0. On

+ 1.3]

-f 40 4 2.5

8.6

+ 4.1

6

35 4. 5

35 40.27

1 11.04

3.00

+ 1.32

-j- 40 8 40.8

8.5

+ 4.1

81 - " . .

39 27.0

lo 3.49

1 11.04

A, 80

+ 3.09

-j- 48 16 55.5

0.5

+ 5. 5

15 Pegasi .

4:: 28.0

44 5. 15

1 11.03

2.25

+ 0.40

+ 27 45 40,. 0

21.3

+ 1.3

17 " . .

47 1. 3

47 39.03

1 11.03

0.84

— 2.89

+ 11 2 20. 0

42.8

— 1.9

20 " . .

51 9.9

51 48.31

1 11.00

0.02

— 2.47

+ 12 4 20. 1

41.3

- 2.U

22 v " . .

55 19.8

55 58.89

1 11.03

0.30

— 0. 45

+ 3 59 41.8

54.9

— 1.3

'-•1; " . .

11 57 31.8

21 58 11.25

— 1 11.03

— 1.93

— 0.57

+ 24 10 21.6

— 0 25. 2

+ 0.1

a T. T as-unn il as It;.. ;

DOl 6s.

c Min. assumed

as 29m. and :SU

u. ; not 30m. c <?

issumed as 3

i 10 .

i> I tiv. assumed as 3 i j

,. !

8.

:nnl :ti in.

/ 'if

assumed us 10° 10'

-'-" : lint :

d Minute in-- linn

<1 us 46m ; nut

g i

assumed a - 16

211" ; not 8° 46' 5U".

(102)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

103

IJN.'S AUCH7ST 91— Continued

Zero corr. = -f :

19" 1

Name

Mag.

T

App. si<l. time

Cluck coir.

« Ian 6 q

r— <p

Reft.

<l'

h in s

It 111 s

m s

8 S

O ' "

/ //

„

6

12 H 13.4

22 0 53.29

— 1 11.02

— 2.68 -f 1.39

4 32 5 13. 1

— 0 10.0

4 2. 5

29 ir Pegasi .

1. r.

ii 57.4

1 37.41

1 11.02

2.68 + 1.39

4 3.2 5 48.3

10.0

4 2. 5

6

5 10.6

r, 51.30

1 11.02

3.42 -f 1.27

4 3- 3.7 0.5

10.0

-1- 3. -

1 Lacertse .

5.G

7 6.8

7 47.82

1 11.02

3. IS -f- 1.29

4 30 38 56.8

11.9

4 5,. 1

31 Pegasi .

11 26.3

12 8.03

1 11.01

0.84 — 2.92

4 11 6 11.8

42. s

— 1.9

4 LacertfG .

6.5

16 18.3

17 0.84

1 11.01

4. 76 + 3. 1 1

+ l- 21 4.8

11.5

4 5.5

38 Pegasi. .

20 39.8

21 23.06

1 11.00

2.62 + 1.35

4 3,1 -JO 4 1.11

17.5

4 2. 3

7 Lacertse

22 55. 1

23 40.03

I 10.99

4.95 '+ 3.28

4 49 6 32.5

0.3

4 5.0

8 " . .

6.7

26 46.li

27 30.26

1 10.99

3.40 '+ 1.27

4 3- 29 3(1.0

10.0

H 3.8

ID " . .

30 3.9

30 48.70

1 10.99

3.33 + 1.27

4 3,7 54 2.7

10.7

4 3,. 7

13 " . .

34 57.2

35 42.80

1 10.98

3.67 + 1.34

4 40 39 30.2

7.9

4 4.2

14 " . .

41 6.7

41 53.31

1 10.98

3.69 '+ 1.35

+ 40 46 55. s

7.8

4 4.3

15 " '. .

42 46.0

43 32. 88

1 10.98

3.88 '+ 1.44

4- 42 S 14.0

6.5

4 4.5

IG " . .

47 0.0

47 47.58

1 10.97

3.64 + 1.33

4 in 25 22.6

4 ■*•!

7

51 15.2

52 3.48

1 10.97

4.16 '+ 1.72

4 44 11 11.6

4.5

4-4.9

54 a Pegasi .

54 26.3

55 15. 10

1 10.96

1.07 — 1.65

4 11 1 31. 'J

38. 6

— 2.0

o) :>."./ " . .

56 31.7

22 57 20.84

1 10.96

0.62 — 1.42

4- 8 13. 1.:. 1

47.3

— 1.7

7

12 59 56.4

23 0 46.10

1 10.96

4.83 4 3. 13

4 is -<7 0.2

0.4

4 5. 5

7 Androm. .

13 3 5. 5

3 .".5. 72

1 10.96

4.79 + 3.07

4- 48 1 1 37. g

0.6

+ 5.5

7

5 42.9

6 33. 55

1 10.95

1.86 — 0.75

4 25 34 14.5

20.2

11.11

b) 9 " . .

6

8 33. 4

9 24.51

1 10.95

3.65 + 1.33

4 4n 33 46.5

8.1

+ 4.2

10 " . .

6

9 59.1

10 50.46

1 10.95

3.71 + 1.30

4 40 52 1.6

7.8

4- 4.3

7

14 17.0

15 9.07

1 10.94

2.42 4 1.10

4 29 511 2.4

19.5

+ 1.8

6.7

17 57.5

1- 50.17

1 10.94

1.45 — 1.33

4 1- in 3.|-,. 1

32.3

— 1.4

14 " . .

21 2.8

21 55.98

1 10.94

3.34 4- 1.27

4 38 I li',. s

10.6

4 3.7

70 Pegasi

6.7

32 5.7

33 0. 69

1 10.93

1.16 — 1.56

4 15 7 3.4

37.1

— 1.9

7.8

34 13.5

35 8. 84

1 10.92

4.30 4- 2.H5

4 45 8 5S.4

3.6

+ 5.1

20 '/' Androm. .

35 40.5

36 36.08

1 10.92

4.31 4- 2.U0

4 45 11 19.4

5.6

+ 5.1

6

39 8. 4

40 4. 55

1 10.92

3.02 4- 1.33

+ 35 1 1 55. 3

13.5

4 5.1

7

42 22. 4

43 19.08

1 10.91

3.08 4- 1.31

4 35 43 48. 1

12.9

+ 3.2

7

45 15.5

46 12.65

1 10.91

1.55 — 1.24

+ 19 56 25.5

30.6

— 1.1

84 ti Pegasi . .

47 2. 5

47 59. 94

1 10.91

1.90 — 0.67

4 23 55 i . 4

25.8

0.0

7

49 37.2

50 35.03

1 10.91

2.06 — 0.19

4- 25 41 30.0

23.8

+ 0.6

85 " . .

6.7

51 10.2

52 8.31

1 10.91

2.08 — 0.14

+ 25 54 49.0

23.5

4 0.7

6

53 50. 8

54 49.3.-,

1 10.90

2.83 '4- 1.40
2.26 '+ 0.49

4 35 25 23.11

13.5,

4 2.7

6

55 40.0

56 38.86

1 10.90

4. 27 48 9.0

21.4

4- 1.3

21 a Androm. .

13 57 28.7

23 58 27.87

1 10.90

2.26 + 0.51

4- 27 52 14.6

21.4

4- 1.3

Pegasi .

14 2 21.6

0 3 21. 57

1 10.89

1.06 - 1.66

4- 13 57 45.2

38. 7

— 2.0

2 1 6 Androm. .

6 3.5

7 4. OS

1 10.89

3.28 + 1.27

4 57 27 6.2

11.2

4 3,. 5

7

8 35.5

9 36.49

1 10.89

3.52 4 1.29

4 59 29 59.2

9. 1

4 4.0

7.8

11 50.3

12 51.82

1 10.88

4.03 4- 1.55

4 43 17 32.0

5.4

4 4.7

6.7

12 51.3

13 52.99

1 10.88

3.99 4- 1.52

+ 43 2 3.8

5.7

+ 4.7

6.5

16 52.2

17 54.56

1 10.88

4.01 4- 1.54

4- 43 9 50.li

+ 4.7

7

19 49. 2

20 52.03

1 10.88

3.95 '4- 1.49

4 42 43, 7.0

0.11

+ 4.6

6.7

24 11.8

25 15.35

1 10.87

4.72 + 2.97

+ 47 47 38.5

1.0

+ 5.5

6.5

25 15.3

26 19.02

1 10.-7

4.02 4 1.55

4 45 15 43,. 9

5.4

4- 4.7

6

27 26.9

28 30.98

1 10.87

4.78 4 3.116

4 48 7 48.4

11.7

4 5. 5

52 Androm.

6

29 36.4

30 40. .-4

1 10.-7

3.37 4- 1.27

4 3,- 14 23.11

10.4

4 3,. 7

7.8

32 25. 2

33 30. in

1 10.87

2.69 4- 1.39
1.42 — J. 35

+ 3-2 5 4l.il

10. -

4 2. 5

59 Piscium

6.7

:;;, 58.3

37 3.78

1 10.86

4. 18 22 26.3

32. 8

— 1.5

64 " . .

6

37 46.6

38 52. 38

1 10.86

1.21

— 1.51

4 15 45 5. 1

36.3

— l.s

7.8

40 2 J. 4

41 27.60

1 10.86

2.75

+ 1.40

4 32 41 9.6

10.1

4- 2.6

6.7

42 59. 7

44 6. 33

1 10.86

4.66 4 2.88

4 47 28 11.9

1.3

4 5. 4

7

46 18.9

47 20. mi

1 10.85

3.37 4 1.27

4 3,- 16 -.".i. 1

10. 4

4- 3.7

7

50 45.0

51 52.92

1 in. -5

4.45 4 2.40

4. 46 in 38.5

2. 6

4- 5.3

7

14 54 46.5

0 55 55.08

1 10.84

4.82 + 3.11

4 48 21 5-. 11

11.5

4- 5. 5

6.7

15 0 11.2

1 1 20.67

1 10.84

4.15 4 1.72

4-44 9 3.4

4.6

4 4.9

7

3 48. 1

4 58. 16

1 10.83

4.57 + 2.72

4. 46 54 4. 4

1.9

4- 5. 4

6.7

6 37.4

7 "47. 92

1 10.83

3. 14 + 1.30

4. 36 12 52.2

12.5

4- 3.3

46 Androm. .

9 44.2

10 55. 23.

1 10.83

4.18 4 1.76

4 11 21 28.1

4.4

4- 4.9

7.8

1 1 48. 1

12 59.47

1 10.83

3.85 4 1.42

4 41 58 35.0

0.7

+ 4.5

93 p Piscium

14 39.9

15 51.74

1 10.82

1.39

— 1.38

4-18 1 15.8

33.3

- 1.5

99 >) " . .

19 57.7

21 in. II

1 10.82

1.08

— 1.63

4. 14 12 24. s

5,-. 5

— 2.11

7

23 9.0

24 22. '.'3

1 10.82

1.34

— 1.42

4 17 19 52. 1

34.2

— 1.7

7

29 1 1. 9

30 29. 13

1 10.81

1.96

— 0.49

4 2 1 3,7 25.2

25. 1

4 11.2

7

15 31 30.2

1 32 44.81

— 1 10. .-1

— 2.58

4 1.31

4 5,1 4 15.6

— 0 17. 9

+ 2.2

a £ assnm<

a as 1"'

37'; not 40" 38'.

b Div. assumed

138 13 7; not 8 13

9.

(10c

104

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

1783 SEPTEMBER 3

Ze

"o corr. = -J-

(' 48".7.

Name

Mag.

T

App. sid. time

Clock coit.

ll tail fi

1

f— $

Refr.

v'

It III s

// III s

in s

s

s

o / II

/ //

1,

64 a Herculis .

2.3

6 18 45.9

17 5 48. 37

— 0 57.78

— 1. 15

— 1.60

+ 14 37 52.2

— 0 37.4

— 1.9

75 p "

311 9.6

17 !3.94

57.77

3.36

+ 1.27

+ 37 19 47.2

11.2

+ 3.5

55 a Ophiuchi .

38 49. 4

25 55. 10

57.77

0.99

— 1.86

+ 12 42 46.4

40.2

— 2.(1

60 ! " . .

46 39.9

33 46.94

57. 76

0.36

— 0.59

+ 4 39 25. 0

53. 4

— 1.4

62 y " . .

6 50 54. 4

38 2.11

57.76

— (1. 21

— 0.24

+ 2 47 22. 4

ii 56.9

— 1.2

64 v " . .

7 0 54. 0

48 3.38

57. 70

+ 0.76

+ 1.80

— 9 44 13.0

1 29.0

— 0.4

94 v Herculis -

4 3.6

51 13.511

57. 76

— 2.56

+ 1.21

+ 3d 11 40.9

ii 18.6

+ 1-9

97 " . .

7 1^.4

54 28.83

57.75

J. 86

— 0. 87

+ 22 54 4:',. 0

26.7

— 0.2

72 s Ophiuchi -

4.5

10 55.4

58 0. 43

57. 75

0.74

— 1.95

+ 9 31 45.6

45.1

— 1.8

7

1] 4.3

17 58 15.35

57.75

0.73

— 1.89

+ 9 27

104 A Herculis .

4.5

17 33.9

18 4 46.02

57.75

2. 68

+ 1.34

+ 31 20 17.8

17.3

+ 2.3

6.5

19 40.1

0 52.56

57. 75

3.53

+ 1.28

+ 38 41 49. 7

9. 9

+ 3.8

6.5

22 43.3

9 50.211

57.74

3. 97

+ 1.43

+ 42 4 0.8

6.5

+ 4.5

7.8

24 41. 1

11 54.33

57.74

1. .-9

+ 3.02

+ 48 (1 18.8

0 0. 9

+ 5.5

59 d Serpentis .

6.7

29 52. 5

17 0. 03

57.74

ii.ii]

+ 0.34

+ 0 4 12.0

1 2.8

— 0.8

6.7

35 13.3

22 28. 33

57.74

1.32

— 1.45

+ 16 40 19.8

0 34.6

— 1.7

7

37 32.11

24 47.41

57.74

1.91

— 0. 77

+ 23 26 45. 2

20. 1

— II. 1

3 a Dyrse .

43 21.(1

30 37. 97

57.74

;:. 5 1

+ 1.27

+ 38 33 58. 8

in.ii

+ 3.8

Ill Herculis -

51 11.5

38 29.16

57. 73

1.42

— 1.39

+ 17 55 59.6

33.11

— 1.5

9 v" Lyras .

55 29. 9

42 4.-. 27

57. 73

2.78

+ 1.39

+ 32 17 15.0

10.4

+ 2. 5

113 Herculis -

7 59 19.3

46 38.30

57.73

1.81

— 0.96

+ 22 21 39.3

27.5

— 0.4

1 1 Aquilae

8 2 50. 0

5ii 9.58

57.73

1.04

— 1.74

+ 13 19 48.6

39. 3

— 2.0

6.7

8 6.5

18 55 26. 95

57. 73

1.68

— 1.15

+ 20 50 85.2

29.2

_ 0.8

21 " . .

8 16 25.3

10 3 47. 12

57.72

(1. 15

- - 0. 1 (9

+ 1 55 35. 3

58. 8

— 1.0

6.7

9 23 55. 5

20 11 28.40

57.69

3.70

+ 1.31

+ 40 2 21.0

8.6

+ 4.1

37 y Cygni - .

27 56.0

15 29.55

57.69

3.63

+ 1.29

+ 39 32 41.8

9.1

+ 4.0

10

31 44.2

19 18.37

57.68

0.80

— 2. 48

+ 10 15 45.0

44.2

— 1.8

a) 1 Delphini .

33 23. 7

20 58. 11

57. OS

0. 79

— 2. 41

+ 10 10 7.3

44.3

— 1.8

44 Cygni . .

6.7

36 12.0

23 47.50

57.68

3. 22

+ 1.30

4- 36 11 20.5

12.4

+ 3.3

4 f Delphini .

38 38.0

26 13.30

57.68

1.09

— 1.07

+ 13 55 13.4

38. 7

— 2. 0

6/3 " . .

40 5(1.:,

28 26. 10

57. 68

1.08

— 1.67

+ 13 50 6.8

38.8

— 2.0

7

45 31.6

33 .-.113

57.08

4. 38

+ 1.92

+ 44 52 44. 0

3.9

+ 5.1

50 a Cygui .

9 47 28. 3

20 35 5.06

— 0 57.68

— 4. 32

+ 1.80

+ 44 29 8.6

— 0 4. 2

+ 5. 0

17S:i SE

PTEJI8E

it <;

Zero corr. = + ]

' 47".7.

55 a Ophiuchi -

2.3

6 23 2. 7

17 25 52.09

— 0 54.74

— 0.99 — 1.86

+ 12 42 45.0

— 0 4H.3

— 2. 0

60/3 " . .

30 53.2

33 4::. 88

54. 74

0.36 — 0.58

+ 4 39 25. 1

53.5

— 1.4

02 y " - -

35 7.6

37 58. 88

54.7:'.

0.21 — (i.24

+ 2 47 20.8

57.1

— 1.2

86 // Herculis -

36 5. 5

38 57.04

54.7:;

— 2. 31 + 0. 50

+ 27 50 9.7

0 21.2

+ 1-3

64 v Ophiuchi .

45 7.4

48 n.42

54. 73

+ 0.70 + 1.80

— 9 44 13.0

1 29.9

— 0.4

68 /, " . .

48 4S.7

51 42.32

54. 73

— 0. 10 + 0.02

+ 1 18 42.9

1 0. 0

— 0.9

Ill y Sagittarii .

49 49. 4

52 43.18

54.73

+ 2. 57 + 4. 90

— 3D 21 37.0

4 39.1

- 5.8

72 s- Ophiuchi .

4.5

55 8. 7

58 3. 35

54. 73

— 11.74 — 1.94

-!- 9 31 50.4

0 45.2

— 1.8

7

0 55 17.5

17 58 12. 17

54.73

0.73 — 1.90

+ 9 27 53.11

45. 3

— 1.8

104 A Herculis .

7 1 47.2

18 4 42.91

54.73

2.67

+ 1.34

+ 31 20 2li.il

17.4

+ 2. 3

Ik ■' . .

10 17.2

13 14.34

54. 72

— :;. 18

+ 1.31

+ 35 57 7. 2

0 12.6

+ 3.3

733 Mayer .

7

18 23.8

21 22.27

54. 72

+ 1.40

+ 1.49

— 18 30 13.0

2 11.0

- H.7

8

211 49.2

23 48.(17

54. 72

1.48

+ 1.47

— 18 41 55.0

12.2

— 0.7

Saturn .

23 42. 7

26 42.(15

54. 72

+ 1.84

+ 1.82

— 22 5(1 39.6

2 44. 5

— 1.5

7

26 5.1

29 4.86

54. 72

— 3.51

+ 1.27

+ 38 42 9.(1

0 9.9

+ 3. 8

3 a Lyra: .

27 34.8

3d 34.80

54. 72

— 3.49

+ 1.27

+ 38 33 58. 8

0 10.0

+ 3.8

3 n AquiUe

29 37.3

32 37.63

54.72

+ d.05

+ 1.87

— 8 28 50. 1

1 25.8

— (1.5

5 " . .

6

33 12.3

36 13.22

54. 72

(i. H9

+ 0.81

— 1 11 11.6

5. 7

— 0.7

8

33 13.3

36 14.22

54.72

II.H9

+ 0.8J

— Ill 2(1.5

5.7

— 0. 7

7 " .

37 37.0

40 38.64

54.71

0. 27

+ 1.44

— :; :io 19.0

1 11.2

— 0.0

6 "

37 52.8

40 54. 18

54.71

+ 0.27

-f 1.45

— 3 34

112 Herculis .

40 57.9

44 0. 09

54.71

— 1.70

— 1.11

+ 21 9 22. 4

0 29.0

— 0.8

38 . Sagittarii .

46 35.7

49 38.82

54.71

+ 2. 50,

+ 4.90

— 30 7 37.7

4 34.1

— 5.5

39 o " . .

49 31.5

52 35. 10

54.71

1.77

+ 1.02

— 22 1 43. 8

2 37. 5

— 1.2

41 - " . .

54 41.6

18 57 40.M5

54.71

1.71

+ 1.51

— 21 20 22.li

31.5

— 1.0

767 Mayer .

8

7 57 19.7

19 ii 24.58

54.71

1.76 + 1.02

— 21 59 14.9

2 37. 1

— 1.2

42 i/> Sagittarii .

8 0 1.5

19 3 6.82

— 0 54.71

+ 2. Id + 2.90

— 25 35 19.4

— 3 14.6

- 2. 4

a g:

BSUmed as 30°

40' 56"; ii. >t 30°4

1' 16": :ui,] Di

v. assumed as 4L 4 3; ]

■ >t 41 1 4.

i

(104)

GOULD — REDUCTION OF DACEI.ETS OBSERVATIONS.

105

17S3 SEPIEJIBEB 6— Coulinucd /.. ro corr. = + 1

47".7.

Name

Mag.

T

App. sid. time

Clock corr.

n tan i

'/

Refr.

'/'

A in a

h in u

Ill s

s

S

O / //

/ //

II

13 it Sagittarii .

8 '.' 44.7

19 5 50. 17

- 0 54.71

4- 1.53

+ 1.41

- JO is 51.7

- 2 16.6 -

- 0.7

77.. Miiv.T -

7

4 26. I

7 32. 15

54.70

1 . 25

4- 1.64 — 15 53 44.4

1 5G.2

- (1.5

n) -1? i ' Sagittarii -

li 50. 0

12 56.94

54.70

2.03

4- 2.(i(i — 24 53 32.5

:: G.4

- 2. 2

l>) 48 r " . .

9 57.3

13 4.26

54.70

2. ( 12

+ 2.55 - 24 47 44.0

3 5.0

- 2.1

<0

G.7

13 57.0

17 5.30

54.70

2. .-'i I

+ 5.29 — 32 27 7.5

5 42.5

-7.7

55 ea " . .

27 51.2

31 1.10

54.70

1 . 2S

+ 1.66 — 16 36 41.4

2 0.0

- 0.5

Japiter

- 36 42.7

19 39 54.05

- 0 54.69

-|- l'.78

+ 1.65 — 22 7 7.4

— 2 38. 2

- 1.2

irSS SEPTEIHBEK 7 Zero corr. = + 1

•17". a.

Ophiuchi .

2.3

6 19 6.5

17 25 51.80

— 0 54. 12

— 0.99

— 1.86

4- 12 42 47.2

— 0 40. 3

— 2.0

60 1 " . .

6 2G 57. 1

17 33 43. G8

54. 12

0.36

— 0.59

4- 4 39 2(1.7

53.6

— 1.4

G

7 6 37.5

18 13 30. GO

54.41

0. 93

— 2. G7

4- 11 55 6.8

41.4

— 2.0

G.7

8 53.0

15 4G.47

54.41

— 1.63

— 1.21

4- 20 19 37.5

0 29.9

— 1.0

Saturn

19 45.9

26 41. 16

54.40

+ 1.85

+ 1.-2

— 22 50 40.8

2 44.5

— 1.5

3 a Lyrse -

23 38.6

30 34.50

54.4(1

— 3.51

+ 1.27

4- 38 33 58.5

(i 10.0

4- 3.8

8. 9

27 51.0

34 47.59

54.40

— 1.54

— 1.30

4- 19 14 42.2

ii 31.3

— 1.3

32 !■' Sagittarii

G

34 59.9

41 57.67

54.4(1

+ 1-87

4- 1.87

— 22 58 34.0

2 45. 7

— 1.5

::; .-- " . -

38 43. 3

45 41.68

54.39

1.72

+ 1.51

— 21 21 36.2

2 31.5

- J. ii

38 ; " . .

42 39.7

49 38.73

54.39

+ 4.89

— 30 7 22. 1

4 33.5

— 5.5

-HI 7 " . .

47 15.1

18 54 14.88

54. 39

2.33

+ 4.04

— 27 55 59. 4

3 49.2

— 3.8

d)767 Mayer . .

G

53 23.5

19 0 24.27

54.39

-f 1.78

4- 1.62

- 21 59 4.6

2 36.7

— 1.2

7

7 57 16.4

4 17.82

54.39

— 1.71

— 1.11

4- 21 in 57.7

0 29.0

— 0.8

20 >i Lyrse . -

8 0 19.2

7 21. 12

54. 39

3.53

4- 1.28

4- 38 45 20.5

9.8

+ 3.9

7.8

3 51.3

10 53. 79

54.39

3.53

4- 1.26

4- 38 42 57.0

9. 8

4- 3.9

G.7

8 58.5

16 1. 83

54. 38

3.33

4- 1.27

4- 37 8 53. 1

11.4

4- 3.5

7

11 31.2

18 34. 95

54. 38

3.29

4- 1.28

4- 36 48 7.H

11.8

4- 3.5

7

15 33.9

22 38. 32

54.38

3.18

4- 1.31

4- 35 4> 58.0

12.8

+ ■■: 3

6.7

16 49.7

23 54.34

54.38

3.16

4- 1.31

4- 35 45 26.6

12. -

4- 3.3

7

19 5G.5

27 1.65

54.38

3.47

4- 1.27

4- 38 16 26.6

10.3

4- 3. 7

7

23 12.3

30 17.98

54. 38

3.42

4- 1.27

4- 37 52 54.2

10.7

4- 3. 7

14 Cygni . .

26 15.7

33 21.88

54.38

3.99

4- 1.45

4- 42 17 55.8

6.3

4-4.5

G.7

8 27 32.0

19 34 38.39

54.38

4.04

4- 1.47

4- 42 33 15.7

G. 1

4-4.6

e

9 28 0.6

20 35 16.93

54.36

1.87

— 0.85

4- 22 59 .".o. 9

26.7

— (1.2

14 Delphini .

32 52. 1

40 9.23

54.36

0.54

— 1 . J 5

4-7 3 25. 2

49.3

— 1.6

G.7

36 14.3

43 31.98

54.36

1.36

— 1.42

4- 17 12 24.3

34.0

— 1.7

17 " . .

39 2.3

46 20.44

54. 35

1.01

— 1.81

4- 12 53 23.0

40.0

- 2.H

18 " . .

41 40.8

48 59. 37

54.35

0.77

— 2.30

4- 9 50 50.0

44. 5

- 1.8

2 Equnlei

7

9 45 10.2

20 52 29. 35

— (I 54.35

— 0. 49

— l.(i(i

4- 6 19 37.6

— 0 50.5

— 1.5

1783 SE

PTEXBE

R 9 Zei

o corr. = -4- 7

' 47".9.

27/ Pleiadnm .

17 18 6.2

3 38 6. 2

— 1 42.56

— 1.90 — 0.7H

4- 23 21 24. 6

— 0 26.8

— 0.2

45 f Porsei -

25 9.3

45 9.3

1 42.46

— 3. Gl + 1.28

4- 39 2ii 23. 1

ii 9.4

4-3.9

34 y Eridani

29 38.2

49 38.2

1 42.42

+ 1.11 + 1.58

— 14 7 14.2

1 49.3

— 0.4

39 Tauri . .

34 19.5

54 19.5

1 42.38

— 1.72 — 1.09

4- 21 23 30.4

0 29.2

— 0.7

44 P " .

39 26. 9

3 59 26.9

1 42.33

2.14 — 0. 14

4- 25 52 15.6

23. 8

4- i'.7

74 £ " . .

1? 57 4G.4

4 17 46.4

1 42. 15

1.49 — 1.33

4- 18 39 50.4

32. 7

— 1.4

81 " . .

G

18 0 5.7

20 5. 7

1 42.13

1.19 — 1.56

4- 15 11 22.4

37.4

— 1.0

" . .

1 17.2

21 17.2

1 42.12

1.21 — 1.54

4- 15 21 19.4

57. 2

— 1.9

86 " . .

3 21 . 5

23 21.5

1 42. in

1.13 — 1.62

4- li 21 30.1

38. G

— 2.(1

e) 87 Aldebaran

1

5 17. G

25 17. G

1 42.08

1.26 — 1.49

4- 16 2 32.4

36.2

— 1.8

94 7 Tauri . .

1 1 2. 9

31 2. 9

1 42.03

— 1.82 — 0.93

4- 22 30 20. G

0 27. 8

— 0. 3

57 ii Eridani

16 22.9

36 22. 9

1 41.98

+ 0.28 + 1.49
— 3.80 + 1.36

— 3 40 8.4

1 13.0

— O.G

10 ij Aurigse

33 7.7

4 53 7.7

1 41.82

4- 40 53 32.8

0 7.8

4- 4.3

/) Capella .

42 28. 8

5 2 28.8

1 41.73

— 4. 51 + 2. 27

4- 45 43 29. 8

0 3. 1

4-5.3

Rigel . .

45 49. 1

5 49.1

1 41.70

+ 0.65 + 1.87
— 2.38 + 0.73

— 8 27 57. 0

1 27.2

- 0.5

112/3 Tauri . .

54 21.5

14 21. 5

1 41. Gl

4- 28 22 57.0

II 2H.0

4- 1-4

21 ; Orionis

18 55 16.6

5 15 16.6

— 1 41.60

— (1.47 — 0.97

4- G 7 38.0

— 0 51.8

- 1.:.

a Div. assumed as 78 1

)9; not

78 10 8.

d Ts. II and II

I assumed ;is

>3in. 24s. and e Div. assumed as 34 1

5 15; not 34 1

5 14.

b I alumni as 7 ; 18

4a" ; not

8' 9".

53m. 47y..i ;

not 50m. 19s. a

id 53m. 42S.5, / T. I assumed as 41m

; not 42m.

c T. II assumed as 58a

I!M| It

respective!;

14

(105)

10G

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

It S3 SEPTEMBER 13

Zero corr. = + 1' 50". 2.

Name

Mag.

8 a Equulei
(i) 22 {I Aquarii
4 Peg as i .

8 e
11
14
15

18

22 v

25
h) 28
')

30
33

34

35
37
39

d)

40 " .

44 y "
4(1 i " .
48// " .
15 Lacertse

57 t/i Pegasi -
6 Androm.

66 Pegasi .

70 " .

17 /. Androm.

29 k " .

20 f " .

26 Piscium

84 V Pegasi -

85 " .

21 a Androm.
on i.

7.8

-7.8

6

7
7.8

7
C.7

7
7.8

7

7.8

7
0.7

h m s

22 45 26. 1

23 0 32.0

s 8.0

10 36.3

11 43.5
14 0.8
16 41.2
20 44. 1
23 17.7
26 0. I
20 46. 1
53 20. 0
35 12. 1
38 8.4
40 45.0
45 8. 5
48 49.9
50 0. 4
53 42. 3

56 2.2

57 20.0
23 59 27. 1

0 2 30.2
5 51.3
8 52.5
13 19.4
16 21.0
20 1.7
22 40. 0

28 0. 7

29 57. 1
32 58.2

35 21.2

36 15.7

39 2.7

40 50.9
43 7. 5
48 12.5
52 38.3

0 58 41.2

1 1 27.2

App. sid. time Clock corr. ' n tan 6

h

21

3
C

8
10

41.0

14.0

1.1

15.(1

14 20.4

15 48.4
IS 40.0
21 27.8
24 29.7
27 11.9
29 47. S
31 19. s
35 5ii.o

37 39.9
39 34.0

21

22

5 26. 1

20 32.11
•J.- 8.0

30 36.3

31 43.5
34 0. 8
36 41.2
40 44. 1
43 17.7
40 6. ]
49 46. 1
53 211. n
55 12. 1
58 8.4

0 45. 0

5 8.5

8 49.9

10 0.4

13 42. 3

16 2.2

17 20.0
19 27. 1

22 36.2
25 51.3
28 52. 5
33 19.4
36 21.6
40 1.7
42 40.0

48 ii.?

49 57. 1
52 58. 2
55 24.2

50 15.7
19 2.7

o 56.9

3 7.5

8 12.5

12 ::-.::

18 41.2
21 27.2

23 ll.n
20 14.0
28 1.1
311 15.(1

34 20.4

35 I-. 1
::- 19.li
41 27.8
44 29.7
47 11.9
49 47. 8
51 19.8
55 5(1.0
57 39.9

23 50 31.0

22

23

- 0 23. 64
23. 48
23. 43
23. 38
25.37
23. 36
23. 33
23. 30
23. 27
23. 2 I
23.21
23.17
23.16
23.13
23.11
23.06
23. 03
23. 02
22. 98
22. 90
22. 95
22. 93
22.91
22. 88
22.84
22.80
22. 78
22.74
22.72
22.67
22. 65
22.02
22.50
22.58
22. 56

22. 53
22. 48
22. 44
22. 38
22. 30
22.34
22.31
22. 29
22.27
22. 21
22. 22
22. 19
22.17
22. II
22. 12
22. 09
22. OS
'.'2. HI
22.112
0 21.99

— 0.33
+ 0.49

— 0.36
0.30
0. 20

0. 07
0.13

2. 40
2.26
2.87
0.43
0. 28
0.30
1.62

1 . 55
1.84
2.03
0.35
1.54
0. 25
0. 27
(1.25
1.49
1.49
1.43
2.39
0.84
1.86
3.89
1.59
1.57
1.54
1.48
1.46
0.57

3. 92
4.81
4.74
0.84
0. .-8
2.21

2. 49
2.05
3.88
4.02
4.32
4.33
1.71

3. 20
0.44
1.91
2.07
2. 1 1! I
2. 27
2. 27

— 4.28

— 0.52
+ 1.86

— 0. 01

— 0.45

— 0.41

— 1.01

— 0.05
+ 1.04
+ 0.40
+ 1.39

— 0.85

— 0. 39

— 0.45

— 1.18

— 1.24

— 0.81

— 0.31

— 0. 59
1 . 25
0.33
(i. :;-■
0.34
1.31
1.31

1 . 35
r- 1.01

2. 90
0.77

+ 1.44
1.21
1.23
1.25
1.31
1.33
1.27
1.40
f 3.07
-I- 2.97

— 2. 92

— 2.9-'
+ 0.27
+ 1.20
+ 1.37
+ 1.43
+ 1.53
+ 2.115
+ 2.06

— 1.06
+ 1.29

0.90

— 0. 07

— 0.19

— II. 13
+ 0.49
+ 0.50
+ 1.92

f

4
6
4
4
3
8
1
29
f 27
+ 33
5
. 3
+ 3
+ 20

f- 19
23
25
4

+

+ 19
+ 19

+ 18
+ 29

+ 11

+ 23
+ 42

20
f 20
+ 19
+ 19
+ 18
+ 1
+ 42
+ 48
+ 47
+ 11
+ 11
+ 27
+ 30
+ 31
+ 42
+ 43
+ 45
+ 45

21
4- 36
+ 5
4-23
4- 25
4- 25
4- 27
4 27
4- 11

20 59.2

51 12.0

47 20.0

2 2.1
50 40.9

52 33. I
40 54. 2

9 1.9
45 51.2

43 55. 0

40 25.7

44 15.0
59 44. 1
38 10.8
54 10.0
13 31.6
15 49.0

41 44.2
44 32.6
17 4.5
36 10.4
19 35. 8

6

8 51.2

23 20. 0

4 15.7

3 7.4
26 32. 8

8 18.2
2ii 5(1.0

2 48.5
44 21.6

3 27. 0
43 35. 4
29 35.6

21 25.0
11 47.3

48 17.0
0 511. II

35 III. 0
11 23.5

0 37.0
41 4.2

2 .37. 6

0 29.(1

9

11 29.3
37 59.8
40 0. 1

51 is. 7
55 5. 0
II 43.0
54 50.4
48 18.0

52 22. 4
50 10.5

Refr.

0 54.5

1 20. 1
(i 53.6

55. 0
55.4
40. 5
59. 7
19.9
21.4
15.0
51.9
55. 7
55.2
29.8
30.8
26.6
24.3
53. 7
51.11
50.7
50.11
50. 5

31.8

52.7

20.0

43. 2

26.5

6.6

30. 2

30. 5

31.(1

31.8

32.3

48. 8

6.4

0.0

1.0

43. 2

42.5

22. 2
IS. 0
17. 2

0.0
5.0

3.0
28.7
I2.ii
51.9
25. 9

23. 9
23.0
21.5
21.4

0 3. 9

— 1.3

— 0.5

— 1.4

— 1.3

— 1.3

— 1.8

— 1.0
+ 1.6
4- 1.3
4- 2.9

— 1.

— 1.3

— 1.3

— 0. 7

— 1.1

— 0.2
4-0.4

— 1.4

- 1.1
1.2

- 1.3
1.2

1.3

- 1.4

4- i.o

— 1.9

— 0. 1
4- 4.5

— 1.0

— 1.1

— 1. 1

— 1.3

— 1.3

— 1.6

— 4.6
4- 5.5

5. 5
1.9

— 2.0

— I.o
4 1-9
+ 2.4
4- 4.5
4- 4.7

4- 5.1

— 0.0
4- 3.4

1.5
(i.o
4- o.o

4- 0.7
4- 1.3
+ 1.3

4- 5. 1

+

a T I assumed as 9a.; noi 198.

b g assumed as 28° 56' ; not 28° 58'.

c g assumed as 25° 37' ; not 25° 32y.
d Div. assumed as 31 ; not 30.

(106)

GOULD —REDUCTION OP D AOF.LKT S OBSERVATIONS.

107

I7S.J SKPTEJIBKK 15-

Continued Zot-ocorr. = + 1' 50".2.

Name

Mag.

T

App. sid. time

• lloek corr.

« tan ii

'/

c-#

Refr.

'/'

// m s

h m s

/// s

s

s

o / //

/ //

„

38 P( jasi .

I 42 33.3

0 2 -v.',. :;

— o 2i.:';

1.(17

— 1.00

+ 13 57 45.4

— 0 39.0

— 2.(1

21 a Androm. .

46 15.7

o i:..7

21.04

3. -JO + 1.27

+ 37 27 9.6

11.3

+ 3.5

27 p "

50 12.2

111 12.2

21.90

3.21 + 1.29

+ 30 11 32.8

12.il

+ 3.5

8

53 5. 1

1 3 5. 1

21.87

4.IH + 1.52

+ 43 2 5.0

5.7

+ 4.7

a) 28 " . .

1 59 9.5

10 9.5

21.82

2.34 + 11.711

+ 28 32 1.4

2(1.0

+ 1.5

8

2 1 16.0

•.'I 16.0

21. Ml

3.91 +1.44

+ 42 10 0. II

0.1

+ 4.5

7

4 3.0

24 3. 0

21.77

3.08 + 1.32

+ 35 30 45.4

15. -J

+ 3.2

29 7T " . .

5 47.2

25 47.2

21.75

2.74 + 1.39

+ 32 3d 4.8

10.4

+ 2. 6

30 f " . .

7 34.6

27 31.0

21.7 1

2.: id + 0.64

+ 28 6 40. 9

21.2

+ 1.5

Nebula

11 23.7

31 23.7

21.7(1

3.61 + 1.31

+ 40 3 -.'7.H

8.6

+ 4.1

(i

1 1 12. 2

31 42.2

21.07

4.H0 + 1.02

+ 43 38 48.3

5.1

+ 4.8

7

18 43.3

38 13.3

21.63

4.12 + 1.05

+ 43 47 23. 2

5. 0

+ 4. 0

25 Mayer .

8

22 35.5

42 35. 5

21.60

0.22 — 0.26

+ 2 53 57. 2

57.7

— 1.2

29 :- . .

7.8

27 31.5

47 31.5

21.55

0.43 — 0.85

+ 5 30 35. 4

5-.'. 1

— 1.5

71 f Piscium

32 8.6

52 8. 0

2 1.51

0.51 — 1.08

+ 6 42 20.0

(1 5(1.5

— 1.6

Mars . .

2 34 6. 9

0 54 6. 9

21.49

0.04 + (1.211

+ 0 31 57.8

1 2.7

— 0.9

106 Piscimn

:: in 34.9

1 3d 34.9

21.15

n.3:; — 0.52

+ 4 22 3(1.4

0 54. 0

— 1.3

110 o " . .

11 24. 1

34 21. 1

21.11

0.61 — 1.37

+ 8 2 53. 2

48. 2

— 1.7

8.9

20 34.1

4(1 34. 1

21.05

1.83 — 0.85

+ 23 1 7. 4

27.2

— 0. 2

6 /3 Arietis .

23 8.6

43 8.6

21.03

1.54 — 1.25

+ 19 43 25. 0

31.3,

— 1.1

//) 57 ;. Androm. .•

31 6.3

51 6.3

2(1.115

3.77 + 1.37

+ 11 15 1 1.2

7.5

+ 4.3

13 a Arietis -

35 25.9

1 55 25. 9

211.01

1.77 — H.05

+ 22 21 37.8

27.9

— 0.4

60 Androm. .

40 8. 7

2 0 8.7

20.87

4.03 +1.54

+ 43 1(1 35.3

5.6

+ 4.7

8 (5 Trianguli -

3 44 18.2

2 4 18.2

— 0 20.83

— 2.81 + 1.40

+ 33 1 1 52. 3

— 0 15.7

+ 2.7

1JS3 8

EPTE1IBJ

EB 17 Zero corr. = + 1' 411". 4.

51 Piscimn

7

2 1 12.2

O 21 12.2

+ 0 5.31

— 0.41

— 0.87 + 5 41 40.0

— 0 52. 4

— 1.5

29 - Androm. .

5 19.2

25 10.2

5.35

2.61

+ 1.30 + 32 30 7.4

16.4

+ 2.6

30 e " . .

7 7.0

27 7.(1

5.36

2.19

+ 0.64 +28 6 41.6

21.3

+ 1.3

8.9

10 58. 0

30 58. 0

5. 40

2. 04

ii.llll + 26 25 50.8

23.2

+ 0.8

6.7

14 14.6

34 14.6

5. 43

3.91

+ 1.62 + 43 38 51.0

5.1

+ 4.8

8. 'J

16 34. 6

36 34.6

5.45

3. 93

+ 1.64 + 43 45 41.0

5.0

+ 4.9

7

18 15.7

3S 15.7

5.47

3.93

+ 1.65 ,+ 43 47 20.0

5.0

+ 4.9

8

22 8.2

42 8.2

5.5(1

0.21

— 0. 27 + 2 53 58. 2

57. 8

— 1.2

29 Mayer .

7.8

27 4.3

47 4.3

5. 55

0.41

— 0. 85 + 5 39 33. 8

52. 5

— 1.5

9.10

30 50. 6

50 50. 6

0.49

— 1.08 + 0 45 17.0

50. 6

— 1.0

e Piscitun -

31 41.4

51 41.4

5.59

0.48

— 1.08

+ 6 42 32. 1

50.7

— 1.0

77 "

7.8

34 34.5

54 31.5

5. 02

0.27

— 0.39

+ 3 44 33. 0

56. 1

— 1.3

7.8

34 37.2

0 54 37.2

5. 62

0.27

— 0. 39 + 3 44 31. 8

56.1

— 1.3

86 " . .

42 26. 0

1 2 26. 0

5.67

0.46

— 1.03 !+ 6 24 51.8

51.2

— 1.5

89/ " . .

46 35. 1

6 35. 1

5.73

0.19

— 0. 20 + 2 27 40. 6

59.1

— 1.1

46 Androm. .

49 38. 3

0 3-.::

5. 75

4.01

+ 1.76 + 44 21 30.2

4.4

+ 4.9

+ 4.9

48 " . .

54 44.5

14 44.5

5.80

3. 00

+ 1.74 + 44 15 15.3

4.5

99 rj Pisoium

2 59 53. 8

19 53.8

5.85

1.04

— 1.03

+ 14 12 28.6

5-..-

— 2.0

7.8

3 3 8.6

23 8.6

5.88

3.43

+ 1.30

+ 30 56 8.6

8.8

+ 4.1

50 v1 Androm. .

4 6.9

24 6.9

5.89

3.46

+ 1.32 + 40 17 24.9

8.5

+ 4.1

7

7 21.4

27 21.4

5.92

3.39

+ 1.20 + 39 33 12.9

9.2

+ 4.0

53 r " . .

7 50. 1

27 50. 1

5. 92

3.37

+ 1 . 20 + 30 26 52. 5

0. 3,

+ 4.0

109 Piscium .

8

13 6.7

33 6. 7

5.97

1.41

— 1.31 + 18 58 39.7

32. 3

- 1.3

6.7

16 17.5

36 17.5

0. 00

2.52

+ 1.36 +31 33 40.2

17.5

+ 2.4

2 a Trianguli .

4

211 44.3

111 44.3

0. 04

2. 23

+ 0.70 + 2^ 20 41.2

20.8

+ 1-4

6 /? Arietis .

22 41. 1

42 41.1

6.06

1.47

— 1.25 + 19 43 27.7

31.3

- 1.2

7.8

27 2.7

47 2. 7

6.10

1.28

- 1. 12 + 17 16 50.8

34.5

— 1.7

57 y Androm. .

30 39.2

5H 39.2

6.13

3.60

+ 1.37 + 41 15 16.6

7.5

+ 4.3

c)

6

311 4(1.0

50 4n.(i

6.13

3.60

+ 1.37

1/! a Arietis -

31 58.4

51 58.4

6.17

1.00

- 0.94 + 22 24 39.0

27. 0

- 0.4

il) 59 Androm. .

6.7

37 46. 0

I 57 46.0

0. 10

3. 20

+ 1.27 -

f 3.7 50 0.4

10.8

+ 3.7

8 <5 Trianguli .

43 5U.4

2 3 50.4

0.25

2.68

+ 1.40 -

f 53 12 1.4

15.8

+ 2.7

7.8

52 50.2

12 5U.2

6. 33

2. 20

+ H.02 -

f 28 52 15.6

20.5

j- 1.6

12 c " . .

3 55 28. 0

2 15 28. 0

+ 0 6.36 ■

- 2. 24

+ 0.85 -

f 28 40 14.8 -

- 0 20.7

4- 1.4

a £ assnme

1 as 20° 1

9'; ii..t 20° 14'.

c g assumed as thatofcomp. t>. j Al

dromeda?.

b Div. assu

tried as 8

] in. not8 19.

d g assumed as 10° 52' ; not 10^ 51'.

(107)

108

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

1»S3 SEPTEMBER 17— Continued

Zero corr. = -f- 1' 49". 4.

Name

J 4 Trianguli
a) 15 " .

32 i.
c) 14

87/i

16 />]
rf) 20 P°

23

<0

Arietis -

Persei -

Ceti .

' Persei .

92 a

26/3
28 a
58 f

Ceti .
Persei -

Arietis .

36 Persei

37 V
39 <5
20 c
27/

44 ?

45 e
34 y
37
43 (j

52 / Persei

Pleiadum

Persei -

Eridani
Tauri .

Mae.

7.8

7.8
6

A m s

3 58 53. 8

4 2 38.7
2 42.3

6 30.8
in 1.5
13 12.8
16 55.8
20 3. 7
24 8.2
27 51.2

30 54.3
34 6.2
37 19.6
42 26. 6
47 58.6
52 40.4

4 57 27.2

5 J 7. 8

7 31.4
12 55.3
16 15.9
20 29. 1
23 18.3
27 47.0

31 51.7
36 31.0

5 40 8. 0

App. siil. time Clock corr

18 53. 8
22 38.7
22 42. 3

26 30.8
30 1.5
33 12.8
36 55. 8
4U 3. 7
41 8. 2
47 51.2

50 54.3
54 6. 2
57 19.6

2 26.0

7 58.6

12 40.4

17 27.2

21 7. 8

27 31.4
32 55. 3
36 15.9
40 29. 1
43 18.3
47 47.6

51 51.7
56 31.0

0 8.0

+ 0

+ o

6.39
6.42
6. 42
6.46
6.49
0.52
6.55
6.60
6.62
6.65
0.711
6.71
6.74

6. 79
6.84

6.93
6. 96

7. 02

7. 07
7.10
7.14
7.16
7.2(1
7.24
7. 28
7.33

n tan 6 ij f — <p Refr.

— 2.89
2.73

2. 74
1.57
3.87
0.65

3. 13
3. 14
2.47 j+
n.41 —
0.23 I—

3. 45
3.29
1.51
1.42
4.61
4.14
4.46

4. 40
1.80
1.77
2. 48

— 3. 36
+ 1.03

— 1.61
1.41

— 3.43

+

+

+

33 +

39 +

39 +

II +

56 +

73 +

27 |+

27 +
31 4
88 4
31 4
31 4
•2c- 4
22 4-

31 4
Ji 4
09 '+
86 +
76 +
73 +
79 +

32 +

28 +

35 9
33 42
33 44
20 59

43 20

9 Id

37 23

37 25
31 1

5 46

3 13

49 4

38 11

20 12
19 3
48 15
45 16
47 25
47 2
23 39
23 21
31 12

39 '-'(I
14 7

21 27
19 0
39 53

5.6
29. 4
35.0
47.6

8. 0
30.0
21.7

1.6
35.7

0.1
12.7
49.9
57. 2
39.3
24.4
37.2
36.6
28. 3
50.8
36.0

22. 6
4.9

2:;. i

49. 4

23. 2
10.8
25.4

0 13.7

15.2
15.2

29. 7

5.3

46.7

11.4

1J.4

18. 1

52. 5

57.4

8.7

10.0

30.7

32.2

0.6

3.5

1.4

1.8

26. 1

26.6

18.(1

0 9.4

1 49.8
0 29.2

32.3
0 8.8

4 3.1

4 2.9
+ 2.9
0.8
+ 4.7

— 1.8
4- 3.5
4- 3.5
4 2.2

1.5

- 1.2
+ 4.1

3.9

- I. I

— 1.3
+ 5.5
4 5. 1
4-5.4
4-5.4

0.0
4 0. 1
+ 2.2
4 3.9

— 0.4

— 0.7
1.3

f 4.1

l7S.i SEPTEMBER J5

Zero corr. = -f 1' 47". 5

6 Aurigse
i Geminorum

13 /i

24 y

27 e

Sinus .
Geminorum

5.6
6

7 16
23

36
40

7 48

8 3

8
13

8 59

28.4

17.9

36.6

9.5

12.7

32. 7

56. 7

51.3

3.7

5 36 28. 4

43

17.9

5

56 36.6

6

0

9.5

8

12. 7

23

32.7

28 56.7

6

33

51.3

7

19

3.7

|- 1 42.49
1 42.55
4 42.66
1 42.70
1 42.76
1 42.88
I 42.93
1 42.97

f 1 43.34

— 0.69
2. 99
1.80
1.64
1.64
1. 17

— 1.87
4 1.16

— 2.50

4

2.14 4- 9 46 28.6

1.27 4 :;~ 9 1.4

0.54 -j- 24 25 44.5

9. 93 4 22 31 57. 8

(1.92 4 22 35 12.2

1.47 4 16 32 59.4

0.30 4 25 18 22.4

1.67 — 16 25 16.4

1.39 4 32 19 14.0

0 45.7
11.6
25.5
27.9
27. 9

35.6

II 24.11
2 1.4

— 1.8
4- 3.5
+ 9. 1
-9.3

— 0.3

— 1.7
4 0.5

— 0.5

0 16.7 4 2.5

a g assumed as 15° 8' 35"; not 15° 8' 25"
b f assumed as 15° 6' 30"; not 15 6 50

c g assumed as 5° 30' ; not 5° 20'.

d T. Ill assumed as 33s. 5.; not 22s.5.
e Div. assumed as 0 10; not 0 8.

(108)

GOUl.D — REDUCTION OF D AGELET S OBSERVATIONS

109

1»S4 MARCH 23

Zer

o corr. = 4-1' 441'. 3.

Name

Mag.

T

A|i)i. Bid. time

( lloci COIT.

n Ian (i

'I

f-#

Eefr.

</

// m S

h m s

m s

s

s

o ' II \

/ //

II

Sun I linili

2 59 32.5

0 8 32. :>

— 0 22. 00

— 0.08

+ 0.03

+ 1 ir, 38.6

- 1 5. 1

- 0.9

Sun II limb

3 1 12.2

0 10 12.2

'<)

j Geminorum

9 16 39.3

6 25 39.3

21.30

— 1.11

— 1.47

+ Hi 32 59.0

0 37. S

- 1.7

Siiius .

1

26 57.7

35 57. 7

21.28

+ 1. in

+ 1.1)7

- 16 25 in.::
+ 13 37 45.0

2 9.H
II 12.2

— 0. 5

— 2.0

32 14.6

42 14.6

21.27

— 3.76

+ 2. 12

+ 45 in 42.0

::.7

+ 5. 1

7

36 52.3

45 52. 3

21.27

1.84

— 0.02

+ 26 19 32.8

24. s

+ 0-8

'<)

7

37 31.3

46 31.3

21.27

1 . S3

— i). mi

+ 26 in 12.5

24.9

+ 0.7

u Geminorum

7

40 39.2

49 39.2

21.26

1.69

- 0.51

+ 21 29 7. 8

27.0

+ 0.2

" . .

42 42. 1

51 42. 1

21.25

1.42

— i. in

+ 211 51 5.1

31.8

— o. s

<■)

48 11.2

57 11.2

21.25

3.08

+ 1.29

+ 39 37 47. 8

9.7

+ 4.0

50 42.5

6 59 42. 5

21.24

1.69

— (1. 51

+ 2! 27 9.0

27.1

+ 0.2

C

53 50. G

7 2 50.6

21.24

2. mi

+ H.(i7

+ 28 14 6.2

+ 1.::

57 5. 2

6 5. 2

21.23

1.13

— 1.44

+ Hi 5:! 47.7

37. ::

— 1.7

d)

.! " . .

9 58 :s~. 1

7 37. 1

21.23

1.57

— (i. 88

+ 22 2ii 40.3

29.0

— 0.2

6

in 1 24.0

13 24.0

21.21

0.79

— 2.46

+ 12 :: 41.8

44. 8

— 2.0

>)

•

5.6

7 45.2

16 45.2

21.21

•J. mi

+ 0.72

+ 2- 19 ■.■:.. ii

22. 4

+ 1-4

Procyon .

19 23.4

28 23.4

21.19

0.37

- - 0.88

+ :, 45 5.6

55. 9

— 1.5

1 t ieminorum

23 28. 5

32 28. 5

21.18

2. 1 12

+ 0.79

+ 28 30 37.6

0 22. 2

+ 1.5

31 52.4

40 52.4

21.16

0. 15

— (I. 1 6

+ 2 IT :;:..:.

1 ::. o

— 1.0

6

34 27 . 5

43 27.5

21.16

1.39

— 1.20

+ 2H 25 16.4

o 32.4

— 1.0

36 8.0

45 8.0

21.16

1.09

— 1.48

+ Hi 2ii ln.ii

o 38.2

— 1.8

38 31.0

47 31.0

21.15

0.19

— n.25

+ 2 46 ::::. 1

1 2.0

— 1.2

7

42 29. 4

51 29.4

21. 15

1.55

— (1.91

+ 22 38 31.0

0 29.5

— 0.3

7

44 54.;:

53 54. 3

21.14

1.60

— 0.81

+ 23 13 5.4

28.8

— 0.2

b

46

55

+ 22 10 33.0

30.1

— 0.5

f)

48 2.5

57 2.5

21.14

0.94

— 1.63

+ 14 14 21.4

41.3

— 2. 0

8

50 57.0

7 59 57. 0

21.13

1. 14

— 1.42

+ 17 s 58.9

37.0

— 1.7

7

52 7. 2

8 1 7.2

21.13

1.14

— 1.42

+ 17 7 50.0

37.0

— 1.7

7.8

55 14.5

4 14.5

21.12

2.74

+ 1.30

+ 36 21 19.::

13.3

+ ::. 4

6

III r,;» 9.0

8 9.0

21.12

1.46

— 1.(19

+ 21 23 48. 8

31.1

- 0.7

7

11 2 23.7

11 23.7

21.11

1.28

— 1.31

+ 18 59 37. 1

34.4

— 1.3

11 5 0. 3

8 14 6. :;

— 0 21.10

— 1.94

+ 0.42

+ 27 36 18.9

— 0 23.3

+ 1.2

17S4

MARCH i

S3

Ze

ro corr. = -f 1' 47".2.

g)

Sun I limb

3 3 8.2

0 12 .

— 0 19. 40

— 11.07

+ 0.06

+ 1 7 3.0

— 1 4.3

— 0.9

A)

Sun II limb

3 5 8.0

0 14 8.0

19.4H

— 0.11

— 0.04

+ 1 39 15.0

1 ::. 1

— 1.0

i)

Aldebaran .

7 15

4 24

+ 16 2 33. 6

0 37.8

— 1.8

i)

Capelia

+ 45 4:: 17.ii

0 3.0

+ 5.2

Rjgel .

7 55 27. 5

5 4 27.5

18.91

+ 0.54

+ 1.87

— 8 28 11.::

1 31.5

— 0.5

li Tauri .

8 4 0.5

13 0. 5

18.90

— 1.99

+ (1.73

+ 28 23 8. 4

0 22. 0

+ J- 4

y Orionis

4 54.5

13 54.5

18.90

— 0.40

— 0.96

+ 67 30.5

0 54.4

— 1.5

f " - -

21 10.3

30 10.3

18.87

+ 0.14

+ 1.08

— 24 4S.7

1 12.3

— 0.7

k " . .

— 9 45 1.".. ii

1 36.3

— 0.4

/i Aurigse

8 35 3. 3

5 44 3. 3

18.85

— 3.66

+ 1.93

+ 44 52 45. 9

0 4. 1

+ 5.1

*)

7 Geminorum

9 16 36.5

6 25 36.5

18.77

1.09

— 1.47

+ Hi 32 56.8
+ 44 41 7.0

37.3
4.4

— 1.7

+ 5.0

E " - -

22 0.7

31 0.7

18.77

1.74

— 0. 30

+ 2.". 18 22. s

25.7

+ 0.5

24 32. 4

33 32. 4

18.77

— ii. -i;

— 1.80

+ 13 5 42.7

0 42.4

— 2. 0

i)

Siiius .

26 54.5

35 54.5

18.76

+ 1.08

+ 1.67

— 16 25 41.8

2 7.2

— 0.5

33 11.8

42 11.8

IS. 75

— 3.72

+ 2. 12

+ 45 19 42.7

0 3. Ii

+ 5.1

m)

50.2

18.75

1.84

— 0.02

+ 26 19 ::::. 4
+ 26 1" 12.5

24.5
24.7

+ 0.8

+ 0.7

39 13.0

48 13.0

18.74

1.08

— 1.48

+ 16 20 :::.. 1

37.7

— 1.8

43 40. 1

52 40. 1

18.73

1.55

— 0.87

+ 22 55 28. 6

28.7

— 0.2

48 9. 0

57 9.0

18.73

3.05

+ 1.29

-j- 39 :;? 43.8

9.6

+ 4.0

7.8

50 53. 5

6 59 53.5

IS. 72

1.80

— 0. 09

+ 26 4 Hi. n

24.8

+ 0.7

7.8

9 52 50.5

7 1 50.5

— 0 18. 72

— 1.73

- 0.33

+ 25 13 20.8

— 0 25.9

+ 0.4

a

Transits discordant.

e Div. assumed

as 21 14 5; not

21 14 7 : at

d j i assumed as 3° 7' 16

" ; not 3° 7' 8".

6

T. Ill assumed as 3"

m. : not

38m.

> rejected.

k Micr. corr. as

is B ; not — 8.

e

Hour assumed as 9 ;

lot 7.

/ T. LU assume

d as 48m.; not

16m.

I g assumed as (>5° 16'

not 65° 17'.

<2

£ assumed as 26° 30'

not 26c

0'. g

,h £and Div. re
i Div. assumed

iding ass'd as o

as 34 lo 15; nc

le line too
t 34 10 14.

ligh. m Mill, assumed as 42.

(109)

110

GOULD REDUCTION OP D AGELET S OBSERVATIONS.

17S4 MAKC'Ii 33— Continued

Zero corr. = + 1' 47". 2.

Name

Mag.

T

App. sid. time

Clock corr.

n tan 6

1

f— f

Refr.

?'

h m s

It VI s

in s

s

s

O ' "

i „

;/

7

9 55 1.1

7 4 1.1

— 0 1S.7I

— 1.88

+ 0.21

+ 27 2 26. 2

— 0 23.7

+ 1.0

9 58 57. 3

7 57.3

1~. 7(i

2.77

+ 1.27

4- 37 7 27.6

12.3

+ 3.5

10 :s 39. 4

12 39. 4

18.70

— 1.07

-j- 0.66

+ 28 11 19.1

0 22. 3

+ 1.3

a)

■n Can. Maj. .

6 47.2

15 47.2

IS. 70

+ 2JI3

+ 4.42

— 28 51 7.2

1 23. 1

— 4.5

a Geminoram

12 8.6

21 8. 6

18.69

— 2. 33

+ 1.39

+ 32 19 21.2

0 17.5

+ 2.5

Procyon .

10 10 20. -J

7 28 20.2

— 0 18.67

— 0.37

— 0.87

+ 5 45 2.2

— 0 55. 1

— ].:.

17S4 MARCH 3G

Zero corr. — -f* 1' 45".0.

y Gcininorum

'.I Li 21). (1

6 25 20.il

— 0 12.01

— 1.08

— 1.47 '+ 16 32 59.4

— 0 36. 2

— 1.7

f "

21 52. 7

30 52.7

12. 01

1.72

— 0.30 + 25 18 23.6

25.0

+ 0.5

21 35.6

33 25.6

12.IIU

— 0.85

— 1.78 + 13 5 43.7

0 41. 3

— 2. 0

Sirius .

26 48.2

35 48.2

12.00

+ 1.08

+ 1.67 — 16 25 44.8

2 3.6

— 0.5

C

39 6. 5

48 6.5

11.99

- 1.07

— 1.48

+ 16 20 36. 6

0 36.6

— 1.8

f Can. Maj. .

— 28 39 5.2"

4 ll.i s

— 4.3

47 14.5

56 14.5

11.97

1.06

— 1.48

+ 16 14 30.6

0 36.6

— 1.8

7

50 46.8

6 59 46. 8

11.96

1.78

— 0. 09 +26 4 17. 5

0 24.1

+ 0.7

52 13.3

7 1 43.3

11.96

1.72

— 0.32 + 25 13 23.2

ii 25. 1

+ 0.4

7

55 36. :!

4 36. 3

11.96

1.08

— 1.47 + 16 29 34.9

36.3

— 1.8

9 58 50. :!

7 5U.3

11.95

2.76

+ 1.27 |+ 37 7 31.6

11.9

+ 3.5

G

10 1 44.4

10 44.4

1 1 . 94

1.57

— 0.79 |+ 23 19 28.2

27. 1

— 0.2

5 27.6

14 27.6

11.94

1.37

— 1.18 + 20 39 13.2

30.8

— 0. 0

a Geminorum

12 2.2

21 2.2

11.03

2. 31

+ 1.39 j+ 32 19 20.7

17.0

+ 2.5

b)

14 9.5

23 9.5

11.93

0. 25

— 0.41 - ■ 3 48 46.6

57.3

— 1.3

7

10 17 22. 8

7 26 22. 8

— 0 11.92

— 1.68

— 0.47

+ 24 40 33.0

25.7

+ 0.2

Procyon .

+ 5 45 4.6

— 0 5::. 5

— 1.5

47S4 MAY 25

Zero corr. = + 1' 39". 5.

c)

Sun II limb

7 1 3.5

4 12 3.5

+ 0 27.71

— 1.29

— 1.10

+ 21 21 47.0

— 0 29. 0

— 0.7

d)

J Virginia

16 12 15.0

13 23 15.11

29.09

0. 03

+ 0.20

+ 0 30 0.0

1 2.4

— 0.9

7

20 11.2

31 11.2

29. 10

3.58

+ 2.84

+ 47 20 57.8

0 1.5

+ 5.4

25 30. 0

36 36. 0

29. 12

1.10

— 1.34

+ 1- :il 0.6

32.7

— 1.4

n Ursse Maj.

+ 50 21 56.0

1.5

+ 5.6

31 29. 4

42 29. 4

29.13

— 1.13

— 1.31

+ 18 58 52.2

0 32. 1

— 1.3

0 Centauri -

42 27. 9

13 53 27.9

29.16

+ 2. 33

+ 5. 50

— 35 11 53.4

8 3.1

—10.4

Arcturus .

16 54 25. 0

14 5 25.0

+ 0 29. 19

— 1.22

— 1.21

-4- 20 17 29. 1

— 0 30. 3

— 1.0

1»S4 JIIVE 5

Zero corr. = + 1' 44". 2.

Sun I limb

7 42 55. 6

4 55 55. 6

— 0 48.50

— 1.38

— 0.96

+ 22 22 25. 3

— 0 27.6

— 0.4

Sun 11 limb

+ 22 54 9. 0

27.0

— 0.2

<0

Capella

48 35.9

5 1 35.9

48. 48

— 3.44

+ 2.28

+ 45 43 45. 8

0 3. 0

+ 5.3

Rigel . .

7 51 56. 0

5 4 56. 0

48. 47

+ 0.50

+ 1.87

— 8 28 5. 3

1 26.0

— 0. 5

7

16 52 48. 8

14 5 48.8

46. 04

— 1.28

— 1.16

+ 20 53 32. 2

0 30. 1

— 0.8

Arcturus .

+ 20 17 28. 6

0 30.8

— 1.0

7.8

16 58 39.5

11 39.5

46.92

+ 0.00

+ 0.73

— 1 0 27.8

1 6.8

— 0.7

17 2 15.5

15 15.5

46.91

— 1.81

+ 0.72

+ 28 22 31.2

0 21.2

+ 1.4

I)

7

6 50. 9

14 19 56. 9

46.89

1.70

+ 0.13

+ 26 48 15.4

ii 22.9

+ l.o

6

52 38. 8

15 5 38.8

46.77

0.06

4- 0.04

+ 1 9 59. 2

1 1.9

— 0.9

17 56 7.3

9 7.3

46.75

0. 15

— 0.21

4- 2 34 41.0

0 58.9

— 1.1

18 0 25. 1

13 25. 1

46. 74

0.01

+ 0.32

— 0 15 17.9

1 5.1

— 0.8

5 33.6

18 33.6

40.72

— II. 15

— 0.21

+ 2 35 18.4

0 58.9

— 1.1

9 39.8

22 39. 8

46. 72

+ 0.03

+ 0.52

— 0 27 20.4

1 5.7

— 0.8

12 2.8

25 2. 8

46.70

— 2. 10

+ 1.39

+ 32 4 14.9

17.1

+ 2.5

g)

1- 19 47.4

15 32 47. 4

— 0 46.60

— 1.24

— 1.20

+ 20 21 8.6

— 1 30.7

— 1.0

a

Micr. corr. assumed i

s -J- 3 ; li

ot — 3.

d T. Ill assumed as 13m. 38s. ; not 12m. 28i

/ S assumed as 22° 2' 50"; not 22° 2' 10": and

b

Miu. assumed ;is 14m

; n..t L3

n.

e g* assumed as 3° ; uot 3U°.

Div. as 23 8 4; not 23 8 1.

c

£ assumed as :.

nol S,

3-1'.

g T. 11 assumed as 48s. ; not 28s.

(110)

GOULD— REDUCTION OF D AGELET S OBSERVATIONS.

Ill

1784 JUNE 3— Continued

Zero eorr. 1

44". 2.

Name

Mag.

T

App. sid. time

( llockcorr.

n tan d

'1

?-*

Refr.

'/'

/( Hi s

It III S

in s

s

s

O ' ii

/ //

II

is -.'l 30.8

15 :;i 30.8

— 0 46.69

— 1.70

+ ii. 18

+ 26 57 51.4

— 1 22.7

+ 1-"

27 13.2

■in 13.2

Hi. 117

ii. 17

— (1.20

+ 2 51 7.4

58. 5

— 1.2

h Coronse

30 56.7

43 56. 7

46. 66

2. 40

+ h 50

+ 50 IS 55. 1

12.0

+ 3. 5

35 16.7

4S |(i. 7

46. 64

3.20

+ 1.64

+ 13 11 411.0

5. 1

+ 4.9

[ Serpentis .

in 50.9

53 5i i. 9

46.63

1 . 15

— 0.78

+ 23 23 23.8

27. 0

— 0. I

«)

45 11.6

58 11.6

46.62

H.02

2.01

+ 10 28 5.0

44.8

l.s

45 41.1

15 58 11. 1

46.62

0.63

— 2. 7 1

+ lii 38 58.0

44.6

— 1.9

7

511 44.3

16 3 44.3

46. 60

0.80

— 1.74

+ 13 20 :;:;. ii

40.5

— 2.0

51 6.3

4 6. 3

46. (iO

0.84

— 1.64

+ 14 5 41.2

39.4

— 2. 0

7

53 42.3

6 42.3

46. 59

0.71

— 2.01

+ 11 57 7.0

42.7

— 2.0

'')

7

IS 51 55.11

7 55.0

46. 59

1.47

— 0. 73

+ 23 38 5li. II

20.7

— 0. 1

j ETerculis .

19 U 15.6

13 15.6

40.57

— 1.20

— 1.20

+ 19 38 55.11

0 31.0

— 1.2

6 34. 2

19 34.2

46. 55

+ 0.96

+ 1.0,7

— 16 7 29.8

2 0.8

— 0.5

7

9 48.0

22 48.0

4(1. 55

— 0.30

— n.9:;

+ 5 58 39.8

o 52.6

— 1.5

7

III IS 40.7

L6 31 4H.7

46.52

— 0.31

— 0.75

+ 5 17 9.5

— 0 54. 1

— 1.4

17S

14 JUNE S

Zero corr. = + 1

43".2.

Capella

7 is 23.]

5 1 23.1

— 0 35.70

— 3.47

+ 2.29

+ 45 43 49.3

— 0 3. 1

+ 5.2

Sun I limb

7 55 5.3

5 8 5. 3

35.74

1.44

— 0.82

+ 23 11 8.7

27.2

— 0.2

7

16 52 36.9

14 5 36.9

34.13

1.29

— 1. 10

+ 20 53 in. ii

30.0

— 0.8

0

Arcturus -

16 52 28.4

6 28.4

34. 12

1.24

— 1.21

+ 211 17 28.6

31.3

— 1.0

a Bootis - -

17 4 4.5

17 4.5

54.0-

1.24

— 1.22

+ 20 10 58.4

31.4

— 1.1

/' " - -

10 8. 7

23 8.7

34. OS

2.06

+ 1.33

+ 31 18 3.6

— 0 18.2

+ 2.3

17 is 14.1

14 31 14.1

— 0 34. 05

— 1.05

— 1.42

+ 17 20

17*

.4 JUNE 1

G

Zero coit. = -f ]

' 43". 1.

Capella

7 47 44.2

5 0 44.2

+ 0 3.37

— 3.51

+ 2.28

+ 45 43 53. 3

— 0 3.1

+ 5.3

Rigel . .

— s 28 5.0

1 27.2

— 0.5

Sun I limb

8 27 37. 3

5 40 37.3

3.50

1.46

— 0.83

+ 2:! 7 5.6

0 27.0

— 0.2

Sun II limb

8 29 55.9

5 42 55.9

3.51

— 1.50

— 0.74

+ 23 38 40.0

0 20.5

— 0. 1

d)

Sirius .

9 22 31.6

6 35 31.6

3.69

+ 1.01

+ 1.67

— 16 25 37.8

2 1.3

— 0. 5

Regains *.

12 43 50.5

9 56 50.5

4. 30

— 0. 79

-1.79

+ 12 59 51.3

o 40.9

— 2.0

i] Ursfe Maj.

Hi 25 59. 1

13. 38 59. 1

4.92

4.13

+ 3.45

+ 50 -.'I 59.0

1.5

+ 5.7

i] Bootis .

31 24. 1

13 44 21. 1

4.93

1.21

— 1.27

+ 19 27 53.9

0 32.0

— 1.2

6 Centauri .

— 55 12 2.4

S 4.4

—10.4

Areturus .

16 52 48. s

14 5 48.8

4.98

1.27

— 1.21

+ 20 17 31.1

0 31.0

— 1.0

17 6 5.7

19 5.7

5. 03

1.73

+ 0. 12

+ 20 48 12.4
+ 24 10 31.4

23.1

+ 0.9

5. 6

13 20.8

26 20.8

5.03

1.54

— II. Oil

26.2

0.0

7.8

18 0.2

31 H.2

5.04

2.08

+ 1.34

+ 31 21 20.5

18.0

+ 2.3

Bootis .

22 32.5

35 32.5

5. m;

1.81

+ 0.55

+ 27 58 7.0

21. S

+ 1.3

6.7

25 48. 1

27

38 48. 1

40

5.07

1.61

— 0. 32

+ 25 14 52.4
+ 29 29 41 . 0

25. 0
20. J

+ 0.5
+ 1-7

8.9

30 25.2

43 25.2

5.07

1.85

+ 11.72

+ 28 21 59.5

21.4

+ 1.4

7

32 25.7

45 25. 7

5.08

2.05

+ 1.30

+ 30 55 20. 2

IS. 5

+ 2.2

7.8

35 11.0

48 11.0

5. 09

1.63

— 0.24

+ 25 51 31.2
+ 15 40 54.0

24.7
37.4

+ 0.6
— 1.8

7.6

38

51

+ 40 0 10.0

8.8

+ 4.1

41 30.5

54 311.5

5 in

1.81

+ n.52

+ 27 54 59. 1

22.0

+ 1.3

'/' " - -

42 10.3

55 10.3

5.10

1.80

+ 0.47

+ 27 40 29.0

22.1

+ 1.3

8

45 511. 1

11 58 5ii. |

5.11

1 . 92

+ 1.07

+ 29 19 53.7

20.3

+ 1.7

7

48 52. (i

15 1 52.6

5.11

2.29

+ 1.39

+ 33 52 17.2

15.:;

+ 2.9

6.7

52 26. 2

5 26. 2

5.13

1.97

+ 1.18

+ 29 50 57.0

19.6

+ 1.9

8

56 5.0

9 5. 0

5.13

. 2.10

+ 1.37

+ 31 36 37.8

17.7

+ 2.4

7

17 58 46. 3

15 11 46.3

+ 0 5. 14

— 1.65

— 0. 19

+ 25 43 20. 7

— 0 24. 5

+ 0.6

a g assnm<

d as 38°

23': not 383 22'.

c T.

III assume*

1 as 53s. ; not 33s.

6 Transit

over 1'.

I assumed as

recorded

d g &

burned as t

', 16 41"; nott;5°

1C 21".

over T

. II.

(111)

112

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

1784 JUNE 21 Zero corr. = + 1' 43". 4.

Name

Mag.

T.

App. sid. time

Clock corr.

a tan 0*

1

?-*

Refr.

l'

It. in 8

// VI s

Ill S

s

s

o / "

/ //

ii

-i Persei -

9 40 52. 3

2 54 52. 3

— 0 39. 05

— 2.94

+ 1.31

+ 40 5 7.8

— 0 8.6

+ 4.1

»)

a "

9 5 40.3

3 9 40. 3

39.(13

4.1)3

+ 3.25

+ 49 2 50. 4

0. 2

+ 5.6

Aldebaran

11 10 14.6

4 24 14.6

38. 85

1.01

— 1.49

+ 16 2 33.6

35.9

— 1.8

Venus .

11 51 39.0

5 5 39.ii

38.76

1.45

— 0.95

+ 22 25 57.8

27.8

— ii. 1

b)

Sun I limlp

12 48 7. 1

6 2 7.1

38.63

1.50

— 0.82

4- 2:: 10 54.6

26.9

— 0.2

Sun II limb

12 50 25.2

6 4 25. 2

— 0 33. 62

— 1.54

— 0.72

+ 23 42 37.3

— 0 26. 2

— 0. 1

c)

1784 JUIVE 22 Zero corr. = + 1' 43".4.

7

4 59 10.9

22 13 10.9

— 0 36.

— 1.06

— 1.44

+ 16 49 28.2

— 0 34. 9

— 1.7

Double star

6

5 3 52.0

17 52.11

36.

2.67

+ 1.27

+ 37 19 5.4

11.4

+ 3.6

G

6 18.0

2D 18. 0

36.

1.78

+ 0. 18

+ 20 57 55.9

22. 4

+ l.o

6.7

5 8 52. 1

22 22 52. 1

— 0 36.

— 1.01

— 1.49

+ 16 5 18.8

— 0 36.0

— 1.8

17S4 JILY 4 Zero corr. = + V 42".l.

'/)

Aldebaran

11 9 28.7

4 23 28. 7

+ 0 4.22

— 1.04

— 1.49

+ 16 2 37.6

— 0 36.6

— 1.8

Capella

46 44.0

5 0 44.il

4.31

— 3.09

+ 2.29

+ 45 43 44. 8

0 3. 1

+ 5.2

')

Rigel .

11 50 4.2

5 4 4. 2

4.32

+ 0.53

+ 1-B7

— 8 28 2.3

1 27.7

— 0.5

Venus .

13 0 2.0

6 14 2.6

+ 0 4.47

— 1.57

— 0.76

+ 23 31 33.7

— 0 26.6

— 0. I

1784 JTUI.V 14 Zero corr. = + 1' 39 . 1.

Capella

+ 45 43, 41.0

— 0 3. 1

+ 5.2

Rigel . -

1 1 49 25. 0

5 4 25. 0

— 0 16.61

+ 0. 54
- 1.56

+ 1.87

— 8 28 2. 8

1 27.4

— 0. 5

\ nllS -

13 52 53.6

7 7 53.6

16. 31

— 0.84

+ 23 2 47.7

I) 27.0

— 0.2

Sun I limb

14 21 28.9

36 28. 9

16. 22

— 1. 16

— 1.03

+ 21 49 38.6

0 28.6

— 0.5

Sim 11 limb

11 23 45.2

7 38 45.2

8

0 58 46.5

16 13 46.5

14.50

+ 1.59

+ 2.04

— 23. 3,1 13.0

2 51.7

— 0.1

6

1 2 44.0

17 44.0

14. 50

— 0.38

— 0.94

+ 63 52. 4

0 51.8

- 1.5

/)

6.7

6 47.3

21 47.3

14.49

1. 10

— 1.45

+ 16 46 2H.4

35.2

— 1.7

a Lyrse -

14 55.2

29 55.2

14.46

— 2. 92

+ 1.27

+ 3- 3,3 56.2

0 10.2

+ 3.8

g)

v Sagittarii .

6

27 17. 1

42 17.1

14.44

+ 1.55

+ 1.83

— 22 54 21.2

2 44.5

— 1.5

o u .

1 36 58.3

18 51 58.3

14.40

+ 1.48

+ 1.63

— 22 1 24. 5

2 39.7

— 1.2

a AquiUu

2 25 34.2

19 4(1 34. 2

— 0 14.28

— 0. 53

— 1.44

+ 8 17 50.5

— 0 47. 9

— 1.7

1784 SEPTEMBER 7 Zero corr. -= + 1' 40". 1.

y Aquilsc

20 18 25.5

19 36, 25. 5

— 0 20.19

— 0.59

— 2. 35

+ 10 5 9.8

— 0 44.6

- 1.8

a " . -

•J'.' 40.2

411 4H.2

20.18

0.48

— 1.44

+ 8 17 54. 0

47.4

— 1.7

7

27 51.0

45 51.(1

20. 17

1.32

— 1.03

+ 21 51 24. 1

28. 3

— 0.5

7

30 1.5

48 1 . 5

2d. 16

1.41

— 0. 82

+ 23 1 1 3.11.0

26.7

- 0.2

6.7

32 28. J

5(1 28.2

20. 15

1.94

+ 1.24

+ 30 23 19.8

18.6

+ 2. 0

6

35

53

+ 36 26

Vulpeeulse

40 2.0

19 58 2.0

20.13

1.40

— 0.85

+ 22 59 8.3

0 27.0

— 0.2

U)

a' Capricorni

48 1.3

20 6 1.3

2d. 1 1

— 0.08

+ o.oi

+ 1 23

a'2 " . .

48

6 24.9

20. 11

+ 0.77

+ 1.58

— 13 11 49.8

1 44.4

— 0. 3

li " . .

- 1 5 26 35. 1

1 54.8

— 0.5

y Cygni . .

2ii 56 53.3

14 53.3

20.09

— 2.73

+ 1.29 -f- 39 33 7.0

0 9. 1

+ 4.0

u> " . .

21 2 511. 1

20 50.1

2d. (17

3.75

+ 3. 17 + 48 3.8 59. 0

0.2

+ 5.6

u» " . .

21 5 45.5

2(1 23*45.5

— 0 20.06

— 3.69

+ 3. 07 + 48 12 28. 4

— 0 0. 6

+ 5.5

a

T. 1 assumed as 5s. j

not 15s.

d Ts. I, II and III assumed as 5s., 28S.5, and g Div. assumed as 70 8 10; not 76 8 4.

b

T. Ill assumed as 32

.2; not

lis. a.

'.'in. 52s.5; not 25s., 48^.5, and 10m. 2s.5. /. £ ami Div. reading discordant andrejected;

c

The observations of
in the catalogue.

are not ui ed

e I iiv. assumed as 01 0 4 ; u<»t ill 2 3. not a' Capricorn!
/ 10" assumed as to be subtracted from/?;
not added, as d'Agelet's note directs.

(112)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

113

IJSI SEPTEMBER 7— Continued Ze

•o corr, = -f 1' 40"J.

Name.

Mag.

T

App. Sid. tinn

i Hock corr.

n tan iS

1 1 ■

?— *

Refr.

'/

h m s

h m s

m s

s

s

o / »

/ //

II

1 Delpbini .

21 9 55.4

20 27 55. 4

— 0 20.05

— 0.62

— 2. 70

+ 10 37 19.2

— 0 43. -

— 1.9

7

14 30.3

32 30.3

20. 04

3. 29

+ 1.93

+ 11 53 14.7

3. 8

+ 5.1

a Cygni -

16 28.3

34 2-. 3

20. 03 — 3. 24

+ 1.79

+ 11 29 31.8

0 4.1 + 5. 0

w Capricorni

21 12.0

39 12.0

20.02 !+ 1.73

+ 3.92

— 27 40 33.7

:; 16.8 — 3.0

6

22 30.2

40 30.2

20.02 — 1.63

— 0.04

+ 26 16 50.0

0 23.4 + 0.8

6

27 45.9

45 45. 9

20. 00

1.70

+ 0.28

+ 27 13 II. i.

22.1 +1.0

j' Cygni . .

4

31 32.5

49 32. 5

•jo. on

2. 80

+ 1.32

+ 4o |9 it;. T

8. 1 + 4. 1

7.8

36 23. 5

20 54 23.5

19.9-

2.02

+ 1.35

+ 31 29 14.8

17.5 + 2.3

9 Equulei .

6

21 52 48.2

21 10 18.2

19. 93 — 0. 37

— 1.02

+ 6 20 20.9

0 50.8 — 1.5

i Aquarii

22 2 32. 3

20 32. 3

19.91 + 0.33

+ 1.86

— 6 30 45.8

1 20.3 — 0.5

B6fi Mayer . .

3.4

in 27.2

28 27. 2

19.89

1.05

+ 1.58

— 17 36 58.6

2 7.0—0.6

/ Aquarii

17 14.8

35 14.8

19.87

0.72

+ 1.62

— 12 20 53. 1

1 40.9 !— 0.3

ii Capricorni

23 51.3

41 51.3

19.86

0.86

+ 1.59

— 14 33 3.8

50.6 — 0.5

a Aquarii

37 3.8

55 3.8

19.81

+ 0.08

+ 0.86

— 1 21 54.2

1 6. 9 — 0. 7

a)

0 Pegasi .

41 42.2

21 59 42.2

19.80

— 0.30

— 0.71

+ 5 8 8.2

1 1 53. 3

— 1.4

Jupiter

22 57 7.2

22 15 7.2

— 0 19.76

+ 0.72

+ 1.62

— 12 20 11.2

— 1 40.9

— 0.3

17S1 SEPTEMBER 9

Zero corr. = + 1' 38".2.

Sun I limb

23 54 40.2

23 12 40.2

+ 5 15 12.9

— 0 52.0

— 1.4

Sun II limb

23 56 49. 4

14 49.4

Venus -

0 29 45. 5

23 47 45. 5

+ 2 46 55. 2

0 56.7

- 1.2

Mercury .

(I 27 29.8

o 45 29. -

— 6 54 15. 3

1 20. 1

— 0.5

v Oplihrchi .

18 29 22.9

17 47 22. 9

— 0 13.68

+ 0.57

+ 1.80

— 9 44 6. 0

1 31.3

— 0.4

O " . .

+ 2 56 40. 0

0 57. 7

— 1.2

P " . .

36 50. 0

17 54 50. 0

131 65

— 0.15

— 0.20

+ 2 33 11.0
+ 9 31 57.5
+ 30 31 15.0
+ 20 4(5 29. 2

58.2
45.9
IS. 6
29.9

— 1.1

— 1.8
+ 2.1

— 0.9

A Hereulis

46 4.0

18 4 4.0

13.63

2.01

+ 1.34

+ 31 20 27. 9

17.7

+ 2t 3

52 30.2

10 36.2

13.61

1.49

— 0.56

-j- 24 20 56. 0

25. 5

+ 0. 1

106 " . .

53 28.7

11 28.7

13.61

— 1.33

— 1.03

+ 21 51 48.8
+ 29 44 49. 0

28.6
0 19.9

— 0.5
+ 1-8

d Serpentis -

18 58 26. 5

16 26.5

13.60

0.00

+ 0.33

+ 0 4 19.0

1 3.7

— 0.8

60 " . .

— 2 7 7.0

9.1

— 0.7

61 " . .

19 3 4.3

21 4.3

13.59

+ 0. 07

+ 0.80

— 1 9 1.6

1 6.7

— 0.7

7

7 21.1

25 21. 1

13.57

— l.«22

— 1.21

+ 20 17 40.4

0 30.6

— 1.0

7.8

10 25.2

28 25. 2

13.56

2. 64

+ 1.28

+ :;- 12 21.0

10. 1

+ 3.8

a Ljrje .

19 11 11.8

18 29 54. 9

— 0 13. 56

— 2.63

+ 1.28

+ 38 34 11.8

— 0 10.2

+ 3.8

1784 SE

PTEITIBER 14

Zer

o corr. = + V 41". 3.

Sun I limb

13 12 20.0

12 30 20.0

+ 2 4S 24. 7

— 0 58.0

— 1.2

Sun II limb

14 28.9

12 32 2 S 9

+ 3 20 26. 2

0 56. 9

— 1.2

Mercury .

13 46 47.ii

13 4 47.0

— 9 39 31.6

1 31.1

— 0.4

18 56 37. 0

18 12 37.0

+ o 4.04

— 1.87

+ 1.15

+ 29 14 49.6

0 19.6

+ 1.8

4)

d Opbiucln .

18 58 8. 0

16 8.0

4.05

0.00

+ 0.33

+ 04 19.8

1 4.4

— 0.8

P Serpentis 60

6

19 0 24.2

18 24.2

4.06

+ 0.12

+ 1.09

+ 0.80

— 27 10.2

9.7

— 0.7

e " . 61

6

2 46.1

20 46. 1

4.07

+ 0.06

— 1 9 5.4

1 7.3

— 0.7

7

7 3. 0

25 3.0

4.08

— 1.20

— 1.21

+ 20 17 34. 6

0 30.9

— 1.0

a Lyra . .

11 36.8

29 36. 8

4.09

— 2.60

+ 1.28

+ 38 34 11.4

0 10.3

+ 3.8

12 23". 2

30 23.2

4.09

+ 0.53

+ r.83

— 9 14 48.8

1 30.5

— 0.4

1 10 Hereulis .

6.5

18 22. 5

36 22. 5

4.11

— 1.21

— 1.21

+ 20 20 5.7

0 30.8

— 1.0

7

21 43.0

39 43.0

4.12

+ 0. 20

+ 1.44

— 3 30 11.0

1 13.1

— 0.7

6

21 58.9

39 58." 9

4.12

+ 0.20

+ 1.44

— 3 33 45. 3

1 13.2

— 0.7

y Lyra; . .

+ 32 17 34.0

0 16.9

+ 2.5

01 Serpentis -

27 28.2

45 28. 2

4.13

— 0.21

— 0.42

+ 3 55 32.8

56.4

— 1.3

0* " . .

27 29. B

45 29. 8

4.13

— 0.21

— 0.42

+ 3 55 32. 0

0 56. 4

— 1.3

2 Antinoi

19 32 4.9

18 50 4.9

+ 0 4. 15

+ 0.34

+ 1.83

— 6 1 59. 8

— 1 20.3

— 0.5

a Hour assumed a

s 22 ; n<

t 21 : anil mini

te as 41 j not 42.

b T. I assumed as 57m.

; not 58m.

15

(113)

114

GOULD REDUCTION OF D AGKLET 8 OBSERVATIONS

1?S4 SI!PTi:.TiBEK ll-('iiulii)!i(il Zero coir. = r 1' 41". 3.

Name

Mag.

r

App. sicl. time

Clock corr.

11 tan <5

'/

;-*

Eefr.

?'

h m s

h m s

m s s

s

O ' "

/ //

„

5.6

19 36 51.0

18 56 51.0

+ 0 4. 16 + 1.27

+ 1.51

— 21 20 10. 4

- 2 35.2

- 1.1

5.6

44 48.0

19 2 48.0

4.17

— 0. 1 1

— 0.09

4 1 55 51.9

1 0. 4

- 1.0

1 Anseris

19 48 56.3

6 56. 3

4.17

1.25

— J. 13 + 21 0 14.5

0 29. 9

0.8

7.8

20 2 46. 8

20 46.8

4.23

1.01

— 1.42

4 17 14 27. J

34.8

— 1.7

6.7

6 32.7

24 32.7

4.24

0. 14

— 0.19

4 2 26 24.2

59.3

— 1.1

7

9 59. 0

27 59.0

4.25

— 0.16

— 0.27

4 2 53 40. 6

0 56.5

— 1.1

45 Antinoi

11 33.0

29 33.11

4.25

+ 0.06

+ 0.79

— 1 6 56.0

1 7.3

— 0.7

47 Aquilse

14 26.4

32 26. 4

4.26

— 0.65

— 3.00

4 11 19 2.6

0 43.4

— 1.9

y " - -

4 10 5 lo.o

45.4

— 1.8

a " . .

22 15.5

40 15.5

4.28

0.47

— 1.44 -|- 8 17 55.6

4-. 4

— 1.7

9 Sagittaj .

7

24 4:.. II

42 45. 0

4.29

1.06

— 1.38 |+ 18 6 46.2

33.7

— 1.5

/3 Aquilfe

4.5

26

44

+ 5 52 7.0

52.7

— 1.5

Sapttse

6

29 57. 8

47 57. 8

4.30

0.94

— 1.46 + 16 12 16.6

36.3

— 1.8

6 Viupeculse

31 55.3

49 55. :'.

4.31

1.35

— 0.93 + 22 30 26.7

28.1

— 0.3

63 t Antinoi

35 35.4

53 35.4

4.32

0.39

— 1.07

4 6 40 12.2

51.2

— 1.6

a ) 15 Vulpeculae

39 37.2

19 57 37. 2

4.33 — 1.38

— 0.85

4 22 59 7. 6

0 27.4

— 0. 2

05 6 Antinoi

4

42 7. 3

20 0 7.3

4.33 + 0.08

+ 0.89

— 1 27 22. 5

1 8.0

— 0.7

a1 Capricorni

47 36.5

5 36.5

4.35

0.76

+ J. 58

— 13 9 33.4

46.1

— 0. 3

a- " - .

48 0.0

6 0.0

4.35

0.76

+ 1.58

a3 " . .

6

50 37.0

8 37.0

4.36

+ 0.78

+ 1.57 — 13 25 19.5

1 47.3

— 0.3

7 Cygni

20 56 28. 3

14 28.3

4.37

— 2. 69

+ 1.29 + 39 33 7.0

0 9.3

4 4.0

21 1 33.8

19 33.8

4.39

2. 52

+ 1.27 + 37 43 3.4

11.2

4,3.6

44

7

4 46.7

22 46.7

4.39

2.40

+ 1.30 + 36 11 44.2

12.8

4 3.3

20 Vulpeculae

6.7

8 53.2

26 53. 2

4.41

1.53

— 0. 35 + 25 7 32. 2

25. 0

4 0.4

6

9

27

+ 25 42 11.0

24.2

4 0.6

7

14 6.1

32 6.1

4.42

3.25

+ 1.93 + 14 53 11.6

. 4.0

4 5. 1

a Cygni

16 4.2

34 4. 2

4.42

3.20

4 1.80 4 44 29 36.8

4.3

4 5.0

7.8

22 51.5

40 51.5

4.44

1.63

4 0.04 -J- 26 33 56.0

23.2

4 0.9

31 Anseris

6.5

24 5'.'. 7

42 52. 7

4.44

1.61

— 0.04 '4 26 16 47.8

23.6

+ 0.8

6

21 27 20.9

20 45 20.9

4.45

— 1.68

4 0.28 4 27 13 41.0

0 22.4

4 i.l

/3 Aquarii

22 2 7.2

21 20 7.2

4.55 + 0.37

4 1.86 — 6 30 47.8

1 21.7

— 0.5

•

7.8

19 56. 1

37 56. 1

4.59

0.79

4 1.57 — 13 42 49.8

48.5

— 0. 4

/<) // Capricorni

23 27. 2

41 27.2

4.60

0.85

4 1.59 — 14 33 10.8

52.3

— o. 5

i Aquarii

5

36 42. 2

21 54 42.2

4.64

0.87

4 1.60 — 14 54 4.6

54. 1

— 0. 3

Jupiter

23 53 32. 4

22 11 32.4

+ 0 4.68 + 0.73

4 1.61 — 12 37 43.6

— 1 43.9

— 0. 3

17S4 SEPTEMBER 15 Zero corr. = + 1' 41".4.

•

Sun I limb

0 15 52. 1

23 33 52. 1

4 2 57 13. 5

— 0 58.4

— 1.2

Sun II limb

18 0. 9

23 36 0. 9

Venus -

0 56 34. 7

0 14 34.7

— 0 16 51.6

1 5.4

— 0.8

e Serpentis .

19 2 42.3

18 20 42. 3

+ 0 7.86

+ 0. 06

4 0.80

— 1 9 5.4

1 7.3

— 0.7

7.6

6 58.8

24 58. 8

7.87

- 1.20

— 1.21

4 20 17 34. 6

0 30. 8

— 1.0

6

10 10.3

28 10.3

7.88

+ 0.45

4 1.88

— 7 58 19.3

1 26.4

— 0. 5

o Aquilae

5

12 19.6

30 19.6

7.89

+ 0.53

4 1.83

— 9 14 46.6

30.7

— 0. 4

c) " . .

15 50.8

33 50. 8

7.90

— 0.11

4 0.08

4 1 50 39.2

1 0. 6

— 1.0

110 Herculis -

5

18 18.8

36 18.8

7.90

1.20

— 1.21

4 20 20 3. 2

0 30.6

— 1.0

7

21 11.5

39 11.5

7.91

1.40

— 0.80

4 23 16 3.2

27.1

— 0.2

112 " . .

0

24 59.6

42 59. 6

7.92

1.26

- 1. 11

4 219 33. 9

29.6

— 0.8

7

28 28. 1

46 28. 1

7.93

1.04

— 1.40

4 17 4'3 43.0

34.1

— 1.6

6

28 31.5

46 31.5

7.93

— 1.04

— 1.40

4 17 49 50. 0

0 34. 1

— 1.6

i Antinoi

4.5

32 1.5

50 1.5

7.94

+ 0.34

4 1.83

— 6 2 0.2

1 20.3

— 0.5

ir Sagittarii .

38 47. 0

18 56 47. 0

7.96

+ 1.27

4 1.51

— 21 20 11.4

2 35.8

— 1.0

d)

47 56.2

19 5 56.2

7.98

— 1.24

— 1.16

4 20 50 53.6

0 30.2

— o.s

48 52. :»

6 52.5

7.99

— 1.26

— 1. 14

4 21 0 12.5

0 30.0

— 0.8

6

55 18.0

13 18.0

8.01

+ 1.32

4 1.66

— 22 10 20. 0

2 42.8

— 1.2

Saturn .

19 56 59.3

14 59.3

8.01

+ 1.34

4 1.69

— 22 21 41.6

2 44.5

— 1.3

35 Antinoi

7

20 0 0. 7

18 0.7

8.02

— 0. 08

— 0.01

4 1 30 47. 0

1 1.4

— 1.0

8

2 43.2

20 43.2

8.03

1.00

— 1.42

4 17 14 22. 1

0 34.9

— 1.7

0

7

6 29.4

24 29. 4

8.05

0. 14

— 0.19

4 2 26 23. 2

59.5

— 1. 1

7

9 55.2

27 55. 2

8.06

0.17

— 0. 27

4 2 53 44. 0

58.5

— 1.2

7.8

20 15 37.8

J'.l 33 37.8

+ 0 8.06

— 0.53

— 1.67

4 9 0 8.0

— 0 47.4

— 1.8

a Minute assumed as 3£

and 3!) ;

not 3',l Mini 111.

.■ Mm. of Ts. II

vnd III assumed as 15; not 16. c Min. of Ts. II and 11

1 assumed as 6 and 7;

b <f assumed as 63° 24' ;

not 63°

14'.

d Micr. corr. ass

unied as -f- 10 ;

n.it 0.

not 5 and 6, respec

ively.

(114)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

115

1?S4 SEPTEMBER i.i-

-Continued Zero corr. = + 1' 41". 4.

Name

Mag.

r

App. sid time

Clock coir.

n tan t5

,, c—<?

Refr.

</

It III s

/; in S

in s

s

s

O ' "

/ II

// -

a Aquihe

20 22 11.7

19 40 11.7

+ 0 8.08

— 0.48

- 1.44

f 8 17 55.0

— 0 48.5

- 1.7

«)

7 " - -

5

31 5.9

49 5. 9

8. 1 1

1.12 — 1.32 + is 54 2.3

32.8

- 1.3

'')

6

34 32.0

52 32.0

8.12

0.59 — 2.53

5

34 48.2

52 48. 2

8.12

1.47

- 0.57 + 24 19 35.2

2:.. o

+ <u

7

37

55

+ :■,] 35 52.il

17.0

+ 2.4

6

40 16.2

19 58 16.2

8.13

2.30

+ 1.33 '+ 35 21 56.5

13.6

+ 3.2

7.6

44

20.2

+ 26 9 29. 0

23. -

+ H.7

:.. 6

48 3.0

6 3.0

-. 16

1.51

- 0. 40 + 24 55 29. 3

25. 2

+ 0.4

24 Vulpecuhe

6

40 29. 3

7 29. 3

8.16

1 . 45

— 0.65 + 23 59 56.0

2i;. 3

H. II

6.7

52 30.2

10 30.2

-. 17

1.00

— 1.42 + 17 6 32.8

35.2

— 1.7

25 " . .

6

54 42.8

12 42.8

8.17

1.43

— 0. 71 + 23 45 0. 3

26. 6

0.0

y Cvgui . .

56 24.6

14 24. 6

8.18

• 2.68

+ 1.29 + 39 33 8.2

9. 3

+ 4.0

7.8

20 59 55. 7

17 55.7

8.19

1.38

— 0. 84 + 23 4 16. 2

27.4

— 0. 2

i "

5

21 2 29. 7

20 29.7

8.20

1.85

+ 1.12 + 29 38 22.7

19.8

+ 1.8

44 " - .

1 13.0

22 43.0

8.20

2.38 +1.30 -j- 36 11 47.8

12.8

+ 3. 3

26 Vulpeculse

6

8 49.4

26 49. 4

8.21

1.52

— 0. 35 + 25 7 35. 8

25.0

+ 0.4

6.7

12 1.7

30 1-. 7

8.22

1.84

+ 1.11 + 29 34 11.2

10.0

+ 1.8

a Cygni -

16 0. 1

34 0.1

8.24

3.18

+ 1.80 +44 29 32.8

4.3

+ 5.0

E "

19 24. 1

37 24. 1

8.25

2.12

+ 1.40+33 9 3.2

16.0

+ 2.7

8

22 47.8

in 47.8

8. -J.".

1.62

+ 0. 04 + 26 33 59. 0

23.3

+ 0.8

31 Anseris

6

21 24 49.7

20 42 49.7

8. 26

1.60

— 0.04 + 26 10 50.8

23.6

+ 0.7

c)

83 Pegasi

6.7

0 23 26.3

23 41 26.3

8.76

1.21

— 1.20 + 20 27 26.8

30.8

— 1.0

84 V " - -

6

28-43.2

44 43. 2

8.78

1.44

— 0. 07 + 23 55 38. 2

26.5

o.o

7

31 18.4

49 18.4

8.79

1.56

— 0.19 + 25 42 16.8

24.4

+ 0.6

S5 " ■- .

6.7

32 51.9

50 51.9

8. 70

1.58

— 0. 1 3 + 25 55 22. 8

24.2

+ 0.7

7

35 33.3

53 33.3

8.80

2.14

+ 1.40 + 33 26 1.0

15.7

+ 2.8

a Audroiii. .

39 11.7

23 57 11.7

s.sl

1.72 + 0.51 + 27 52 54.1

21.9

+ 1.3

d)

y Pegasi -

44 5.4

0 2 5.4

8.82

0.81 — 1.66 -f 13 58 21.2

39.8

— 2.0

K "

45 23.9

3 23.9

8.82

1.12 — 1.31 + 18 59 39.1

32.9

— 1.3

7

49 18.5

7 18.5

8. S3

2.98 +1.47 +42 34 6.0

6.2

+ 4.6

p Androm. .

6.5

51 43.3

9 43. 3

S.S.,

— 2. 42 + J . 29 + 36 45 5. 2

0 12.2

+ 3.5

6

55 20. 0

13 20.0

8.86

+ 0.20 + 1.42 — 3 24 53.2

1 13.5

— 0.7

<0

10 Ceti . .

6

0 57 26.5

15 26.5

8.86

+ 0. 06 + 0. 82 '— 1 14 54. 0

1 8.0

— 0. 7

7

1 0 58. 0

IS 58. 0

8.87

— 0.21 — 0.39 + 3 39 35.2

0 57.2

— 1.3

51 Piscium

6

3 11.0

21 11.0

0.32

— 0.87 + 5 45 19.8

53.2

— 1.5

f)

53

7

7 30.2

25 30.2

8.89

0.88

— 1.57+14 1 53.0

38.3

— 1.9

(5 Androm. -

9 44.5

27 44.5

8.90

— 1.85

+ 1.13 + 29 39 36.8

II 10.0

+ 1.8

ft Ceti . .

14 36.5

32 36. 5

8.90

+ 1.13

+ 1.42 — 19 9 19.6

2 'in. 1

— 0.7

6 Pisciurn

19 26. 7

37 26.7

8.92

— 0.36

— 1.H2 + 6 24 3.9

0 52. 1

— 1.5

8

23 56. 1

41 56.1

8.93

1.75

+ 0.71 + 28 18 5.0

21.4

+ 1.4

Androm. .

26 23. 1

43 23. 1

8.94

1.34

— 0. 95 + 22 26 30. 6

28.3

— 0.4

"

6

32 57. 7

0 50 57.7

8.96

1.92

+ 1.27 + 30 37 28.6

18.8

+ 2.1

tj> Piscium .

43 59. 5

) 1 59.5

8.99

1.41

— 0. 78 + 23 25 19. 0

27. 0

— ii. 1

7

1 47 23.5

1 5 23. 5

+ 0 9.00

— 1.92

+ 1.26 + 30 34 57.0

— 0 18.8

+ 2.1

'

1784 SI

:ptembe

R 16 Ze

■o corr. = + 1' 38".4.

Sun I limb

12 19 23.6

11 37 23.6

+ 2 34 2. 8

— 0 58. 4

— 1 1

Sun II limb

12 21 32. 5

11 39 32.5

Venus .

13 1 2.4

12 19 2.4

— 0 47 36.4

1 5.9

— 0.7

Mercury .

13 53 34.4

13 11 34.4

— 10 37 34.8

34.7

— 0. 3

t Antiuoi

4.5

19 31 57. 3

18 49 57.3

+ 0 12.00

+ 0.34

+ 1.83

— 6 2 1.4

1 20.1

— 0.5

:t Sagittarii .

38 43.3

18 56 43. 3

12.02

+ 1.27

+ 1.51

— 21 20 9. 9

2 35.0

— 1.1

Aquilse

6

44 40.3

19 2 in.::

12.03

— 0.11

— 0. 110

+ 1 55 48. 9

1 0.4

— 1.0

1 Sagittae .

47 51.3

5 51.3

12. 05

— 1.24

— 1. 10

+ 20 50 56. 6

0 30.1

— 0.8

g)

6

53 5. 3

11 :.. ::

12.06

+ 0.04

+ 0.60

— 0 30 21.(1

1 6.0

— 0.7

<5 Aquilse

56 27.7

14 27.7

12. 07

— 0. 15

— 0.23

+ 2 41 17.6

0 58.8

— 1.2

k)

19 58 40. 0

16 40. 0

12.07

1.10

— 1.20

+ 19 30 52.9

31.6

— 1.2

7 Auseris

6

20 1 48.4

19 48.4

12.09

1.17

— 1.24

+ 19 49 48. 0

31.3

— 1.1

3 Cygni . -

20 3 52.0

19 21 52.0

+ 0 12. 10

— 1.69

+ 0. 36 + 27 29 56. 8

— 0 22. 1

+ 1.1

a

Name should be y Sa

not y Aquilje.

d ■ -i- ramed as *

4° 52' 46 '; not

34° 52' 16": and g Div. assumed as 52

12; not 52 11: and

b

§ assumed as that of

l.iil. 382

'4.

1 1] v. assum<

(1 as 37 : not 7.

Micr. corr. assume

1 as 7 i not — 7.

c

Transits over Ts. I :m

! 1

ned a* recorded

i Div. assumed

.i- 53 7 ii : not

33 7 1. /* T. Ill assumed as 5LI

n ; not 58m.

OverTs. 11 ami III:

and T. I

as 23m. 2s ; not

ramed as

34°; nof.tt?.

23m. 20s.

(115)

116

GOULD REDUCTION OF D AGELET'S OBSERVATIONS.

17S4 SEPTEMBER 16— Continued Zero corr. = + I' 38".4.

Nairn'

Mag.

T

App. sul. time

Clock coir.

n tan ii

'/

:-■;•

Eefr.

?'

h vi s

/( ttt S

/// s

s

s

u ' '/

- „

//

i Aquilse

20 7 22.3

19 25 22. 3

+ 0 12.10

-f 0. Ill

4 0.99

— 1 45 30.6

— 1 8.6

— 0.7

45 Aiitiuoi

0

11 26.0

29 26.0

12. 12

4 0.06

+ H.79

— 1 6 53. 5

1 7.2

- 0.7

46 Aquilse

6.7

13 58.5

31 58. 5

12. 12

— 0.07

— 2. 90

4 11 41 3.0

0 42.9

— 2.0

(i

17 1.8

:;:, 1.8

12.13

11.40

— 1. 17

4 7 5 29.2

50. 3

— 1.6

7

20 8.2

38 8.2

12.14

0.58

— 2.411

+ 10 9 24. 0

45.3

— 1.8

a "

22 7.4

40 7. 4

12.15

0.48

— 1.44

+ 8 17 59.6

48.3

— 1.7

1-2 Vulueculse

7.6

23

41

+ 22 3 25. 0

28.6

— 0.5

13 ': . -

6

26 8. 9

44 8.9

12.16

1.41

- i'.7i;

4 23 30 41 . 0

20. a

— 0. 1

JB.5

27 13.4

45 13.4

12.10

J. 43

— 0.71

+ 23 44 50. 8

26.5

O.o

u) y Sagittse

5

31 2. 5

49 2. 5

12.17

1.12

— 1.32

+ 18 54 4.6

32.6

— 1.3

8

33 7.1

51 7. 1

12.17

I . :.:.

- 0.22

+ 25 35 19.9

24. 3

4 0.5

7.8

30 11.1

54 11.1

12. 18

1.98

+ 1.34

+ 31 20 39. 1

17.8

4 2. 3

7

37 59. 7

55 59. 7

12. 19

2.dll

4 1.37

+ 31 35 50.0

17.6

4 2.4

6

40 12.0

19 58 12. 0

12. 19

2.30

4 1.32

+ 35 21 58.8

13.6

4 3.2

7.8

42 18.0

2ii n 18.0

12. 20

].2H

— 1.21

+ 20 16 5.0

30.8

— 1.0

f) Sagittal .

7

43 26. 3

1 26.3

12.20

J . 22

— 1.20

+ 2(i 29 14.5

30.6

— l.o

7

44 38.4

2 38. 4

12.21

1.59

— 0.06

+ 26 9 31.0

23.7

4 0. 7

7

44 5H.4

2 50.4

12. 21

1.57

— 0. 16

-f- 25 49 38.0

24.0

4 0.7

6.5

47 .V.i.r,

5 59. 5

12. 22

1.51

— 0.41

+ 24 55 32.3

+ 0.4

6.5

48 41.2

6 41.2

12. 22

1.67

4 (1.25

+ 27 8 40.4

22. 6

4- l.o

■*

6

52 13. 1

10 13.1

12.23

2.21

4 1.38

-f 34 17 51.0

11.7

+ 3.0

;■ Cygui . .

20 56 20. 7

14 20.7

12.24

2. 09

+ 1.29

-j- 29 33 8.0

9.3

4-4.0

21 1 26.0

19 20.11

12.20

2. 52

4 1.27

+ 37 43 5.2

11.2

4-3.6

44 " - -

4 38.9

22 38. 9

12. 27

2.37

+ 1.50

+ 36 11 45.8

12.7

4-3.3

t Delpliini .

9 20. 1
9 23. 2

27 20. 1
27 23. 2

12.27
12.27

0.61

— 2.70

+ 10 37 21.8

44.7

— 1.9

10 " . .

7.6

13 3.1

31 3.vl

12.29

0.80

— 1.68

-|- 13 48 45.7

39.7

— 2.0

b) a Cygni - -

15 50.4

33 56.4

12.29

:;. 19

4 1.79

+ 44 29 33.5

4.3

4 5.0

e '*

19 20.0

37 2H.li

12.311

2.12

4 1.40

+ 33 9 :;.4

15.9

+ 2.7

31 Vulpeculae

6.5

24 45.0

42 45.0

12.32

1.60

— 0.04

+ 26 10 52.2

23.6

4-0.8

32 Anseris

6

21 27 13.6

20 45 13. 6

12. 33

— 1.67

+ 0.28

+ 27 13 42. 6

0 22.5

4- l.l

/3 Aqitarii

22 1 59.3

21 19 59.3

12.43

+ 0.37

+ 1.86

- 0 30 42.3

1 21.9

— 0.5

e Capricorni

6 46.2

24 46.2

12.44

1.21

+ 1.44

— 20 24 17.7

2 28. 4

— 0.9

7 " - ■

9 54.3

27 54.3

12.45

1.03

+ 1.59

— 17 36 53. 6

2 9.5

— 0.6

d " . .

6.7

13 5.1

3T 5.1

12. 46

4 0.89

+ 1.02

— 15 22 3.8

1 56.8

— 0.5

t Pegasi .

*

+ 8 53 7.0

0 17.5

— 1.8

18 8. 0

36 8.0

12. 47

— 0. 09

— 0. 05

+ 1 41 29.4

1 1.1

— 1.0

21 45.7

39 45.7

12.48

0.94

— 1.48

+ 16 16 43. 6

0 30. 3

— 1.8

15 " . .

6

24 44.:;

42 44. 3

12.48

1.7H

+ 0.47

+ 27 40 20.7

21.9

4- 1.2

8

30 59. 7

48 59.7

12.50

1.78

+ ii. >9

+ 28 47 34.8

20.8

+ 1.5

c)

7

34 8.7

52 8. 7

12.51

— 0.86

— 1.57

4- 14 50 29.6

o 38.2

— 1.9

i Aquarii

4

36 34.2

54 34.2

12.52

+ 0.86

+ 1.60

— 14 54 0.0

1 r.l.o

— 0.5

e " . .

40 52.8

21 58 52.8

12.53

0.72

4 1.01

— 12 36 44.7

44.1

— 0.3

H " . .

47 14.2

22 5 14.2

12.55

0.51

+ 1.86

— "8 50 50. 0

29.7

— 0.4

5 " . .

6

50 37.0

8 37.6

12.55

0.51

+ 1.86

— 8 53 41. 0

29. 7

— 0.4

Jupiter

52 34.5

10 34.5

12.56

4 0.73

+ 1.60

— 12 42 6. 9

1 44.0

— 0.3

34 Pegasi .

6

22 57 29. 2

15 29.2

12.58

— 0.19

— 0.33

+ 3 17 39.6

0 58.0

— 1.2

37 '' . .

6

23 0 54.2

18 54. 2

12.58

0.19

— 0.34

+ 3 20 8. 0

57.9

— 1.2

7.8

1 36.1

19 36. 1

12.59

0.18

— 11.32

+ 3 13 44. 0

58. 1

— 1.2

7.8

5 57.1

23 57. 1

12. 60

2.69

4 1.29

+ 39 41 25.9

9. 2

4-4.1

d)

6.7

8 53.0

26 53. 0

12.61

2. 23

4 1.37

+ 34 31 11.8

14.0

-j- 3.0

6.7

11 40.8

29 40. 8

12.02

i!4o

+ 1.30

+ 36 27 14.8

12.5

4 3.4

ri Pegasi -

14 45.4

32 45. 4

12.02

1.81

+ 1.00

+ 29 4 48. 4

-.'( i. 5

+ 1.6

1 " . .

18 1.1

36 1.1

12.03

1.34

— 0.95

+ 22 25 11.4

28. 3

- 0.4

P " .: •

21 28.8

39 28. 8

12.65

- 1.41

— 0.77

+ 23 27 4. 3

0 27.0

— 0.1

6 A qi i alii

24 58. 8

42 58. 8

12.66

4 0.99

+ 1.64

— 16 57 1.9

2 5.7

— 0.5

Full. Fomalhaut

5.4

29 29. 5

47 29.5

12.67

4 1.92

+ 5. 02

- 30 33 10.4

4 53.0

— 6.0

ji Pegasi .

35 11.5

53 11.5

12. 69

— 1.05

4 0. 10

+ 26 54 2. 3

0 23.0

+ 1.0

4 Androni. .

39 41.8

22 57 41.8

12.70

3.26

+ 2.07

4 45 12 1.0

3.6

4- 5. 1

7.8

42 22. 8

23 0 22. 8

12.71

2.90

+ 1.45

+ 42 21 52.0

0. 5

4-4.6

9 " . .

50 4.1

8 4.1

12.72

2.78

+ 1.33

4 in :;i :::;. 2

8.3

+ 4.2

10 " . .

o

51 30.6

9 30.6

12. 73

2. 8 1

4 1.30

4- 40 52 38.6

8.0

4 4.3

7.8

55 42. 7

13 12.7

12.74

2.76

+ 1.33

4 40 21 30.4

+ 4.2

13 " . .

23 58 38.5

23 16 38.5

+ 0 12.74

— 2.90

+ 1.4(1

4 41 42 10.3

— 0 7.2

4 4.4

o Div. assi

imed as

SI 1 .v..'; not 31 1

3 1.

c Div. assumed as 36 2 11 : not 36 2 l::.

b g assum

il ;i> 1

21'; nut 4° 16'.

d g assumed as 14^ 19.'; not 14° 15'.

(116)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

117

IJ.s 1 SEPTE3IBER 16— Conlinood

Zero corr. ; V 38".4

Name

Mag.

T

App. ski. time

Clock corr.

n tau 6

1

s- <;■

Ri ft.

'/

h m s

It 111 s

;// s

s

s

O ' //

I II

,i

14 Androm. .

ii 2 34.7

23 20 34.7

+ 0 12.76

— 2.54

+ 1.27

+ 38 1 55.8

— 0 in. 9

+ 3.7

15 " . .

5 58.2

23 58. 2

12.77

2.63

+ 1.28

+ 39 1 36.2

9, 9

+ 3.9

" l Pegasi .

8 37.6

26 37. 0

12.78

1.91

— 1.5]

+ 15 37 18.0

37.3

- 1.8

70 •• .

13 10.2

31 40.2

12.79

1.88

— 1.56

+ 15 7 42.2

38.0

— 1.9

0 " - -

23 24. 5

41 24.5

1 2. 8 1

1 . 05

— 1.4U

+ Vi 54 36.9

34. 1

— 1.5

V- "• . .

28 39.2

,46 39.2

12.83

1.44

— 0.67

+ 23 55 36.8

2675

0.0

" . .

32 47.3

50 47.3

12.85

1.57

— ii. 13

+ 25 55 28. 8

24.1

+ 0.7

a AiMlrom. .

39 7.3

23-57 7.3

12.86

1.72

+ 0.50

+ 27 52 51.4

21.9

+ 1.3

y Pegasi -

44 1.5

0 2 1.5

12.88

0.81

— 1.66

+ 13 58 21.8

39.7

— 2.Q

a Androm. .

47 43.4

5 43.4

12.89

2.49

+ J. 27

+ 37 27 40.5

11.5

+ 3.6

o)

49 14.7

7 14.7

12. 39

2.99

+ 1.47

+ 42 34 10.0

6.3

+ 1.0

,i " . .

6

51 39.3

9 39.3

12.90

2.43

+ 1.29

+ 36 45 4.ii

12.2

+ 3. 5

7.8

55 13.3

13 13.3

12.92

1.89

+ 1.20

+ 30 9 34. 0

19.3

+ 1.9

6

ii 58 33.0

16 33.0

12.92

3.04

+ 1.54

+ 4:! 10 31.7

' 5.7

+ 4.7

7.8

] 2 29.5

20 29.5

12.93

0. 99

— J. 44

+ 16 54 18.8

35. 6

— 1.7

*)

7

6 19.0

24 49.il

12.94

1 . 57

— 0.02

+ 26 2 59.0

24.0

+ 0.7

A " . .

11 4H.0

27 40.6

12.95

— 1.85

+ 1.13

+ 29 39 35.5

0 ]9.9

+ 1.8

1 Ceti . .

14 ;s.5

32 32.5

12.90

+ 1.13

+ 1.42

— 19 9 14.6

2 21 1. 1

— 0.7

<!' Piscium

18 57.8

36 57.8

ri- " . .

19 21.1

37 21.]

12.98

— 0.36

— 1.02

+ 6 24 5.4

0 52.1

— 1.5

7.8

23 52.2

41 52.2

12.99

1.75

+ 0.70

+ 28 18 0.8

21.4

+ 1.4

a Androm. .

26 40.9
29

44 40.9
47

13.00

2.48

+ 1.27

+ 37 18 16.6
+ 43 31 59. 0

11.6
5.3

+ 3.6

+ 4.8

7.8

1 32 32.8

ii 50 32.8

13.02

3.38

+ 2.40

+ 40 11 17.0

2.7

+ r,. 3

0

2 0 8.0

1 18 8.0

13.09

1.01

— 1.42

+ ]7 13 18.6

35. 2

- 1.7

v " . .

6 3.3

24 3.3

13.1]

2.76

+ 1.32

+ 40 17 49.0

8.6

+ 4.2

7

9 17.7

27 17.7

13. 12

2.68

+ 1.29

+ 39 33 39. 0

9.2

+ 4.0

5

9 45.9

27 45.9

13.13

2.67

+ 1.29

+ 39 27 21.5

9.5

+ 4.0

7.8

11 47. s

29 47. 8

13.13

2.66

+ 1.28

+ 39 15 34.0

9.6

+ 3.9

3 Arictis .

0.7

16 46.7

34 40.7

13.14

0. 95

— 1.48

+ 16 18 48.4

36.4

— 1.8

0

20 7.2

38 7.2

13.15

1.26

— 1. 11

+ 21 10 52. 4

29.9

- 0.8

0

} " - -

23 35. 4

41 35.4

13.16

1.07

— 1.37

+ 18 13 4.6

33.8

— 1.5

0.7

25 43. 1

43 43. 1

13.17

1.35

— 0.93

+ 22 29 53. 0

28. 3

— 0.4

i " . .

0

27 28.0

45 28. 0

13.17

0.98

— 1.45

+ 16 44 42.7

0 35.8

— 1.7

a Piscium

32 43. 6

50 43.6

13.19

0.09

— 0. 04

+ 1 42 40. 4

1 1.4

— 1.0

k Arietis .

36 23. 6

54 23.6

13.21

1.29

— 1.07

- 1.35

+ 21 35 52. 8

0 29.4

— 0.6

IG ■ . .

6

40 33. 9

] 58 33.9

13.22

1.09

+ 18 27 42. 2

33.5

— 1.4

8

43 46.9

2 1 46.9

13.22

1.09

— 1.34

+ 18 34 53.2

33.3

— 1.4

7.8

46 53.9

4 52.9

13.23

— 1.36

— n.Oii

+ 22 44 47.6

n 28. 1

— 0. 3

0.7

50 14.8

8 14.8

13.24

+ 0.23

+ 1.56

— 3 57 55.4

1 15.1

— 0.6

25 " .. .

5

55 7. 6

13 7.6

13.20

— 0.55

— 1.98

+ 9 36 59.0

II 40.0

— 1.8

26 " . .

6

2 57 47. 3

2 15 47.2

+ 0 13.26

— 0.53

— 1.75

+ 9 13 24.2

— 0 47. 3

— 1.8

irs4 m

EPTK.IIHEK 1?

Zei

O COIT. =-f 1' 42". 1.

Sun I limb

12 22 54. 7

11 40 54.7

+ 1 38 48. 0

— 1 0.3

— I.o

Sun II limb

12 25 4.0

11 43 4.0

+ 2 in 49.0

(i 59.2

— 1.0

Venus .

13 5 29. 7

12 23 29.7

— 1 is 22.2

1 6. 9

— 0.7

Mercury .

13 50 43.7

13 14 43.7

— 11 4 34.2

30.1

— 0.3

6 Ophiuchi -

10 44 47.7

16 2 47.7

+ 0 15.79

+ 0.18

+ 1.37

— 38 9.2

11.7

— 0.7

£" "

48 39.4

6 39.4

15.80

0. 23

+ 1.60

— 4 9 41.4

1 14.2

— 0.6

Antares

16 57 53.5

15 53.5

15.82

+ 1.57

+ 3. 12

— 25 .".4 4:;. 6

3 22. 4

— 2. 6

i Herculis .

17 2 44.8

10 20 44.8

15. B3

— 1.30

— 1.02

+ 2) 57 5.2

ii 28.5

— 1 1. 5

d)

18 28 53. 2

17 40 53.2

16.03

+ 0.56

+ 1.80

— 9 44 9.0

1 31.5

— 0.4

r Ophiucbi .

33 4. 2

51 4.2

16. 05

+ 0.46

+ 1.88

— a io 10.8

1 20.4

— 0.5

6 Herculis .

in 36.9

17 58 36.9

10.1(7

— 1.91

+ 1.26

+ 30 31 14. 8

0 18.7

+ 2.0

A " . .

45 33. 8

18 :: 33.8

10. 06

— 1.96

+ 3.34

+ 31 20 28.6

0 17.7

+ 2. 3

6 Sagittarii .

48 50.9

6 50.9

16.06

+ 1.86

+ 4.81

— 29 51 22. 9

4 32.2

— 5. 4

e "

51 29.5

9 29.5

16.09

2.21

+ .".. 4H

— 34 22 32.2

7 16.8

— 9. 5

X " . .

18 56 21.5

18 14 21.5

+ ii 16. in

+ 1.54

+ 2. 91

— 25 29 52. 4

3 17.3

— 2.4

f LyrjE . .

+ 37 22 4.0

— 0 11.5

+ 3.6

a Transit o

POT T. II

I assumedag rec

>rded over

c T. I assumed ae 23n

; not 22m.

T. II.

d Hour assumed as 17

not 16.

?7 I>]V". ilSSl

llli'il ;i, •

i . ! nol -.'4 :.

I.

(117)

118

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1784 SEPTEMBER 17

Continued Zero corr. = 4- 1' 42". 4.

Name

Map-.

T

App. sid. time

Clock corr.

7i tan (5

1

f-0

Refr.

'/'

h in s

It m s

m s

s

s

o / "

/ H

II

19 21 46. 8

18 39 46.8

+ 0 16.16

+ 0.20

+ 1.45

— 3 33 46. 3

— 1 12.9

— 0.6

) Lyrse -

+ 32 17 33.0

0 16.8

+ 2.6

62 e Serpentis -

G

26 43.7

44 43.7

16. 17

— 0.36

— 1.00

+ 6 20 47. 5

51.5

— 1.5

30 41.1

48 41.1

16. 19

0. 78

— 1.70

+ 13 36 52. 2
+ 13 20 0. 6

39. 9
40.3

— 2.0

— 2.0

6.7

411 5.3

58 5.3

16.20

0.96

— 1.47

+ 16 31 43. 8

0 35.7

— 1.7

6

40 40. 1

18 58 49.1

16.21

0.96

— 1.47

+ 16 30

21 ArjuilaB

5

44 36.2

19 2 36.2

16.21

— 0.11

— 0. 09

+ 1 55 50. 9

1 0.2

— 1.0

s Lg.764 May

6.5

49 21.7

7 24.7

16. 22

+ 1.35

+ 1.79

— 22 46 7. 2

2 47. 6

— 1.4

Jupiter

19 56 47.4

14 47.4

16. 24

1.33

+ 1.69

— 22 21 57. 2

2 44.0

— 1.3

i Autiiioi

20 7 is. 5

25 18.5

16.26

0. 10

+ 0.00

— 1 45 30.6

1 8.5

— 0.7

7

9 5.0

27 5.(1

16. 26

(1.01

+ 0.39

— 08 14.4

4.8

— 0.8

45 " . -

11 22.2

20 22.2

16.27

+ (i. in;

+ 0.78

— 1 6 54. 0

1 7.0

— 0.7

47 Aquilse

14 14.1

32 14. 1

16.27

— 0.65

— 3.00

+ 11 19 3.7

0 43.4

— 1.9

49 ■• - -

6

16 5-. 0

34 58.0

16.28

0. 40

— 1.17

+ 75 28.2

50.4

— 1.6

«) 7 " -

+ 10 5 12.0

45.3

— 1.8

7

20 4.2

38 4.2

16.29

0.58

— 2.40

+ 10 9 26. 0

45.2

— 1.8

a "

22 3. 5

40 3. 5

16. 30

0.47

— 1.44

+ 8 17 57. 6

48.3

— 1.7

6.7

23 34.7

41 34.7

16.30

1.31

— 1.01

+ 22 3 21.3

28.6

— 0.5.

13 Vulpeculse

26 5.6

44 5.6

16.31

1.4(1

— 0.76

+ 23 30 36.8

26.8

— 0. 1

6

27 in. 0

45 Ki.ii

16.31

1.42

- 0.71

+ 23 44 51 . 2

•.".;.:,

0.0

i] Cygni .

5

30 0.0

48 0.0

16. 32

2.21

+ 1.37

+ 34 29 54. 2

14.5

+ 3.0

8

30 53.6

48 53. 6

16. 32

2.21

+ 1.37

+ 34 26 34. 0

14.5

+ 3.0

16 Vulpeculse

6

34 24.3

52 24. 2

16.33

1.45

— 0.60

+ 24 11 39.4

25.9

+ ".I

6

34 40.2

52 40. 2

16.33

1.47

— 0.56

+ 24 19 37.8

25.8

+ 0. 1

7

36 6.5

54 6.5

16.33

1.97

+ 1.34

+ 31 20 39.7

17.8

+ 2.3

7.6

37 55.3

55 55. 3

16.34

1.99

+ 1.37

+ 31 35 49. 0

17.5

+ 2.4

Vulpeculse

6

39

19 57

+ 22 59 12.0

27.4

— 0.2

7

42 14.0

20 0 14.0

16.35

].J9

— 1.21

+ 20 16 6.0

30.8

— 1.0

8

42 10.7

0 10.7

16.35

1.19

— 1.21

Sagittas

7

+ 20 29 16. 6

30.6

— 1.0

8

46 13.3

4 13.3

16.36

1.41

— 0.75

+ 23 34 40. 0

26.7

— 0.1

24 Yulpecvtla;

6

49 21.5

7 21.5

16.36

1.44

— 0.65

+ 23 59 58. 0

26.2

0.0

34 Cygni .

6

52 9.2

10 9.2

16.37

2.20

+ 1.38

+ 34 17 47.2

14.7

+ 2.9

b)

7

20 57 9. 0

15 9. 0

16.38

11.12

— 0. 14

+ 2 15 22.5

59.6

— 1.0

c) 1 Delphini .

6.7

23 1 47. 1

19 47. 1

16.39

o. 58

— 2.41

+ 10 10 35.0

45.3

— 1.8

6

4 32.3

22 32.3

16. 39

1.51

— 0.36

+ 25 4 4. 4

25.0

+ 0.4

?l Delphini .

6

5

23

+ 12 17 7.0

42.0

— 2.0

d)

7 2.3

25 2.3

16.41

0.80

— 1.66

+ 13 55 38.6

39.5

— 2.0

e) P " . .

9 14.7

27 14.7

16.41

0.80

— 1.67

+ 13 50 32. 4

39. 7

— 2.0

a Cygni - -

15 52. 4

33 52. 4

16. 42

3.18

+ 1.80

+ 44 29 35. 8

4.3

+ 5.0

e "

19 15.6

20 37 15.6

16.43

2. 1 1

+ 1.40

+ 33 9 4.7

15.9

+ 2.7

24 14.6

22 42 14.6

16.73

— 0.91

— 1.51

+ 15 41 20.7

0 37.1

— 1.8

Fomalhaut

27 20.8

45 20. 8

16.73

+ 1.92

+ 5.06

— 30 42 3. 1

4 56.9

— 6.1

/)

6

29 23.0

47 23. 0

16.74

+ 1.91

+ 5. 01

— 30 33 20. 0

4 53. 0

— 6.0

7

33 43.2

51 43.2

16.75

— 0.87

— 1.57

+ 15 3 48.6

0 38.1

— 1.9

7

37 23.6

55 23. 6

16.75

1.01

— 1.42

+ 17 20 22. 6

34.9

— 1.7

56 Pegasi -

(17

38

56

+ 24 17 34. 0

26.0

+ 0.1

7.8

41 32.2

22 59 32. 2

16.77

2.54

+ 1.27

+ 38 16 56. 6

10.6

+ 3.7

6.7

45 41.6

23 3 41.6

16.77

1.76

+ 0.82

+ 28 34 57.0

21.0

+ 1.5

g)

7

51 20.3

9 20. 3

16.78

1.29

— 1.02

+ 21 54 0. 8

29.0

— 0.5

7

53 38.2

11 38.2

16.79

1.48

— 0.46

+ 2 1 43 22. 2

+ 0. 3

07 " . .

6.5

56 5.6

14 5.6

16. 80

1.94

+ 1.32

+ 31 10 50.6

18.2

+ 2.2

7

23 59 25. 4

17 25. 4

16.81

1.09

— 1.33

+ 18 41 17.0

33.1

— 1.4

0.7

0 2 511.3

20 50. 3

16.81

1.65

+ 0.28

+ 27 11 57. 3

22.6

+ !•"

71 " .

6

4 28.8

22 28. 8

16.81

1.26

— 1.10

+ 21 17 45.8

29.7

— o. s

7.8

6 57. 0

24 57.0

16.82

1.39

— 0. 79

+ 23 21 13.4

27. 2

— 0.1

( Andromedse

6

0 22.8

27 22.8

16.83

2.91

+ 1.43

+ 42 3 9.6

6.8

+ 4.5

K " .

5.6

11 37.11

29 37.0

16 -1

3.02

+ 1.53

+ 43 7 4. 4

5.7

+ 4.7

78 Pegasi .

6.5

15 57.2

32 57. 2

16.85

1.73

+ 0.65

+ 28 9 0.6

21.5

+ 1. 3

7

16 22.6

34 22.6

Hi. 85

1.12

— 1.30

+ 19 12 26. 0

32. !

— 1.3

82 " . .

6.-5

0 23 25. 7

23 41 25. 7

+ 0 16.86

— 0.55

— 2.12

+ 9 44 21. 1

— 0 46.2

— 1.8

a <? assumed as 38° 45'

>3"; not

38 15 ■•23".

e Div. assumed

is 37 6 ; not 37

5.

g g assumed as 26° ; n

>t 27°.

b '<? assumed as It, 35

13"; not

46° 35' 13".

/ Ts. II ami 11

I assniili tl as

29m. 23k. i

nil

C )J assumed a- 38 10

- ' ; not

:;.-- Hi' -IS".

•-."tin. 19

lot 39m. 13s. a

ihC'IIiu. 39

s.5,

f/ Div. assumed us 37 ;

not 27.

respectively

(118)

COULD REDUCTION OF D AOELET S OBSERVATIONS.

110

17S4 SEPTEMBER 1»—

Continued

Zero corr. = -j- 1' 1J". 1.

Name

Mag.

T

App. si<l. time

(leek C01T.

n t.in 6

1

z-t

Refr.

'/

h m S

h in s

m s

s

s

O ' "

/ //

II

6.7

0 25 53. 3

23 4:; 53.3

+ 0 J6.87

— 0.33

—

0.90

-|- 5 :.l 54.5

— 0 53.11

- 1.5

f Pegasi -

28 35.8

46 35. s

16.87

1.43

—

(1.1,7

+ 23 55 4H.2

26. 5

0.0

6.7

31 ll.d

49 11.0

16.88

1.56

—

0. 20

+ 25 42 20.8

24.4

+ II. (J

" . .

6

32 43. 8

50 43. 8

16.89

1.57

—

0.13

+ 25 55 27.2

24.1

+ "-7

6.7

35 39.3

53 39. 3

16.89

1.54

—

0.27

+ 25 25 5 1.1

21.7

+ 0.5

a Amboni. .

39 4.0

23 57 4. 0

16.90

1.71

+

(1.52

+ 27 52 51.4

21.9

+ 1.3

'<)

7

4:. 42.5

0 3 12. 5

16.91

1.89

+

I.-::;

+ 30 19 17. 0

19. 1

+ 2.H

'<)

6 " . .

6. r,

47 39.5

5 39.5

16.92

2. 47

+

1.27

+ 37 27 42. 3

11.5

+ 3.6

7

50 11.6

8 11.6

16.93

2.65

+

1.29

+ 39 30 36.8

9.4

+ 4.0

7

55 9. 5

13 9. 5

16.94

1.88

+

1.20

+ 3il 9 32.4

19.4

+ 1.9

6

0 58 29. 9

16 29.9

16.94

3. 02

+

1.51

+ 43 10 34.7

5.7

+ 1-7

6

1 1 47.5

19 47.5

16. 95

2.05

+

1.39

+ 32 22 12.4

17.0

+ '-'.('.

6.7

5 34.6

23 34. 6

16.95

0.70

2. 38

+ 12 10 JT.i*

42. 6

— 2.(1

6

6 34.8

24 34.8

16.96

0.69

—

2.57

+ 12 1 1.7

42.9

— 2. (1

Piscium .

6

10 23.8

28 23. 8

16.97

1.19

—

1.21

+ 20 14 17.3

31.3

- 1.0

7

11 58.9

29 58.9

16.98

1.40

—

0.78

+ 23 25 45. 2

27.2

— 0.1

7

16 5.7

34 5.7

16.99

3.08

+

1.62

-f- 43 39 23. 4

5.2

+ 4.8

7.8

20 7. 2

38 7. 2

16.99

3.10

+

1.(15

+ 43 47 57.4

5.1

+ 4.8

7

23 26. 8

41 26.8

17. 00

2.36

+

1.30\

+ 36 13 31.0

12.8

+ 3.3

H Aiiilnn Ise

26 37.2

44 37.2

I7.nl

2.47

+

1.27

+ 37 18 J 5.0

11.7

+ 3. 5

Double Star

6.7

1 29 42. 3

0 47 42. 3

+ 0 17.H2

— 3.06

+

1.59

+ 43 31 23. 0

— 0 5. 3

+ 4.8

1784 SI

:pte.iiiie

K IS

Zero corr. = -f i

'35". 9.

0

Sun I limb

ii 26 26.6

23 14 26.6

+ 1 15 29.0

— 1 1.2

— 0. 9

Sun II limb

0 28 35. 6

23 46 35.6

t?

+ 1 47 29.4

1 0.0

— 1.(1

d)

1 Dc-lpliini -

7

21 1 44.2

20 19 44.2

+ 0 19.76

— 0.57

—

2.41

+ 10 10 37.6

0 45.0

— 1.8

£ " - -

4

. 4 40. 4

22 40.4

19.76

0.59

—

2.67

-(- 10 34 7.4

44.4

— 1.9

f " - -

6

6 59. 6

24 59.6

19.77

0.80

—

1.G6

+ 13 55 38. 1

39.2

— 2.(1

P " - -

4

9

27

+ 13 50 33.0

39. 4

— 2. 0

29 Anseris

6

10 5.

28 5.

+ 20 26 17. 0

311.5

— 1.0

7

13

31

+ 16 44 39. 0

35.3

— 1.7

<5 Delpliini .

5.6

15 5.

33 5.

+ 14 17 56.0

38.7

— 2.0

6

16 5.

34 5.

+ 24 29 36. 0

25.5

+ 0.2

Double St.'ir

5

18 5.

36 5.

-)- 15 20 37. 0

37.2

— 1.9

31 Anseris

6

24 37.8

42 37.8

19.79

1.59

—

0.04

+ 26 16 56. 2

23.4

+ 0.8

6.7

27 6. 4

45 6. 4

19. 80

1.66

+

0.28

+ 27 13 43.6

22. 3

+ J-l

6

30 22. 5

48 22. 5

19.80

1.27

1.08

+ 21 29 li i.e.

29. 1

— (1.7

G

34 36.5

52 36. 5

19.81

0.79

—

1.66

+ 13 52 33. 8

39.4

— 2. 0

6.7

39 10.4

57 10.4

19.82

0.84

—

1.58

+ 14 47 27.7

38.0

— 1.9

7

41 13.4

20 59 13.4

19. 82

1.81

+

1.07

+ 29 19 31.6

■jii. ii

+ 1-7

Z Cygni . .

45 29. 2

21 3 29. 2

19. 82

1.81

+

1.07

+ 29 19 56.7

2H. li

+ 1-7

V " - -

50 46.8

8 46.8

19.83

— 2.17

+

1.39

+ 33 58 44.7

0 15.11

+ 2.9

C Capricomi

21 55 59.2

13 59.2

19.84

+ 1.39

+

1.98

— 23 18 45.4

2 53.1

— 1.6

0

>' Aquarii

22 1 52.4

19 52.4

19.85

0/36

+

1.86

— 6 30 39.8

1 21.2

— 0.5

f Capricomi

6 38.8

24 38.8

19. 86

+ 1. 19

+

1.44

— 20 24 21.0

2 27.4

— H.9

6 Pegasi -

10 18.8

28 18.8

19.86

— 0.08

+

0.03

+ 1 16 36.4

1 1.6

— (1.9

/)

X Capricomi
Jup. I limb

16 35.5
56 36.3

21 34 35.5

22 14 36.3

19.86

+ 0.70

+

1.62

— 12 20 48. 0

42.3

— H.3.

g)

Jupiter.cent.
Jup. 11 limb

56 38.4
22 56 40. 2

14 ::-. 1
14 4H.2

19.93

+ 0.73

+

1.6H

— 12 46 41.6

1 43.9

— 0.3

r] Pegasi .

23 14 38.5

32 38. 5

19.96

— 1.79

+

l.'il

+ 29 4 49.4

0 2H.2

+ 1.6

?. " . .

4

17 54.5

35 54.5

19.96

1.33

ii. '.I.',

+ 22 25 13.0

28. I

— 0.1

A)

a "

23 13.5

41 13.5

19.97

0.49

—

1.55

+ 8 40 56. 4

47.5

— 1.8

»)

P " - -

26 6.8

44 6.8

19.97

H.43

—

1.30

+ 7 39 12.li

111.3

— 1.7

o Andromedse

33 45. 8

51 45.8

19.98

2.80

+

1.37

+ 41 8 54.4

7.7

+ 4.3

a "

+ 14 2 11.0

0 39.4

— 2.0

^1 Piscium ■

39 21.0

22 57 21. 0

20.00

0.06

+

0.08

+ 0 57 7. 3

1 2.4

— (1.9

y " - •

+ 2 6 1.0

1 0. 0

— 1.0

* " . •.

51 4. 8

23 9 4.8

20.01

— 0.23

—

0.49

+ 4 11 59.7

0 55. 7

— 1.3

« "

23 57 35.3

23 15 35. 3

+ 0 20. 02

0.00

+

0.33

+ 04 23.8

— 1 4.3

— 0.8

a

Transit over T. II as

nmed as

43m. 42s.; not

d § assumed as l

8= 40' 36"; not

38=40' 40".

g i assumed as 61° 37'

18" ; not 61° 3

7' 18".

45m. 41s.

e .Miu. assumed

as 1 and 2 ; not

2 and 3.

ft T. 11 assumed as 23m

.; not 22m.

b

Div. assumed as 12 Q

; not 12

14.

/ T. 11 assumed

as 35s. 5; not 2

5s. 5.

/ iJiv. a^-uiin'il ;i 1; 1

>; not 43 14.

c

T. II assumed as 36b,

5; not 3

>s.5.

(119)

120

GOULD REDUCTION OF D AGELET S OBSERVATIONS

17S4 SEPTEMBER 20 Zero corr. = + 1'_41".9.

Name

Mag.

T

Anp. siJ. time Clock corr.

n tan 6

'I

C-9

Refr.

?'

/( m s

// III s

m s

s

s

o / "

/ //

//

6

5 37 42. 6

4 55 42. 6

— 0 24. 35

+ 0.28

+ 1.73

— 4 57 37. 0

— 1 16.5

— 0.5

a)

Rigel . .

45 46. 3

5 3 46. 3

24. 36

0. 47

+ 1.87

— 8 27 45. 4

27.0

— 0.5

6

52 23. 3

10 23. ::

24.38

0.04

+ 0.58

— 0 36 53. 5

5.4

— 0.7

l>)

6

5 55 9. 1

13 9. 1

24.39

0. 06

+ 0.79

— 1 .7 3.7

6.6

— 0.7

<5 Orionis

6 2 37. 5

20 37.5

24. 40

0.02

+ 0.53

— 0 28 43.5

5.1

— 0.8

f " - -

11 29.9

29 29. 9

24.41

0.12

+ 1.08

— 2 4 30.8

1 8.8

— 0.7

a Colnmbse .

13 20.3

31 20.3

24. 42

2.16

+ 5.40

— 34 6 5. 3

6 59. 1

— 9.2

y Leporis

17 3.0

35 3. o

24. 43

+ 1.32

+ 1.72

— 22 30 23. 2

2 43.8

— 1.4

Tauri . .

6

21 26.4

39 20. 4

24.44

— 1.67

-(- 0.39

+ 27 31 20.8

0 21.9

+ 1.2

/3 Aurigse

6 25 22. 6

5 43 22. 6

24.44

3.19

+ 1.93

+ 44 52 30.3

0 3.9

+ 5.1

0

Sim I 1 i 1 1 1 1 >

12 :::: 31.5

11 51 31.5

25. 12

— 0.03

+ 0.21

+ 0 28 37. 9

1 2.9

— 0.8

Sun 11 limb

12 35 40.5

11 53 40.5

— 0 25. 12

0.00

+ 0.35

-|- 0 0 46.4

— 1 3.9

— 0.8

1784 SEPTEMBER 24 Zero corr. = + 1' 42".0.

Sun II limb

0 49 53.6

0 7 53. 6

— 1 4 57.6

— 0 32 49. 2

— 1 6.8
1 5.7

— 0.7

— 0.7

y Geminorum

7 6 42.8

6 24 42. 8

+ 0 36.24

— 0.95

— 1.47

+ 16 33 2.8

0 35. 6

— 1.7

e "

12 6. 5

30 6.5

36. 25

— J. 51

— 0.30

+ 25 18 23. 4

0 24.6

+ 0.5

Sirius -

7 17 1.1

6 35 1. 1

+ 0 36. 26

+ 0.94

+ 1.67

— 16 25 19.2

— 2 1.4

— 0.5

1784 SEPTEMBI

R 26 Zero corr. = + 1' 43". 0.

7

0 49 48.2

0 7 48.2

+ 0 40.57

— 2.63

+ 1.29

+ 39 30 38. 8

— 0 9.4

+ 4.0

6

0 58 5. 4

16 5.4

40.58

2.98

+ 1.54

+ 43 lo 35.8

5.7

+ 4.7

6

1 1 24.2

0 19 24.2

40.59

2.01

+ 1.39

+ 32 22 15.9

17.0

+ 2.6

d)

Regulus -

10 38 14.0

9 56 14.0

+ 0 41.57

— 0.75

— 1.79

+ 12 59 50.3

0 41.3

— 2.0

Sun II limb

0 34.5

18 34. 5

— 1 43 4.6

— 1 9.6

— 0.7

17S4 8EFTE1IBE

R 28 Ze

•o corr. = + 1' 35".4.

7

19 51 39.9

19 9 39.!)

+ 0 44.88

— 1.59 + 0. 11

+ 26 51 29.6

— 0 22.7 + 1.0

7

55 46. 8

13 46.8

44.89

2.05 + 1.40

+ 33 5 46. 1

15.8 +2.7

7

56 43.6

14 43.6

44.89

2.02 -)- 1.40

+ 32 46 57. 7

16. 1 + 2. 7

6.7

19 59 4H.7

17 40.7

44. 90

2.28 + I-31

+ 35 52 27. 2

13.0 + 3.3

, /3 Cygni . -

3.4

20 3 19.5

21 19.5

44. 90

[.64 + o.39

+ 27 29 57. 2

21.9 -f- 1.1

7

9 18.1

27 18. 1

44. 91

0. 16 — 0. 27

+ 2 53 45. 6

58.0 — 1.2

7.8

13 39.2

19 31 39. 2

44.92

0.44 — 1.34

+ 7 52 20.2

48.7 — 1.7

7.8

22 0.3

20 40 0. 3

45.02

2.18 + 1.35

+ 34 45 18.2

14.1 + 3.1

<0

7

25 22.7

43 22. 7

45.02

1.73 + 0.91

+ 28 49 43. 0

20.5 + 1.6

6

26 40.6

44 40.6

45.02

1.62 + 0.28

+ 27 13 43.0

22. 3 -)- 1.1

6

29 57.7

47 57.7

45.02

1.24 — L.08

+ 21 29 11.1

29. 1 — 0. 7

6.7

33 56.4

51 56.4

45.03

2.22 + 1.33

-f- 35 10 7.6

13.6 + 3.1

7

36 1.6

54 1.6

45. 03

2.44 + 1.27

+ 37 47 33. 8

11.0 -f 3.7

61 Cygni . .

6

38 33. 3

56 33. 3

45. 04

2.43 + 1.27

4- 37 40 43. 1

11.1 + 3.6

6

40

20 59

4- 29 19 32.0

19.9 + 1.7

7

45 2-. ::

21 3 28. 3

45.05

2.19

+ 1.34

4- 34 53 57.8

14.0 + 3.1

v '"' . .

50 22.0

8 22.0

45. 05

2. 12

+ 1.39

+ 33 58 47. 7

14.9 + 2.9

7.8

53 55.2

11 55.2

45.06

2. 58

+ 1.29

+ 39 25 41. 3

9.3 + 4.0

7.8

56 27. 4

14 27.4

45.07

1.82

4- 1. 19

4- 29 59 58. 4

19.2 + 1.9

6

20 59 29. 0

17 29. 0

45.07

1.58

+ o. 08

+ 26 39 38. 7

22.9 + 0.9

G.7

22 3 24. 8

21 24.8

45. 07

1.33

— 0.87

4- 22 53 10.2

27. 5 j— 0. 2

7 16.7

25 16.7

45.08

2.42

+ 1.27

4- 37 33 15. 3

11.2 !+ 3.6

/)

7

10 30.6

28 30.6

45. 09

3.01

+ 1.63

4- 43 42 44. 7

5.1 +4.8

6.7

13 2.6

31 2.6

45. 09

2.87

+ 1.45

+ 42 16 43.2

6.5 + 4.5

7

22 15 45.9

21 33 15.9

+ 0 45. 10

— 2.66

+ 1.32

+ 40 9 16.0

— 0 8.6 + 4.1

a

£ assumed as 57 L8';

o ..,

L9'.

c g assumed as 48° 22' ; not 48°

2'. c T. Ill assumed as 25n

i. ; not 27m.

'

Div. assumed as 52 4

13; not

52 9 14.

d g assumed as 3.3° ; not 45°.

/ T. II discordant and

■ejected.

(120)

GOULD — REDUCTION OF D'AGELET's OBSERVATIONS.

121

17S4 SEPTHBEK 38

—Continued Zero corr.- I 1' 35".4.

Name

Mag.

T

App. sid. time

Clock eorr.

n tan (S

<1

s-t

Refr.

1'

It in s

It m s

m s

s

s

o / II

/ /.

11

7

22 20 42.4

21 38 42.4

+ 0 45. 10

— 1.12

— 1.28

4- 19 27 6. 0

— 0 31.7

— 1.2

7

21 i

39 J

-)- 29 9 35.0

20. 1

4 1.6

«)

6.7

24 49.2

42 49. 2

45.11

1.06

— 1.33

4- 18 38 41.8

32.7

— 1.4

18 Pegasi . .

C

30 40.4

48 40.4

45.12

0. 31

— 0.85

4 5 in 57.4

52.6

— 1.5

7

22 35 13. 4

21 53 13. 4

45.13

0.51

— 1.73

4 9 11 37.0

46.7

— 1.8

7

0 17 56.7

23 35 56. 7

45.28

1.42

— 0. 56

4- 24 22 1. 8

25.7

4- 0. 1

79 " . .

6

20 4.5

38 4.5

45. 28

1.65

+ 0.42

4- 27 37 38. 0

21.9

4- 1.2

6

22 48.2

40 48.2

45.28

1.18

— 1.20

4- 20 27 33. 8

30. 5

— 1.0

G.7

23 4.8

41 4.8

45.28

1.'18

— 1.19

4 20 31 55.2

30.4

— 0.9

6

27 3.7

45 3. 7

45. 29

1.24

— 1.09

4- 21 26 2.7

29.2

— 0.7

A)

f " . .

28 6. 8

46 6.8

45. 29

1.40

— 0. (is

4 2:1 55 43. 8

26.2

0.0

G.7

30 42.7

48 42.7

45. 30

1.52

— 0. 20

4- 25 42 22. 8

24.2

4-0.6

6

32 15.3

50 15.3

45. 30

1.54

— II. 14

4 25 55 31.8

23.8

4-0.7

6.7

35 10.7

53 16.7

45. 31

1.56

+ 0.02

4- 26 27 31.6

23.3

4-0.8

7

36 51.1

54 51.1

45. 31

1.63

+ 0.32

+ 27 20 10.7

22. 2

4- Li

a Andromedae

2.3

38 34. 5

23 5G 34. 5

45.31

1.67

4- 0.51

4- 27 53 0.4

21.7

4- 1-3

6.7

42 13.6

0 0 13.6

45. 32

1.29

— 0.98

4- 22 15 26. 4

28.3

— 11.5

)' Pegasi .

43 29. 3

I 29.3

45.32

0.78

— 1.05

4- 13 58 26.8

39.4

— 2.0

8

46 49. 4

4 49.4

45.33

2.24

+ 1.32

4- 35 24 44. 0

13.5

4- 3.2

a Andromeda?

5

48 24. 8

6 24. 8

45. 33

2.26

+ 1.32

-j- 35 34 in. 1;

13.3

4- 3.2

7

51 8.8

9 8.8

45.33

0.54

— 2.13

4- 9 46 15. 4

45.8

— 1.8

6.7

54 40.' 8

12 40.8

45.33

1.83

+ 1.20

4- 30 9 40.0

19.1

+ 1.9

7

57 39. 5

15 39. 5

45.34

0.83

— 1.58

4 14 49 9.4

38.0

— 1.9

<0

Moon bright L.
Moon dark L.

2.6

0 58 46. 5

16 46.5

45.34

— 0.28

— 0.66

4- 4 57 27.2

0 54.1

— 1.4

6

1 1 4.9

19 4.9

14 Mayer .

7.8

5 45. 3

23 45.3

45.36

+ 0.09

+ 0.97

— 1 41 40.5

1 8.6

— 0.7

15 •' . .

8 20.0

26 20. 0

45.36

+ 0.09

+ 0.97

— 1 41 3:1.0

1 8. 0

— 0.7

9

15 9.1

33 9.1

45.36

— 1.30

— 0.95

+ 22 23 37. 0

0 28.1

— 0.4

5

17 16.2

35 16.2

45. 37

1.34

— 0.84

4- 23 4 34. 4

27. 3

— 0.2

Double, 1st

19 39.5

37 39.5

45.37

1.57

+ 0.03

-j- 26 31 2.6

23.2

4-0.9

fi Andromeda?

26 9.1

44 9. 1

45.38

2.40

+ 1.27

4- 87 48 19. 6

11.6

4-3.6

7

32 9.9

50 9. 9

45.39

2.66

+ 1.32

4- 40 9 34.6

8.6

4 4.1

8.9

33 51.4

51 51.4

45.39

2.54 + 1.28

4- 38 48 38.0

10.0

4- 3.9

G " . .

37 0.8

55 0. 8

45. 40

2.91 + 1.49

-j- 42 45 58. 6

6.0 4- 4.7

p " . .

39 1.6

0 57 1.6

45.40

2.16 + 1.37

4- 34 27 12.6

14.5 4- 3.0

7.8

45 5.2

1 3 5.2

45.41

3. 37 + 2. 71

4- 46 54 49. 2

1.9

4-5.4

7.8

46 50.7

4 50.7

45.41

3. 30 + 2. 48

4- 40 15 11.4

2.6

4-5.3

6

50 32.8

8 32.8

45.41

1.64 + 0.41

-j- 27 35 23. 6

22.0

4- 1.2

7

52 45. 1

10 45. 1

45. 42

2.05 + 1.40

+ 33 5 l(i. 4

16.0

4- 2.7

7.8

55 13.7

13 13.7

45.43

. 2.08 + 1.40

4- 33 26 14.0

15.6

4- 2.8

7.8

56 12.3

14 12.3

45. 43

2.07 -\- 1.40

4- 33 14 1.0

15.8 4- 2.7

yl " . .

6

1 58 33. 4

16 33. 4

45.43

2.24 + 2. 33

+ 45 51 51.6

3.0 4 5.3

6.7

2 3 11.9

21 11.9

45.44

2.29 + 1.30

+ 36 6 17.0

12.8 4- 3.3

# Andromeda?

6

7 48.3

25 48. 3

45. 45

2.96 + 1.55

4- 43 15 32.8

5.5 4-4.7

d)

6

9 7.4

27 7.4

45.45

2.85 + 1.44

4- 42 10 35.8

6.6

4- 4.5

6.7

12 52.5

30 52.5

45. 45

1.90 + 1.31

4- 31 4 51.5

18.1

4- 2.2

6.7

2 17 17.5

1 35 17.5

+ 0 45.46

— 2.36 + 1.28

4 36 51 4.2

— 0 12.0

4-3.5

17S4 SI

:ptube

K 30 Ze

ro corr. = + 1' 37". 0.

7

0 17 52.3

23 35 52. 3

+ 0 49.49

— 1.45

— 0. 56 '+ 24 22 4. 4

— 0 26. 4

4- 0.1

<0

79 Pegasi .

20 0. 6

38 0.6

49. 49

1.67

+ 0.42 '+ 27 37 44.6

21.9

4 1.2

6

22 43. 4

40 43.4

49. 49

1.19

— 1.20 + 20 27 33.3

31.3

— 1.0

6.7

22 59. 4

40 59. 4

49. 49

1.20

— 1.19 '+ 20 31 54.0

31.3

— 0.9

»

26 59. 5

44 59.5

49.50

1.26

— 1. 09 -f 21 26 4- °

30.1

— 0.7

f)

6.7

30 39. 0

48 39. 0

49.51

1.54

— 0.20 + 25 42 19.8

24.8

4-0.6

6.7

35 12.3

53 12.3

49. 52

1.59

+ 0.01 + 26 27 29.6

23.9

+ 0.8

g)

a Androm. .

38 30.8

23 56 30.8

49.53

1.55

+ 0.52 '+ 27 53 0.4

21.7

4 1.3

7

42 9.1

0 0 9.1

49. 53

1.31

— 0. 98 + 22 15 26. 4

29.0

— 0. 4

h)

•/ Pegasi .

43 24. 7

1 24.7

49.53

0.80

— 1.66 + 13 58 23.2

40.5

— 2.0

a Androm. -

0 48 21. II

0 6 21.0

+ 0 49.54

— 2.28

+ 1.32 4- 35 34 7.6

— 0 13.7

4-3.2

a

T. Ill assumed as 15s

; not 5s

d T. Ill assumei

as ',1m. 38s.5 ;

lot 9m. 28s.5. / T. II assumed as 3!ls.

; not 34s.

. b

Div. assumed as 26 9

5 ; not 2(

nfi.

c | assnmed as 2

1° 13' ; not 21°

14': and Div. g £ as'sui Ias20°; no

22°.

c

g assumed as 43° 53' 3

I"; Dot 4

3= 53' 28".

assumed as ■,

2 10 3 ; not 22

log. h T. II assumed as 43m

; not 42m.

16

(121)

122

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1»S4 SEPTEMBER 30-

Continued Zero coir. = + 1' 37". 0.

Name

Mag.

r

App. sid.tiuie

Clock corr.

n tan d

'/

C— 4

Refr.

<i

h m s

h m s

. m s

s

s

o ' //

/ //

II

7

0 51 4. 8

0 9 4.8 ■

f 0 49.55 -

- 0. 55 ■

- 2.11

+ 9 45 1.4 -

- 0 47. 1 ■

- 1.8

7

57 35. 3

15 35.3

49.56 -

- 0.85

-.1.58

4- 11 49 5.0

0 39. 1 ■

- 1.9

Piscium .

7

0 59 48.5

17 48.5

49.56 + 0.22

4- 1.57

- 4 1 56.6

1 16.5

-0.6

7.8

1 1 50.9

19 50. 9

49. 56

0.17

-f- 1.33

— 2 59 14. 9

13.5

- 0.7

6.7

5 40.8

23 40.8

49.57

0. 09

4- 0.97

— 1 41 38.0

10.4

- 0.7

7

8 15.5

26 15.5

49.57

0.09

-f- 0.97

— 1 41 38.0

10.4

-0.7

]6 Mayer .

6

10 54.9

28 54. 9

49.58 + 0.31

+ 1.80

— 5 32 11.4

1 20.9

-0.5

f Androm. .

4

17 12.2

35 12.2

49.59 -

- 1.36

— 0.84

+ 23 4 35.4

0 28.1

— 0.2

-

7

22 55. 2

40 55.2

49. 59

2.35

4- 1.30

-j- 36 13 35. 1

13.0

+ 3.3

ft " . .

26 4.8

44 4.8

49. 60

2.44

+ 1.27

4- 37 18 22.6

11.9

+ 3.6

7

32 5.6

50 5.6

49. 61

2.69

+ 1.32

+ 40 9 37.2

8.9

+ 4.1

7

35 57.3

53 57. 3

49.61

3.60

+ 3.10

+ 48 22 23. 0

0.5

+ 5.5

} . " . .

38 18.8

56 18.8

49.62

3.32

+ 2. 42

+ 46 3 46.6

2.8

+ 5.3

6

41 23.9

0 59 23. 9

49. 62

3.11

+ 1.72

+ 44 9 44.0

4.9

+ 4.9

7

45 0. 7

1 3 0.7

49. 62

3.42

+ 2.72

+ 46 54 42. 4

2.0

+ 5.4

7.8

46 47.0

4 47.0

49. 63

3.34

+ 2.48

4- 46 15 13. 4

2.6

+ 5.3

6

50 29.0

8 29. 0

49. 63

1.67

+ 0.41

4- 27 35 24. 0

22.6

+ 1.2

7

52 41.1

10 41.1

49.64

2.08

+ 1.40

+ 33 5 15.4

16.4

+ 2.7

7.8

55 9.5

13 9.5

49.64

2.11

+ 1.40

+ 33 26 17. 3

16.0

+ 2.7

7.8

56 8.0

14 8.0

49.65

2.11

+ 1.40

+ 33 14 2. 1

16.3

+ 2.7

A " . -

6

1 58 29. 4

16 29.4

49.65

2.30

+ 2.33

+ 45 51 52.0

3.0

+ 5.3

2 3 7.3

21 7. 3

49. 65

2.33

+ 1.30

+ 36 6 15.4

13.2

+ 3.3

v " . .

5 26. 8

23 26.8

49. 65

2.71

+ 1.32

+ 40 17 55.6

8.7

+ 4.1

* " - -

6

7 44.3

25 44.3

49. 65

3.01

+ 1.55

+ 43 15 31.4

5.7

+ 4.7

6

9 59.2

27 59.2

49. 66

2.83

+ 1.39

+ 41 30 6.2

7.5

+ 4.4

7.6

12 48.6

30 48.6

49. 67

1.93

+ 1.31

+ 31 4 52.6

18.7

+ 2.2

7

17 13.0

35 13.0

49. 68

2.40

+ 1.28

+ 36 51 5.2

12.4

+ 3.5

7.8

20 35. 5

38 35.5

49. 69

1.13

— 1.27

+ 19 25 38.9

32.9

— 1.2

8

22 12.0

40 12.0

49. 69

— 1.68

+ 0.47

+ 27 44 0.0

0 22.5

+ 1.2

a)

7

28 14.0

46 14.0

49. 69

+ 0. 17

+ 1.36

— 3 7 4.7

1 14.4

— 0.7

a Piscium .

32 8.0

50 8.0

49. 70

— 0.10

— 0. 05

+ 1 42 46. 9

1 2.7

— 1.0

K Arietis -

35 47. 5

53 47.5

49. 70

1.26

— 1. 07

+ 21 35 58.4

0 30.0

— 0.6

[3 Trianguli .

37 59.5

55 59.5

49.71

2. 15

+ 1.39

+ 33 56 20. 2

15.5

+ 2.9

16 Arietis .

39 57.7

1 57 57.7

49.71

1.07

— 1.35

+ 18 27 45. 2

34.1

— 1.4

Double Star

8

46 11.5

2 4 11.5

49.72

1.67

+ 0.46

+ 27 43 24. 0

22.5

+ 1.2

o Trianguli .

7

47 43.8

5 43.8

49.72

1.67

+ 0.42

-f 27 37 21.0

22.7

+ 1.2

Moon .

52 22. 1

10 22. 1

49.73

1.04

— 1.40

+ 17 55 44. 8

34.9

— 1.5

8

55 50. 5

13 50. 5

49.73

1.49

— 0.37

+ 25 2 51.3

25.8

+ 0.4

6.7

2 58 14. 1

16 14. 1

49.74

1.33

— 0.94

+ 22 28 57. 0

28.9

— 0.4«

v Ceti

3 5 48.5

23 48. 5

49. 75

0.26

— 0.57

4- 4 38 16.8

56.5

— 1.4

34 Arietis .

9 22. 0

27 22.0

49. 75

1.57

— 0. 08

+ 26 6 31. 0

24.4

+ 0.7

36 " - -

12 4.7

30 4. 7

49.76

1.61

+ 0.11

+ 26 45 44.8

23.6

+ 0.9

4

16 20.6

34 20.6

49.76

1.72

+ 0.71

+ 28 19 24.5

21.8

+ 1.4

b)

7

22 28. 6

40 28. 6

49.77

0.89

— 1.52

+ 15 34 53.0

38.2

— 1.8

46 Arietis .

5

25 32.8

43 32.8

49.77

0.98

— 1.42

+ 17 8 26. 2

36.0

— 1.7

e "

28 10.3

46 10.3

49.78

1.19

— 1.20

+ 20 27 12:7

31.5

— 1.0

a Ceti . .

32 15.4

50 15.4

49.78

0.18

— 0.31

+ 3 13 45. 4

59.3

— 1.2

54 Arietis .

37 24. 3

55 24. 3

49.79

1.03

— 1.39

+ 17 56 36.2

34.9

— 1.5

<5 " . .

40 34.5

2 58 34. 5

49.80

— 1. 10

— 1.32

-f 18 53 10.9

0 33.7

— 1.3

a Eridani

44 1.2

3 2 1.2

49. 80

+ 1.83

+ 4.79

— 29 47 5. 6

4 41.0

— 5.3

c)

a Persei .

50 14.7

8 14.7

49.81

— 3.68

+ 3.25

+ 49 2 59. 4

0 0. 2

+ 5.6

d)

52 50.8

10 50. S

49. 82

1.43

— 0.65

+ 23 55 55. 4

27.1

0.0

f Tauvi .

56 44.7

14 44.7

49.83

0. 50

— 1.64

+ 8 57 38. 6

48.5

— 1.8

Double Star

8

59 35.2
3 59 36. 7

17 35.2
17 36.7

49. 84
49.84

1.61
1.61

+ 0.13
+ 0.13

+ 26 48 17. 0

23.6

+ 0.9

<0

7

4 3 8.5

21 8.5

49. 85

0. 98

— 1.42

+ 17 6 4.1

36.1

— 1.7

Tauri . .

7

5 34.6

23 34. 6

49.85

1.32

— 0.94

+ 22 28 13. 7

28.9

— 0.4

13 " . ,.

6

11 9.3

29 9.3

49.85

1.10

— 1.31

+ 18 58 58.3

33.6

— 1.3

6.7

13 36.2

30 36.2

49.85

1.10

— 1.31

+ 18 57 28.6

33.6

— 1.3

?i Pleiadum .

15 56.6

33 56. 6

49.85

1.39

— 0.78

+ 23 24 32. 8

27.8

— 0.1

f)

17 36.9

35 36.9

49.86

1.39

— 0.78

+ 23 21 53. 4

28.1

— 0.1

H

21 45.0

39 45. 0

49.87

0.33

— 0.91

+ 5 52 6.6

54.3

— 1.5

4 25 23.8

3- 43 23. 8

+ 0 49. 88

— 1.29

— 1.04

+ 21 49 43.6

— 0 29.8

— 0.6

a Div. assumed as 55 ; not 56.

b T. Ill assumed as 22m.; not 12m.

r. <= assumed as 89'' 48' 6" ; not 89° 48' 36".
d t assumed as 24° 55' ; not 24° SO".

e T. Ill assumed as 33s,5; not 38s.5.
/ £ assumed as 25° 29' ; not 25° 26'.

(122)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

123

1784 SEPTEMBER 30-

-Continued Zen

coir. = + 1' 37". 0.

Name

Mag.

T

App. sid. timo

Clock coir.

n tan <S

'/

f-0

Rofr.

'/'

h in s

h m s

in s

s

s

Q t II

/ //

II

7

4 29 50. 1

3 47 50. 1

f 0 49. 88

- 1.14

- 1.27

-t- 19 34 2.0 -

- 0 32.7 ■

- 1.2

«)

A Tauri . .

5

33 13.2

51 13.2

49.88

1.26 ■

- 1.08

4- 21 27 4G. 0

30.3

- 0. 7

w "

37 52. 9

3 55 52. 9

49. S8

1.10 -

- 1.31

4- 19 0 44. (1

33.5 ■

- 1.3

y " - -

48 48. o

4 6 48. 0

49. 90

0.86

- 1.57

4-15 4 50. 0

39. 1

- 1.9

<5 " . .

■1

4 51 46.0

4 9 46.2

- 0 49.91

- 0.98

- 1.43

4- 17 0 34.8

- 0 36.2

- 1.7

1784

OCTOBER 1 Zerocorr. = + 1' 30". 3.

Sun I limb

13 12 45. 1

12 30 45. 1

— 3 48 33.6

— 1 14.5

— 0. 6

Sun II limb

13 14 53.8

12 32 53. 8

.

C Oplihicbi .

17 6 25.6

16 24 25.6

+ 0 51.22

+ 0.57

+ 1.79 — 10 7 4.6

1 36.3

— 0.4

7.8

19 43 34.8

19 1 34.8

51.40

— 0.46

— 1.42 + 8 15 1.2

0 49.7

— 1.7

6

47 47.2

5 47.2

51.47

0.81

— 1.63 + 14 9 42.5

40.2

— 2.0

8

49 42.4

7 42.4

51. 47

0.80

— 1.64 + 14 4 48.9

40. 3

— 2.0

7

51 34.4

9 34.4

51.48

1.61

+ 0. 14 + 26 51 32. 2

23.5

+ 1.0

7.6

55 39.7

13 39.7

51.49

2.07

+ 1.40 + 33 5 45.6
+ 1.40 + 32 47 4.3

16.4

+ 2.7

6.7

56 36.6

14 36.6

51.49

2.04

16.8

+ 2.7

6.7

19 59 34.2

17 34.2

51.49

2.30

+ 1. 31 + 35 52 29. 8

13.4

+ 3.3

ft Cygni - .

20 3 13.7

21 13.7

51.49

1.66

+ 0. 38 + 27 29 55. 8

22.7

+ 1.1

6

3 15.7

21 15.7

51.49

— 1.66

-f 0.38

+ 27 30 19. 9

0 22. 7

+ 1.2

i Antiuoi

6

6 i

24 i

— 1 45 25. 0

1 10.5

— 0.7

C.7

10 46.4

28 46. 4

51.50

+ 0. 06

+ 0.79

— 1 6 45.4

1 9.1

— 0.7

l>)

Y Aquilse

17 13.6

35 13.6

51.51

— 0.56

— 2.35

-4- 10 5 18.8

0 46.7

— 1.8

a " . .

21 28.5

39 28. 5

51.52

0.46

— 1.44

+ 8 18 3.6

49.7

— 1.7

7

30 12.7

48 12.7

51.53

0.60

— 2.75

+ 10 43 12.2

45.8

— 1.9

8

32 22. 5

50 22.5

51.54

0.79

— 1.66 + 13 55 36.6

40.7

— 2.0

7

34 0.4

52 0. 4

51.54

0.80

— 1.65

+ 13 58 43.9

40.6

— 2.0

15 Sagittse

6.7

35 37. 5

53 37.5

51.54

0.94

— 1.47

+ 16 29 1.2

37.0

— 1.8

Vulpeculse

5.6

38 50. 2

19 56 50. 2

51.54

1.35

— 0. 86 •

-(- 22 59 15.2

28.2

— 0.2

7

42 46. 8

20 0 46. 8

51.55

1.18

— 1.19

+ 20 29 19.0

31.4

— 1.0

7

45 37.5

3 37.5

51.55

1.39

— 0.75

+ 23 34 48.0

27.5

— 0. 1

c)

22 " . .

6

47 24.3

5 24. 3

51.56

1.34

— 0.88

+ 22 50 39.6

28.3

— 0. 2

6.7

47

5

51.56

1.22

— 1.15

+ 20 55 59. 0

30.8

— o. 8.

7

51 0.8

9 0.8

51.56

1.57

— 0. 02

+ 26 18 39. 0

24.2

+ 0.7

8

53 56. 7

11 56.7

51.56

1.83

+ 1.18

+ 29 53 41. 4

20.0

+ 1.9

A Cygni .

6

56 26. 2

14 26. 2

51.57

1.94

+ 1.36

+ 31 29 4.7

18.2

+ 2. 3

7.8

20 59 54. 2

17 54.2

51.57

2.11

+ 1.40

+ 33 36 32. 4

15.9

+ 2.8

7.8

21 2 20. 9

20 20. 9

51.58

0.86

— 1.57

4-15 4 46. 4

39.0

— 1. 9

c Delpbini -

4 8.4

22 8.4

51.58

0.60

— 2.67

+ 10 34 10.4

45.9

- 1.9

i "

8 44.2

26 44. 2

51.59

0.60

— 2.70

+ 10 37 27. 6

45.9

— 1.9

n " . .

9 51.8

27 51.8

51.59

0.52

— 1.80

+ 9 19 38.2

48.0

— 1.8

7

13 18.0

31 18.0

51. 60

3.17

+ 1.93

+ 44 53 20. 7

4.1

+ 5. 1

a Cygni . .

15 16.2

33 16.2

51.60

3.12

+ 1.79

+ 44 29 37. 8

4.4

+ 5.0

d)

6

26

44

+ 3 42 35.0

55.1

— 1.3

<0

1 Equulei

6

29 29. 0

47 29.0

51.62

0.19

— 0.36

+ 3 28 11.4

0 58.8

— 1.2

7

33 1.6

51 1.6

51.62

0.14

— 0.20

+ 2 30 18.7

1 0.9

— 1.1

7

34 59. 3

52 59. 3

51.63

— ii. 11

— 0.11

+ 2 5 19.8

1.7

— 1.0

7.8

37 25. 2

55 25. 2

51.63

+ 0.09

+ 0.95

— 1 37 36.4

10.5

— 0.7

7.8

40 14.7

20 58 14.7

51.64

— 0.11

— 0. 1 1

+ 24 11.4

1.9

— 1.0

8

43 1.8

21 1 1.8

51.64

— 0. 08

— 0.06

+ 1 45 42. 1

2.6

— 1.0

7.8

44 43.0

2 43. 0

51.64

+ 0.03

+ 0.65

— 0 47 36. 0

8.5

- 0.7

7

46 39.2

4 39.2

51.65

+ 0.14

+ 1.20

— 2 29 57. 7

1 12.5

- 0.7

8

49 13.7

7 13.7

51.65

— 0. 45

— 1.38

+ 8 3 21.9

0 50. 3

— 1.7

7

52 3.4

10 3.4

51.65

0.52

— 1.86

+ 9 25 5. 0

47.9

— 1.8

6.7

55 5.3

13 5.3

51.66

0.52

— 1.76

+ 9 14 47.7

48.2

— 1.8

35 Vulpeculre

6

21 59 22. 4

17 22.4

51.66

1.60

!+ 0. 08

+ 26 39 44. 3

23.8

+ 0.9

f Pegasi . .

6

22 1 24. 1

19 24. 1

51.67

1.33

]— 0.90

+ 22 41 14.7

.28.7

— 0.3

3 17.3

21 17.3

51.67

— 1. 34

— 0.87

+ 22 53 13. 2

0 28.5

- 0.2

y Capricorni

9 15.6

37 15.6

51.68

+ 1.01

+ 1.59

— 17 36 50.5

2 11.2

— 0.6

6

22 12 20. 3

21 30 20. 3

+ 0 51.68

— 0. 02

+ 0.27

+ 0 18 25.6

1 5.8

— 0.8

e Pegasi . .

+ 8 53 7. 0

— 0 48:9

i- 1.8

a

§ assumed as 27° 23'

18" ; imt 27° 23' 8".

c <? assumed as

26 '; ii.it ■.'.-.'.

e Div. assumed as 48 .

not 40.

b

T. I assume d as 49s.'

; not 54s. 5.

d g assumed as

15° 8' 30"; not

45° 7' 50".

(123)

124

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

lTS-l OCTOBER 1-Coiitimicd Zero corr. = + 1' 39". 3.

Name

Mag.

T

A pp. sid. time

Clock corr.

n tan <5

'/

C— *

Kefr.

?'

It m s

It m s

VI s

s

s

O l ll

//

II

a)

7

22 17 34.7

21 35 34.7

+ 0 51.69

— 0.71

— 1.84

+ 12 43 14.4

— 0 42. 7 — 2. 0

7.8

20 16.0

38 16.0

51.69

0.84

— 1.59

+ 14 45 11.3

39.5 — 1.9

G.7

24 42.2

42 42.2

51.70

1.07

— 1.33

+ 18 38 46.4

34.0 — 1.4

7

22 25 23. 1

21 43 23. 1

+ 0 51.70

— 1.07

— 1.33

+ 18 41 41.6

— 0 34.0 — 1.4

I')

1?84 OCTOBERS Zero corr. = + 1' 38".6.

36 Pegasi -

22 59 32.8

22 17 32.8

+ 0 54.00

— 0.45

— 1.37 +81 26.6

— 0 50.5

— 1.7

31) '' . .

23 3 21.7

21 21.7

54.01

— 1.09

— 1.30 + 19 6 41.0

0 33.5

— 1.3

k Aquarii

7 42.0

25 42.0

54.01

+ 0.28

+ 1.78 -- 5 20 9.8

1 20.8

— 0.5

6

12 12.3

30 12.3

54.01

0.77

+ 1.57

— 13 40 27.2

51.8

— 0.4

15 6.6

33 6. 6

54. 02

0.60

+ 1.73

— 10 46 11.0

39.4

— 0.3

2 7" " . .

5

19 16.3

37 16.3

54. 03

0.83

+ 1.60

— 14 43 0.9

57.0

— 0.5

c)

?. " . .

22 27.7

40 27.7

54. 03

0.49

+ 1.86

— 8 43 17.6

1 31.7

— 0.4

<0

Fomalhaut

26 44.2

44 44.2

54.04

+ 0.89

+ 5.00

— 30 41 55.5

5 5.4

— 6.1

0

/3 Piscium

4.5

34 3. 3

52 3.3

54. 06

— 0.15

— 0.23 + 2 39 28.6

1 0.9

— 1.1

6.7

41 25.9

22 59 25. 9

54.07

0.20

— 0. 40 + 3 49 50. 4

0 58.4

— 1.3

7.8

44 12.2

"23 2 12.2

54. 07

0.20

— 0.40 + 3 49 12.2

0 58.4

— 1.3

5

47 8.5

5 8.5

54. 08

0.11

— 0. 12 +26 6. 1

1 2.0

— 1.0

9.10

48 57.5

6 57. 5

54.08

0. 1 1

— 0.12 + 2 4 17.0

1 2.0

1.0

6

50 30.9

8 30.9

54.08

0.23

— 0.49 + 4 12 4.8

0 57.7

— 1.3

8.9

53 1.3

11 1.3

54. 08

— 0.09

- 0.03 + 1 38 2.4

1 3.1

— 1.0

k "

5

57 0.8

15 0.8

54. 09

0.00

+ 0.33

+ 0 4 24.8

6.6

— 0.8

6

23 57 20. 2

15 20.2

54.09

0.00

+ 0.37

— 03 49.0

7.0

— 0.8

8

0 0 47. 1

18 47. 1

54.10

+ 0.02

+ 0.46

— 0 18 5.6

7.5

— 0.8

13 " . -

7

2

20

— 2 16 33.0

12.3

— 0.7

14 " . .

6

4 11.3

22 11.3

54.10

+ 0. 13

+ 1.19

— 2 26 18. 1

12.7

— 0.7

15 " . .

7

5

23

+ 07 13.0

6.6

— 0.8

8

7 56.5

' 25 56. 5

54.10

— 0.11

— 0. 13

+ 2 10 24.0

1 1.9

— 1.0

/)

8

10 26.6

28 26.6

54.11

0.20

— 0.38

+ 3 36 20.4

0 58.8

— 1.3

g)

7

15 53. 1

33 53. 1

54.11

0.68

— 2.86

+ 11 57 0.0

44.0

— 2.0

6.7

17 46.9

35 46.9

54. 12

1.44

— 0.56

+ 24 22 6. 4

26.7

+ 0.1

7

20 7.3

38 7.3

54.12

1.58

+ 0.02

+ 26 28 3. 4

24.1

+ 0.8

(ji Pegasi . .

6

22 43. 5

40 43.5

54. 13

1.03 — 1.40

+ 17 54 42.5

35.2

— 1.5

7

25 0. 1

43 C. 1

54.13

1.01 — 1.41

+ 17 32 8.6

35.6

— 1.6

6.7

29 57.7

47 57.7

54. 14

0.56

— 2.34

+ 10 3 51.8

47.0

— 1.8

8 -

*32 42. 0

50 42. 0

54.14

0.85

— i.bT

+ 15 2 47.1

39.2

— 1.9

6

35 2.3

53 2.3

54.15

1.51

— 0.26

+ 25 26 1.0

25.4

+ 0.5

7

36 42. 1

54 42 1

54. 15

1.65

+ 0.33

+ 27 20 16.7

23.1

+ 1-1

a Andromeda'

38 26.0

23 56 26. 0

54.15

1.69

+ 0.51

+ 27 53 3. 4

22.5

+ 1.3

y Pegasi -

0 43 20. 3

0 1 20.3

54. 15

0.79

— 1.66

+ 13 58 27.2

40.8

— 2.0

n Andromedse

4

1 26 54.3

44 54. 3

54. 22

1.29

— 0.98

+ 22 14 7.8

29.4

— 0.5

7.8

32 23. 7

50 23.7

54. 23

1.49

— 0.34

+ 25 7 8. 2

25.8

+ 0.4

7

33

51

+ 28 29 17. 0

21.7

+ 1-4

78 Piscium

6.7

37 18.0

0 55 18. 0

54.24

1.91

+ 1.29

+ 30 50 20. 4

19.1

+ 2.2

f) Pegasi .

+ 34 27 15. 0

15.1

+ 3.0

85 <ji Piscium

6.5

43 14.8

1 1 14.8

54.25

1.38

— 0.78

+ 23 25 23. 0

27.9

— 0. I

7.8

45 59.5

3 59.5

54. 25

1.31

— 0.95

+ 22 25 55. 8

29.1

— 0.4

v "

6

48 49. 0

6 49.0

54.26

1.55

— 0.08

+ 26 6 39. 0

24.6

+ 0.7

A Androm. .

6

1 58 25. 2

16 25.2

54.27

3.28

+ 2.33

+^45 51 46.6

3.1

+ 5.3

7

2 1 39.7

19 39.7

54.27

2.19

+ 1.35

+ 34 42 34. 6

14.8

+ 3.0

7

2 44.6

20 44. 6

54.28

2.17

+ 1.37

+ 34 28 34.2

15.1

+ 3.0

h)

7

3

21

+ 36 6 18. 0

13.3

+ 3.3

6.5

5 22. 5

23 22. 5

54.28

2.70

+ 1.32

+ 40 17 54.6

8.8

+ 4-i

6

10 48.9

28 48. 9

54.29

2.15

+ 1.38

+ 34 7 53.0

15.4

+ 2.9

2 Arietis . .

6

12

30

+ 19 12 3.0

33. 4

— 1.3

6

14 22. 1

32 22. 1

54.30

1.09

— 1.31

+ 18 59 13.4

33.7

— 1.3

i)

3 " . .

7

16 5.8

34 5.8

51.30

0. 93

— 1.48

+ 16 18 54.5

37.5

— 1.8

J)

4 " . .

6

17 41.6

35 41.6

54.30

0.90

— 1.50

+ 15 51 51.1

38. 1

— 1.8

7

2 21 14.9

1 39 14. 9+0 54. 31

- 0.98

— 1.42

+ 17 12 43. 4

— 0 36. 1

— 1.7

a

Div. assumed as 38 ; j

ol 39

t

g assumed as 46° 11' 34"; not

4B° 11" 14'. g T. I rejected.

-

b

Min. assumed as 59; I

ot 58.

f £ assumed as 45° l.V 14"; n<

t 45° 15' 24" : h g assumed as 12° 44' '

7"; not 12" 45' 7".

r.

Micr. corr. assumed a

+ 5; u

3t — 5.

ami Div. as 48 4 3 : not 4t

4 1, to agree i Div. assumed as 34 1

; not 34 13.

'<

T. II assumed us 1 is.

llul .",1s.

with observa

inn of Decemt

er 28.

j Si

ssumed as 32° 59' 1

5"; not 32° 59

4.v.

(124)

GOULD —REDUCTION OF D'AGELET?S OBSERVATIONS.

125

1784 OCTOBER 2— Continued Zero corr. = + 1' 38".6.

Name

Mag.

T

A]ip. sid. time

Clock corr.

n tan ii

'/•

Eefr.

'/

f-*

/( in s

h m s

m s

s

s

o / //

/ //

//

y Arietis . -

2 22 54. 7

1 40 54.7

+ 0 54.31

— 1.04

— 1.37

+ 18 13 10.2

— 0 34. 8

— 1.5

7.8

26 6.2

44 6.2

54. 31

2.72

+ 1.34

+ 40 36 45. 0

8.5

+ 4.2

6

28 50. II

46 50. 0

54. 32

1.16

— 1.23

+ 19 59 27.6

32. 3

— 1.1

«)

11 " . .

G

32 37. 8

50 37. 8

54.32

1.47

— 0.41

+ 24 52 27. 0

26.1

+ 0.4

K "

6

35 42. 9

53 42. 9

54.33

1.26

— 1.07

+ 21 35 53.4

30. 2

— 0.6

38 58.2

56 58. 2

54.33

1.12

— 1.29

+ 19 18 17.0

33.3

— 1.2

16 ",-..-

6

39 53. 7

1 57 53.7

54.33

1.05

— 1.35

+ 18 27 43. 8

34.4

— 1.4

7

42 7.8

2 0 7.8

54.34

3.50

+ 2.95

+ 47 44 17. 0

1.1

+ 5.5

6.7

46 11.8

4 11.8

54.35

1.33

— 0. 90

-j- 22 44 48.2

28.8

— 0.3

8

51 12.7

9 12.7

54.35

1.85

— 1.56

+ 15 9 26.4

39.3

— 1.9

7.8

54 44.0

12 44. 0

54.36

1.42

— 0.61

+ 24 9 40.6

27.0

0.0

t3 Trianguli .

7.6

2 57 21.7

15 21.7

54.36

1.70

+ 0.95

+ 28 56 5. 8

21.3

+ 1.6

t>)

14 " . .

6

3 0 9.7

18 9.7

54.36

2.23

+ 1.33

+ 35 9 32. 8

14.3

+ 3.1

6

3 34.7

21 34.7

54.37

2.33

+ 1.30

+ 36 20 15.4

13.0

+ 3.4

7

6 11.0

24 11.0

54.37

2.37

+ 1.29

+ 36 45 43. 0'

12.6

+ 3.5

5 q Persei .

7

9 52.7

27 52. 7

54. 38

2.59

+ 1.28

+ 39 14 54.3

10.0

+ 3.9

37 Arietis -

7

13 29.5

31 29.5

54.33

0.96

— 1.44

+ 16 49 47. 8

36.7

— 1.7

8

16 18.9

34 18.9

54.39

1.33

— 0.90

+ 22 42 27. 2

28.9

— 0.3

6

22 23. 3

40 23. 3

54.40

0.89

— 1.52

+ 15 34 50.5

38.5

— 1.8

P ""- -

6

25 28. 3

43 28. 3

54.40

0.97

— 1.43

+ 17 8 26. 2

36. 3

— 1.7

e " . .

6

28 5.9

46 5.9

54.41

1.18

— 1.20

+ 20 27 12.2

31.8

— 1.0

49 " . .

6.7

30 24. 1

48 24. 1

54.41

1.52

— 0.23

+ 25 34 52.2

25.3

+ 0.6

7

33 53. 3

51 53.3

54. 42

0.85

— 1.57

+ 14 59 50. 4

39.4

— 1.9

8.9

38 30. 9

56 30. 9

54.42

— 1.06

— 1.34

+ 18 32 1.5

34.4

— 1.4

(5 Arietis .

41

2 59

+ 18 53 10.0

0 34.0

— 1.3

12 Eridani

43 56. 7

3 1 56.7

54.43

+ 1.82

+ 4.79

— 29 47 4.2

4 43.1

— 5.3

• a Persei .

50 10.1

8 10.1

54.44

— 3. 66

+ 3.26

+ 49 • 3 2. 0

0 0.2

+ 5.6

f Tauri .

56 40.4

14 40.4

54. 44

0.50

— 1.64

+ 8 57 36. 0

49.0

- 1.8

C.7

3 59 49.7

17 49.7

54.45

0.59

— 2.67

+ 10 34 31.0

46.3

— 1.9

6

4 2 52. 3

20 52. 3

54.45

1.40

— 0.72

-f- 23 42 46. 4

27.5

0.0

70 "I'-

5 29.5

23 29. 5

54.46

1.31

— 0.94

+ 22 28 10.2

29.2

— 0.4

ll "-..,--

6

9 5.3

27 5.3

54.47

1.46

— 0.50

+ 24 36 9.2

26.5

+ 0.2

7.8

12 2.4

30 2.4

54.47

1.44

— 0.55

+ 24 22 7. 0

26.8

+ -0.1

m " . .

7.6

13 30. 2

31 30.2

54.47

1.42

— 0.61

+ 24 8 0.8

27.0

0.0

;/ Pleiadum .

15 52. 4

33 52. 4

54.48

1.37

— 0.78

+ 23 24 31.8

28.0

— 0. 1

c)

/Atlas . .

17 33.8

35 33. 8

54.48

1.37

— 0.78

+ 23 2J 52. 6

28.1

— 0.1

7.8

20 29. 7

38 29.7

54.48

1.45

— 0.52

+ 24 29 39. 0

26.6

+ 0.2

f Pevsei -

5

26 10.4

44 10.4

54.49

2.23

+ 1.33

+ 35 7 59.6

14.4

+ 3.1

Tauri . .

6.7

29 45. 2

47 45.2

54.50

1.13

— 1.27

+ 19 33 59.4

33.0

— 1.2

A " . .

33 8.5

51 8.5

54. 50

1.25

— 1.08

+*21 27 51.0

30.5

— 0.7

6

37 9.0

3 55 9. 0

54.51

1.27

— 1.04

+ 21 46 56.0

30. 1

-0.6

Moon .

40 5.7

4 8 5.7

54.53

1.55

— 0.09

+ 26 4 59.3

24.7

+ 0.7

iS1 Tauri .

41 41.4

9 41.4

54.53

0.97

— 1.43

+ 17 0 34.0

36.5

— 1.7

<P "

52 51. 5

10 51.5

54. 53

0.97

— 1.44

+ 16 55 1.5

36.6

— 1.7

2v "■-■--

55 35. 6

13 35.6

54.54

1.31

— 0.94

+ 22 28 48. 4

29.2

— 0.4

9

4 58 51.0

16 51.0

54.54

1.12

— 1.29

+ 19 20 27.8

33.3

— 1.3

7

5 2 15.4

20 15.4

54.54

1.00

— 1.41

+ 17 31 58.4

35.8

— 1.6

Aldebaran

4 44.4

' 22 44. 4

54.55

0.91

— 1.49

+ 16 2 53. 8

37.9

— 1.8

r Tauri . .

10 29. 8

28 29. 8

54.56

— 1.31

— 0.93

+ 22 30 43. 3

0 29. 1

— 0.3

ix Eridani

15 50.0

33 50. 0

54.57

+ 0.20

+ 1.49

— 3 39 47.8

1 16.5

— 0.6

3 Ononis

5

20 52. 8

38 52.8

54.57

— 0.28

— 0.73

+ 5 12 56. 2

0 56. 0

— 1.4

6

24 18.2

42 18.2

54.58

0.41

— 1.24

+ 7 24 25. 5

51.8

— 1.6

7

25 39. 3

43 39. 3

54. 58

0.42

— 1.28

+ 7 32 59.7

51.7

— 1.7

8

31 20.2

49 20. 2

54.59

0.77

— 1.70

+ 13 34 32.3

41.7

— 2.0

7 " - -

5.6

33 25. 7

51 25.7

54.60

— 0.85

— 1.57

+ 15 4 32.8

0 39.4

— 1.9

/j Eridani

4

38 21.2

56 21.2

54. 60

+ 0.29

+ 1.78

— 5 22 34.8

1 21.6

— 0.5

Capella

41 56.6

4 59 56. 6

54.61

— 3.26

+ 2.29

+ 45.43 44.8

0 3.2

+ 5.3

d)

Eigel . .

45 16.4

5 3 16.4

54.61

+ 0.48

+ 1.87

— 8 27 45.2

1 31.5

— 0.5

6.7

49 22. 9

7 22. 9

54. 62

— 1.13

— 1.26

+ 19 33 55. 4

0 33.0

— 1.2

6

51 54.2

9 54.2

54.62

1.90

+ 1.30

+ 30 54 12. 1

19.1

+ 2.2

(3 Tauri . .

53 49. 9

11 49.9

54. 62

1.72

+ 0.74

+ 28 23 17. 5

22.0

+ 1-4

Double Star

6

5 57 10. 5

15 10.5

54.63

— 1.48

— 0. 40

+ 24 56 23. 6

0 26.1

+-0.4

6 Orionis

6 2 6.6

5 20 6. 6

+ 0 54.64

4- 0.02

+ 0.53

— 0 28 37.5

— 1 8.5

— 0.8

a

Transit oyer T. I asst

med to

iave been re-

b T. Ill a — in

as 0m_; not 9

ii. d § assumed as 57° 18' ;

not 57° 17'.

corded as over T. L

[I and a

> 32m. 12s. 5 ;

: Transit over T

I assumed as r

ecorded over

not 32m. 2s.5. •

T. II.

(125)

126

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

17S4 OCTOBER 2— Continued Zero core. — + 1' 38". 6.

Name

Mag.
6

T

App. sid. time

Clock corr.

n tan <5

1

f— *

Refr.

<!'

It VI s

h m s

m s

s

s

Q 1 It

/ //

1 11

o Orionis -

6

6 5 50. 8

5 23 50. 8

+ 0 54.64

+ 0.28

+ 1.74

— 4 59 35.7

— 1 20.4

— 0.5

a " . .

5.4

9 1.8

27 1.8

54. 65

0.15

+ 1.27

— 2 44 25. 2

14.0

— 0.7

«) C " - -

10 58. 8

28 58.8

54.65

+ 0.11

+ 1.09

— 2 4 23.0

1 12.4

— 0.7

6.7

14 3.2

32 3.2

54.65

— 0.71

— 1.82

+ 12 46 8. 6

0 43.0

— 2.0

6

16 39. 3

34 39.3

54.66

0.77

— 1.68

+ 13 47 34.8

41.4

— 2.0

7

19 22.7

37 22.7

54. 06

0.80

— 1.63

+ 14 12 51.8

40.6

— 2.0

a " - .

24 39.4

42 39. 4

54.67

0.41

— 1.23

+ 7 20 35.6

52.0

— 1.6

8

28 33.5

46 33. 5

54. 68

1.34

— 0.88

+ 22 51 12.7

28.8

— 0.2

\H Geminorum

6

32 10.4

50 JO. 4

54.68

1.37

— 0.81

+ 23 14 27. 6

28.2

— 0.2

7

35 39. 0

53 39.0

54. 69

0. 93

— 1.48

+ 16 21 27. 0

37.6

— 1.8

. 7

37 48. 0

5 55 48.0

54. 69

1.35

— 0.83

-j- 23 6 50. 8

28.4

— 0.2

7

42 3.2

6 0 3.2

54.70

1.07

— 1.33

+ 18 42 20. 8

34.3

— 1.3

7

44 59.2

2 59.2

54.70

1.40

— 0.70

+ 23 46 42. 6

27.5

0.0

H " - ..

6 51 4. 7

9 4.7

54.71

1.32 — 0.92

+ 22 35 23.7

29.1

— 0.3

y " - -

7 6 25. 0

24 25. 0

54.73

0.94 — 1.47

+ 16 33 5.8

37.3

— 1.7

f '*

11 48.6

29 48.6

54.74

— 1. 50 !— 0. 30

+ 25 18 28. 4

0 25.7

+ 0.5

Sirius -

16 42.7

6 34 42.7

54. 75

+ 0.93

+ 1.67

— 16 25 14.0

2 7.2

— 0.-5

4) « Geminorum

8 1 55.9

7 19 55.9

54.81

— 2.01

+ 1.39

+ 32 19 23.2

0 17.5

+ 2.6

Piocyon -

9 8.1

27 8.1

54. 82

0.32

— 0.87

+ 5 45 14.2

55.0

— 1.5

(3 Geminorum

8 13 13.7

7 31 13.7

+ 0 54.83

— 1.73

+ 0.79

+ 28 30 33. 0

— 0 21. 8

+ 1.5

ir84

OCTOBEI

E 6 Ze

rocorr. ■-= + 1'41".8.

Sun . .

13 30 45.3

12 50 45. 3

— 5 44 30. 0

— 1 20.4

— 0. 5

13 32 55. 2

12 52 55.2

— 5 12 13.0

1 18.8

— 0.5

a Ophiuchi -

2

18 5 56.8

17 25 56. 8

— 0 57.24

— 0.72

— 1.86

+ 12 42 48. 6

0 41.9

— 2.0

j} " . - -

3

13 48.8

33 48. 8

57. 22

0.26

— 0.58

+ 4 39 28.7

55.8

— 1.4

y " • -

3

18 4.3

38 4.3

57. 22

0.15

— 0.25

-j- 2 47 28. 0

59.5

— 1.2

t) Herculis .

4

18 29 50. 4

17 49 50. 4

57. 20

2.44

+ 1.27

+ 37 15 57. 0

11.8

+ 3.5

e Pegusi .

6

21 53 11.5

21 13 11.5

56.86

0.33

— 0.91

+ 5 53 20. 6

53.6

— 1.5

8

56 47. 5

16 47. 5

56.85

0.51

— 1.73

+ 9 12 34.'3

47.8

— 1.8

6.7

21 58 48. 0

18 48.0

56.85

0.41

— 1.20

+ 7 15 22.8

56.9 — 1.6

Nebula

22 0 34.6

20 34.6

56.85

0.63

— 2. 98

+ 11 13 14.2

44.4 — 1.9

6.7

1 46.0

21 46.0

56.84

0.63

— 2.96

+ 11 11 10.8

44.6 !— 1.9

6.7

5 40. 7

25 40. 7

56.84

1.00

— 1.42

+ 17 21 44.2

35.4

— 1.6

5 Pegasi . .

6.5

8 41.7

28 41.7

56. 84

1.06

— 1.36

+ 18 20 33.2

34.1

— 1.4

7

11 2.1

31 2. 1

56.83

0. 54

— 2.01

+ 9 37 53. 4

47.1

— 1.8

6

13 2.5

33 2.5

56. 82

0.56

— 2. 18

+ 9 50 16. 6

46.8

— 1.8

e Pegasi - .

2.3

14 36.9

34 36.9

56. 82

0.50

— 1.62

+ 8 53 3. 2

48.3

— 1.8

7

17 23. 1

37 23. 1

56.82

0.72

— 1.84

+ 12 43 8. 4

42.2

— 2.0

7

20 4.1

40 4.1

56.81

0.84

— 1.59

+ 14 45 8.3

39.1

— 1.9

6.7

22 27. 7

42 27. 7

56.81

1.09

— 1.32

+ 18 48 34.0

33.4

— 1.3

6.7

24 30.3

44 30. 3

56.81

1.03

— 1.33

+ 18 38 41.4

33.7

— 1.4

- 7.8

25 11.2

45 11.2

56. 80

1.08

— 1.33

+ 18 41 40. 0

33.6

— 1.4

c) 17 " . -

6

27 27. 6

47 27.6

56.80

0.62

— 1.88

+ 112 46. 9

44.8

— 1.9

18 " - -

6

30 21.5

50 21. 5

56.80

— 0.32

— 0.85

-j- 5 40 56. 4

0 54.0

— 1.5

o Aquarii

6.5

33 7. 0

53 7.0

56. 79

+ 0. 18

+ 1.38

— 3 11 34.6

1 13.9 — 0.7

a li

3

35 40.5

55 40. 5

56. 79

+ 0.08

+ 0.86

— 1 21 54.2

1 9. 1 — 0. 7

7.8

37 53.2

21 57 53.2

56.78

— 0.48

— 1.52

+ 8 36 52.0

0 48.7

— 1.8

7.6

41 4.5

22 1 4. 5

56.78

1.07

— 1.34

+ 18 33 18. 0

33.8

— 1.4

7

22 45 41. 5

22 5 41.5

56.77

1.26

— 1.09

+ 21 26 42. 5

29.9

— 0.7

20 Pisoium

7

0 25 6. 7

23 45 6. 7

56.60

— 0.33

— 0.90

+ 5 51 53. 0

0 53. 7

— 1.5

27 " - -

5

28 36.0

48 30. 0

56.60

+ 0.26

+ 1.70

— 4 45 9.7

1 18.1

— 0.5

2D " ■ ■

5

31 44.3

51 44.3

56.59

+ 0.24

+ 1.63

— 4 13 44.8

1 16.5

— 0.6

7

36 32.9

23 56 32. 9

56. 58

— 1.65

+ 0.33

+ 27 20 15.7

0 22. 8

+ 1.1

7.6

41 55.6

0 1 55.6

56.58

1.66

+ 0.35

+ 27 23 44. 2

22.7

+ 1.1

d)

7.6

43 53.2

3 53. 2

56.58

2.00

+ 1.39

+ 31 59 23. 4

17.5 +2.5

6

50 31. 3

10 31.3

56.56

1.97

+ 1.37

+ 31 41 47. 5

17.8 + 2.4

28 Androm. .

6

0 59 47. 3

19 47. 3

56. 55

1.74

+ 0. 79

+ 28 32 37.2

21.4 + 1.5

7r "

4.5

1 6 25. 1

26 25. 1

56.54

2.04

+ 1.39

-j- 32 30 41.4

16. 9 + 2.6

6 " . .

3

8 50.7

28 50. 7

50. 53

1.82

+ 1.13

+ 29 39 40. 2

20.1 |+ 1.8

7

1 11 13.8

0 31 13.8

— 0 56.52

— 1.39

— 0.77

+ 23 25 44.2

— 0 27. 5 1— 0. 1

a Div. ass

iraed as

54 5 2; not 54 5

1.

c Micr. corr. assumed an ; ."j ; not -

-5.

b § assum

-A as 16°

31' 44"; not 16°

:si' 54".

4.

d Miu. ass'd as43in. and 44m. ; not 42

m. and 43m.

(126)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

127

t»S4 OCTOBER 6-Coulinned Zero corr. ^ + 1' 41". 8.

Name

Mag.

T

App. sid. time

Clock coir.

n tan <5

1

?-?

Reft!

<l'

-

It m s

h m s

m s

s

s

o / //

/ //

II

.".? Piscium .

6

1 16 19.3

0 36 19.3

— 0 56. 52

— 0.81

— 1.62

+ 14 17 7.6

— 0 39.8

— 2. 0

04 " . .

6.7

18 42.6

38 42.6

56.52

0.90

— 1.51

+ 15 45 44.4

37.7

— 1.8

6.7

22 41.3

42 41.3

56.51

2.34

+ 1.30

+ 36 13 37. 4

13.0

+ 3.3

/j. Androm. .

4.3

25 51.0

45 51.0

56.50

2.44

+ 1.27

+ 37 is 21.8

11.8

+ 3.6

Piscium

7

29 40.5

49 40. 5

56.50

0.30

— 0.75

+ 5 18 36.0

54.9

— 1.4

£ "

4

32 46.9

52 46. 9

56.49

0. 38

— 1.08

+ 6 43 5.2

52.3

— 1.6

73 " . .

6

34 43. 5

54 43.5

56. 49

0. 25

— 0. 55

+ 4 29 23. 4

56.5

— 1.3

e " - .

5.6

38 17.0

0 58 17. 0

56.48

0.25

— 0. 55

+ 4 29 51.2

50. 5

— 1.3

6.7

42 18.6

1 2 18.6

56.48

2.07

+ 1.40

+ 32 55 51.4

16.5

+ 2.7

6.7

45 21.3

5 21.3

56.47

2.00

+ 1.38

+ 31 57 13.9

17.6

+ 2.5

7

47 37.8

7 37.8

56.47

2.34

+ 1.30

-(- 36 13 34.6

13.0

+ 3.3

7.8

50 4;'.. 7

10 43.7

56.46

2.92

+ 1.46

+ 42 25 36.8

0.5

+ 4.6

6.7

54 55. 6

14 55.6

56.46

2.11

+ 1.40

+ 33 26 15". 2

16.0

+ 2.8

6.7

55 55. 0

15 55. 0

56.45

2.10

+ 1.40

+ 33 14 0. 0

16.2

+ 2.7

( Androm. -

1 58 16.0

18 16.0

56.45

3.30

+ 2.34

+ 45 51 51.7

3.0

+ 5.3

8

2 1 29.3

21 29.3

56.44

0.91

— 1.50

+ 15 49 52. 6

37.6

— 1.8

7.8

4 12.5

24 12.5

56.44

1.00,

— i.42

+ 17 20 27. 2

35. 5

— 1.6

8

8 42.2

28 42.2

56.43

2.54

+ 1.27

+ 38 28 1.0

10.6

+ 3.8

2 Arietis .

6

11 50.7

31 50.7

56. 43

1.11

— 1.30

+ 19 12 1.6

33.0

— 1.3

8

J4 12.9

34 12.9

56.42

1.10

— 1.31

-f- 18 59 12. 2

33.2

— 1.3

")

7

35 31.9

55 31.9

56. 39

1.47

— 0.48

13 " . .

6

35 39. 4

55 39.4

56.39

1.47

— 0.48

+ 24 39 5. 0

2S.0

+ 0.2

/3 Triangnli .

4

37 46. 4

1 57 46.4

56.38

2.15

+ 1.39

+ 33 56 18.7

15.4

4- 2.9

42 Coti . .

6

41 0.5

2 1 0.5

56.38

0.42

— 1.28

+ 7 32 37. 6

50. 7

— 1.7

£ -

5.6

42 37. 0

2 37.0

56.38

0.44

— 1.32

+ 7 49 8.5

50. 3

— 1.7

7

46 3.0

6 3.0

56.37

1.35

— 0.87

+ 22 44 45.9

28. 5 „

28.2'

— 0.2

8

46 7.2

6 7.2

56.37

1.35

— 0.88

+ 22 51 0. 0

-0.2

6.7

48 31.1

8 31.1

56.37

1.78

+ 1.05

+ 29 10 16.2

20.7

+ 1.6

7.8

51 33.3

11 33.3

56.36

2.19

+ 1.37

+ 34 25 48.2

14.9

+ 3.0

6

55 43. 7

15 43.7

56.35

1.56

— 0.10

+ 26 1 9. 0

24.4

+ 0.7

6

2 59 12.2

10 12.2

56.35

1.44

— 0.59

+ 24 15 11.4

26.5

+ 0.1

» 7

3 2 18.6

22 18.6

56.34

2.06

+ 1.40

+ 32 48 50. 0

16.6

+ 2.7

!>)

7

6 1.7

26 1.7

56.34

2.39

+ 1.28

+ 36 45 39.8

12.4

+ 3.5

c)

q Persei . .

4.5

9 43.3

29 43. 3

56.33

2.61

+ 1.28

+ 39 14 51. 8

9.8

+ 3.9

37 Arietis .

6.7

13 20.2

33 20.2

56.32

0.97

— 1.44

+ 16 49 43.8

36.3

— !.7

8.9

16 9.9

36 9.9.

56. 32

1.34

— 0.90

+ 22 42 21.8

28.4

— 0.3

41 " . .

5.6

18 20. 8

38 20. 8

56.32

1.58

— 0. 02

+ 26 20 38. 3

24.0

+ 0.8

ft

7

21 26.2

41 26.2

56.31

1.90

+ 1.28

+ 30 43 54. 3

18.9

+ 2.1

7.8

23 38. 3

43 38. 3

56.31

1.13

— 1.28

+ 19 28 14.2

32.6

— 1.2

P " - -

6.7

25 18.9

45 18.9

56.30

0.98

— 1.42

+17 8 25. 2

35.7

— 1.7

c "

6.5

27 56.5

47 56.5

56.30

1.19

— 1.20

+ 20 27 10. 1

31.3

— 1.0

49 " . .

6

30 14.6

50 14.6

56.30

1.53

— 0.23

+ 25 34 51.2

24.9

+ 0.6

p Persei -

4

32 25. 8

52 25. 8

56.29

2.50

+ 1.27 + 37 58 10.2

11. 1

+ 3.7

fi " - -

4

35 13. 5

55 13.5

56.29

2.69

+ 1.31 + 40 5 18.8

8.9

+ 4.1

7

39 0.6

2 59 0. 6

56.28

2.83

+ 1 39

+ 41 31 23.8

7.4

+ 4.4

a "

2.3

50 1.7

3 10 1.7

56. 26

3.68

+ 3.26

+ 49 3 2.6

0.2

+ 5.6

6

51 44.4

11 44.4

56. 26

3.59

+ 3.10

+ 48 19 3. 1

0.5

+ 5.5

5.6

53 48.5

13 48.5

56.26

3.58'

+ 3.0a

+ 48 16 0.0

0.6

+ 5.5

34 " . .

5

55 3.1

15 3. 1

56.25

3.64

+ 3.19

+ 48 43 5. 2

0.1

+ 5.6

4 Tauri . .

6

3 59 41.1

19 41.1

56. 25

0.60

— 2. 67

+ 10 34 22.6

45.8

— 1.9

7.6

4 2 53. 9

22 53. 9

56. 24

0.98

— 1.42

+ 17 5 58.4

35.9

— 1.7

9 " . .

7

5 20.7

25 20. 7

56.24

1.32

— 0.94

-j- 22 28 8.2

28.6

— 0.4

8.9

7 20.2

27 20.2

56. 23

1.42

— 0.66

+ 23 58 11.4

26. 9

0.0

11 " . .

7

8 56.7

28 56. 7

56.23

1.47

— 0.50

+ 24 36 4.8

26.1

+ 0.2

8

11 15.3

31 15.3

56.23

1.49

— 0.38

+ 24 57 47.4

25. 7

+ 0.4

m "

13 21.0

33 21.0

56. 22

1.43

— 0. 61

+ 24 7 53.6

26.7

0. 0

rj Pleiadum .

3

15 43.5

35 43.5

56. 22

1.38

— 0.78

+ 23 24 29. 7

27.6

- 0.1

/ " - -

6

17 24.0

37 24. 0

56. 22

1.38

— 0.79

-j- 23 21 49. 1

27.7

— 0. 1

7.8

21 38.3

41 38.3

56.21

1.49

— 0.38

+ 25 0 35.9

25. 6

+ 0.4

6.7

22 56.8

42 56. 8

56.21

1.88

+ 1.23

+ 30 22 33.4

19.4

+ 2.0

'1)

7.8

25 13.2

45 13.2

56. 20

2.17

+ 1.38

+ 34 9 17.0

15.2

+ 2.9

•)

8

28 9.6

48 9.6

56.20

2.35

+ 1.30

+ 36 20 28. 9

12.8

+ 3.4

A Tauri .

6.5

4 32 59. 8

3 52 59. 8

— 0 56. 19

— 1.26

— 1.09

+ 21 27 45. 0

— 0 30. 1

— 0.7

a § assume

las that

A a star whose c

italogue placo

c I assumed as SP 36' 1 3" ; not 9° 36

43".

is T 30'

Oven th

at of 13 Arietta.

d g assumed as 14° 41' 48"; not 14° -

U' 19".

b Div. assu

med as 1

2 14 6 ; not 12 14

8.

•*

e T. Ill assumed as 28m. ; not 38m.

(127)

128

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

17M4 OCTOBER *

Zo

*o corr. = + 1' 39". 5.

Name

Mag.

T

App. sid. time

Clock corr.

n tan S

1

f— 0

Refr.

?'

k 111 s

h in s

m s

s

s

c i n

/ //

II

8

0 52 29.7

0 12 29.7

— 0 51.87

— 1.73

+

0.67

+ 28 14 28. 8

— 0 21.9

+ 3-4

a)

7.8

0 58 57. 8

18 57. 8

51.86

1.68

+

0.42

+ 27 36 59. 8

22.6"

+ 1.2

6

1 4 36. 0

24 36.0

51.85

2.31

+

1.32

+ 35 37 23. 4

13.7

+ 3.2

it Androm. .

4.' 5

G 20.2

26 20. 2

51.85

2.05

+

1.39

+ 32 30 42.9

17.1

+ 2.6

54 Piscium

6

9 7.5

29 7.5

51.84

1.17

1.23

+ 20 4 18. 0

31.9

— 1.1

7.8

10 37.5

30 37.5

51.84

1.16

—

1.24

+ 19 49 19.4

32.2

— 1.1

57 " . .

6

16 14.6

36 14. G

51.83

0.82

—

1.G2

+ 14 17 9.1

40.0

— 2.0

G4 " . .

6

' 18 37. 4

38 37. 4

51.83

0.91

—

1.51

+ 15 45 46. 1

37.8

— 1.8

6.7

22 36. 5

42 36.5

51.82

2.36

+

1.30

+ 36 13 35. 0

13.0

+ 3.3

GG " . .

6

26

44

+ 18 0 14.0

34.7

— 1.5

2/i " . .

6

27 8. 3

47 8.3

51.81

1.69

+

0.49

+ 27 48 25. 0

22.4

+ 1.2

( 1

7

29 35. 5

49 35.5

51.81

0.30

0.75

+ 5 18 36. 8

55.1

— 1.4

f " . ..

4

32 42. 3

52 42. 3

51.80

0.-38

,—

1.08

+ 6 43 5.4

52.4

— 1.6

70 " - .

6

37 22. 5

0 57 22. 5

51.80

1.15

—

1.26

+ 19 34 32.2

32.6

— 1.2

83 t " . .

5

40 45.5

1 . 0 45. 5

51.79

1.78

+

0.93

+ 28 55 31.0

21.1

+ 1.6

6

42 5.2

2 5.2

51.79

1.78

+

0.93

+ 28 53 59. 0

21.1

+ 1.6

7

43 12.6

3 12.6

51.79

1.G7

+

0.33

+ 27 22 8.0

22.9

+ 1.1

v "

5

48 35.7

"8 35.7

51.78

1.57

0.08

+ 26 6 34. 4

24.4

+ 0.7

92 " - -

7

53 14.7

13 14.7

51.77

0.96

—

1.45

+ 16 40 41.6

36.6

— 1.7

P " - -

5

1 55 37. 1

15 37. 1

51.76

1.05

—

1.39

+ 18 1 53.0

34.7

— 1.5

v " - -

4

2 0 55. 9

20 55. 9

51.76

0.82

—

1.63

+ 14 13 4.4

40.2

— 2.0

b) 101 " . .

7

5 13.3

25 13.3

51.75

0.78

—

1.71

+ 13 32 33.2

41.2

— 2.0

104 " " . .

7

8 41.4

28 41.4

51.75

0. 75

—

1.77

+ 13 10 30.2

41.7

— 2.0

107 " . -

6

11 46.7

31 46.7

51.74

1.12

—

1.30

+ 19 12 3.3

33.1

— 1.3

109 " - -

6.7

14 8.5

34 8.5

51.73

1.11

—

1.31

+ 18 59 14. 4

33.4

— 1.3

4 Arietis -

G.7

17 28. 1

37 28. 1

51.73

0.92

—

1.50

+ 15 51 49.6

37.8

— 1.8

'

6.7

21 1.5

41 1.5

51.72

1.00

—

1.42

+ 17 12 37. 8

35.8

— 1.7

8.9

24 11.2

44 11.2

51.72

0.72

—

1.90

+ 12 40 47.8

42.5

— 2.0

i "

6

26 33. 4

46 33. 4

51.71

0.96

—

1.45

+- 16 44 47.4

36.5

— 1.7

6.7

28 37. 0

48 37. 0

51.71

1.17

—

1.23

+ 19 59 29. 0

32.0

— 1.1

11 " - -

6.7

32 23. 8

52 23. 8

51.70

1.50

—

0.41

+ 24 52 24. 4

25.9

+ 0.4

7.8

33 7.2

53 7.2

51.70

1.50

—

0.42

+ 24 51 41.0

25.9

+ 0.4

13 " . .

6.7

35 34.8

55 34.8

51.70

1.48

—

0.48

+ 24 39 9. 4

26.1

+ 0.3

6.7

38 31.3

1 58 31.3

51.69

0.94

—

1.48

+ 16 11 37.4

37.2

— 1.8

15 " . .

6

-f- 18 27 46. 0

34.1

— 1.4

y "

6

41 42.6

2 1 42.6

51.69

1.19

—

1.22

+ 20 10 35.2

31.8

— 1. 1

8

42 52.7

2 £2. 7

51.68

1.08

—

L34

+ 18 35 3.0

34.0

— 1.4

7

45 58. 6

5 58.6

51.68

1.35

—

0.89

+ 22 44 49.2

28.-5

-JL3

+ 1.6

7

48 26. G

8 26. 6

51.08

1.80

+

1.05

+ 29 10 21.2

20.8

8

51 28.6

11 28.6

51.67

2.20

+

1.37

+ 34 25 49. 2

14.9

+ 3.0

8

54 30.2

14 30.2

51.67

1.45

0.60

+ 24 9 38.0

26.7

0.0

6.7'

55 38. 9

15 38.9

51. GG

1.57

—

0.11

+ 26 1 13.2

24.5

+ 0.7

2G " . -

6

2 59 32. 4

19 32.4

51.66

1.11

—

1.32

+ 18 52 31.6

33.6

— 1.3

29 " . -

7

3 2 4.5

22 4.5

51.65

0.81

—

1.65

+ 14 3 35.4

40.4

— 2.0

32 " - -

5.6

5 52. 1

25 52. 1

51. 65

0.65

—

3.01

+ 11 29 36. 1

44.3

— 1.9

33 " . .

G.5

9 4.3

29 4.3

51.64

1.58

—

0.08

+ 26 6 29. 0

24.4

+ 0.7

35 " . .

4

11 46. 9

31 46.9

51. G4

1.62

+

0.11

+ 26 45 45. 3

23.6

+ 1.0

O

8.9

16^5.4

36 5.4

51.63

1.35

0.90

+ 22 42 25. 0

28.6

-0.3

16 Trianguli .

7

17*12. 4

37 12.4

51.63

1.45

—

0.59

+ 24 15 43.2

26.5

+ 0.1

8

19 29. 7

39 29.7

51.62

1.06

—

1.37

+ 18 14 53.4

34.4

— 1.5

p5 Arietis . -

6.7

24 40.7

44 40.7

51.62

1.01

—

1.41

+ 17 26 5.0

35.5

— 1.6

p' " - -

G.7

25 14.9

45 14.9

51.61

0.99

—

1.42

+ 17 8 25.2

35.9

— 1.7

e " - -

5

27 51.7

47 51.7

51.61

1.20

—

1.20

+ 20 27 11.2

31.4

— 1.0

52 " . .

6

33 46. 4

53 46. 4

51.60

1.46

—

0.55

+ 24 23 18. 8

26.4

+ 0.1

54 " - -

6.7

37 6.8

2 57 6. 8

51.59

1.05

—

1.39

+ 17 56 34.2
+ 18 31 53.0

34.8
34.0

— 1.5

— 1.4

56 " - -

G

40 21.8

3 0 21.8

51.59

1.60

0.00

+ 26 24 52. 8

24.1

+ 0.8

59 ■ " . .

7

48 1.8

8 1.8

51.58

1.59

—

0.04

+ 26 15 40. 7

24.2

+ 0.8

48 37. 1

8 37.1

51.58

1. 49

—

0. 42

+ 24 51 24. 0

25.9

+ 0.4

64 Arietis . .

6

52 33. 3

12 33. 3

51.57

1.43

—

0.67

+ 23 55 52. 3

27.1

0. 0

7.8

3 58 30. 8

18 30. 8

51.56

0.92

—

1.49

+ 15 59 41.9

37.7

— 1.8

7 Tauri . .

6

4 2 39. 0

22 39. 0

51.55

1.41

—

0.72

+ 23 42 43. 3

27.3

0.0 !

9 " . .

7

5 16.3

25 16.3

51.55

1.33

—

0. 94

+ 22 28 8. 7

28.9

— 0.4 1

8

7 16.0

27 1G. 0

51.54

1.43

—

O.GG

+ 23 58 15. 4

27.0

0.0

11 " . .

G.7

4 8 51.9

3 28 51.9

— 0 51.54

— 1.48

—

0.51

+ 24 36 6.2

— 0 26. 2

+ 0.2

a T. Ill assumed as 24;

. ; not 3

Is.

b g assumed as 3

5°*8'; not 35°

33'.

c S

assumed as 26° 8' 4

)" ; not 26° 8' 50".

(128)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

129

1784 OCTORKR S-Couliiiunl Zero corr. = + 1' 39". 5.

Name

Mag.

T

App.sid. time

Clock corr.

n tan <S

?

i~<P

Refr.

?'

/t m s

It m s

m s

s

s

O ' '

/ //

n

13 Tauri . .

G.7

4 12 17.8

3 32 J 7. 8

— 0 51.54

— 1.11

— 1.31

4 18 57 23. 0

— 0 33.5

— 1.3

i) Pleiadnm .

3

15 38.7

35 38. 7

51.53

1.40

— 0. 77

4 23 24 31.4

27.8

— 0.1

6

17 20.5

37 20.5

51.53

1.40

— 0.79

4 23 21 51.1

27.8

— 0.1

8

22 21. 1

42 21. 1

51.52

1.26

— 1.11

4 21 16 3(1. 0

30.4

— 0.7

6

25 5.7

45 5.7

51.51

1.29

— 1.04

4 21 40 37. 2

29.7

— 0.6

6.7

29 32. 0

49 32.0

51.51

1.15

— 1.27

4 19 33 59.9

32.7

— 1.2

37 Tauri . .

5

4 32 55. 5

3 52 55. 5

— 0 51.50

— 1.26

— 1.08

4 21 27 48. 4

— 0 30.2

— 0.7

t»S4

OCTOBER {) Zero corr. = + V 38". 6.

a Ophiuchi .

2

18 7 49.8

17 25 49. 8

— 0 50. 21

— 0.73

— 1. 84 + 12 42 50. 9

— 0 42. 0

— 2.0

P - -

3

15 42. 0

33 42.0

50. 19

0.26

— 0.58 !+ 4 39 31.7

55.6

— 1.4

7 " - -

4

18 19 57.3

17 37 57.3

50. 19

0. 15

— 0.25 '-\ 2 47 29.0

59.5

— 1.2

a Lyrse . -

1

19 12 30.8

18 30 30.8

50. 10

2.58

+ 1.27

4 38 34 9. 2

10.4

4 3.8

6 C " . .

5

18 13.8

38 13.8

50. 09

2.46

+ 1.27

4 37 21 59. 6

11.7

4 3.6

5

18 15.8

38 15.8

50. 09

2.46

+ 1.27

4 37 21 28. 0

11.7

4 3.6

v " . .

6

22 37. 0

42 37.0

50. 08

— 2.06

4 1.39

4 32 33 12.5

0 16.8

4 2.6

9 If Aquilse .

5.4

26 20.6

46 20. 6

. 50. 07

4 0.34

+ 1.83

— 6 6 57. 4

1 21.7

— 0.5

£ "

3.4

30 44. 5

18 50 44. 5

50. 07

— 0.85

— 1.59

4 14 46 20. 8

0 38.8

— 1.9

19 Lyrse . .

6

46 24. 0

19 4 24.0

50. 04

2. CO

+ 1.28

4 38 48 0.6

10.2

4 3.9

47 35.9

5 35.9

50.04

2.62

4 1.28

4 39 2 40.2

9.8

4 3.9

20 i, " . .

5

49 17.8

7 17.8

50.04

2.59

4 1.28

4 38 45 43. 6-

10.4

4 3.9

u Aquilse

6.7

50 36.5

8 36.5

50.04

0.63

— 2.43

4 11 12 19.4

44.4

— 1.9

7.6

52

10

4 11 8 0.0

44.5

— 1.9

7.6

55 26. 1

13 26.1

50.03

0.54

— 1.91

4 9 29 40.0

47.1

— 1.8

b " . .

6

57 36. 3

15 36.3

50. 02

0.65

— 3.01

4 11 28 57.8

44.0

— 1.9

4 Vnlpeculse

6

58 54. 7

16 54.7

50. 02

1.13

— 1.29

4 19 22 21.6

32.5

— 1.2

6

19 59 56.8

17 56. 8

50.02

1.13

— 1.27

4 19 27 34. 2

32.4

— 1.2

7

20 2 50. 5

20 50.5

50. 02

1.17

— 1.24

4 19 49 52. 1

31.8

— 1.1

7.8

4 35.2

22 35.2

50.01

2.32

+ 1.31

4 35 49 18. 4

13.3

4 3.3

6

5 51.4

23 51.4

50. 01

— 2. 32

+ 1.31

4 35 45 47.2

0 13.4

4 3.3

i Antiuoi

4.5

8 25.1

26 25. 1

50.01

+ 0.10

+ 1.00

— 1 45 27. 6

1 10.0

— 0.7

a)

7

10 53.7

28 53. 7

50. 00

— 0. 17

— 0. 27

4 2 53 43. 6

0 58.1

— 1.2

6

12 49. 3

30 49. 3

50. 00

3.14

+ 1.72

4 4i 12 4.4

4.6

4 4.9

14 Cygni . .

6

15 18.3

33 18.3

49. 99

2.94

4 1.45 4 45 18 17.4

6.6

4 4.5

7

16 35.3

34 35. 3

49. 99

2.97

4 1.47 4 42 33 36.8

6.3

4 4.6

6

19 22. 8

37 22.8

49.99

2.41

4 1.28 4 36 49 16.4

12.2

4 3.5

6.7

22 41.7

40 41.7

49.97

2.52

4 1.27 !4 37 51 40.5

11.2

4 3.7

t>)

7

36 30.3

54 30.3

49.96

1.04

— 1.40 4 17 53 44.0

34.5

— 1.5

q Sagiltse

6

38 29. 8

56 29. 8

49. 90

1.14

— 1.28 4- 19 22 6.0

32.5

— 1.2

17 Vnlpeculse

6

40 31.6

19 58 31. 6

49.95

— 1.37

— 0.86

4 22 59 15.5

0 27.9

— 0.2

6 Aquilse

4.5

43 1.0

20 1 1.0

49. 95

+ 0.08

4 0.89

— 1 27 13.5

1 9.2

— 0.7

6.7

44 56. 5

2 56. 5

49.95

+ 0.08

4 0.95

— 1 38 54. 9

1 9. 7

— 0.7

8

48 14.3

6 14.3

49.94

— 1.26

— l.KI 4 21 18 52.3

0 30.1

— 0.7

7

49 45.5

7 45.5

49. 94

1.43

— 1.15 4 20 55 57.2

30.9

— 0.8

7.8

52 15.3

10 15.3

49.93

1.21

— 1.19 !4 20 31 54.2

31.0

— 0.9

7

55 2.7

13 2.7

49. 93

1.31

— 0. 99 4 22 9 33. 4

28.9

— 0.5

A Cygni . .

5

20 58 7. 5

16 7.5

49. 92

1.98

4 1.36 4 31 29 5.2

18.0

4 2.3

8

21 1 11.2

19 11.2

49. 92

2.68

4 1.29 4 39 40 53.2

9.3

4 4.0

6 " . .

6

2 27. 9

20 27. 9

49. 92

2.50

4 1.27 4 37 43 10.0

11.4

4 3.6

7

3 59. 6

21 59.6

49.91

2.32

4 1. 31 1+ 35 43 24. 0

13.5

4 3.2

7

5 40.9

23 40. 9

49. 91

2.36

4 1.30 4 36 11 49.2

12.9

4 3.3

f Delpliini .

6

8 7.3*

26 7.3

49.91

0.81

— 1.06 i+ 13 55 41.0

40. 1

— 2.0

7 k " . .

6

11 33.6

29 33.6

49. 90

0.53

— 1.80 4 9 19 35.5

47.4

— 1.8

0

7

13 53.8

31 53.8

49.89

1.12

— 1. 30 4- 19 8 59. 3

32.9

— 1.3

a Cygni .

2

16 57.7

34 57.7

49. 89

3. 16

4 1.79 4 44 29 37.8

4.4

4 5.0

30 VulpeeuliB

6

4 24 29 32. 0

26.1

4 0.2

9

23 46. 8

41 46.8

49.88

1.62

4 0.04

4 26 34 0.0

23.6

4 0.9

7

25 12.4

43 12.4

49.88

1.67

4 0.36

4 27 26 3. 2

22.6

4 Li

32 q " . .

5

. 28 15.5

46 15.5

49.87

1.66

4 0.28 4 27 13 45.6

22.9

4 l-l

33 " . .

6

31 32.7

49 32.7

49.87

1.27

— 1.08 4 21 29 11.6

29.9

— 0.7

8

32 19.3

50 19.3

49.87

1.27

— 1.08 4 21 30 26.0

29.9

— 0.7

7

21 35 30. 8

20 53 30. 8

— 0 49. 86

— 2. 27

4 1.33

4 35 10 7.8

— 0 14.0

4 3.1

a

£ assumed as 45° 57' ;

not 45°

56'.

b g assumed as 3

)J5?'21"; not

31P 57' 31". c I assumed as 29° 42'

6" ; not 29° 42' 16".

17

(129)

130

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

1784 OCTOBER 9— Continued Zen

corr. = + 1' 38".6.

Name

Mag.

r

App. sid. time

Clock corr.

n tau (S

'I

Z— <j,

Refr.

'/

h m s

h m s

m s

s

s

O 1 n

/ //

//

8

21 39 2.8

20 57 2.8 -

- 0 49.85

-1.17 -

- 1.23

4-20 4 49. 4 -

- 0 31.6 -

- 1.1

«)

6

42 23. 1

21 0 23. 1

49.85

1.81

+ 1.07 + 29 19 30.0

20.5 + 1.7

7

45 17.2

3 17.2

49 84

2.29

+ 1.32

4- 35 24 19.9

13.8 +3.2

6

21 47 50.7

5 50.7 ,

49. 84

1.79

+ 0.98

4- 29 0 1.8

20.8

+ 1.6

e Pegasi . .

3

22 16 30. 0

34 30.0 1

49.79

0.51 -

- 1.61

4- 8 53 4. 9

48.2 ■

- 1.8

81 nfCygni . .

5

21 42.8

39 42.8

49. 76

3.62

+■ 3.09

4- 48 17 37.6

0.6

f 5.5

7

25 4.2

43 4.2

49.78

2.56

4-1.27 -f- 38 30 45.4

10.5

f 3.8

7.8

28 9.3

46 9.3

49. 77

1.16

— 1.24

-f- 19 49 16.4

32.0

- 1.2

9

32 1.8

50 1.8

49.77

1.77

4- 0.91

4- 28 47 44. 3

21.0

4- 1.5

7

37 8.8

21 55 8 8

49. 76

3.10

-j- 1.60

4- 43 35 37.2

5.3

-1-4.8

6.7

53 53. 4

22 11 53.4 '

49.73

1.56

— 0.16

4- 25 50 23. 6

24.4

4- 0.7

33 Pegasi - .

6

56 12.4

14 12.4

49. 73

1.16

— 1.25

4- 19 45 2. 1

32.1

— 1.0

7

22 58 11.4

16 11.4 1

49.72

1.01

— 1.42

+ 17 20 27. 4

35.3

— 1.6

7

23 0 58.2

18 58.2 |

49. 72

1.41

— 0.73

4- 23 40 57. 6

27.0

— 0.1

7.6

4 28.5

22 28. 5

49.71

1.74

+ 0.75

4- 28 25 34. 6

21.4

+ 1.4

6.7

5 49.5

23 49.5

49.71

2.59

+ 1.27

4- 38 39 21.0

10.4

+ 3.8

7.8

9 11.0

27 11.0

49. 70

2.57

+ 1.27

+ 38 29 51.5

10.5

+ 3.8

I 1 Lacertse .

6.5

13 58.7

31 58.7

49. 70

3.02

+ 1.53

+ 43 7 59. 7

5.7

+ 4.7

// ) i Pegasi .

3

- 15 47.7

33 47.7

49. 69

1.79

+ 1.01

4- 29 4 54.0

20.7

+ 1.6

X " . .

4

19 4.5

37 4.5

49. 69

1.33

— 0.95

4- 22 25 16.5

28.6

— 0.4

p " . .

4

23 22 31.3

22 40 31. 3

49. 68

1.40

— 0.77

4- 23 27 7.5

27.4

— 0.1

7.8

1 14 33.0

0 32 33.0

49. 49

0.89

— 1.53

+ 15 28 17.2

38.1

— 1.9

57 Piscium .

6

18 12.3

36 12.3

49.49

0.83

— 1.62

4- 14 17 10.4

39.8

— 2.0

64 " . -•

6

20 35. 1

38 35. 1

49. 49

0.91

— 1.50

4- 15 45 47. 1

37.7

— 1.8

6

26 6.8

44 6.8

49.48

1.05

— 1.39

+ 18 0 15.3

34.5

— 1.5

68 " - .

6

29 6.0

47 6.0

49. 47

1.69

-f- 0.49

4- 27 48 27. 6

22.2

+ 1.3

6

33 45. 1

51 45.1

49.46

2.71

+ 1.32

+ 40 9 40.6

8.9

+ 4.1

31 " . .

6

37 3.9

55 3.9

59. 46

1.19

— 1.21

4- 20 18 5.4

31.5

— 1.0

6

37 5.0

55 5.0

49. 46

1.19

— 1.21

+ 2H 17 41.6

31.5

— 1.0

f " . .

6

39 i

0 57 i

+ 19 34 34.0

32.4

— 1.2

9 " . .

6

42 9.3

1 0 9.3

49.45

1.88

+ 1.22

+ 30 15 24. 0

19.5

+ 2.0

<p " . .

5

44 58.9

2 58.9

49.44

1.40

— 0.77

+ 23 25 21.6

0 27.5

— 0.1

89 " - .

6

49 34.2

7 34.2

49.44

0.13

— 0.19

+ 2 28 13.9

1 0.6

— 1.1

8.9

53 28. 5

11 28.5

49.43

0.85

— 1.60

+ 14 38 49. 1

0 39. 4

— 1.9

92 " . .

7

55 12.0

13 12.0

49. 43

0.97

— 1.46

+ 16 40 43.5

36.4

— 1.7

98 " .

7

- 1 59 22. 3

17 22.3

49. 42

0. 24

— 0. 50

+ 4 13 51.0

0 56.9

— 1.3

9

2 3 59.3

21 59.3

49.41

0.15

— 0.21

+ 2 33 56. 3

1 0.4

— 1.1

55 Mayer .

8

6 29.2

24 29.2

49.41

0.40

— 1.18

+ 7 9 34. 4

0 51.3

— 1.6

n Piscium

5

8 37.4

26 37. 4

49. 40

0.63

— 2.88

+ 11 1 27.8

44.9

— 1.9

57 Mayer .

7.8

9 9.6

27 9.6

49.40

0. 63

— 2. 87

+ 10 59

107 Piscium

6

13 44. 1

31 44.1

49. 40

1.12

— 1.30

+ 19 12 4.3

33.0

— 1.3

109 " . .

6.7

16 5.7

34 5. 7

49. 39

1.12

— 1.31

+ 18 59 15.2

33.2

— 1.3

7

19 10.0

39 10.0

49.38

1.25

— 1.11

+ 21 11 3.0

30.3

— 0.8

8

21 5.8

41 5.8

49.38

1.37

— 0.85

+ 23 1 42. 8

28.0

— 0.2

y Arietis .

4

24 38.2

42 38. 2

49.38

1.06

— 1.37

+ 18 13 13.7

34.3

— 1.5

t ''

6

28 30.6

46 30. 6

49.37

0.97

— 1.45

+ 16 44 50. 8

36.3

— 1.7

8

32 28. 1

50 28. 1

49.36

1.32

— 0.96

+ 22 19 52.2

28.8

— 0.4

9

35 31.8

53 31.8

49.36

0.40

— 1.16

+ 7 2 52. 2

51.7

— 1.6

a " . .

2

37 57.7

55 57.7

49.36

1.33

— 0.95

+ 22 25 16. 0

28.8

— 0.4

16 " . .

7

41 37.2

1 59 37.2

49.35

1.08

— 1.35

+ 18 27 46.2

34.0

— 1.4

7

52 52. 3

2 10 52. 3

49.33

1.30

— 1.03

+ 21 51 54. 0

29.5

— 0.5

7.8

56 27. 8

14 27. 8

49. 32

1.44

— 0.60

+ 24 9 37. 8

26.5

0.0

13 Triauguli .

7

2 59 5.4

17 5.4

49. 32

1.79

+ 0.95

+ 28 56 4. 8

21.0

+ 1.6

14 " . .

6

3 1 53.5

19 53.5

49.31

2.27

+ 1.33

+ 35 9 36. 6

14.1

+ 3.1

8

5 44.5

23 44. 5

49.31

0.61

— 2.71

+ 10 38 25.7

45.6

— 1.9

v Ceti . .

4.5

7 27.9

25 27. 9

49.31

— 0.26

— 0.57

+ 4 38 18.8

0 56. 3

— 1.4

o "

3

11 18.5

29 18.5

49.30

'+ 0. 04

+ 0.58

— 0 36 44. 9

1 7.5

— 0.7

y '• . .

3

15 1.3

33 1.3

49.29

— 0. 13

— 0.16

+ 2 18 49.7

1 0.9

— 1.0

10 Triauguli .

6.7

19 10.2

37 10.2

49. 29

1.46

— 0.58

+ 24 15 44. 0

0 26.4

+ 0.1

7.8

23 19. 3

41 19.3

49.28

1.92

+ 1.28

+ 30 43 58. 2

19.0

+ 2.1

6

27 19.5

45 19.5

49. 27

2.50

+ 1.27

+ 37 42 53. 4

11.4

+ 3.0

X Ceti . .

5.6

31 4.6

49 4.6

49. 27

0.45

— 1.37

+ 8 1 49.2

49.9

— 1.7

a "

2

33 54. 3

51 54.3

49.26

0.18

— 0.32

+ 3 13 44.9

58.9

— 1.2

13 Persei .

2.3

3 37 6.3

2 55 6. 3

— 0 49. 26

— 2.71

+ 1.31

+ 40 5 19.8

— 0 8.9

+ 4.1

a T. Ill a

ssumecl t

a 40m. 498.5; no

40m. 41s.5.

b T. IH assumed as 14m. Hs. ; not

14m. 7a.

(130)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

131

17S4 OCTOBER 9— Continued

Zero corr. = + 1' 38". (i.

Name

Ma".

y

App. sid. time

Clock corr.

n tau (S

'/

C-0

Rofr.

'/'

A m s

h m s

m s

s

s

O 1 II

/ 1/

„

8

3 40 15. 2

2 58 15.2

— 0 49. 25

- 1.08

—

1.34

+ 18 31 59.2

— 0 33. 9

— 1.4

57 (5 Arietis .

4

42 19.8

3 0 19.8

49. 25

— 1.60.

+

0.02

+ 26 24 55.4

0 23. 9

+ 0.8

a) a Fomacis .

3

45 41.1

3 41.1

49.24

+ 1.85

+

4.79

— 29 47 5. 6

4 38.6

— 5. 3

a Persei .

2.3

51 54.5

9 54.5

49. 23

— 3.71

+

3.26

+ 49 3 1.6

0 0.2

+ 5. 6

o Tauri .

4

56 7.8

14 7.8

49. 23

0.47

1.42

-j- 8 15 1.0

49.4

— 1.7

»)

7.8

58 22. 5

16 22. 5

49. 22

0.69

—

2. 62

+ 11 57 35.0

43.4

— 2.0

7.8

3 59 46. 1

17 46. 1

49. 22

0.61

—

2.70

+ 10 37 19.0

45.6

— 1.9

Tauri . .

6

4 1 33.7

19 33.7

49. 22

0.61

—

2.67

+ 10 34 31.8

45.8

— 1.9

7

4 47.3

22 47. 3

49. 21

0.99

—

1.42

+ 17 6 4.4

35.8

— 1.7

9 " . .

7

7 13.6

25 13.6

. 49.21

1.33

—

0.94

+ 22 28 12. 0

28.8

— 0.4

11 " . .

7

10 49.3

28 49. 3

49. 20

1.48

—

0. 50

+ 24 36 7.4

26.1

+ 0.2

g Pleiadum .

7

14 55. 0

32 55. 0

49.19

1.42

—

11.75

+ 23 34 51.0

27.4

— 0.1

It " . .

5

15 0.5

33 0.5

49. 19

1.40

—

0.78

+ 23 24 25. 0

27.6

— 0. 1

1 " - -

3

17 36.2

35 36.2

49. 19

1.40

—

0.78

+ 23 24 32. 0

27.6

— 0.1

/ " - -

6

19 16.8

37 16.8

49.19

1.40

—

0.79

+ 23 21 53. 1

27.6

— 0.1

7

23 46.5

41 46.5

49. 19

0.97

—

1.46

+ 16 39 34.4

36.5

— 1.7

6

27 3.5

45 3.5

49.17

1.30

—

1.04

+ 21 49 41.2

29.6

— 0.6

10.11

31 3.2

49 3.2

49.17

1.16

1.25

+ 19 46 37. 0

32.3

— 1.1

Tauri .

6.7

31 29.2

49 29. 2

49.17

1.15

—

1.26

+^9 34 2.2

32.5

— 1.2

39 " . .

6

34 52. 9

52 52. 9

49.16

1.26

—

1.119

+ 21 27 48. 0

30.1

— 0.7

7.8

38 53.0

56 53. 0

49. 16

1.39

—

0.81

+ 23 16 2.7

27.7

— 0.2

P " - -

6.7

40 37.3

3 58 37. 3

49.15

1.57

—

0.14

+ 25 53 11.4

24.6

+ 0.7

0

10

44 37.2

4 2 37. 2

49.15

1.30

—

1.03

+ 21 52 33. 0.

29.6

— 0.5

48 " . .

7

46 27. 5

4 27.5

49.14

0.86

—

1.58

+ 14 50 5.4

39.1

— 1.9

51 " . .

7
6

48 33.0

6 33.0

49.14

1.24

—

1.13

+ 21 1 24. 0
+ 21 13 26. 0

30.6
30.4

— 0.8

— 0.8

59 x Tauri . .

6

52 22. 8

10 22.8

49.13

1.50

—

0.36

+ 25 5 18. 5

25.5

+ 0.4

<52 " . .

4

54 34.8

12 34.8

49.13

0.98

—

1.44

+ 16 54 59. 8

36. 1

— 1.7

72 v- " . .

6

57 19.5

15 19.5

49.12

1.33

—

0.94

+ 22 28 46. 4

28.8

— 0.4

76 " . .

7

4 59 5.2

17 5.2

49.12

0.82

—

1.63

+ 14 14 5.0

40.1

— 2.0

d) 50 " . .

7

5 0 46.4

18 46.4

49.12

0.87

—

1.56

+ 15 8 26. 0 .

38.7

— 1.9

e) 51 " . .

7

1

19

+ 15 11 46.0

38.6

— 1.9

85 " . .

2 28.1

20 28. 1

49. 11

0.89

—

1.54

+ 15 21 43. 0

38.4

— 1.9

86 " . .

5

4 32.2

22 32.2

49.11

0.83

—

1.62

+ 14 21 52. 0

39.8

— 2.0

Aldebaran

1

6 28. 4

24 28. 4

49.11

0.93

—

1.49

+ 16 2 52. 3

37.4

— 1.8

90 c1 Tauri . .

5

9 2. 3

27 2.3

49.10

0.69

—

2.50

+ 12 3 10. 1

43.4

— 2.0

93 c2 " . .

6

10 59.5

28 59. 5

49. 10

0.67

—

2.84

+ 11 44 53.2

43.8

— 2.0

/)

7

15 36.4

33 36. 4

49.09

1.38

—

0.82

+ 23 11 58.0

27.9

— 0.2

6.7

20 18.7

38 18.7

49.08

0.90

—

1.52

-f- 15 30 0.5

38.2

— 1.9

7

26 2.5

44 2. 5

49.08

1.45

—

0.59

+ 24 12 51.4

26.6

+ 0.1

6.7

27 38.9

45 38.9

49.07

1.41

—

0.75

+ 23 34 45. 5

27.4

— 0.1

g) <■ " - -

4

33 7.3

51 7.3

49.06

1.26

—

1.10

+ 21 15 4.6

30.3

— 0.7

6

38 52. 7

55 52.7

49. 06

1.43

—

0.67

+ 23 56 48. 3

26.9

0.0

y Orionis

6

40 16.1

4 58 16. 1

49.05

0.88

—

1.55

+ 15 17 35.2

38.5

— 1.9

Capella

1

43 40. 5

5 1 40.5

49.05

— 3. 30

+

2.28

+ 45 43 45. 8

0 3.2

+ 5.3

h) Rigel . .

1

46 59. 8

4 59.8

49.04

+ 0.47

+

1.87

— 8 27 40. 1

1 30.3

— 0.5

8.7

50 29. 8

8 29.8

49. 03

— 1. 13

1.29

+ 19 19 32.0

0 32.9

— 1.2

7.8

51 7.6

9 7.6

49. 03

1.15

—

1.27

+ 19 33 54. 0

32.6

— 1.2

/3 Tauri . .

2

55 33.4

13 33.4

49. 03

1.74

+

0.74

+ 28 23 15.6

21.7 !+ 1.4

o "

C

5 57 35. 7

15 35.7

49. 02

1.28

1.05

+ 21 43 11.4

29. 9 — 0. 6

8.9

6 1 57.1

19 57.1

49. 02

1.05

—

1.38

+ 18 3 7.0

34.7

— 1.5

6

2 28.7

20 28. 7

49.01

1.07

—

1.35

+ 18 24 8.0

34.1

— 1.4

6.7

3 48.2

21 48.2

49. 01

— 1.07

—

1.35

+ 18 21 18.6

0 34. 2

— 1.4

e Orionis

2

8 6.7

26 6.7

49.01

+ 0.08

+

0.86

— 1 21 23.6

1 9.4

— 0.7

f " - -

2

12 43. 3

• 30 43. 3

49.00

+ 0.11

+

1.08

— 2 4 22. 0

1 11.4 — 0.7

7

17 15.6

35 15.6

48.99

— 0.91

1.51

+ 15 42 32. 2

0 38.0

— 1.8

135 Tauri . .

6

21 7.2

39 7.2

48.98

0.82

—

1.63

+ 14 12 48. 3

40.2

— 2.0

139 " . .

6

• 27 30. 3

45 30. 3

48.97

1.56

—

0.14

+ 25 53 26. 0

24.5 +0.7

7

28 25.4

46 25.4

48.97

1.55

—

0.19

+ 25 43 12.7

24.9 +0.0

//Geminorum

4

33 54. 3

51 54.3

48.96

1.38

—

0.81

+ 23 14 26. 3

27. 9 — o. 1

7.8

36 34. 0

54 34.0

48.96

1.41

—

0.74

+ 23 37 16.0

27. 4 — 0. 1

7

6 39 32.4

5 57 32. 4

— 0 48.95

— 1.37

0.83

+ 23 6 47. 8

— 0 28. 0

— 0.2

a g assumed as 78° 38' 10" ; not 78° 38' 20".
b J assumed as 30° 53' ; not 36° 48'.
c S assumed as 26° 58' ; not 36° 51)'.

Name assumed as 80 Tauri ; not 50 Tauri. / g assumed as 25° 30' 7" ; not 25° 39' 37".
Transits discordant; name assumed as 81 g t assumed as 27° 36' 5" ; not 27° 36' 25".
Tauri. k £ assumed as 57° 18' 47" ; not 57° 18' 17".

(131)

132

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

1784 OCTOBER 9— Continued

Zero corr. = + 1

' 38". 6.

Name

Mag.

T

App. Bid. time

Clock corr.

t ,
n ran o

1

Z-f

Refr.

?'

h m s

h in s

m s

s

s

O ' II

/ //

/'

7

6 42 8. 6

6 0 8.6

— 0 48.95

— 1.37

— 0.87

+ 22 55 18. 4

— 0 28.2

— 0.2

1} Geminorum

4.5

44 45.3

2 45. 3

48.94

1.34

— 0.93

+ 22 32 4. 8

28. 2

— 0.3

7

48 39.3

6 39. 3

48.94

1.41

— 0.73

+ 23 38 58. 0

27.4

— 0.1

H " . .

3

52 48. 4

10 48.4

48. 93

1.34

— 0.92

+ 22 35 19.2

28.7

— 0.3

7

6 55 20. 4

13 20. 4

48. 93

1.39

— 0.78

+ 23 24 33.0

27.7

— 0.1

«)

7.6

7 1 33.3

19 33.3

48. 92

0.99

— 1.43

+ 17 3 37. 1

36.1

— 1.7

7.8

4 49.2

22 49. 2

48.91

1.15

— 1.26

+ 19 33 40. 8

32.6

— 1.2

7 " - -

2.3

8 8.6

26 8.6

48.91

0. 96

— 1.47

+ 16 33 5.9

36.7

— 1.7

7

10 37.5

28 37.5

48. 91

1.74

+ 0.73

+ 28 21 23. 8

21.7

+ 1-4

e li

3

13 32.5

31 32.5

48. 90

— 1.53

— 0.30

+ 25 18 27. 8

0 25.4

+ 0.5

Sirius .

1

18 26. 4

36 26. 4

48. 89

+ 0.95

+ 1.67

— 16 25 11.6

2 5.4

- 0.5

01 Auriga?

6

22 1.8

40 1.8

4s. ,-s

— 2. 59

+ 1.28

+ 38 43 25. 6

0 10.4

+ 3.8

'<)

6

24 55. 1

42 55. 1

48.88

1.55

— 0.22

+ 25 36 31.4

25.0

+ 0.6

Geminorum

6

28 22. 4

46 22. 4

48.87

1.59

— 0.02

+ 26 19 33.6

24.0

+ 0.8

6

29 1.3

47 1.3

48. 87

— 1.58

— 0.06

+ 26 10 14.5

0 24.3

+ 0.7

e Can. Maj.

3. 2

32 53. 3

50 53.3

48. 86

+ 1.77

+ 4.34

— 28 38 12.8

4 15.3

- 4.3

63 Aurigoe

4.5

39 40.7

6 57 40. 7

48.86

— 2.68

+ 1.29

+ 39 37 34. 8

0 9.5

+ 4.0

m Geminorum

6

_ 42 12.2

7 0 12.2

48.85

1.46

— 0.53

+ 24 27 11.2

26.4

+ H.2

6

45 20.4

3 20.4

48.84

1.74

+ 0.68

+ 28 14 3.2

21.9

+ 1-4

6 " . .

3

50 7.4

8 7.4

48.83

1.33

— 0.96

+ 22 20 39. 6

29.0

— 0.4

Uranus

54 4.7

12 4.7

48.83

1.37

— 0.88

+ 22 50 7. 8

28.4

— 0. 2

r Geminorum

6

7 57 5.9

15 5.9

48. 82

1.22

— 1.18

+ 20 39 15.2

31.2

— 0.9

a ■ " . ..

1.2

8 3 40. 6

21 40.6

48.81

2.04

+ 1.39

+ 32 19 11.2

17.3

+ 2.6
+ 3.2

6

7 14.0

25 14.11

4S.SI

2.30

+ 1.32

+ 35 29 211.6

13.8

Procyon .

1

10 52.0

28 52. 0

48.80

0.32

— 0.87

+ 5 45 19.8

54.3

- 1.5

<0

k Geminorum

4.5

8 14 17. U

7 32 17.il

— 0 48. 79

— 1.50

— 0.41

+ 24 52 46. 6

— 0 25. 9

+ 0.4

•I)

17S4 O

CTOBEK

12

Zero corr. = + ]

Ml". 4.

tS Geminorum

3

7 49 10.8

7 9 10.8

— 1 52 60

— 1.36

— 0.96

+ 22 20 35. 8

— 0 29. 0

— 0.4

Uranus

53 15.5

13 15.5

1 52.59

1.40

— 0.89

+ 22 49 58. 3

28.4

— 0.3

r Geminorum

6

56 9.8

16 9.8

1 52.59

1.25

— 1.18

+ 20 39 16. 8

31.2

— 0.9

6

7 58 18.6

18 18.6

1 52.58

1.79

+ 0.71

+ 28 19 22.4

21.8

+ 1.4

a u

1.2

8 2 44.5

22 44. 5

1 52.58

2.10

+ 1 39

+ 32 19 12.2

17.3

+ 2.6

6.7

6 17.5

26 17.5

1 52.57

2.37

+ 1.32

+ 35 29 22. 6

13.8

+ 3.2

Procyon .

1

9 55. 7

29 55.7

1 52.57

0.33

— 0.87

+ 5 45 14.8

54.4

— 1.5

k Geminorum

4.5

13 20.7

33 20. 7

1 52.56

1.54

— (1.41

+ 24 52 44. 1

25.9

+ 0.4

8 15 33.7

7 35 33.7

— 1 52.56

— 1.14

— 1.31

+ 19 0 13.4

— 0 33.4

— 1.3

1784 O

CTOBER

13

Ze

•o corr. = -}- V 39".5.

Sun II limb

13 59 38.5

13 19 38.5

— 7 51 16.2

— 1 28.2

— 0.5

0

Venus .

15 5 55.7

14 25 55.7

— 13 59 8.6

1 52.7

— 0.4

Aldebaran

1

5 5 29. 8

4 25 29.8

— 1 50.64

— 0.98

— 1.49

+ 16 2 49.2

0 37.5

— 1.8

6.7

14 38.5

34 38.5

1 50.62

1.43

— 0.82

+ 23 11 54.4

27.9

— 0.2

7

18 1.5

38 1.5

1 50.62

1.11

— 1.36

+ IS 19 10.2

34.4

— 1.4

97 Tauri . .

6

20 42.3

40 42.3

1 50.61

1.12

— 1.35

+ IS 26 33.7

34.2

— 1.4

7.8

24 14.8

44 14.8

1 50.61

1.15

— 1.30

+ 19 6 19.0

33.3

— 1.3

/)

7 " - -

4

32 9.3

52 9.3

1 50.59

1.30

— 1.11

+ 21 14 55.4

30.3

— (1.7

7

33 27. 3

53 27. 3

1 50.59

1.28

— 1.15

+ 20 56 36.5

30.8

— 0.8

7.6

36 58. 9

4 56 58. 9

1 50.59

1.30

— 1.09

+ 21 23 14.1

30.3

— 0.7

/j Persei .

6.5

40 37.6

5 0 37.6

1 50.58

2.62

+ 1.27

+ 38 11 6.2

11.0

+ 3.7

Capella

1

42 42.6

2 42.6

1 50.58

— 3.43

+ 2. 28

+ 45 43 45. 8

0 3.2

+ 5.3

Rigel . .

1

46 1.7

6 1.7

1 50.57

+ 0.49

-j- 1.87

— 8 27 40. 6

1 30.3

— 0.5

7.6

49 32.0

9 32.0

1 50.56

— 1.18

— 1.29

+ 19 19 33.0

0 32.9

— 1.2

6

50 8.6

10 8.6

1 50.56

1.19

— 1.27

+ 19 33 52.0

32.7

— 1.2

6

53 6.8

13 6.8

1 50.56

0.98

— 1.47

+ 16 27 55.5

36.9

— 1.8

7.6

55 34.0

15 34.0

1 50.55

0.98

— 1.47

+ 16 28 42. 8

36.9

— 1.8

6

5 57 55.6

5 17 55. 6

— 1 50.55

— 1.56

— 0.40

+ 24 56 16. 6

— 0 25.8

+ 0.4

a

T. I assumed as 59m.

, not 5<>r

a.

; T. I assumed a

3 lira. ; uot 12i

1. e Hi

ur assumed as 14 ;

aot 15.

b

T. II assumed as 21m

55s. ; u

it 22m. 25s.

£ Date assumed

as Oct. 12; not

Oct, 13. / Hi

me assumed as t T

auri ; not y T

auri.

(132)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

133

17S4 OCTOBER lJ-Coniimird Zero corr. = + 1' 39". 5.

Name

Mag.

T

App. si J. time

Clock corr.

n tan d

<1

f-0

Refr.

'/

A m s

A m s

m • s

s

s

o ' '/

/ //

„

<! Oiionis

2

6 2 52. 3

5 22 52. 3

— 1 50.54

4- 0.02

4- 0.53

— 0 28 :«;. 5

— 1 7.5

— 0.8

e "

2

7 8.5

27 8. 5

1 50.54

II. IIS

+ 0.86

— 1 21 24.0

9.6

— 0.7

f ■" - -

2

11 44.8

31 44.8

1 50.53

4- 0. 12

+ 1.08

— 2 4 23. 6

1 11.5

— 0.7

9.1C

14 24. 1

34 24. 1

1 50.52

— 0.96

— 1.49

4- 15 57 42. 0

0 37.8

— 1.8

7

16 17.3

36 17.3

1 50.52

0.94

— 1.51

-f- 15 42 31.2

38.1

— 1.8

<0

136 Tauri . .

6

19 18.0

39 18.0

1 50.51

1.77

4- 0.50

4- 27 51 53. 9

22.4

4- 1.3

137 " . .

6

22 3.2

42 3. 2

1 50.51

0.83

— 1.64

4- 14 5 16.6

40.5

— 2.0

7.6

25 39.2

45 39. 2

1 50.50

1.50

— 0.60

+ 24 10 52.2

26.7

4- ii. l

7.8

27 27.li

47 27. 0

1 50.50

1.61

— 0.19

4- 25 43 11.0

24.9

4- 0.6

7.8

30 35.6

50 35.6

1 50.50

1.38

— 0.96

4- 22 21 35. 0

29.0

— 0.4

//Geminorum

32 56. 3

52 56. 3

1 50.49

1.43

— 0. si

+ 23 14 22. 4

27.9

— 0.2

7.8

35 35. 4

5 55 35. 4

1 50.49

1.46

— 0.74

4- 23 37 22. 6

27.5

— 0.1

6

40 13.7

6 0 13.7

1 50.48

1.51

— 0.54

4- 24 25 50. 9

26.5

4-0.2

'1 " - -

4.5

43 47. 3

3 47.3

1 50.48

1.39

— 0.93

4- 22 32 1.6

— 0.3

7

47 41.3

7 41.3

1 50.47

1.47

— 0.74

4- 23 38 57.2

27.4

— ii. 1

b)

7

48 6.9

8 6.9

1 50. 47

1.46

— 0.76

4- 23 31 1(1. 6

27.6

— 0.1

6

54 21.3

14 21.3

1 50.46

1.45

— 0.78

4- 23 24 30.8

27.7

— II. 1

6.7

57 2.4

17 2.4

1 50.45

1.26

— 1.19

4- 20 35 30.6

31.3

— 0.9

v "

4

6 58 4.7

18 4.7

1 50.45

1.24

— 1.21

4- 20 18 51.4

31.7

— 1.0

6.7

7 1 8.5

21 8.5

1 50.44

0.96

— 1.49

+ 16 1 24.2

37.6

— 1.8

7

4 23. 1

24 23. 1

1 50.44

0.98

— - 1.48

4- 16 20 28. 0

37.2

— 1.8

7.8

5 28.0

25 28. 0

1 50. 44

1.02

— 1.44

-j- 16 56 21.0

36.3

— 1.7

y " - -

3

7 11.0

27 11.0

1 50.43

1.00

— 1.47

4- 16 33 6.8

36.9

— 1.7

e " . .

3

12 34. 3

32 34. 3

1 50.43

— 1.58

— 0.30

4- 25 18 23. 6

0 25.4

4- 0.5

Sinus .

1

17 28.2

37 28.2

1 50.42

4- 0.98

4- 1.67

— 16 25 13.7

2 5.7

— 0.5

c)

6

24 23. 6

44 23.6

1 50.41

— 0.79

— 1.73

+ 13 25 19.2

0 41.5

— 2.0

8

29 30.5

49 30. 5

1 50.40

— 1.47

— 0.73

4- 23 42 9. 0

0 27.4

— 0.1

c Can. Maj. .

2.3

31 54.8

6 51 54. 8

1 50.39

4- 1.83

4- 4.34

— 28 38 13. 4

4 15.8

— 4.3

8

40 52. 9

7 0 52. 9

1 50.38

— 0. 94

— 1.51

4- 15 39- 19. 0

0 38.1

— 1.8

<D

8

42 23. 9

2 23.9

1 50.38

0.93

— 1.52

4- 15 30 32.0

38.3

— 1.8

7.8

45 34.4

5 34.4

1 50.37

1.55

— 0.41

4- 24 52 49.6

25.9

4- 0.4

(5 Geminorum

3

49 8.8

9 8.8

1 50.36

1.38

— 0.96

4- 22 20 37. 3

29. 0

— 0.4

Uranus

53 15.5

13 15.5

1 50.36

1.41

— 0. 88

4- 22 49 56.5

28.4

— 0.3

e)

6

7 57 4.2

17 4.2

1 50.35

0.73

— 2.15

4- 12 21 17.9

43. 0

— 2.0

6

8- 1 16.5

21 16.5

1 50.34

1.05

— 1.41

4- 17 30 45.7

35.5

— 1.6

2 Geminorum

6.5

4 30.6

24 30.6

1 50.34

1.73

4- 0.33

4- 27 20 15.2

23.0

4- l.i

7

6 50.9

26 50.9

1 50.34

1.18

— 1.29

4- 19 22 20. 6

33. 0

— 1.2

Proeyon .

1

9 53.7

29 53.7

1 50.33

0.33

— 0.87

4- 5 45 13.5

54.4

— 1.5

6

15 32. 3

35 32. 3

1 50.32

1.15

— 1.31

+ 19 0 12.8

33.4

— 1.3

26 Lyncis

5

8 20 50.8

7 40 50. 8

— .1 50.31

— 3. 72

+ 3.05

4- 48 4 18. 0

— 0 0.8

+ 5.5

1784 C

ICTOBEB 14 Zet

o corr. = + 1' 40"-3.

Sun . .

14 1 8. 3

13 21 8.3

— 8 45 56. 8

— 1 31.3

— 0.4

t<

14 3 19.7

13 23 19.7

— 8 13 41.2

1 29.4

— 0.5

a Lyrse -

1

19 11 29.6

18 31 29.6

— 1 49. 10

— 2.68

4- 1.27

4- 38 34 10. 8

0 10.5

4-3.8

7

21 7.9

41 7.9

1 49.111

— 1.45

— 0.81

4- 23 15 59. 0

0 27.8

— 0.2

It Aquilse

4.5

27 19.6

47 19.6

1 49.07

4- 0.35

4- 1.84

— 6 7 0.8

1 22.7

— 0.5

e "

3.4

31 43.7

18 51 43.7

1 49.07

— 0.88

— 1.59

4- 14 46 21.2

0 39. 3

— 1.9

40 9.8

19 0 9. 8

1 49.05

1.00

— 1.47

4- 16 31 43.2

36.8

— 1.7

40 54. 1

0 54.1

1 49.0.-,

1.00

— 1.47

4- 16 30 39.4

36.8

— 1.7

// Lyne . .

6

48 16.8

8 16.8

1 49.04

2.70

4- 1.28

4- 38 45 39. 6

10.4

4- 3.9

7

52 14.5

12 14.5

1 49.03

1.70

+ 0.14

4- 26 51 22.6

23. 5

+ l.n
4- 0.7

3 Vulpeculje

6.5

55 53. 2

15 53. 2

1 49.02

1.63

— 0. 15

4- 25 50 26.2

24.7

7

57 51.6

17 51.6

1 49.02

1.21

— 1.24

4- 19 50 30. 0

32.2 1

— 1.1

5 " . .

6

19 58 41. 1

18 41.1

1 49.02

1.20

— 1.26

4- 19 39 51.0

32.5

— 1.2

7

20 0 22.7

20 22.7

1 49.02

1.21

— 1.25

4- 19 48 15. 4

32.3

— 1.1

7 " . .

6

1 49.8

21 49.8

1 49.01

— 1.21

— 1.24

4- 19 49 49.0

0 32.3

— 1.1

5 2.3

25 2.3

1 49.01

4- 0.65

4- 1.72

— 11 1 4.2

1 39.7

— 0.3

6

20 7 23.5

19 27 23. 5

— 1 49.00

4- 0.10

4- 1.00

— 1 45 30.0

— 1 10.5

— 0.7

a

Transits over Ts. II

ind III

assumed as t

? assumed as 2

iP 13'; uot25° 18'. d Transits over Ts. I

and IT assumed aa

recorded over Ts. I

mdll.

t

£ assumed as 3

p 25' 47" ; not 35D 25' 17". recorded over Ts. E
e Div. assumed as 38 14

[ and III.

14; not 39 14 13.

(133)

134

GOULD REDUCTION OP D AGELET S OBSERVATIONS.

17S4 OCTOBER 14— Continued Zero corr. = +

L' 40".3.

Name

Mag.

T

App. sid. time

Clock corr.

« tan cS

<1

f— <P

Refr.

?'

h m s

h m s

m s

s

S

o / //

/ //

II

6

20 8 9.4

19 28 9.4

— 1 49.00

+ 0.29

+ 1 75

— 57 10.9

— 1 19.7

— 0.5

6

9

29

+ 41 55 35.0

0 7.1

+ 4.5

6

11

31

+ 37 53 15.0

11.3

+ 3.7

14 Cygui . .

G

14 17.0

34 17.0

1 48.99

— 3.05

+ 1.45

+ 42 18 14. 4

6.7

+ 4.6

7

20 15 33.8

19 35 33.8

— 1 48.99

— 3.08

+ 1.47

+ 42 33 35. 8

— 0 6.4

+ 4.6

17S4 OCTOBER 1J Zero corr. = + 1' 40". 6.

Sun . .

14 4 50.0

13 24 50. 0

— 9 8 10.8

— 1 32.8

— 0.4

i<

14 7 0.8

13 27 0. 8

— 8 35 55. 6

30.9

— 0.4

Venus -

15 15 29. 0

14 35 29. 0

— 14 51 10.0

1 57.0

— 0.5

a Lyrse .

1

19 11 20.6

18 31 26. 6

— 1 46.64

— 2.71

+ 1.27

+ 38 34 11. 0

0 10.6

+ 3.8

19 9.7

39 9.7

1 46.63

2.59

+ 1.27

+ 37 21 58. 4

11.9

+ 3.6

a)

23 33.0

43 33. 0

1 46.62

— 2.13

+ 1.39

+ 32 33 10.8

0 17.0

+ 2.5

k Aquilse

4.5

27 16.8

47 16.8

1 46.61

+ 0.36

+ 1.84

— 6 6 59. 6

1 22.9

— 0.5

C Sagittarii .

3.4

30 34.5

50 34.5

1 46.61

1.96

+ 4.89

— 30 7 12. 8

4 48.5

— 5.6

7T "

4

38 42.3

18 58 42. 3

1 46.59

1.33

+ 1.51

— 21 20 11.6

2 39.8

- 1.1

d " . .

5

46 46.5

19 6 46.5

1 46.58

1.19

+ 1.41

— 19 18 36. 0

2 24.0

— 0.7

44 p1 " . .

5

50 54.8

10 54.8

1 46.57

+ 1.12

+ 1.51

— 18 13 44.2

2 16.6

— 0.6

56 31.2

16 31. '2

1 46.56

— 1.01

— 1.47

+ 16 30 51. 0

0 36.9

— 1.7

56 54. 2

16 54. 2

1 46.56

— 1.01

— 1.47

+ 16 31 54.4

0 36.9

— 1.7

Saturn .

19 58 59. 0

18 59. 0

1 46.56

+ 1.40

+ 1.69

— 22 20 7. 0

2 48.8

— 1.3

6

20 7 20. 0

27 20.0

1 46.54

0.10

+ 1.00

— 1 45 30.0

1 10.7

— 0.7

6

— 5 7 14.0

19.9

— 0.5

6

11 24.3

31 24.3

1 46.54

+ 0.06

+ 0.78

— 1 6 54.5

1 9.2

— 0.7

15 Cygni . .

6

14 14.4

34 14.4

1 46.53

— 3. 09

+ 1.45

+ 42 18 18. 0

0 6.7

+ 4.6

6

15 31.2

35 31.2

1 46.53

3.12

+ 1.47

+ 42 33 32. 8

6.5

+ 4.6

7

17 24.2

37 24.2

1 46.52

2.66

+ 1.27

+ 38 8 41.6

11.0

+ 3.7

6 7

20 35.9

40 35.9

1 46.51

1.57

— 0. 42

+ 24 50 37. 2

26.0

+ 0.4

6

23 37. 1

43 37. 1

1 46.51

1.38

— 1.01

+ 22 3 19. 3

29.4

— 0.5

6"

26 7.0

46 7. 0

1 46.51

1.48

— 0. 76 |+ 23 30 38. 0

27.6

— 0.1

G.7

27 11.8

47 11.8

1 46.50

1.50

— 0.71

+ 23 44 51.8

27.3

0.0

6.7

31 45.6

51 45.6

1 46.49

1.41

— 0.93

+ 22 30 27.7

28.8

— 0.4

C

34 26. 5

54 26.5

1 46.49

1.53

— 0.60

+ 24 1 1 42. 0

26.7

+ 0.1

h)

16 Vulpeculae

5.6

34 43. 1

54 43. 1

1 46.49

1.54

— 0.57

+ 24 19 39.0

26.5

+ o.i

7

37 15.7

19 57 15.7

1 46.48

2.42

+ 1.32

+ 35 24 21.9

13.9

+ 3.2

6.7

41 14.8

20 1 14.8

1 46.48

2.27

+ 1.39

+ 33 47 8. 1

15.9

+ 2.9

7

43 24.2

3 24.2

1 46.47

1.27

— 1.19

+ 20 29 14.6

31.5

— 1.0

21 " . .

6

47 12.3

7 12.3

1 46.47

1.81

+ 0.58

+ 28 1 57. 6

22.2

+ 1.3

7

48 41.8

8 41.8

1 46.47

1.30

— 1.15

+ 20 55 50. 0

30.9

— 0.8

7.8

48 56. 3

8 56.3

1 46.47

1.29

— 1. 17

+ 20 44 5. 0

31.2

— 0.9

8

51 11.3

11 11.3

1 46.46

1.27

— 1.19

+ 20 31 48. 9

31.5

— 0.9

25 " . .

6

54 37.3

14 37.3

1 46.45

1.50

— 11.71

+ 23 45 4. 0

27.4

0.0

h Cygni . .

6.5

20 57 3. 7

17 3.7

1 46.45

2.08

+ 1.35

+ 31 29 2.7

18.3

+ 2.3

8

21 0 7.8

20 7.8

1 46.44

2.82

+ 1.29

+ 39 40 52.6

9.4

+ 4.0

6.7

2 15.7

22 15.7

1 46.43

3.86

+ 3.17

+ 48 38 58. 7

0.2

+ 5.6

(j- **

6

5 11.6

25 11.6

1 46.43

3.79

+ 3.08

+ 48 12 32. 4

0.6

+ 5.5

u3 " . .

6

6 28.8

26 28. 8

1 46.43

3.83

+ 3.13

+ 48 28 30.3

0.4

+ 5.5

<)

7

8 40.3

28 40. 3

1 46.42

3.51

+ 2. 36

+ 45 56 11.4

3.0

+ 5.3
+ 4.5

8

12 10.3

32 10. 3

1 46.42

3.06

+ 1.43

+ 42 3 47. 6

7.0

a " . .

2

15 54.5

35 54. 5

1 46.41

3.33

+ 1.80

+ 44 29 36. 2

4.4

+ 5.0

+ 2.6

6.7

26 59. 1

46 59. 1

1 46.39

2.17

+ 1.39

+ 32 36 22. 8

17.0

d)

v " . .

4.5

30 58.2

50 58. 2

1 46.39

2.89

+ 1.32

+ 40 19 18.7

3.6

+ 4.1

6.7

34 27.2

54 27.2

1 46. 38

2.40

+ 1.33

+ 35 10 4.8

14.2

+ 3.1

6.7

36 32.2

56 32.2

1 46.38

2.63

+ 1.27

+ 37 47 30.8

11.4

+ 3.7

6

39 4.1

59 4.1

1 46.37

2.63

+ 1.27

+ 37 40 43. 0

11.5

+ 3.6

7

39 5.7

20 59 5.7

1 46.37

2.63

+ 1.27

+ 37 40 50. 0

11.5

+ 3.6

41 19.6

21 1 19.6

1 46.37

1.91

+ 1.07 + 29 19 26.8

20.8

+ 1.7

8

44 25. 8

4 25. 8

1 46.36

1.87

+ 0.91

+ 28 49 6. 8

21.3

+ 1.6

f " - .

6.5

45 35. 1

5 35.1

1 46.36

1.91

+ 1.07

+ 29 19 59. 0

20.8

+ 1.7

7

21 46 47. 2

21 6 47.2

— 1 46. 36

— 1.89

+ 0.98

+ 28 59 56. 4

— 0 21.1

+ 1.6

a Transitu

over Ts. II and III assun

ed as 23m.

b T. II assumed as 34m. 44s.5; not I

4m. 34b.5.

32s.5 £

ml 24m. Os.5; not 23rn.

42s.5 and

c Div. assumed as 3 1 12 ; not 3 12

24 m. 1

'-. '. res] lively.

d g assumed as 8° ; not 3°.

(134)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

135

IJM OCTOBER IV Continued

Zero corr. = + J

' 40". 6.

Name

Mag.

T

App. siil. time

Clock corr.

n tau. <S

<l

s—t

Refr.

<l'

It m s

It m s

m s

s

s

o / '/

/ //

ii

6

■:\ 50 46.8

21 111 46. 8

— 1 46.35

— 2.70

+ 1.27

+ 38 28 39. 0

— 0 10.7

+ 3.8

7

52 36. 5

12 30.5

1 46.35

2.59

+ 1.27

+ 37 18 51.8

11.9

+ 3.6

7

53

13

+ 31 41 5.0

18.0

+ 2.4

7

56 28. 3

16 28. 3

1 46.33

2.51

+ 1.30

+ 36 28 5. 6

12.8

+ 3.4

56 54. 5

16 54.5

1 46.33

2.51

+ 1.30

+ 36 24 53. 0

12.9

+ 3.4

69 Cygni - -

7

21 58 48. 6

18.48.6

1 46.33

2.45

+ 1.31

+ 35 43 25. 4

13.7

+ 3.2

711 ' " - -

6

22 0 24. 0

20 24. 0

1 46.33

2.48

+ 1.30

+ 36 10 1.5

13.1

+ 3.3

g " - -

6

3 19.4

23 19.4

1 46.33

3.47

+ 2.22

+ 45 34 21.4

3.4

+ 5.2

7

7 3. 3

27 3.3

1 46.32

3.39

+ 1.93

4- 44 52 50. 0

4.1

+ 5.1

P " - -

6

7 43.0

27 43.0

1 46.31

3.35

+ 1.84

+ 44 37 23.0

4.4

+ 5.0

7

9 41.3

29 41.3

1 46.31

3.33

+ 1.77

+ 44 23 37.8

4.6

+ 5.0

8

13 24. 5

33 24.5

1 46.31

3.21

+ 1.58

+ 43 26 21.8

5.5

+ 4.8

7

15 44.2

35 44. 2

1 46.31

3.37

+ 1.89

4- 44 45 57.6

4.2

+ 5.1

7.8

18 5.3

38 5. 3

1 46.30

3.50

+ 2.33

-f- 45 51 8. 8

3.1

+ 5.3

it

6.5

20 39.5

40 39.5

1 46.29

3.81

+ 3.09

+ 48 17 35. 3

0.6

+ 5.5

7

24 0. 7

44 0.7

1 46.29

2.70

+ 1.27

+ 38 30 42. 8

10.6

+ 3.8

7.8

27 59. 3

47 59.3

1 46.28

2.39

+ 1.32

+ 35 6 44.9

14.3

+ 3.1

7.8

22 30 38.3

21 50 38. 3

1 46.28

3.72

+ 2.91

+ 47 37 24.2

1.3

+ 5.5

54 Pisciam

6

1 10 1.5

0 30 1.5

1 45.98

1.24

— 1.22

+ 20 4 21.2

32.2

— 1.1

" . .

6

10 27.0

30 27. 0

1 45.98

1.25

— 1.22

+ 20 14 27. 9

32.0

— 1.0

6.7

13 28.5

33 28.5

1 45.98"

' 0.94

— 1.53

+ 15 28 18.2

38.6

— 1.9

58 " . .

6

17 39.7

37 39.7

1 45.97

0. 65

— 2.77

+ 10 47 8.4

45.9

— 1.9

6 " . .

4

19 20.8

39 20. 8

1 45.96

0.38

— 1.02

+ 6 21 7.8

53.6

— 1.5

8.9

22 11. 1

42 11.1

1 45.96

0.70

— 2.98

+ 11 35 56. 0

44.7

— 2.0

a) 66 " . .

6

25 3.1

45 3. 1

1 45.95

1.10

— 1.39

+ 18 0 14.3

35.0

— 1.5

6

27 34.2

47 34.2

1 45.95

1.39

— 0.98

+ 22 14 12.6

29.4

— 0.4

9

30 27.5

50 27. 5

1 45.95

2.52

+ 1.29

+ 36 36 15. 6

12.7

+ 3.4

6.7

32 53.7

52 53. 7

1 45.94

2.01

+ 1.27

+ 30 37 33.7

19.4

+ 2-1

7

34 32.8

54 32.8

1 45.94

1.84

+ 0.78

+ 28 29 16. 8

21.7

+ 1-4

7

37 57.7

0 57 57.7

1 45.93

2.03

+ 1.29

+ 30 50 20. 6

19.1

+ 2.2

6.5

41 5.8

1 1 5.8

1 45.93

1.98

+ 1.22

+ 30 15 20.4

19.7

+ 2.0

87 " . .

6

44

4

+ 14 58 37. 0

39.4

— 1.9

9

47 5.1

7 5.1

1 45.92

1.23

— 1.24

+ 19 54 1.6

32.5

— 1.1

90 v " . .

6

49 29. 8

9 29.8

1 45.91

1.66

— 0.07

+ 26 6 37. 0

24.6

+ 0.7

91 " . .

6

51

11

+ 27 35 27. 0

22.8

+ 1.2

b) p " . .

6

56 30. 8

16 30.8

1 45.90

1.11

— 1.38

+ 18 12 1.0

34.8

— 1.5

'0

6

56 56. 1

16 50. 1

1 45.90

1.11

— 1.38

+ 18 0 23.4

34.8

— 1.5

96 " . .

7

1 59 39.0

19 39.0

1 45.90

0.37

— 0.97

+ 6 10 13.8

53.9

— 1.5

53 Mayer .

9

2 2 10.6

22 10.6

1 45.89

0.59

— 2.13

+ 9 45 51.(1

47.6

— 1.8

7

5 2.0

25 2.0

1 45.88

1.06

— 1.42

+ 17 20 31.7

36.0

— 1.6

■x Piscium .

6

7 33.8

27 33.8

1 45.88

0.66

— 2.88

+ 11 1 23.0

45.5

- 1.9

7

8 6.7

28 6.7

1 45.88

0.66

— 2.86

+ 10 57 47.0

45.7

— 1.9

7

10

30

+ 15 17 43.0

38.9

— 1.9

106 v " . .

5

12 3.0

32 3.0

1 45.87

0.26

— 0.53

+ 4 23 7. 9

57.3

— 1.3

8

15 2.3

35 2.3

1 45.87

1.17

— 1.31

+ 18 59 15. 4

33.7

— 1.3

d)

9

16 46. 1

36 46. 1

1 45.86

0. 93

— 1.48

+ 16 18 54.0

37.5

— 1.9

7

20 6.8

40 6.8

1 45.86

1.31

— 1.11

+ 21 11 2.4

30. 8

— 0.8

y Arietis . .

4

23 34. 5

43 34.5

I 45.85

1.12

— 1.37

+ 18 13 16.0

34.7

— 1.5

AuJrom. .

25 14.5

45 14.5

1 45.85

1.48

+ 1.30

+ 36 10 1.0

13.2

+ 3.3

e)

6

29 30.6

49 30.6

1 45.85

1.24

— 1.23

+ 19 59 23.5

32.4

— 1.1

1 1 Arietis .

7

33 17.8

53 17.8

1 45.83

1.58

— 0.41

+ 24 52 24. 5

26.1

+ 0.4

58 Androm. .

6

37 22.6

57 22.6

1 45.83

2.54

+ 1.29

+ 36 48 24. 1

12.5

+ 3.5

59 ", . .

7.8

39 42.2

1 59 42.2

1 45.83

2.66

+ 1.27

+ 37 59 28. 8

11.2

+ 3.7

/)

11

42 49.2

2 2 49. 2

1 45.82

1.19

— 1.29

+ 18 47 14.0

33.3

— 1.3

9

43 46.7

3 46.7

1 45.81

1.14

— 1.33

+ 18 35 3. 0

34.3

— 1.4

7.8

46 52. 2

6 52.2

1 45.81

1.43

— 0.89

+ 22 44 50. 4

28.7

— 0.3

6.7

51 19.7

11 19.7

1 45.80

2.89

+ 1.33

+ 40 23 6.2

8.8

+ 4.2

d Trianguli .

6

56 34. 0

lfi 34.0

1 45.79

2.03

+ 1.28

+ 30 48 20. 1

19.2

+ 2.1

7

2 59 11.4

19 11.4

1 45.78

2.19

+ 1.40

4- 32 50 45.8

16.9

+ 2.7

7.8

3 1 44.8

21 44.8

1 45.78

2.25

+ 1.40

+ 33 33 44. 2

16.0

+ 2.8

15 " . .

6.7

1 34.7

24 34.7

1 45.78

2.27

+ 1.39

+ 33 42 59. 6

15.9

+ 2.8

7.8

1 38.4

24 38.4

1 45.78

2.27

+ 1.39

4- 33 45 11.0

15.9

+ 2.9

8.9

3 7 37.8

2 27 37. 8

— 1 45.77

— 2.16

+ 1.39

+ 32 27 18. 6

— 0 17.3

+ 2.6

a T. I assumed as 39s. ;

not 29s.

c T. II assumed

as 56m. 56s. ; n

ot 57m. 6s. c M

nut.' of Transit ass

umed as 29.

6 T. Ill assumed as 56i

a. 55s.; i

lot 57m. 5s.:

d I assumed as 3

2° 32' 11"; not C

33 32' 11". / S •

issumed as 30° 3' ; ]

lot 29° 33'.

and g as 30° 49' ; nc

t 30° 44'

(135)

136

GOULD REDUCTION OF D AGELET S OBSERVATIONS

17S4 OCTOBER 1.3— Continued Ze

■o corr. = + ]

' 40". 6.

Name

Mag.

T

App. sid. time

Clock con".

•n tan <>

1

i~i>

Refr.

<l'

h m s

h m s

m s

s

s

o ' "

/ //

II

Persei .

6

3 10 32.8

2 30 32. 8

— 1 45. 76

— 2.78

+ 1.28

+ 39 14 52. 3

— 0 9.9

+ 3.9

37 o Arietis -

6

[4 1(1.(1

34 10.0

1 45.76

1.03

— 1.44

+ 16 49 46. 8

36.7

— 1.7

9.10

17 10.1

37 10. 1

1 45.75

1.13

— 1.34

+ 18 27 19.0

34.6

— 1.4

3

19 10.2

39 10.2

1 45.75

1.68

— 0.02

+ 26 20 43. 3

24.4

+ 0.8

6

21 28.0

41 28.0

1 45.74

1.86

— 1.63

+ 14 10 21.7

40.6

— 2. 0

7

23 4.1

43 4. 1

1 45.74

0.95

— 1. 52

+ 15 34 55.0

38.5

— 1.8

52 Arietis .

6.7

25 34.2

45 34.2

1 45.74

1.07

— 1.41

+ 17 26 8.0

35.9

— 1.6

6

27 36.9

47 36.9

1 45.74

0.21

— 0.38

+ 3 36 54. 6

59.1

— 1.3

X " . .

6

30 0.8

50 0.8

1 45.73

0.48

— 1.37

+ 8 1 47.2

50.7

— 1.7

a Ceti . .

2

32 50. 5

52 50. 5

1 45.73

0.19

— 0.32

+ 3 13 48. 4

59.9

— 1.2

/3 Persei .

2.3

36 2.7

56 2.7

1 45.72

2.86

+ 1.32

+ 40 5 21.4

9.1

+ 4.1

55 Arietis -

7

38 30.4

2 58 30. 4

1 45.71

— 1.82

+ 0.67

+ 28 13 26. 0

0 22.2

+ 1-4

a

a Fornacis .

3

44 36.8

3 4 36.8

1 45.70

+ 1.94

+ 4.79

— 29 47 4.2

4 43.0

— 5.3

6

49 51.6

9 51.6

1 45.69

— 3.83

+ 3.12

+ 48 23 59. 0

0 0. 5

+ 5.5

o Persei .

2.3

50 50. 8

1(1 50.8

1 45.69

3.91

+ 3.26

+ 49 3 0.0

0.2

+ 5.6

6

54 38.8

14 38.8

1 45.68

3.81

+ 3. 09

+ 48 16 2. 4

0.6

+ 5.5

5

57 17.1

17 17.1

1 45.68

3.66

+ 2.80

+ 47 12 30.0

1.7

+ 5.4

*)

6

3 58 48. 6

18 48. 6

1 45.68

3.66

+ 2. 81

+ 47 14 43.6

1.7

+ 5.4

7

4 1 16.2

3 21 16. 2

1 45.67

2.76

+ 1.28

+ 39 8 6. 0

10.1

+ 3.9

7

5 34 40.6

4 54 40.6

1 45.50

1.20

— 1.28

+ 19 28 46. 0

33.1

— 1.2

G

36 49.5

4 56 49.5

1 45.50

1.51

— 0.67

+ 23 56 45. 7

27.4

0.0

Capella .

1

42 37.5

5 2 37.5

1 45.49

— 3.48

+ 2. 28

+ 45 43 44. 3

0 3.1

+ 5.2

Rigel .

1

45 56.5

5 56.5

1 45.48

+ 0.50

+ 1.87

— 8 27 36. 1

1 31.5

— 0.5

G.7

49 33. 1

9 33. 1

1 45.47

— 2. 93

+ 1.35

+ 40 46 14.5

0 8.4

+ 4.3

a Aurigne

5.6

51 50.6

11 50.6

1 45.47

2.57

+ 1.27

+ 37 8 29. 0

12.2

+ 3.5

\i Tauri . .

2

54 30.0

14 3(1.0

1 45.46

1.84

+ 0.74

+ 28 23 13. 3

22.1

+ 1-4

7

5 57 13.2

17 13.2

1 45.46

— (1.95

— 1.51

+ 15 39 47.6

0 38.5

— 1.8

6.5

6 0 34. 5

20 34.5

1 45.45

+ 0.07

+ 0.83

— 1 16 44.0

1 10.2

— 0.7

<S Oriouis

2

2 46.9

22 46. 9

1 45.45

+ 0.02

+ 0.52

— 0 28 35. 4

1 8.5

— 0.7

122 Tauri . .

7

6 23. 3

26 23. 3

1 45.44

— 1.03

— 1.44

+ 16 52 37.5

0 36.8

— 1.7

125 " . .

6.7

8 12.4

28 12.4

1 45.44

1.64

— 0.18

+ 25 44 25. 4

25. 2

+ 0.6

14 19.8

34 19.8

1 45.43

0. 97

— 1.49

+ 15 57 43.6

38.1

— 1.8

16 42.0

36 42.0

1 45.42

1.08

— 1.41

+ 17 37 3.0

35.7

— 1.6

134 " . .

6

19 16.8

39 16.8

1 45.42

0.76

— 1.97

+ 12 33 16.7

43.4

— 2.0

137 " . .

6

21 57.7

41 57.7

1 45.41

0.85

— 1.64

+ 14 5 17.6

40.8

— 2.0

ft Aurigfe

2

25 32.8

45 32. 8

1 45.41

3.39

+ 1.93

+ 44 52 30. 8

4.1

+ 5.1

<0

14(1 Tauri . .

7.8

29 14.3

49 14.3

1 45.40

1.44

— 0.88

+ 22 51 11.8

28.8

— 0. 2

HGeininorum

5

32 50. 9

52 50. 9

1 45.39

1.46

— 0.81

+ 23 14 22.0

28.3

— 0.2

7.8

35 29. 6

55 29. 6

1 45.39

1.49

— 0.74

+ 23 37 21.0

27.8

— 0.1

7.6

38 22. 6

5 58 22. 6

1 45.38

1.39

— 0.99

+ 22 11 22.2

29.6

— 0.5

6

41 4.6

6 1 4.6

1 45.38

1.44

— 0.87

+ 22 55 17. 1

28.6

— 0.2

'/ "

4.5

43 41.7

3 41.7

1 45.37

1.41

— 0.93

+ 22 32 4. 8

29.2

— 0.3

7

49 28. 1

9 28.1

1 45.36

1.32

— 1.12

+ 21 9 0. 6

30.9

— 0.8

7

50 10.6

10 10.6

1 45.36

1.32

— 1.12

+ 21 11 45.2

30.9

— 0.8

6

54 16.0

14 16.0

1 45.35

1.47

— 0.78

+ 23 24 39. 8

28. 1

— o.l

6

56 57.6

16 57.6

1 45.35

1.28

— 1.18

+ 20 35 35.0

31.8

— 0.9

v " . -

4

6 57 59. 4

17 59.4

1 45.35

1.26

— J. 21

+ 20 18 53.7

32.1

— 1.0

6

7 0 30.3

20 30. 3

1 45.34

1.04

— 1.43

+ 17 3 29. 1

36.6

— 1.7

40 AitrigsB

5.6

3 25.8

23 25.8

1 45.34

1.82

+ 0.65

+ 28 9 5.2

22.3

+ 1.3

03 " . .

6

6 30. 5

26 30. 5

1 45.33

1.80

+ 1.03

+ 29 7 48.2

21.2

+ 1.6

6

10 45.2

30 45.2

1 45.32

— 1.01

— 1.46

+ 16 34 2.3

0 37.2

— 1.7

Sirhis .

1

17 22. 8

37 22.8

1 45.31

+ 1.00

+ 1.67

— 16 25 9. 8

2 7.2

— 0.5

6

24 17.8

44 17.8

1 45.30

— 0.81

— 1.72

+ 13 25 22. 0

0 42. 0

— 2.0

6

27 18.5

47 18.5

1 45.30

1.68

— 0. 02

+ 26 19 34.8

24.5

+ 0.8

6

29 41.0

49 41.0

1 45.30

1.00

— 1.48

+ 16 20 40.4

37.7

— 1.8

6.7

31 42.2

51 42.2

1 45.29

1.11

— 1.38

+ 18 1 45.2

35.2

— 1.5

7

35 41.5

55 41.5

1 45.28

1.84

+ 0.78

+ 28 28 10. 6

21.9

+ 1-4

t Geminoram

4.5

39 12.5

6 59 12. 5

1 45.27

2. 01

+ 1.27

+ 30 33 28. 7

19.5

+ 2.1

51 " . .

6.5

42 48.3

7 2 48. 3

1 45.26

1.00

— 1.47

+ 16 29 35. 4

37.5

— 1.8

.i " . .

3

49 3.5

9 3.5

1 45.25

1.40

— 0.96

+ 22 20 35. 6

29.4

— 0.4

Uranus

7 53 13. 1

7 13 13.1

— 1 45.25

— 1.43

— 0.89

+ 22 49 53. 0

— 0 28. 9

— 0.3

a <? assumi

il as 78°

38' 7" ; not 78° 3

8' 17".

c

§ assumed

as 25° 59' 55" ; not. 2GQ IV 5" :

and Div.

b Transits

over Ts

I unci IT assail]

ed as recorded

assuin

edas27 11 U; not 27 11 12.

over '1

s. II au<

III: and T. I a

ssumed as lis.;

not 21s

. : and B

liu. as 58 ; not 5£

1

>

(136)

GOULD REDUCTION OP D AGELET S OBSERVATIONS.

137

1784 OCTOBER

16

Zoi

o corr. = I r 43".3.

Name

Mag.

T

App. Bid. time

Clock corr.

n tan i*

'I

J— $

Refr.

'/

/< m S

h m 8

to s

s

s

O / "

/ //

«

Sun . .

2 8 31.3

2 10 42.7

1 28 31.3
1 30 42.7

— 9 30 16.3

— 8 58 0.8

— 1 32. < ;
30.7

— 0.4

— 0.4

Venus .

3 20 17.0

2 Hi 17.0

— 15 16 39. 4

1 57.6

— 0.5

a Lyra; .

1

19 II 24.4

18 31 24.4

— 1 43.82

— 2.73

+ 1.27

+ 38 34 III. 2

ii 10.6

+ 3.8

«)

7

20 16 1.0

19 36 1.0

1 43.69

2.80

+ 1.28

+ 39 30 7.0

9.9

+ 3.9

6

16 22. o

36 22.0

1 43.69

2.85

+ 1.29

+ 39 43 50.4

9. 3

+ 4.0

c

18 16.2

38 16.2

1 43.68

2.56

+ 1.29

4- 36 49 13.0

12.4

+ 3. 5

X Cygni . .

5

19 59. i r.

39 59.5

1 43.68

2. 23

+ 1.40

+ 33 12 53. 6

16.3

+ 2.7

a Aquilic

1.2

22 2.8

42 2.8

1 43.68

0.50

- 1.44

+ 8 17 57.6

49. 8

— 1.7

12 Vulpeeulic

0

23 34.2

43 34. 2

1 43.67

1.38

— 1.01

+ 22 3 20. 8

29.4

— 0. 5

C

♦ 27 9.2

47 9.2

1 43.66

1.50

— 0.71

+ 23 44 49.2

27.4

o:o

7.8

37 12.7

19 57 12.7

1 43.65

2.43

+ 1.32

+ 35 24 19. 4

14.0

+ 3.2

27 b Cygni .

G

40 7. 5

20 0 7.5

1 43.64

2.42

+ 1.32

+ 35 21 58.5

14.1

+ 3.2

17 0 Sagittse. .

7

42 1 3.5

2 13.5

1 43. 64

1.27

— 1.21

+ 2d 10 3.0

31.8

— 1.0

7

43 21.5

3 21. 5

1 43.63

1.28

— 1.19

+ 20 29 11.6

31.5

— 1.0

6.7

+ 25 49 37. 0

24. 8

+ 0.7

7.8

47 7.8

7 7.8

1 43.63

1.34

— 1.10

+ 21 18 46.0

30.5

— 0. 7

48 39.2

8 39.2

1 43.62

1.31

— 1.15

+ 20 55 r>ii.o

31.0

— 0.8

51 8.8

1 1 8. 8

1 43.62

1.28

— 1. 19

+ 20 31 53.0

31.5

— 0.9

50 54. 4

10 54.4

1 43. 62

1.31

— 1.16

+ 20 50 30. 0

31.0

_ 0.8

25 Vulpeculae

6

54 34.2

14 34.2

1 43.61

1.50

— 0.71

+ 23 45 6.3

0 27.3

0.0

7

57 8.0

17 8.0

1 43.61

0.13

— 0. 14

+ 2 15 21.5

1 1.6

— 1.0

8

20 59 47. 3

19 47. 3

1 43.60

1.46

— 0.84

+ 23 4 20. 8

0 28.2

— 0. 2

*)

7

21 3 7.5

23 7.5

1 43.59

1.24

— 1.24

+ 19 52 22. 1

32.4

— 1.1

7

4 31.4

24 31.4

1 43.59

1.59

— 0. 36

+ 25 4 5. 4

25.8

+ 0.4

f Delphini .

5

7 1.7

27 1.7

1 43.59

0.85

— 1.66

+ 13 55 37.4

40.9

— 2.0

6

11 53.7

31 53.7

1 43.58

1.94

+ 1.10

+ 29 34 11.2

20.6

+ 1.8

a Cygni - -

2

15 51.4

35 51.4

1 43.57

3.36

+ 1.79

+ 44 29 35.2

4.5

+ 5.0

7

22 28. 3

42 28.3

1 43.56

2.37

+ 1.35

+ 34 45 12. 1

14.8

+ 3.0

6.7

25 51.0

45 51.0

1 43.55

1.89

+ 0.91

+ 28 49 40.0

21.4

+ 1.5

6

26 55.7

46 55. 7

1 43.55

2.19

+ 1.39

+ 32 36 25. 0

17.1

+ 2.6

6

30 26. 0

50 26. 0

1 43.54

1.35

— 1.09

+ 21 29 6. 5

30.4

— 0.7

7

31 12.4

51 12.4

1 43.54

1.35

— 1.08

-j- 21 30 21.0

30.4

— 0.6

6

34 24.3

54 24. 3

1 43.53

2.40

+ 1.33

+ 35 10 4. 3

14.3

+ 3. 1

6.7

36 29. 5

56 29. 5

1 43.53

2.64

+ 1.27

+ 37 47 30.2

11.5

+ 3.7

8)

6.7

39 1.5

20 59 1. 5

1 43.52

2.63

+ 1.27

+ 37 40 42. 0

11.6

+ 3.6

6

41 17.3

21 1 17.3

1 43.52

1.92

+ 1.07

+ 29 19 27. 6

20.8

+ L7

8

44 23.3

4 23. 3

1 43.51

1.88

+ 0.91

+ 28 49 3. 0

21.4

+ 1.6

f Cygni . .

5.4

45 32. 4

5 32.4

1 43.51

1.92

+ 1.07

+ 29 19 56. 7

20.8

+ L7

d)

7

46 44.7

6 44.7

1 43.51

1.82

+ 0.97

+ 28 59 56. 8

21.1

+ 1.3

66 v " . .

6

50 50.2

10 50.2

1 43.50

2.30

+ 1.39

+ 33 58 46. 2

15. G

+ 2.9

7.8

52 33.4

12 33.4

1 43.50

2.61

+ 1.27

4- 37 18 49. 0

12.il

+ 3.6

7

54 4.1

14 4.1

1 43.49

2.11

+ 1.37

+ 31 41 6.2

18. 1

+ 2.4

7.8

56 25. 8

16 25. 8

1 43.49

2.52

+ 1.30

+ 36 28 4. 0

12.9

+ 3.4

7

56 51. 3

16 51.3

1 43.49

2.52

+ 1.30

+ 36 24 51.8

12.9

+ 3.4

G9 " . .

7

21 58 45. 6

18 45. 6

1 43.48

2.46

+ 1.31

-j- 35 43 25. 5

13.7

+ 3.2

70 " . .

6

22 o 21.5

20 21.5

1 43.48

2.50

+ 1.30

+ 30 9 57. 0

13.2

+ 3.3

(T IC

6.7

3 16. 3

23 16.3

1 43.47

3.49

+ 2.22

+ 45 34 20. 8

3.4

+ 5.2

7

7 0.6

27 0.6

1 43.47

3.40

+ 1.93

+ 44 52 52. 0

4.1

+ 5.1

7

9 38.0

29 38.0

1 43.46

3.35

+ 1.77

+ 44 23 31.7

4.G

+ 5.0

8

13 21.5

33 21.5

1 43.45

3.23

+ 1.58

+ 43 26 18. 0

5.6

+ 4.8

7.8

15 41.8

35 41.8

1 43.45

3.39

+ 1.89

+ 44 45 54.0

4.2

+ 5.1

7.8

18 2.4

38 2.4

1 43.44

3.52

+ 2.33

+ 45 51 11.3

3.1

+ 5. 3

6

20 36.9

40 36.9

1 43.44

3.83

+ 3.09

+ 4S 17 34.3

0.5

+ 5.5

7

23 57.6

43 57. 6

1 43.43

2.72

+ 1.27

+ 38 30 42.2

10.7

+ 3.8

7.8

27 56.2

47 56.2

1 43. 43

— 2.40

+ 1.33

+ 35 6 46. 4

0 14.4

+ 3.1

28 Aquarii

6

31

51

— 0 25 43. 8

1 8. 2

— 0.8

a "

3 '

36 27. 0

56 27. 0

1 43.41

+ 0.08

+ 0. 87

— 1 21 55.2

1 9. 2

— 0.7

35 " . .

6

38 51. 1

21 58 51. 1

1 43.40

1.22

+ 1.40

— 19 33 6.6

2 26.7

— 0.8

38 e " . .

6

— 12 36 52. 0

1 47.8

— 0.3

e)

8

43 37. 6

22 3 37.6

1 43.39

0.73

+ 1.64

— 12 58 55. 0

49.6

— 0.3

Jupiter

44 32.5

4 32.5

1 43.39

0.81

+ 1.57

— 13 22 6. 6

1 51 1

— 0.3

7

22 53 27.7

22 13 27.7

— 1 43.37

+ 0.98

+ 1.65

— 16 0 59.5

— 2 4.5

— 0.5

a

£ assumed as 9° 20'; n

ot 90 35'

c Ts. I and II as

sumed as 39m.

not 33m. c £

assumed as 61°; n<

t60°.

b

i assumed as 28° 58' '

1" ; not

28° 58' 51".

d g ussiuin*! :i-i

9°; not IIP.

IS

(137)

138

GOULD— REDUCTION OP D AGELET S OBSERVATIONS.

1784 OCTOBER lfi-Conlinnril Zero corr. = + 1' 43". 3.

Name

Mag.

T

App. ski. time

Clock corr.

n tan 6

1

f-0

Refr.

«'

h m s

h m s

m s

s

s

O ' II

/ //

„

50 Aquarii

6

22 54 36.7

22 14 36.7

— 1 43.37

+ 0.89

+ 1.59

— 14 36 31.2

— 1 57. 0

— 0.5

6

23 0 56. 8

20 56.8

1 43.36

0.71

+ 1.66

— 11 46 18.6

44.1

— 0.3

7

4 27.5

24 27. 5

1 43.38

0.65

+ 1.74

— 10 42 41.8

39.7

— 0.3

63 " . -

6.5

23 8 18.6

22 28 18.6

— 1 43.34

+ 0.32

+ 1.78

— 5 20 9. 3

— 1 21.2

— 0.5

a)

17S4 NOVEMBER 17 Zero corr. = + 1' 43". 0.

a Aquilfe

1.2

20 21 12. 5

19 41 12.5

— 0 53. 78

— 0.56

— 1.44

+ 8 17 55.8

— 0 49. 2

— 1.7

66 " . -

5.6

42 59. 5

20 2 59. 5

53.75

+ 0.11

+ 0.95

— 1 38 59.9

1 9. 7

— 0.7

7

20 58 20.1

18 20. 1

53.73

— 0. 15

— 0.12

+ 2 13 35.2

1 0. 9

— 1.0

u Cygni .

5

21 1 21.5

21 21.5

53. 72

4.37

+ 3.17

+ 48 39 3. 0

0 0. 2

+ 5.0

6

:; 52; 6

23 52. 6

53. 72

0.72

— 2.67

+ 10 34 4.4

45.4

— 1.9

6.7

7 46.6

27 46. 6

53.71

3.98

+ 2.37

+ 45 56 14.7

2.9

+ 5.3

7.8

10 39.8

30 39.8

53.71

0.86

— 1.90

+ 12 39 23.0

42.2

— 2.0

6

13 1.5

33 1.5

53.71

1.16

— 1.45

+ 16 44 41.2

36.1

— 1.7

6

16 28.2

36 28.2

53.70

4.53

+ 3.34

+ 49 32 54. 0

0.7

+ 5.7

8

20 18.6

40 18.6

53.70

3.94

+ 2.28

+ 45 43 32.7

3.2

+ 5.2

6

23 15.3

43 15.3

53. 69

2.00

+ 0.36

+ 27 26 0.9

22.6

+ 1.1

32 Vulpeculoc

5

26 18.7

46 18.7

53. 69

1.98

+ 0.28

+ 27 13 44.3

22.9

+ 1.0

6.7

29 14.2

49 14.2

53.68

0.23

— 0.36

+ 3 28 4. 0

58. 2

— 1.2

61 Cygni .

6

38 11. 3

20 58 11.3

53. 67

2.98

+ 1.27

+ 37 40 46.2

0 11.4

+ 3.6

9.10

42 46.8

21 2 46. 8

53.67

— 0.11

— 0. 06

+ 1 45 35.6

1 1.9

— 1.0

7

46 24; 3

6 24. 3

53.66

+ 0.17

+ 1 20

— 2 30 7. 8

1 11.7

— 0.7

67 " . .

6

49 53.9

9 53.9

53.66

— 3.06

+ 1.27

+ 38 28 42. 0

0 10.5

+ 3.8

7

53 33.2

13 33.2

53.65

3.16

+ 1.29

+ 39 25 47. 3

9. 6

+ 4.11

7

56 5.1

16 5.1

53.65

2.22

+ 1.19

+ 29 59 57.4

19.6

+ 1.9

7.8

21 59 44. 1

19 44. 1

53.64

0.75

— 2 87

+ 11 0 39.0

44.7

— 1.9

6.7

22 1 42.7

21 42.7

53.64

0.76

— 2.96

+ 11 11 12.8

44.5

— 1.9

7

5 37.3

25 37.3

53.64

1.21

— 1.41

+ 17 21 47.2

35.3

— 1.6

7

10 59.0

30 59. 0

53.63

0.66

— 2.03

+ 9 37 56. 0

47.0

— 1.8

6

12 58.7

32 58. 7

53. 63

0.67

— 2. IS

+ 9 50 15. 1

46.7

— 1.8

7

17 20.2

37 20.2

53.62

0.87

+ 1.84

+ 12 43 7. 8

42.1

+ 2.0

7

21 51.5

41 51.5

53. 61

3.24

+ 1.32

+ 40 7 46. 0

8.9

+ 4.1

7

25 14. 1

45 14. 1

53.61

1.99

+ 0. 32

+ 27 19 11.8

22.7

+ 1.1

8.9

28 30.0

48 30. 0

53.61

1.34

— 1.29

+ 19 16 5. 9

32.7

— 1.3

6.7

31 55.4

51 55.4

53.60

2.40

+ 1.38

+ 31 57 19.0

17.6

+ 2.5

7

35 12.5

55 12.5

53.60

3.67

+ 1.60

+ 43 35 37.2

5.3

+ 4.8

b)

8

37 49.2

21 57 49.2

53.59

0.58

— 1.52

+ 8 36 48. 0

48.5

— 1.8

6.7

41 1.1

22 1 1.1

53. 59

1.29

— 1.34

+ 18 33 17. 0

33.7

— 1.4

7

45 37.9

5 37.9

53.58

1.51

— 1.09

+ 21 26 39. 0

29.9

— 0.7

7.8

47 30.2

7 30.2

53.58

1.54

— 1.04

+ 21 48 47.2

29.4

— 0. 6

6

51 57.3

11 57.3

53.57

1.87

— 0.16

+ 25 50 22. 6

24.4

+ 0.7

33 Pegasi . .

6

54 15.7

14 15.7

53.57

1.38

— 1.25

+ 19 44 59.5

32.0

- 1.2

6

56 15.4

16 15.4

53.57

1.21

— 1.42

+ 17 20 22.6

35.3

— 1.6

7

22 59 2. 2

19 2.2

53. 56

1.69

— 0.73

+ 23 40 55. 6

27.0

— 0.1

6.7

23 2 32.2

22 22 32. 2

53. 56

2.09

+ 0.76

+ 28 25 36. 3

21.4

+ 1.4

5.6

2 7 28. 5

1 27 28. 5

53.31

3.62

+ 1.55

+ 43 15 40. 4

5.5

+ 4.7

6

10 37.7

30 37.7

53.31

2.60

+ 1.38

+ 34 7 58.7

15.2

+ 2.9

8

19 15.7

39 15.7

53.30

1.49

— 1.11

+ 21 10 59.7

30.4

— 0.8

9

24 13. 6

44 13.6

53.29

— 0.87

— 1.88

+ 12 40 45. 3

0 42.4

— 2.0

<0

7

. 27 58.2

47 58. 2

53.29

+ 0.20

+ 1.36

— 3 7 17.3

1 14.0

— 0.7

30 32.6

50 32.6

53.28

— 1.58

— 0. 96

+ 22 19 52. 7

0 28.9

— 0.4

15 Arietis

6.5

38 9.9

1 58 9.9

53.27

1.80

— 0.41

+ 24 53 45. 6

25.8

+ 0.4

7

42 55. 5

2 2 55. 5

53.27

1.30

— 1.34

+ 18 35 0.3

33.9

— 1.4

7

46 0.0

6 0.6

53.26

1.61

— 0.90

+ 22 44 48. 2

28.4

— 0.3

7

48 28. 7

8 28.7

53.26

2.15

+ 1.H5

+ 29 10 21.3

20.8

+ 1.6

7

54 32.7

14 32.7

53. 25

1.72

— 0.61

+ 24 9 35. 0

26.6

0.0

6.7

57 10.2

17 10.2

53.25

2.13

+ 0.95

+ 28 56 5. 8

21.1

+ 1.6

14 Trianguli .

5.6

2 59 58. 5

19 58.5

53.24

2.72

+ 1.33

+ 35 9 43.4

14.1

+ 3.1

6

3 3 23. 7

23 23. 7

53. 24

2.-:;

+ 1.30

+ 36 20 20. 1

12.9

+ 3.4

7

6 7.1

26 7.1

53.24

2.91

+ 1.27

4- 37 7 28. 0

12.1

+ 3.5

q Persei .

6

3 9 41.5

2 29 41.5

- 0 53.23

— 3. 15

+ 1.28

+ 39 14 59.8

— 0 9. 8

+ 3.9

a On pag

! 646, tl

is date is wron

gly called

b T. II assumed as 49s.; not 39s.

Novel)

ber 15.

<

1 c T. II assumed as 58s. ; not 18s.

(138)

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

139

1784 NOVEMBER 23

Zero corr. = -f- '.

' 40". a.

Name

Mag.

T

App. sid. Kme

Clock rovi'. u tan (5

•1

C-*

Refr.

'/

// m s

k m s

111 s

s

s

o / //

; //

//

6.7

21 37 17.5

20 .".7 47.5

— 0 42.7H

— 1.84

— 0. in

+ 26 3ii.:;

— 0 24.9

+ 0.7

J Cygni . .

5.6

44 30.8

21 -1 30.8

42. 69

2.10

+ 1.07

+ 29 19 57.7

20.9

+ 1-7

«)

67 '• . .

6

40 4'.'. II

9 42.0

42. 69

2.98

+ 1.27

+ 38 28 43.6

10.8

+ 3. 8

7

21 55 53.4

15 53.4

12.68

— 2.17

+ 1.19

+ 29 59 58. 1 1

0 2H.1

+ 1.9

/3 Aquarii

3

22 ii 54.2

20 54.2

42.68

+ 0.42

+ 1.86

— 6 30 43.6

1 25.2

— 0.5

6

3 25. 4

23 2.".. 1

42. 67

1.44

+ 1.48

— 21 ) 4.4

2 39.4

— 1.1!

e Ciipricorni

4

5 41.0

25 41.0

42.67

1.40

+ 1.44

— 20 21 19.0

2 34. 3

— 0. 9

\ " . .

5

15 36.7

35 36.7

42.66

0.82

+ 1.62

— 12 20 38.7

1 47.1

— ii. :;

6.7

37 43.8

57 43. 8

42. 63

0.84

+ 1.60

— 12 39 19.5

1 48.3

— 0.3

6

39 47. 4

21 59 47. 4

42. 63

+ 0.84

+ 1.61

— 12 36 43.2

1 48.0

— 0.3

7

45 26. 9

22 5 20. 9

42.62

— 1.47

— 1.09

+ 21 26 41 i. 4

0 30.7

— 0.7

7.8

47 47.:!

7 47.3

42.62 — 1.46

— 1.10

+ 21 18 20.0

0 30.9

— 0.7

Jupiter

49 17. 1

9 17.4

42.62 + 0.84

+ 1.611

— 12 43 30.2

1 48.9

— 0.3

:!:'. Pegasi .

6

54 4.8

14 4.8

42.61

— 1.35

— 1.25

+ 19 45 5.4

0 33.0

— 1.1

56 4.3

16 4.3

42. 61

1.17

— 1.42

+ 17 20 28. 0

36.3

— 1.6

'."J .,< r,l>..-

18 50.8

42.61

1.64

— 0.73

+ 23 41 11.2

27.8

0. 0

23 9 13.4

29 13.4

42.60

1.24

— 1.35

+ 18 23 59. 0

34.8

— 1.4

f Pegasi .

3

11 29.4

31 29.4

42. 59

II. 64

— 2.08

+ 9 42 3.0

48.2

— 1.8

,, " . .

3

13 411. 4

33 40. 4

42. 59

2.08

+ 1.01

+ 29 4 59.0

21.3

+ 1.6

, " . .

4

23 16 56.4

22 36 56. 4

— 0 42. 59

- 1.54

— 0. 95

+ 22 25 19. 0

— 0 29.4

— 0. 4

1784 NOVEMBER 2S

Zero corr. = + 1' 40". 0.

a Lyrae .

1

19 10 15.5

18 30 15.5

— 0 35.47

— 2.83

+ 1.27

+ 3S 34 5.8

— 0 10.6

+ 3.8

a Aquite

1.2

20 20 54.2

19 40 54.2

35. 40

0.52

— 1.44

+ 8 17 55.2

50.4

— 1.7

P " - -

3.4

20 25 21.2

19 45 21.2

35.40

0.37

— 0. 91

+ 5 52 12. 1

54.9

— 1.5

a Cygni .

2

21 14 42. 1

20 34 42. 1

35. 35

3.48

+ 1.79

+ 44 29 41.8

4.5

+ 5.0

e "

3

18 6.8

38 6.8

35.35

2.32

+ 1.40

+ 33 9 10.7

16.6

+ 2.7

3 Equulei

6

34 28. 1

54 28. 1

35.33

0.29

— 0. 58

+ 4 38 51.6

57.2

— 1.4

61 Cygni .

6

37 52.6

20 57 52. 6

35.32

2.74

+ 1.27

+ 37 40 47. 0

11.6

+ 3.6

7

43 1.5

21 3 1.5

35.32

2.53

+ 1.32

+ 35 24 28. 0

14. 1

+ 3.2

7

44 47.9

4 47.9

35.32

2.48

+ 1.34

+ 34 54 1.6

14.7

+ 3.1

7.6

45

5

+ 35 43 57. 0

13.7

+ 3.2

6.7

48 56. 8

8 56.8

35.32

3.12

+ 1.38

+ 41 20 15.6

?.8

+ 4.4

67 " . .

6

48

8

+ 38 28 43. 6

10. 7

+ 3.8

8

51 30.2

11 30.2

35.31

0.58

— 1.86

+ 9 25 0. 4

48.4

— 1.8

7

55 46.2

15 46.2

35. 31

2.05

+ 1.19

+ 30 0 0.0

20.1

+ 1.9

35 Vulpeculos

6

21 58 4s. 7

18 48.7

35.30

1.78

+ 0.08

+ 26 39 42. 0

24.0

+ 0.9

7

22 5 51. 1

25 51.1

35.30

3.53

+ 1.93

+ 44 52 56. 0

4.1

+ 5.1

p Cygni . .

4

6 30.2

26 3U.2

35.30

3.50

+ 1.84

+ 44 37 24. 0

4.4

+ 5.0

8.9

10 41.1

30 41.1

35.30

3.24

+ 1.45

+ 42 18 15.H

6.9

+ 4.6

6.7

22 12 22. 0

21 32 22. 0

— 0 35.29

— 3.23

+ 1.45

+ 42 16 50. 8

— 0 6.9

+ 4.6

17S4 r

IECE1IBER 2§

Ze

o corr. = + :

' 40". 2.

a Lyra; -

1

19 9 53. 7

18 29 53.7

— 0 14.31

— 2.55

+ 1.27

+ 38 33 55. 4

— 0 10.7

+ 3.8

Sun

11 41.4

31 41.4

14.30

+ 1.39

+ 2.02

— -23 30 24. 4

3 2.9

— 1.7

19 14 5.3

18 34 5.3

14.30

+ 1.36

+ 1.86

— 22 57 47. 9

2 57.5

— 1.5

62 Pegasi .

G

23 50 16. 1

23 10 16.1

14.16

— 1.33

— II.H2

+ 22 32 53. 1

0 29.8

— 0.3

ft Piscium .

5

23 57 18.9

17 18.9

14.16

— 0.29

— 0.72

+ 5 11 20.0

0 57.3

— 1.4

/')

7

0 1 8.0

21 8.0

14.16

+ 0.13

+ 1.15

— 2 16 37.6

1 14.5

— 0.7

7

5 26.7

25 26.7

14.16

— 1.38

— 0. 79

+ 23 21 25. 9

0 28.7

— 0.1

7.8

9 34.2

29 34. 2

14.16

0.20

— 0.38

+ 3 36 19.8

1 0. 4

— 1.3

7

14 53.3

34 53.3

14.15

1.12

— 1.30

+ 19 12 28.4

0 34.3

— 1.3

7

19 13.7

39 13.7

14.15

1.59

+ 0.02

+ 26 28 12.H

24.8

+ 0.8

23 " . -

6

0 21 40. 0

23 41 46. 0

— 0 14.15

— 1.19

— 1.20

+ 20 27 39.4

— 0 32. 5

— 1.0

a T. Ill OS

sumed a

3 lis. ; not 21s.

•

b fas

iumed as 51° 7'; not 51° 17'.

(139)

140

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1785

MARCH 14

Zero corr. = + V 39".0.

Name

Mag.

7'

App. sid. time

Clock corr.

n tan 6

'/

f-0

Eefr.

</'

//. m s

h m s

m s

s

s

o ' II

, „

„

Sun . .

0 17 52. 1
20 2. 6

23 37 52. 1
23 40 2.6

— 1 59 18.9

— 1 11.9

— 0.7

£ Ononis

2

— 1 21 43.0

11.7

— 0.7

C " . -

2

6 9 38.6

5 29 38.6

+ 0 16.46

+ 0.13

+ 1.08

— 24 42. 1

1 13.5

— 0.7

15 54.2

35 54.2

16. 47

— 1.87

+ 0.39

+ 27 31 28. 2

0 23. 4

+ 1.2

■

21 26.5

41 26.5

16. 48

1.32

— 1.22

+ 20 12 8.8

32.7

— 1.1

ti Auriga?

2

23 33. 1

43 33. 1

16.48

3.59

+ 1.93

+ 44 52 48. 2
+ 47 50 29. 0

4.2
1.0

+ 5.1
+ 5.5

27 35.4

47 35.4

16. 19

3.34

+ 1.50

+ 42 52 25. 7

6. ■■',

+ 4. 7

29 23. 1

49 23. 1

16. 49

3.35

+ 1.52

+ 42 57 12.2

6.2

+ 4.7

fT Geminorum

5

+ 23 14 22.4

28.7

— 0.2

235 Mayer . .

7.8

36 22.7

56 22. 7

16.50

1.46

— 0.99

+ 22 11 21.7

30.1

— 0.5

3 Gemiuorum

8

36

56

+ 23 6 48.4

28. 8

— 0.2

7

38 43.2

5 58 43. 2

16.51

1.45

— 1.02

+ 21 52 50. 4

30. 6

— 0.5

1 " - -

4

41 41.6

6 1 41.6

16.51

1.49

— 0. 93

+ 22 32 7. 4

29.6

— O. 3

6

47 36.4

7 36.4

16. 52

0.94

— 1.59

+ 14 42 40.0

40.6

— 1.9

/i " . .

5

49 44.7

9 44.7

16.52

0.50

— 0.92

+ 22 35 21.2

29.6

— 0.3

7.8

52 15.8

12 15.8

16.52

1.56

— 0.78

+ 23 24 39. 0

28.5

— 0. 1

7

54 45.5

14 45.5

16.53

1.37

— 1.15

+ 20 53 17.6

31.8

— 0.8

7

6 59 33. 6

19 33.6

16.54

1. 16

— 1.39

+ 17 54 11.2

36. 0

— 1.5

7

7 3 22. 3

23 22. 3

16.54

— 1.10

— 1.44

+ 16 56 21.1

37.3

— 1.7

Y " - -

5

+ 16 33 4. 4

O 37.8

— 1.7

Sirius .

1

15 22. 5

35 22.5

16.56

+ 1.06

+ 1.67

— 16 25 38. 8

2 9.2

— 0.5

9 Gemiuorum

4

18 23.2

38 23. 2

36.57

— 2. 45

+ 1.38

+ 34 10 54.2

0 15.7

+ 2.9

7

27 42. 0

47 42.0

16.58

1.06

— 1.48

+ 16 20 :',0. 0

38. 2

— 1.8

42 <j " . .

6

29 5. 7

49 5.7

16.58

1.64

— o.r,:;

+ 24 29 14. 3

27.1

+ 0.2

7

32 9.8

52 9.8

16.59

1 . 52

— 0.86

+ 22 55 30. 6

29.1

— 0.2

Uranus

7

33 34.0

53 34.0

16. 59

1.55

— 0.80

+ 23 17 49.0

28.6

— 0.2

7

37 49.2

6 57 49. 2

16.59

1.85

+ 0.27

+ 27 10 24.6

23.8

+ 1.0

in Geminorum

+ 24 27 12.0

27. 2

+ 0.2

04 Auriga?

5

42 51 . 3

7 2 51.3

16.60

3.15

+ 1.37

+ 41 13 20.0

8.1

+ 4.3

(5 Gemiuorum

47 4.5

7 4. 5

16.60

1.48

— 0.96

+ 22 20 37. 6

29.9

— 0.4

7.8

50 2(1.2

10 20.2

16.61

1.55

— 0.80

+ 23 19 27. 1

28.6

— 0.1

«)

i "

4.5

52 7.9

12 7.9

16. 62

1.93

+ 0.66

+ 28 11 20. 1

22.6

+ 1.3

P " - -

6

54 45.3

14 45.3

16. 62

1.44

— 1.03

+ 21 51 3.7

30.6

— 0.5

7

7 57 34. 0

17 34.0

16. 63

0.44

— 1.14

+ 6 59 44.4

53. 6

— 1.6

68 A; " . .

6

8 1 7.5

21 7. 5

16.63

1.05

— 1.48

+ 16 15 31.0

38.4

— 1.8

7.8

4 59. 5

24 59.5

16.64

1.67

— 0. 43

+ 24 48 29. 0

26.8

+ 0.3

7.8

5 58.7

25 58.?

16.64

1.65

— 0.47

+ 24 40 37.0

26.9

+ 0.3

7

7 52.9

27 52.9

16.64

1.56

— 0.77

+ 23 28 54.6

28.5

— 0. 1

10 21.5

30 21. 5

16.65

1. 52

— 0.88

+ 22 52 19.8

29.3

— 0.2

7

8 12 19.4

7 32 19.4

16.65

1.37

— 1.17

+ 20 47 58. 4

32.0

— 0.9

7.8

9 10 41.2

8 30 41.2

16.73

2.32

+ 1.40

+ 32 47 57.6

17.3 + 2.7

1] s Hydra?

4

9 15 9. 1

8 35 9. 1

+ 0 16.74

— 0.45

-1.19

+ 7 10 54.3

— 0 53.2 !— 1.6

1

1785

IH1RCH ]

9

Zei

o corr. = 4-1' 34". 4.

C Orionis

2

6 9 27. 2

5 29 27. 2

+ 0 27. 69

+ 0. 13

+ 1.08

— 24 39. 1

— 1 13.5

— 0.7

32 v Auriga1

5

16 11.7

36 11.7

27. 70

— 2.92

+ 1.28

+ 39 2 41.2

0 10.4

+ 3.9

21 15.8

41 15.8

27.71

1.33

— 1.22

+ 20 12 9. 8

32.6

— 1.1

H Geminorum

5

30 39.6

5 50 39.6

27. 72

— 1.55

— 0.81

+ 23 14 25. 6

28. 8

— 0.2

'<)

67 v Orionis

4.5

+ 14 42 37. 0

0 40.6

— 1.9

C Canis Maj.

3

51 31.2

6 11 31.2

27.75

+ 2.07

+ 4.83

— 29 55 35. 8

4 52.3

— 5. 5

v Geminorum

4

55 48.5

15 48.5

27. 75

— 1.34

— 1.21

+ 20 IS 52.0

0 32.6

— 1.0

7

6 59 21.9

19 21.11

27.76

1.17

— 1.40

+ 17 53 53. 6

36.0

— 1.5

258 Mayor . .

6.7

7 2 6.6

22 6.6

27.76

1 . 06

— 1.47

+ 16 20 28.0

38.2

— 1.8

y Geminorum

2.3

4 53.8

24 53. 8

27.77

1 . OH

— 1.47

+ 16 33 1.4

38.0

— 1.7

55 Auriga?

5

7 2.1

27 2.1

27.77

3. 57

+ 1.86

+ 44 41 13.0

4.4

+ 5.0

6

8 42. 3

28 42. 3

27.77

— 3.57

+ 1.86

+ 44 40 35. 0

0 4.4

+ 5.0

Sirius .

1

15 11.3

35 11.3

27.78

+ 1.06

+ 1.67

— 16 25 35. 0

2 9.2

— 0.5

16 Lyncis

6

21 30.6

41 30.6

27. 78

— 3.64

+ 2. 12

+ 45 19 45. 0

0 3.7

+ 5.1

7.8

7 24 48. 1

6 44 48. 1

+ 0 27. 79

— 1.18

— 1.37

+ 18 9 11.4

— 0 35.5

— 1.5

a T

III assumed as

52m. 31s. i not 52

n. 44s.

b Name not 67 v Orionis.

(140)

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

141

17S5 MARCH 1»— Continued Zoro corr. = + 1' 34".4.

Name

Mag.

T

Arip. sill tilni'

Clock corr.

n tan (S

'/

C— *

Refr.

'/

It m s

h m s

in $

s

s

o / //

/ //

//

«)

C.7

7 27 31.0

6 47 31.0

+ 0 27.71)

— 1.06

— 1.48

+ 10 20 40. 1

— 0 38. 3

- 1.8

6.7

29 15.5

49 45.5

27.70

1.09

— 1. 13

+ Hi ",7 2.8

37.3

- 1.7

ft) (./-'( iriniiioriim

6.7

31 57.8

51 57.8

27.80

1.53

— 0.86

+ 22 55 38.0

29.2

— 0.2

1 [erschel -

6.7

33 19.2

53 19.2

27.80

1 . 55

- 0.80

+ 23 17 48.0

28. 7

0.2

7.8

38 36. 1

6 58 36.1

27.81

1.01

- 1.51

+ 15 39 17.0

39.3

— 1.8

6.7

40 54.6

7 ii 54.6

27.81

1.68

- 0.37

+ 25 2 40.0

26.5

+ 0.4

e) 52 Geminorum

6.7

41 7.0

1 7.9

27.81

1.69

— 0. 32

+ 25 13 25.0

26.3

4- o.4

7.8

43 17.9

3 17.9

27.82

1.67

— 0.41

+ 24 52 40. 1

26.7

4- o.4

6 " . .

3

46 52.9

6 52. 9

27. 82

1.48

— 0.00

+ 22 20 42. 0

29.9

— 0.4

i " . .

4.5

51 56.9

11 56.9

27.83

1.93

+ 0.66

+ 28 11 19.4

22.6

+ 1.3

7

54 47.3

14 47.3

27.83

0.79

— 2. 16

+ 12 21 23. 8

44.4

— 2.0

6

7 57 25. 4

17 25.4

27. HI

0. 79

— 2.00

+ 12 25 19.6

44. 3

— 2.0

7

8 0 30.7

20 39.7

27.84

2.01

+ 1.02

+ 29 6 57. 0

21.6

4- 1.6

7.8

1 32.7

21 32.7

27.84

2.00

+ 1.01

-f- 20 3 30.0

21.6

4- 1.6

7

4 3.0

24 3.0

27.84

1.36

- 1. [8

+ 20 36 33.6

32.2

— 0.9

G

6 39.7

26 39. 7

27.85

1.17

— 1.37

+ IS 7 50.5

35. 6

— 1.5

10 35.0

30 35.0

27.85

1.77

— 0.04

+ 26 15 43. 0

25.0

4-0.8

/3 " . .

•2

J I 44.3

31 44.3

27. 85

1.95

+ 0.79

+ 28 30 41.9

22.2

4- 1.5

82 " - -

6

15 17.6

35 17.0

27. 86

1.58

— 0.74

4 23 38 26.3

28.2

0.0

J7 18.7

37 18.7

27.86

1.65

— 0.47

4- 24 40 15.0

26.9

4-0.2

Moon .

20 25. 4

40 25. 4

27.86

1.58

— 0.73

4- 23 ID .',7.4

28.2

0.0

7

26 46. 6

46 46.6

27.87

2.06

+ 1.17

+ 29 49 59.0

20.8

+ 1.9

5 C'ancri .

6

29

49

4- 17 I 0.0

37.2

— 1.7

7 "

6.7

30 44.5

50 44.5

27.88

1.50

— 0.91

+ 22 38 28.0

29.6

— 0.3

9/i' " . -

5. 6

33 9.4

53 9. 4

27. 88

1.54

— 0.82

+ 23 13 1.9

28. 8

— 0.2

11 " . .

6

35 14.8

55 14.8

27.88

1.92

+ 0.61

4- 28 4 16. 4

22.9

4- 1.3

7.8

37 20. 8

7 57 20.8

27. 89

1.15

— 1.41

4- 17 37 5.0

30.5

— 1.0

7

40 32.2

8 0 32.2

27. 89

1.58

— 0.72

4- 23 45 10.2

2S.2

0. 0

7

45 55.5

5 55.5

27. 90

1.67

— 0.44

4- 24 48 45. 0

2G.9

4- 0.3

19 3. " . .

6

47

7 20.1

27. 90

1. 65

— 0.47

4- 24 39 58. 2

27.0

+ 0.3

53 27. 6

13 27. 6

27.91

1.69

— 0.33

4- 25 12 20.6

26.4

4- o.4

7

8 56 29.6

16 29.6

27. 92

1.82

+ 0.15

4- 26 52 37. 0

24.3

4- 1.0

33 Lyncis

6

9 (i 28.5

20 28.5

27. 92

2.72

+ 1.27

4- 3.7 7 12.0

12.5

4-3.5

6

9 4 26.4

8 24 26. 4

+ 0 27.92

— 2.38

+ 1.40

+ 33 30 57. 6

— 0 16.5

4-2.8

17S5

MAUt'M

21 Z<-

o corr. = + V 38".l.

Sun . .

0 43 8. 3

0 3 8.3

4- 0 14 10.9

+ 0 40 27. 9

— 1 6.4
1 5.1

— 0.8

— 0.9

a Tauri .

1

5 3 9.0

4 23 9. 0

+ 0 30.39

— 1.05

— 1.49

4- 16 2 48.7

0 38.1

— 1.8

Capella

1

40 22. 0

5 0 22. 0

30.43

— 3.75

+ 2.28

4- 45 44 8. 0

0 3.2

+ 5.2

Rigel - .

1

43 41.0

3 41.0

311.43

+ 0.54

+ 1.87

— 8 27 59. 8

1 31.9

— 0.5

rf) /3 Tauri . .

2

52 15.2

12 15.2

311.44

— 1.97

+ 0.73

+ 28 23 20.0

0 22. 1

+ 1-4

y Ononis

2

5 53 8. 5

13 8.5

30.44

— 0.39

— 0. 96

4-6 7 43.6

0 54.6

— 1.5

3 " . .

2

6 0 31.7

20 31.7

30.4:>

+ 0. 03

+ 0.53

— 0 28 51.2

1 8.8

— 0.8

£ " . .

2

4 48.5

24 48.5

30. 45

0.09

+ 0.80

— 1 21 41.6

10.7

— 0.7

f " - -

2

9 24.7

29 24.7

30. 46

+ 0. 13

+ 1.09

— 24 38.6

1 12.7

— 0.7

it Axulgve

6

23 31.4

43 31.4

30.48

— 3.76

+ 2.33

4- 45 52 23.0

0 3.1

+ 5.3

i/Geminorum

5

30 36.6

i 50 36.6

30.48

1.56

— 0.81

+ 23 14 23.4

28. 1

— 0.2

/c Aurigse

4.5

41 12.4

6 I 12.4

30. 49

2.07

+ 1.10

4- 29 32 23.0

20.8

4- 1.8

,u Geminorum

3

6 49 30.7

9 30.7

30.50

1.51

— 0. 92

4- 22 35 19.2

0 29. 2

— 0.3

f Can. Maj. -

3

— 29 55 45. 8

4 48.4

— 5.5

258 Mayer . .

7

7 1

21

4- 16 20 20.0

0 37.8

— 1.8

c) 50 Aurigae

5.6

3 31.2

23 31.2

30.52

3.36

+ 1.48

4- 42 38 8.2

6.5

4-4.6

y Geminorum

2.3

4 51.3

24 51.3

30. 52

1.08

— 1.47

+ 10 33 2.6

37.5

— 1.7

55 Aurigse

5

6 58.3

26 58. 3

30. 52

3.61

+ 1.86

4- 44 41 13.0

4.3

4-5.0

50 " - -

6

10 46.0

30 46. 9

30. 52

3.49

+ 1.64

4- 43 11 53.0

r,. 3

4-4.8

6

14 40.3

34 40.3

30. 53

2.81

+ 1.27

4- 37 42 10.0

11.7

4-3.6

58 " . -

4.5

15 .".. 8

35 5.8

30.53

3.29

+ 1.42

4- 41 59 30.0

7.1

4- 4.5

59 " . .

6

17 46.5

37 46.5

30. 53

2.97

+ 1.28

4- 39 5 1.7

10.2

4-3.9

6

20 9.8

40 9.8

30.53

3.85

+ 2.58

4- 46 30 7.2

2.4

4-5.4

1G Lyncis

6

7 21 27. 2

6 41 27.2

+ 0 30.53

— 3.69

+ 2.13

4- 45 19 45. 2

— 0 3.5

4- 5.1

a Div. assumed :is rj4 1

1 13; not

34 10 IS.

c g assumed as

23° 37' 40"; no

23°38'0". e "Transit over T. Ill

assumed as recorded

b g assumed as 25° 5o'

27" ; not

25° 55' 7".

(/ jf assumed as

20° 27'; not ■_'<'

28'. over T. II.

(141)

142

GOULD REDUCTION OF D AGELET S OBSERVATIONS

GOULD REDUCTION OF d'AGELEt's OBSERVATIONS.

14.",

17S5 MARCH 23— Conllunrd Zein corr. = + 1' 33" A.

Name

Mag.

T

Ajiji. Bid. lime

Clock corr.

H taU <\

'1

C — 0

Refr.

'/

/( VI s

// III s

ttl s

S

s

O ' "

/ //

II

7

8 33 2.7

7 53 2.7

4- 0 33.74

— II. ill

- 1.65

4 14 5 17.6

- 0 41.9

-2.0

7

35 8.9

.V. 8.9

33.7 i

1.98

4- 0.59

4 28 4 23. 2

23.0

4 1.3

13 Cane cat. 1712

6.7

38 24. 2

7 58 24. 2

33.75

1.00

- 1.56

4 15 14 13.9

40. 2

- 1.9

7

41 21.7

8 1 21.7

33.75

1.22

— 1.36

4 18 17 42.3

35.6

- 1.5

/3 Cancvi - .

4.3

44 21.1

4 21.1

33.75

0. 64

— 2. 17 + 9 49 18.0

49.0

- 1.8

8 45 22. 7

8 5 22. 7

33.75

0.62

- 1.92

4 9 30 20. 0

49. 4

— 1.8

a ) 7 Leonis .

7

io 3 :;:.:;

9 23 37. 3

33.83

1.00

— 1.54

4 15 18 49.0

411.0

— 1.9

7.8

6 18.0

26 18.0

33.83

1.44

— 1. 11 + 21 14 22.0

31.6

- ii. -

7

33 12.2

53 12.2

33.86

0.59

— 1.06

4 9 0 41.0

50. 4

— 1.8

V " • -

3.4

35 5.8

55 5. 8

33.86

1.19

— 1.40

4 17 47 9.8

36.3

— 1.5

7.8

36 57. 3

56 57. 3

33.86

1.45

— 1.09

4 21 21 39.0

31.4

— 0.7

7.8

38 43. 9

9 58 43.9

:;:;. >?

1.47

— 1.05

4 21 44 9. 6

30. 9

— 0.6

7

42 9.3

in 2 9.3

33.87

1.51

— 0.99

+ 22 12 46. 8

30. 3

— 0.5

A) 30 " - .

6.7

44 53.5

4 53.5

33.87

1.66

— (1.59

+ 24 9 30.2

27.8

0.0

7 " - -

42 " . .

3

47 36.7

7 36.7

33.88

1.40

— 1.16 ,4- 20 54 1 1.:.

32.2

— 0.8

7

49 47.il

9 47.0

:::;.--

1.06

— 1.49

+ 16 2 12.0

39.0

— 1.8

6

10 56 22.2

16 22.2

33.88

2.2H

+ 1.29

+ 30 47 54. 0

19.6

+ 2.1

34 Leon. Min.

5

11 0 4M.5

20 40.5

33.89

2.60

+ 1.30

+ 36 4 0.0

13.7

+ 3.3

6.7

11 0.5

31 0.5

33. 90

0.30

— 0. 59

+ 4 41 19.8

0 58.5

— 1.4

8.9

13 55. 0

33 55.0

33.90

0.13

— 0.12

+ 27 35.0

1 4. 0

— 1.0

8

17 46.3

37 46.3

33. 90

0. 30

— o. 56

+ 4 33 41.0

0 58.9

— 1.4

8

19 19.3

39 19.3

33.91

0.31

— 0.60

4- 4 42 50. 4

0 58.5

— 1.4

55 Leonis . -

6.5

24 7.3

44 7.3

33.92

0.12

— 0.08

4- 1 52 8.8

1 4.6

— 1.0

57 " . -

6

24 i

44 i

+ 1 33 58.0

1 5.1

— 1.0

58 d Leonis .

28 56.5

48 56.5

33.92

0.31

— 0.61

+ 4 45 21.2

0 58.4

— 1.4

c) Moon -

11 29 35.7

10 49 35. 7

+ 0 33.92

— 0.31

— 0. 64

+ 4 52 58. 1

— 1 0. 3

— 1.4

17S5

MARCH

30 Zero corr. = + 1' 30".2.

Shins .

1

6 34 39. 5

+ 0 59.83

4 1.13

+ 1.67

— 16 25 39. 3

— 2 8.6

— 0.5

92 Leonis .

4.5

11 28 39.8

1 0.08

— 1.60

— 0.93

+ 22 31 31.3

0 29.5

— 0.3

7

29 58. 9

1 0.08

1.66

— 0.79

+ 23 23 1.0

28.4

— 0. 1

32 4.5

1 0. 08

1.91

0.00

4 26 23 14.9

24.7

4- 0.8

6

39 1.3

1 0.09

2.65

+ 1.37

+ 34 32 39.4

15. 2

+ 3.0

7

41 41.2

1 0. 09

2.68

+ 1.35

+ 34 47 15.8

15.0

4 3.1

6

44 15.0

1 0. 09

2.84

4 1.29

+ 36 37 2. 3

12.9

+ 3.4

7.8

48 9.8

1 0.10

2.99

+ 1.27

+ 2. 87

4- 37 53 56. 0

11.6

4 3.7

d)

7.8

54 25. 0

1 0.10

4.20

4- 47 27 22. 0

14.7

+ 5.4

6

11 58 54. 1

1 0. 10

2.09

+ 0.77

+ 28 27 18.3

22.1

4- 1-4

7

12 2 37. 1

1 0.11

1.78

— 0.42

4- 24 50 42. 0

26.5

4-0.4

7 Comae .

5.6

4 31.4

1 0.11

1.81

— 0.35

+ 25 7 11.2

26.3

4 l!-'!

7

7 15.2

1 0.11

1.98

+ 0.27

+ 27 10 48.0

23.8

+ i.o

7.6

8 33.1

1 0.11

1.98

4 0.27

+ 27 10 22. 0

23.8

4- i.o

c Coma; .

4.5

10 45.7

1 0.11

1.96

+ 0.21

+ 27 1 6.7

23.9

4 I.o

7

12 43. 0

1 0.12

1. 94

+ o. io

+ 26 45 12. 6

24.3

4-0.9

6

15 17.3

1 0.12

2.47

4- 0.57

+ 27 59 40.7

22. 8

+ 1.3

d " . .

6

17 14.2

1 li. 12

1.97

4 0.24

+ 27 4 55. 1

22.6

+ i.o

8

19 54.9

1 0. 12

2.07

+ 0.68

+ 28 14 0.0

22. 5

4 1.3

25 Comfe -

5

23 25. 2

1 0.12

1.36

— 1.27

+ 19 32 32.8

33.6

— 0.9

7.8

30 56. 1

1 0. 13

2.68

+ 1.34

+ 34 51 7. 6

14.9

4- 3.1

7

33 33. 8

1 0.13

2.09

.+ 0. 80

+ 28 33 4.2

22.2

+ 1.5

36 Virginis .

6

37 12.7

I 0.14

1.07

— 1.55

4- 15 16 50.0

39.6

— 1.9

31 Comce . .

5.6

40 16.8

1 0.14

2.11

+ 0.86

+ 28 41 31.6

21.9

+ 1.5

7.8

42 31.1

1 li. 15

2. 04

+ 0.54

+ 27 55 34.0

22.9

4 1.3

7

44 28. 3

1 0.15

2.52

+ 1.40

+ 33 8 40. 3

16.8

4-2.7

7

45 i

+ 44 41 20.0

4.4

+ 5.0

6.7

49 12.4

1 0.15

2.49

4- 1.40

4 32 55 0. 1

17.1

+ 2.7

7.8

53 7.3

1 0. 15

3.74

+ 1.70

+ 44 8 3.0

4.9

+ 4.9

6

12 55 14. 1

1 0. 16

— 4. 06

'+ 2.53

+ 46 23 27. 3

0 2.6

+ 5.3

a Virginis -

1

13 12 53.7

+ 1 0.17

+ 0.08 + 1.79

— 10 2 12.6

— 1 38.7

— 0.4

a D

v. assur

led as 35 12 6;

lot 35 12 10.

c I assumed as 43° ; not 44°.

b T

1

ansit ov
over T.

>-r T. Ill assail
II.

■ il as recorded

d i assumed as 1° 23' 43" ; not 1° 24'

3".

(143)

144

GOULD REDUCTION OF D AGELET S OBSERVATIONS.

1 7S5 APBIL 5 Zero corr. = + 1' 38". 3.

Name

Mag-.

T

App. sid. time

Clock corr.

n tan d

<l

<r-0

Refr.

1'

h m s

/i III s

n

s

s

s

o / //

, //

11

Sun . .

0 57 4.8
0 59 14.6

-f- 6 35 17.2

- 0 53.2

-1.6

i! Oriouis

o

5 19 55. 1

+ 1

6.93

+ 0.03

4- 0.53

— 0 28 48. 6

1 9.4

— 0.8

e "

2

24 11.4

1

6.94

0. 09

+ 0.86

— 1 21 42.2

11.5

— 0.7

f " - -

2

5 28 47.8

1

6.94

+ 0.14

+ 1.08

— 24 39.0

1 13.3

— 0.7

e Geminorum

3

6 29 37. 6

1

7. 02

- 1.84

— 0. 30

+ 25 18 28. 8

0 26. 1

+ 0.5

Sirius .

1

6 34 31.6

1

7. 02

-f- 1.15

4- 1.67

— 16 25 42. 6

2 8.9

— 0.5

Procyon .

1

7 26 57. 9

1

7.08

- 0. 39

— 0.87

+ 5 45 2. 4

0 55.8

— 1.5

ji Geminorum

2

31 4.1

1

7.09

2.12

+ 0.79

+ 28 30 35.0

22.1

+ 1.5

25 Lyneis

6

37 43.6

1

7.09

4.31

+ 2.99

+ 47 53 53. 9

1.0

+ 5.5

13 Cane. Cat. 1712

6

57 50.5

1

7.12

1.06

— 1.56

+ 15 14 7.4

39. 8

— 1.9

(3.7

7 59 53. 0

1

7.12

1.71

— 0.72

+ 23 45 3.8

2S.0

0. 0

7

8 4 49.5

1

7.12

1.99

+ 0.19

+ 26 58 16.8

24.0

+ i.o

31 Lyneis

5

+ 43 50 13.0

5.3

+ 4.9

8

9 35.1

1

7.13

0.78

— 3.00

+ 11 19 3

21 C'aueri .

0

11 7.1

1

7.14

0.78

— 3.00

+ 11 18

t

7

20 46. 8

1

7.15

0.97

— 1.65

+ 13 57 49. 8

41.8

— 2.H

23 46.6

1

7.15

2.58

+ 1.40

+ 33 30 56. 0

16.4

+ 2.8

7

25 2. 1

1

7.16

2.56

+ 1.40

+ 33 14 8.6

16.8

+ 2.7

7

28 42. 5

1

7.16

2. 98

+ 1.27

+ 37 26 56. 0

12.1

+ 3.6

a)

7

33 4.6

1

7.17

2.16

+ 0.95

+ 28 55 0.6

21.7

+ 1.6

5 Leon. Mm.

6.7

36 4.4

1

7.17

2.63

+ 1.38

+ 34 3 10.6

15. 8

+ 2.9

7.8

40 1.2

1

7.18

1 . 28

— 1.37

+ 18 9 4.0

35.5

— 1. 5

f Hydrae

4

42 57. 4

1

7.18

0.46

— 1.09

+ 6 44 19. 4

54.0

— 1.6

7

47 53.7

1

7.18

2.13

+ 0.86

+ 28 43 0. 0

21.9

+ 1.5

7.8

50 J.",. II

1

7.19

2.13

+ 0.86

-j- 28 42 58. !'.

21.9

+ 1.5

5.6

51 44.3

1

7.19

3.19

+ 1.28

+ 39 16 33.0

10. 1

+ 3.9

6.7

54 33.2

1

7.20

2.70

+ 1.35

+ 34 43 20.6

15.1

+ 3.0

6.7

56 33. 3

1

7.2H

2. 42

+ 1.38

+ 31 48 19. 1

18.4

+ 2. 5

7.8

8 58 48. 4

1

7.20

1.34

— 1.32

+ 18 53 48. 6

34.6

— 1.3

6.7

9 0 55.7

1

7.20

2.78

+ 1.32

+ 35 29 15. 0

14.2

+ 3.1

7.8

3 4. 6

1

7.21

2.66

+ 1.37

+ 34 22 7.7

15. 5

4 2. 9

7

6 24. 4

1

7.21

:;. k;

+ 1.28

+ 39 3 47.2

10.4

+ 3.9

7.8

8 19.3

1

7.21

1.14

— 1.48

+ 16 15 21.2

38.3

— 1.8

8.9

11 25.5

1

7.22

1.34

— 1.31

+ 19 2 15.2

34.4

— 1.3

u Leonis .

5

15 53. 3

1

7. 22

0.69

— 2.24

+ 9 58 6.6

48.3

— 1.8

7

20 37.3

• 1

7. 23

1.76

— 0.56

+ 24 22 58. 0

27.4

+ 0.1

7.8

25 32.7

1

7.24

0.95

— 1.69

+ 13 40 41.6

42. 3

— 2.0

8

27 51.2

1

7.24

D.97

— 1.65

+ 14 0 35.2

41.8

— 2.0

7

31 *

+ 46 4 33. 0

2.9

+ 5.3

7.8

35 54.7

1

7.25

3.34

+ 1.34

+ 40 35 51 . 1

8.7

+ 4.2

22 "

6

38 36. 1

1

7.25

1 . 85

— 0.28

+ 25 22 59. 2

26.1

+ 0.5

Rejrulus

1

9 55 52. 2

1

7. 28

II.9H

— 1.79

+ 12 59 35. 8

43.4

— 2.0

6.7

10 o ::;..:;

1

7.28

2.119

+ 0.66

+ 28 10 17.1

22.7

+ 1.3

7.8

3 10.8

1

7. 29

2.22

+ 1.15

+ 29 43 46. 8

21.0

+ 1.8

7

4 57.8

1

7. 29

2.11

+ 0.78

+ 28 27 36. 0

22.3

+ 1.4

8

7 30.4

1

7.29

2.41

+ 1.37

+ 31 42 45. 4

18.5

+ 2.4

7.8

9 32. 3

1

7.30

2.86

+ 1.30

+ 36 16 21.0

13.4

+ 3.3

7

10 12 14.5

+ 1

7.30

— 2. 88

+ 1.30

+ 36 29 21. 1

— 0 13. 1

+ 3.4

178;

> APRIL •

» Ze

o corr. = + 1' 34".".

6

8 18 8.6

+ 1

14.92

— 1.39

— 1.26

+ 19 40 53.4

— 0 33. 1

— 1.2

6

20 37.8

1

14. 92

0.97

— 1.66

+ 13 57 50. 8

41.4

— 2.0

1 Leon. Min.

6

23 38. 1

1

14.93

2.58

+ 1.40

+ 33 30 59. 2

16.3

+ 2.8

6.7

25 16.5

1

14.93

2.58

+ 1.40

+ 33 27 1.5

16.4

+ 2.8

7

28 16. 6

1

14. 93

1.47

— 1.18

+ 20 36 33. 0

31.8

— 0.9

7.8

30

+ 37 39 39. 0

11.8

+ 3.6

7.8

30 35.8

1

14.94

3.05

+ 1.27

+ 38 2 16.0

11.4

+ 3.7

7

32 55. 8

1

14.94

2.16

+ 0.94

+ 28 54 59. 8

21.6

+ 1.6

35 Lyneis

5.6

6.7

36 14.9
38

1

14.94

3.84

+ 1.80

+ 44 29 15.6
+ 19 36 14. 0

4.5

33.2

+ 4.9
— 1.2

7

8 39 52.2

+ 1

14.95

— 1.28

— 1.37

+ 18 9 7.0

— 0 35.2

— 1.5

it T. II a

gurnet

as Is. j

lot S4s.

(144)

GOULD INDUCTION OF DAGEI.KTS OBSERVATIONS.

145

17Sj APBIIj »— Continued Zero corr. , L'34".7.

Name

Mag.

T M'P- *i°* time

31ock corr.

n tau <!

'/

•r— <p

Refr.

'/'

h m s

m s

,s'

s

O 1 II

/ II

//

7

8 in 30.1 + 1 14.95

- 1.29 -

- 1.36

4 18 19 40.0 -

- ii :::,. ii -

- 1.5

(3.7

42 3.5

1 14.95

1.27 -

- 1.::-

4 18 1 11.8

35.4 -

- 1.5

u Ure. Maj. -

4.5

45 25.7

1 14.95

3.59 + 1. 1-

4- 42 35 45.7

6.5 4 4.6

r Cancri .

6

8 1- 56.2

1 14.96

1.84 -

- 0.30

4 25 15 59. 8

25.9 4 0.5

9. in

13 21 14.7

1 15.38

1.82 -

- (i.:;:

4 25 0 48. 1 1

26.3 4 0.4

0. 7

25 39.9

1 15.38

1.8!

- 0.19

4 25 41 28.2

25.5 4 0.0

!>. in

27 37.4

1 15.38

1.83 -

ii.::::

4 25 12 21. 0

26. 1 4 (1.4

2 Bootis -

0

29 40. 3

1 15.38

1.7H -

- H.7.",

+ 23 34 2. 5

28.1

0.0

7

33 27. 1

1 15.39

0.78 -

- 3.01

4 1 1 23 40. 1

45.5 -

- 1.9

3 " . -

(i

35 32.2

1 15.39

1.96 + 0.11

4- 26 45 43. 3

24.1 4 0.9

6 " . .

6

38 21.8

1 15.40

1.60 -

- 0.96

4- 22 18 54.0

20.7 -

- 0.4

7

39 3. 5

1 15.40

1.60 -

- 0.96

4- 22 19 27. 0

29.7 -

-0.4

(',.7

42 12.7

1 15.40

2.22

f 1.14

4 29 41 13.2

20.7 +1.8

9 " . .

;,. 6

45 33.2

1 15.40

2.12

f 0.79

4 28 31 37.8

22.0 + 1.5

«)

Jl " . .

6

50 13. 1

1 15.42

2.11

4 0.76

+ 28 24 23,. 5

22.2 -

4- 1.4

7

52 10.8

1 15.42

1.70

- 0.76

+ 23 30 52. 5

28.2

4- 0.1

7

56 11.8

1 15.42

2. 8 1

4- 1.31

4 35 46 55.7

13.8 +3.3

12 il " . -

6.5

13 59 24. 3

I 15.43

1.91

- 0.09

4- 26 5 35. 3

25.0 +0.7

7.8

14 1 46.0

1 15.43

3.68

4- 1.56

4 43 19 32.5

5.7

4 4.7

7

4 31.4

1 15.44

3.57

-j- 1.47

+ 42 30 9.2

6.6

4 4.6

7

6 27.7

1 15.41

3.36

4- 1.35

+ 40 43 2.6

8.5

4 4.2

7

9 46.4

1 15.44

3.24

4 1.30

+ 39 45 32. 0

9. 5

4 4.1

7

13 16.8

1 15.45

2.11

+ 0.73

4- 28 22 15.4

22. 2

4 1.4

6.7

15 31.2

1 15.45

3. 20

+ 1.28

4- 39 20 29. 1

Id 0 4 3-9

7.8

17 45.5

1 15.46

3.51

+ 1.42

+ 41 57 57.9

7.2 4- 4.5

a "

5

24 6.7

1 15.47

2.31

+ 1.27

4- 30 39 35. 8

19.5 4 2.1

(1.7

27 3.3

1 15.47

1 . 36

— 1.30

4- 19 13 9.8

33.9 — 1.3

8. 9

30 42.0

1 15.48

1.38

— 1.28

4- 19 24 13.0

33.6 — 1.2

>>)

9

33 4.4

1 15.48

1.36

— 1.29

4- 19 22 8.0

33.7 — 1.3

7

34 13.5

1 15.48

1.40

— 1.25

+ 19 46 38.2

33. 1 —1.1

6.7

37 39.7

1 15.48

1.83

— 0.31

+ 25 14 37. 6

25.9 4- 0.4

7

39

4- 2-1 47 1.0

26.5 +0.3

<0

0.7

42 33.0

1 15.49

2.51

4 1.40

4- 32 47 15. 9

17.1 4 2.7

7

44 10.2

1 15.50

2.52

4 1.40

4 32 52 14.9

17.1 4- 2.7

7

45 51.5

1 15.5(1

2. 55

4 1.40

+ 33 8 59.0

0 16.7 + 2.7

J Id Virginia .

4.5

50 50. 3

1 15.50

2.2H

— 0. 27

+ 2 55 54. 4

1 1.3 — 1.2

ip Bootis -

5

54 2.0

1 15:50

2. 06

+ 0.47

-j- 27 46 8. 0

0 22. 9 4- 1.2

45 c " . .

5. 6

14 56 40.3

+ 1 15.51

— 1.88

— 0. 19

+ 25 41 25.5

— 0 25. 5 + 0. 6

J7S5

APRIL, 1

O Zei

o corr. = + 1' 38". 9.

15 V"3 Cancri .

5

7 58 32. 8

+ 1 17.33

— 2.28

4 1.22 + 30 15 56.9

— 0 20. 0

4 2.(1

31 Lyncis -

5

8 6 50.2

1 17.34

3.74

4 1.66 + 43 50 14.6

5.2

4 4. 9

7

12 25.6

J 17.35

1.24

- 1.40 -f- 17 43 26.2

35.9

1-1.6

28 r- Cancri .

7

14 36.7

J 17.35

1.8(1

— 0.42 + 24 49 31.7

26.4

4 (1.3

7

19 44.9

1 17.36

0.74

— 2.76 + 10 45 58.8

46.4

— 1.9

7

20

+ 13 57 52. 0

41.4

— 2.0

7

22 50. 0

1 17.36

1.12

— 1.49 + 16 1 39.7

38. 3

— 1.8

<T

2 Leon. Miu.

6

24 51.6

1 17.37

2.56

+ 1.40 + 33 14 12.0

10.0

4- 2.7

e)

2 " . .

7

25 15. 1

1 17.37

2. 57

4- 1.40 4 33 27 2.0

16.4

+ 2.8

7.8

28 14.8

1 17.37

1.47

— 1.18 4- 20 36 31.6

31 . 8

— 0.9

6.7

4- 37 39 37.0

11.7

4-3.6

7.8

31 17.6

1 17. 38

2.18

4 1.05 4 29 11 22.6

21.2

4 i.o

7.8

35 in. 7

1 17.38

2.68

4 1 . 37 4 3,4 28 53. 3

15.2

+ 3. 0

5 ' . -

6.7

35 54. 8

1 17.38

2.63

4 1.38 4 34 3 13.8

15.7

+ a. 9

6

39 51 . 3

1 17.39

2. 38

4 1.34 + 31 21 32.6

18.7

4-2.3

7

40 i

4 18 19 44.1

35.0

1— 1.5

7

42 20. 0

1 17.39

1.84

— 0.32 + 25 14 26.4

26.0

:+ 0.4

9

44 57. 2

1 17.40

1.80

— 0. 44 + 24 45 54. 2

26.5

!+ 0.3

8

46

4 27 14 11.0

23.6

4- 1.0

7

48 25. 4

1 17.40

1.26

— 1.40 4 17 53 42. 0

35. C

— 1.5

7

8 50 1. -

4 1 17.41

— 2. 14

+ 0.86 + 28 42 56. t

— 0 21.7

4- 1.5

' T 1 assumed as i: -

., c Tr.iu-.it" ,1,-,

mliiut.

c g assumed as 15° 2'

'2"; not 15° 24' :;■."'.

1 ; ..--iii.i. .1 ... ."' .'-

, 33'. « T. II asBiimi

,1 aa 34m do!

34m.

19

(145

146

GOULD — REDUCTION OF D AGELET S OBSERVATIONS.

1785 APRIL lO— Continued Ze

ro corr. = + 1' 38".9.

Name.

Mag.

T

App. sid. time

Clock coir.

ii tuu <i

'I

C— 0

RctY. </'

/( lit s

w s

s

s

o / "

/ // //

8

8 53 0. 1

+ 1 17.41

— 1.17

— 1.45

+ 16 41 31.0

— 0 37.3 — 1.7

7

55 1.2

1 17.41

1.08

- 1.52

+ 1., 32 58.8

36.9 —1.8

36 Lyncis

5

8 58 27. 1

1 17.42

3.77

+ 1.70

+ 44 3 58. 5

5.0 + 4.0

9 1 47. 3

1 17.42

o.sr,

— 2. 14

+ 12 21 33.6

44. (I — 2. 0

7.8

8 14.4

1 17.43

1.2::

— 1 41

+ 17 29 7.2

36.3 — 1.6

6.7

9 48.5

1 17.43

2.99

+ 1.27

+ 37 28 20. 0

11.0 + 3.6

7

12 8. 2

J 17.43

2. 98

+ 1.27

+ 37 21 11.2

12. 1 + 3.5

6.7

15 39. 1

1 17.44

2.68 + 1.37

+ 34 27 26. 9

I.',. 3

+ 3.0

7 Leon. Min.

6

16 27.4

1 17.44

2.69 + 1.37

+ 34 34 2.8

15. 1

+ 3.0

8 " . .

6

16 J

+ 36 1 9. 0

13.6

+ 3. 3

6.7

20 27.7

1 17.45

1.77

— 0.57

+ 24 22 53. 1

27.1

+ 0.1

7

22 5. -

1 17.45

0.94

— 1.70

+ 13 35 9.5

42. 1

— 2. (1

7

25 22. 8

1 17.46

0.95

— 1.69

+ 13 40 33.8

41.0

-2.0

43 Lyncis .

0.5

27 24.7

1 17.46

3.3.",

+ 1.35

+ 40 42 9.2

8. 5

+ 4.2

8

29 33.5

1 17.46

2. 73

+ 1.33

+ 35 2 48.0

14.6

+ 3. 1

7

31 39.3

1 17.47

4.04

+ 2.43

+ 46 4 33.4

2. 0

+ 5.3

14 Leon. Min.

7

30 33.5

1 17.47

4.04

+ 2.43

+ 46 3 15. 1

2. 0

+ 5. 3

«)

6.5

38 25. 8

1 17.4s

1.85

— 0.28

+ 25 22 56. 8

25.8

+ 0.;,

6

4.'. 30.3

1 17.49

0.64

— 1.80

+ 9 is 58.2

40. 1

— 1.8

it Leouis

4

46

+ 9 3 9.0

49.4

— 1.8

l>)

7

50 54.2

1 17.50

0.75

— 2.83

+ 10 54 56. 6

46.3

— 1.9

Regulus .

1

55 41.9

1 17.50

o. ;m

— 1.79

+ 12 59 35.7

43.0

- 2.0

7

0 .,'.! 14.2

1 17.51

2.19

+ 1.06

+ 29 16 23.0

21.2

+ 1.4

6.7

10 ti 25.9

1 17. -. 1

2.08

+ 0.66

+ 28 10 11.8

22. 5

+ 1.3

24 Leon. Min.

7

3 0.6

1 17.51

2. 22

+ 1.15

+ 20 43 45. 4

20.7

+ 1.8

7

4 48.9

1 17.52

2.11

+ 0.78

+ 28 27 36.2

22. 1

+ 1.4

7.8

7 20.4

1 17.52

2.41

+ 1.37

+ 31 42 44.4

18. I

+ 2.4

8

9 22. 1

1 1 :."■.>

2.86

+ 1.30

+ 36 10 'jo. 7

13.3

+ 3. 3

7

12 4. 1

1 17. . '.3

2.89

+ 1.311

+ 30 'JO 10.0

13.1 + 3.4

6.7

J5 38.8

1 17.53

2. 3,2

+ 1.29

+ 3,0 47 53.4

19.5

+ 2. 1

7.s

17 12.9

1 17.54

2. 26

+ 1.32

+ 40 5 36. 0

0.2

+ 4.1

7.8

19 20.8

1 17.54

3. 3,1

+ 1.32

+ 40 17 49. 6

O.o

+ 4.1

9

25 n.7

1 17.55

1.29

— 1.35

+ 18 22 16.0

35. 2

— 1.5

6

28 52. 1

1 17.55

2.51

+ 1.40

+ 32 47 30.O

17. 1

j- •) 7

40 " . .

6

29 58.6

J 17.5:.

2. 1 12

+ 0.36

+ 27 25 34. 8

23.4

+ LI

6

10 33 35. !

1 17.56

1.42

— 1.23

+ 19 59 50. 2

32. 8

— 1. 1

2 J Virginia

5.6

11 35 38.5

1 17.65

0.65 — 1.86

+ 9 25 20.4

40. 1

— 1.8

6.7

39 19 0

1 17.66

0.63

— 1.76

+ 9 13 58.4

49.4

— 1.8

7

41 24.3

1 17.66

2.70

+ 1.35

+ 34 47 12.2

15.0

+ 3.1

7

44 55. 5

1 17.67

3.45

+ 1.39

+ 41 3o 59.4

7. 7

+ 4.4

8.9

47 51. 8

1 17.67

3.04

+ 1.27

+ 37 53 59. 0

11.6

+ 3.7

6.7

49 56.0

1 17.67

3.80

+ 1.73

+ 44 12 3:,. 2

4.9

+ 4.0

US " . .

6

11 57 52.3

1 17.0-

0.48

— 1.15

+ 6 59 14.6

53.4

— 1.6

<0

7

12 3 16.8

1 17.69

4.38

+ 3. li'.l

+ 48 16 51.5

o.O

+ 5.5

7.8

8 37.0

1 17.7(1

2. Ill

+ 0.67

+ 28 13 53. 0

22. 5

+ 1.3

6.7

13 11.8

1 17.71

— 1.-2

— 0.36

+ 25 5 52.8

0 -JO. 3

+ 0.4

d) 510 Mayer . .

6.8

12 15 32.5

+ 1 17.71

+ 0.23

+ 1.43

— 3 25 58. 1

— 1 17.0

— 0.7

1785

Apnii i

1 Ze

<> corr. - , r 37". 4.

Sun - .

1 18 50.9
1 21 1.0

+ S 40 8.2

— 0 40. 7

— 1.8

i Geminorum

y

7 30 51.5

+ 1 19.29

— 2.12

+ 0.70 + 28 30 3.-,.'.)

21 . 0

+ !■'"'

, 3 Cancri .

1.3

8 3 35.7

1 19.35

0.68

— 2.17 + 9 *9 1 1. 1

is. 1

— 1.8

31 Lyncis

5

6 47.0

1 19.35

3. 74

+ 1.66 + 43 50 16. 1
+ 1.27+37 7 11.7

5.2

+ 4.0

32 " . .

6

19 36.6

1 19.37

2. 95

12.3

+ 3,. 5

e)

24 10.9

1 19.38

1.42

— 1.23 + 19 59 7.4

32.7

— 1. 1

4 <5 Hydra

4

'+ 6 25 40. 0

54.0

— 1.5

4 Leou. Min.

7

+ 32 40 3.4

17.2

+ 2.0

/)

6.7

28 29. 7

1 19.39

2. 57

+ 1.27 + 37 27 3.0

12.1

+ 3.5

s)

6

8 29 5. 0

+ 1 19.39

— 3.01

+ 1.27 + 37 30 35.4

— 0 11.7

+ 3.6

a <? assumed as 23 28' !

"j not 23°28'39". d Ts. II and 111

assumed as 15

m. 328.5 and c T. I assumed as 23m.

I5s.5; not 23m. lis..',.

b I assumed as 36 56

. not 37° 56' 17". loin. 55s.5 r

'spectively ; nc

t 15m. 2rls.o / ^ assumed as 11° ; no

tlo°.

c T. 11 assumed as L6s

not 18s. and 15m. 45s

.0.

g T. Ill assumed as 34s

(146)

GOULll KF.nrCTlON OF DAGKLKTS OBSERVATIONS.

1 n

!■)*.■% APRIL 11— Continued Zero corr. = + 1' 37".4.

Name.

Mag.

T

A|>p. Bid. time Clock corr.

ii tan '^ y

Refr.

'/

It m s m s

s

8 O ' "

, „

//

4!i/, Cancri . .

6

- ::i 49.6 + 1 19.39

— n.75

— 2.79 + 111 49 58.6

— 1. 19 + 7 III 53.11

— 0 10. :'•

1.9

II i Hydras .

1

34 7.3

1 19.40

0.49

52.0

— l.G

7

35

+ 13 18 43.4

42. 4

— 2.0

7.G

37 4C..7

1 19.40

1.13

— 1.48 + 16 7 9.5

38. 1

— 1.8

7

in 21.0

1 19.41

1. 1^

— 1. 17 + 20 44 59.0

31.7

— 0.9

10. 11

II 21.0

1 19.41

2.01

+ 0.30

+ 27 17 15.0

23. 5

4 Li

G.7

45 57.2

1 19.42

2. 01

+ 0.28

4 27 11 8.7

2::. 5

4 I."

69 v Cancri .

6.5

48 52. 5

1 19.42

1.84

— 0.30

4 25 16 o. 1

25.9

4 0.5

"~ " • -

7.8
7

55 43.li
8 57

1 19.43

1.29

— 1.36

4 18 18 ll.o
4- 12 21 45.0

37.9
43. 8

— 1.5

- 2.0

9. in

:i 0 3.8

1 19.44

0. 79

— 3. (Ill

4-11 31 29.0

15. 3

-2.0

8. 9

1 44.5

1 19.44

0.85

— 2.14 + 12 21 34.4

43.8

- 2.0

G.7

4 55.8

1 19.45

0.85

— 2. 14 + 12 22 29.4

43.8

- 2.0

8

8 28. 2

1 19.46

1.60

— 0.9G + 22 22 57.11

29. 5

- 0.4

7

Jl 25.9

1 19.46

1.31

— 1.3,3 + Is 36 19.8

34.6

— 1.4

7

13 53.5

1 19.47

1.06

— 1.56 + 15 12 35.il

39.4

— 1.9

7

L6 54.8

1 19.47

I.e.:'.

— 0.90 + 22 43 32.6

29. 1

— 0.3

4 / Leonis

4.5

18 9.8

1 19.47

1 . 73.

— 0.68 4- 23 53 10.0

27.7

0.0

G

20 25.8

1 19.48

1.77

— 0.56

4- 24 22 5:;. 1

27.0

4- "-1

«)

9

22 9. I

1 19.48

1.04

— 1.57

4- 15 (I 20.0

3,0. g

— 1.9

7 "

G

22 52. 2

1 19.48

1.07

— 1.51

4 15 J.-' 45.6

39. 4

— 1.9

6.7

25 2i '. 5

1 19. 1-

0. 95

— 1.69

4- 13 40 3.7.3,

4 1 . 8

— 2.0

7

27 38.6

1 19.49

0. 97

— 1.65

4- 14 o 23.0

41.3

— 2.0

'0

9. in

311 1.4

1 19.49

2.80

+ 1.31

4- 35 40 23.7

14.0

+ 3.2

6

35 9. 5

1 19.50

3.01

+ 1.27

4- 37 42 50.4

11.6

4- 3.G

6.7

38 1.1

1 19.51

3.15

+ 1.28

+ 38 53 21.3

10.5

4-3.9

8

41 15.3

1 19.51

0.78

— 2. 98

4- 11 14 44.0

45. 7

— 1.9

7

43 17.3 1 19.52

11.50

— 1.55

4- 8 40 24.0

50. 1

— 1.8

7

4.". 28. 2

1 19.52

0.64

— 1.80

4 9 L8 50. 8

49. 1

— 1.8

'i!l -

G.5

47 35.2

1 19.52

0.62

— 1.67

4 9 3 9.4

49.4

— 1.8

G.7

49 33. 1

1 19.53

1.65

— 0.86

4- 22 57 27. 5

28.9

— 0.2

7.G

52 45. 5

1 19.53

1.17

— 1.45

+ 16 46 34.0

37.3

— 1.7

1 " - -

3.4

54 20. 3

1 19.53

1.25

— 1.40 + 17 47 5.8

35.8

— 1.5

Regnlns .

I

55 39.9
57

1 19.54

0.90

— 1.79 -j- 12 59 3G. 1

-f 10 37 22. 0

43.0
40. 9

— 2.0

— 1.9

7

9 59 11.8

1 19.54

2.19

+ 1.06 + 29 16 2G.0

21.2

4- 1-7
- 0. 5

7

Hi 1 23.2

1 19.55

1.59

— 0. 98 + 22 12 40. 7

29.8

7

4 45.7

1 19.55

2.11

4- 0. 78 '+ 28 27 36. 8

22.1

+ L4

411 Leonis

G

6 45.4

1 19.55

1.46

— 1.19 + 20 32 5.0

32. 1

— 0.9

8.9

7 4G.9

1 19.56

1.47

— 1.18 '+ 20 35 34.7

32.1

— 0.9

7

9 19.9 1 19. 5G

2. B6

4 1.30 4 36 16 2H.2

13.3

+ 3.3

29 Leon. Min.

6.7

12 2.5 1 19. 5G

2.89

+ 1.30 + 36 29 19. 1

13. 1

+ 3.4

8

15 6.8 1 19.57

0.32

_ 0.58 14- 4 38 23.0

57.9

— 1.4

9.8

15 4(1.9 1 19.57

0.30

— 0. 53 + 4 23 34. 1

o 58.3

— 1.3

7

19

4 3 14 4.0

1 0.7

— 1.2

7

21 31.0 1 19.58

2.16

4- 0.99

4- 29 2 51.0

0 21.6

+ 1.6

37 " . .

5.G

25 18.6 1 19.59

2.54

4 1.40

4- 33 3 48. 2

16.9

+ 2. 7

7.8

27 8.8 1 19.59

2.13

+ 0.82 + 28 37 1.0

22.0

+ 1.5

7

31 40.4

1 19. GO

3.56

+ 1.46 4 42 24 24.0

6.7

+ 4.6

7.8

34 22.6

1 19.60

3. 52

+ 1.44 4 42 12 43.6

G.9

+ 4.5

9

38 18.8

1 19.61

2. Till

4 l.4o

4- 33 44 28. 0

16.1

+ 2.8

9

39 25. 2

1 19.61

2.64

4 1.38

4- 34 6 16.0

15.7

+ 2.9

54 Leonis

5.6

10 42 41.7

+ 1 19. Gl

— 1.89

— 0. 15

+ 25 52 11.4

— 0 25. 3

+ 0.7

i;S5 APRIL 3

6 Ze

ro corr. = + 1' 40".7.

Proeyon .

1

7 2G 5. 9

+ 1 59.24

— 0. 39

— 0. 87

4- 5 44 57. 0

— 0 54. 7

— 1.5

o Leonis

3.4

9 27 45. 8

1 59. 49

0.75

— 2.79

4- 10 50 42. 4

45.9

— 1.9

16 Leon. Min.

5

3.5 3.2

1 59.50

3.34

+ 1.34

4- 40 35 53. 1

8.5

+ 4. 2

22 g Leonis

6

37 43.8

1 59.51

1.85

— 0.28

4 25 22 57.5

25.0

+ 0.5

7? -

4

9 4G 55.2

+ 1 59.52

— 0.62

— 1.66

4 9 3 10.0

— 0 49. 0

— 1.8

a Transits over Ts.

I and II assumed as recorded over Ts. II and III.

b g assumed as 13° 10' 40"; not 13°

10' 00."

(147)

148

GOULD REDUCTION OF DAGELKTS OBSERVATIONS.

1785 APRIL, 36— Continued

Zero corr. = + 1

' 40".7.

Name

Mag.

T

App. sill, time

Clock corr.

n tan <5

'/

£— 0

Refr.

<i'

h m s

m s

s

8

o ' "

/ //

u

423

Mayer .

7

9 50 42.0

+ 1 59.54

— 0.88

- 2.71

+ 12 38 41.9

- 0 43. 0

— 2.0

8

53 8.2

1 59.51

(1.90

- 1.67

+ 13 48 20.0

41.2

— 2.0

Eegulus -

]

54 59.3

1 59.54

0.90

- 1.79

+ 12 59 36. 1

42. 5

— 2.0

7.8

9 57 17.9

1 59.55

1.55

— 1.05

+ 21 44 5.6

30.1

— 0. 0

43fl

Mayer .

6

10 2 37.3

1 59.55

1.33

— 1.32

+ 18 47 2. 4

34.0

— 1.4

441

"

7.8

5

+ 13 40 30.0

41.4

— 2.0

26

Leorj. Min.

7

8 40. 3

1 59.57

2.86

+ 1.30

4- 36 16 16.0

13.1

+ 3.3

28

"

6.5

9 49.2

1 59.57

2.70

+ 1.35

+ 34 46 31.0

14.8

+ 3.0

7.8

11 26.3

1 59.57

2.61

+ 1.39

4- 33 49 19.2

15.8

+ 2.9

45

Leonis .

6

14 23.5

1 59.58

0.72

- 2.79

+ 10 50 4.0

46. 0

— 1.9

7

17 27.4

1 59.58

0.22

— 0.32

+ 3 14 7.1

59. 9

— 1.2

8. 9

20 14.0

1 59.59

1.53

— 1.09

+ 21 23 13.0

30.0

— 0.7

36

Leon. Min.

7.6

23 42.2

1 59. (id

2. 75

+ 1.33

+ 35 9 51.4

14.3

+ 3.1

50

Leonis .

7

25 26. 9

1 59.60

1.21

— 1.42

+ 17 13 24.0

36.2

— 1.7

6

28 10.5

1 59.61

2. 51

+ 1.40

+ 32 47 34.4

17.0

+ 2.7

«)

7

33 42. 2

1 59.62

3.54

+ 1.44

+ 42 12 44.6

6.8

+ 4.5

6.7

37 1.7

1 59.62

1.78

— 0.52

+ 24 31 4. 0

0 20.6

+ 0.2

7

39 14.0

1 59.63

0. 14

— 0. 13

+ 2 8 47. 6

1 2. 3

— 1.0

6.7

50 12.7

1 59.65

1.98

+ 0.15

+ 26 54 15. 0

0 23.7

+ 1.0

7.8

51 50.4

1 59.65

1.93

— 0.01

+ 26 20 21.2

24.4

+ 0.8

6.7

55 23. 6

1 59.66

1.29

— 1.35

+ ]8 21 2.2

34.7

- 1.5

li

10 59 42.5

1 59.67

2.69

+ 1.36

+ 34 35 21.3

15.0

+ 3.0

6

11 5 9. 8

1 59.68

2.90

+ 1.29

+ 36 38 10.5

12.8

+ 3. 4

7

7 52.2

1 59.68

3.46

+ 1.39

+ 41 34 50.0

7.5

+ 4.4

0

9 1.5

1 59.69

3.43

+ 1.38

+ 41 19 30.8

7.8

+ 4.3

6.7

14 6.0

1 59.70

4. 09

+ 2. 52

+ 46 20 17.0

2.6

+ 5.3

5.7

14 14.5

I 59.70

4.04

+ 2.40

+ 46 1 56.3

2.9

+ 5.3

7

20 3. 0

1 59.71

3. 04

+ 1.27

+ 37 55 33.0

11.4

+ 3.7

5.6

20 33. 0

1 59.71

3.05

+ 1.27

+ 37 58 44. 0

11.4

+ 3.7

59

Ursse Maj.

('»

24 55. 0

1 59.72

2.70

+ 1.94

+ 44 47 15.4

4.0

+ 3. 1

62

"

6

28 25. 2

1 59.73

2.53

+ 1.40

+ 32 54 39.5

16.8

+ 2.7

7

30 17.9

1 59.73

2.53

4- 1.40

+ 32 55 51.4

16.8

+ 2.7

7

33 55. 9

1 59.74

1.8]

— 0.41

+ 24 53 25. 8

26.2

+ 0.4

6

37 58.3

1 59.75

0.94

— 1.72

+ 13 27 12.0

41.9

— 2.0

7.8

38 29. 4

1 59.75

0.90

— 1.79

+ 12 58 56.7

0 42.7

— 2.0

7.8

42 27.2

1 59.75

0.14

— 0.15

+ 2 16 47. 1

1 2. 2

+ 2.5

7

45 16.3

1 59.76

0.32

— 0.59

+ 4 39 53. 9

0 57.1

— 1.4

7 //

Virginiw .

(i

11 47 0.0

+ 1 59.76

— 0.33

— 0. 63

+ 4 50 16.0

- 0 56.8

— 1.4

17S5

APRIL S

!9

Zei

o corr. = - 1' 40".S.

33

Leon. Min.

4.5

10 17 32.4

+ 2 7.87

— 2.57

+ 1.40

+ 33 27 14. 0

— 0 16.2

+ 2.8

47 /)

Leonis .

4

19 25. 6

2 7.87

0.71

— 3.95

+ 10 23 24. 0

46.8

— 1.8

48

"

(i

21 30.2

2 7.87

0.55

— 1.37

+ 82 16.0

50.7

— 1.7

8. 9

22 45. 7

2 7.88

0.56

— 1.40

+ 8 7 58. 0

50.5

— 1.7

451

Mayer .

7.8

25 1*. 1

2 7.89

1.21

— 1.42

+ 17 13 20.9

30. 2

— 1.7

h) 42

Leon. Min.

6. 5

28 1.8

2 7. 89

2.51

+ 1.40

+ 32 47 35.4

16.9

+ 2. 7

7

33 35.li

2 7.9H

3.54

+ 1.44

+ 42 12 44. 0

6.9

+ 4.5

7.8

33 50. 3

2 7.90

3.54

+ 1.45

+ 42 15 47.0

6.9

+ 4.5

7.8

41 31.8

2 7. 92

0.48

— 1.14

+ 6 58 20. 4

52.fi

— 1.0

47

Ursse Maj.

8

45 18.3

2 7. 9:'.

3.45

+ 1.39

+ 41 32 52.4

7.5

+ 4.4

7.8

49 21.9

2 7.93

3. 96

+ 2.16

+ 45 27 40. 0

3.5

+ 5.2

8

51 28.2

2 7.94

3.96

+ 2. 15

+ 45 25 51.0

3.5

!+ 5.2

7

52 30.5

2 7.95

:;. in

+ 2. OS

+ 45 14 43. 1

3. 7 + 5. 1

(3

55 23. 4

2 7. 96

2. 99

+ 1.27

+ 37 26 46. 6

11.9 + 3.6

7

10 58 43.7

2 7.97

2.94

+ 1.28

+ 36 57 46. 6

12.4 + 3.5

7.8

11 4 30.3

2 7. 98

3.69

+ 1.57

+ 43 27 44.7

5.0 +4.8

8

6 32. 3

2 7.98

4.06

+ 2. 45

+ 46 8 43.8

2.8 + 5.3

5G

Ursse Maj.

6

8 55.(1

2 7.99

3.85

+ 1.84

+ 44 37 51.2

3.8 + 5.0

7

12 48.2

2 7. 99

2. 69

+ 1.36

+ 34 36 14.0

15.0 +3.0

<) 57

6

11 15 23.2

+ 2 8.011

— 3. 33

+ 1.33

+ 40 29 28. 0

_ 0 8.7 + 4.2

a g assumed as fi° 38' S

1"; not (1° 38' 51". h T. I assumed

is 34s. 5.; not 3

8.5.

i- § assumed as 8° 21' 3

6"; not 8° 21' 46".

(143)

GOULD REDUCTION OF D AOELET S OBSERVATIONS.

149

17SS H'i:ii. ■-•?>«' c< I

Zero corr. = -1- 1' 40".8.

Name.

62 Ursse Maj.
93 Leonis .

10 r Virginia .

Mag.

T

App. si<l. time

Clock corr.

n tan <5

7

f— *

Refr.

<l'

h m s

m

s

s

s

O ( //

/ //

11

6.7

n n;

+ 11 19 23.0

— 0 4.7

+ 4.9

7

2 J 24.2

+ 2

8.01

— 3.05

+ 1.27

+ 37 58 42. 2

11.3

+ 3.7

6

28 10.7

2

8. 03

2. 52

+ 1. in

+ 32 54 36.9

10. S

+ 2.7

7

30 9.3

2

8.04

2. 52

+ 1.40

-(- 32 55 49.0

16.8

+ 2.7

7

32 2. 0

2

8.04

1 . OH

— 1.53

+ 15 26 10.2

38. !i

- 1.9

5

34 49.2

2

8.04

1.53

— 1.09

-f 21 23 29.0

30.6

— 0.7

6. 7

3S 28. 5

2

8.05

3.19

-f- 1.28

-f 39 13 57.4

10.0

+ 3.9

7

■11 48.0

2

.-.no

4.28

+ 2.93

+ 47 38 35. 0

1.2

+ 5.5

7

41 54.2

2

s. (Hi

4.28

+ 2.93

+ 47 38 14.0

1.2

+ 5.5

7

40 49. i

2

8.00

2.75

4- 1.33

+ 35 12 11.8

14.3

+ 3. 1

7.0

50 41.8

o

8.07

(1. 46

— 1.09

+ 6 44 34.5

53. 2

— 1.6

111. 11

54 58.0

o

8.07

0.49

— 1.20

+ 7 13 0.4

0 52. 4

— 1.6

6.7

56 35.0

2

8.08

0.21

— 0. 30

+ 3 5 27. 0

1 0. 0

— 1.2

7

11 58 36.2

2

8.09

0. 35

— 0. 73

+ 5 14 12.2

0 50.1

— 1.4

8.9

12 3 51.2

2

8.09

3. 36

+ 1.35

+ 40 45 35.2

8.4

+ 4. 3

i

12 7 52.2

+ 2

8. 10

— 1.17

— t.45

+ 10 42 55.0

— 0 37. 1

— 1.7

(uo;

CATALOGUE OF STARS

OBSERVED BY

D'AGELET

CATALOGUE.

Mean equinox 1800.0

No.

Name

Mag.

Date

App't a

Reduct'n

App't J

Reduction

a

<J

h m s

s

0 1 It

/ //

h

m s

o i "

1

Bessel, W. 100,1

6.7

4

Sept. 28

0 0 56. 6

+ 45.2

+22 16 33. 0

+ 4 54. 6

0

1 41.8

+22 21 27. 6

2

tc

7

4

Sept. 30

0 56.3

45.2

22 16 34. 0

4 54.3

1 41.5

21 28.3

3

Piazzi 8 . . .

7.6

4

Oct. 6

0 57.7

45. 2

27 25 4. 4

4 53.4

0

1 42.9

+27 29 57. 8

4

Lalande 84 .

7.8

:;

July 26

1 32.5

50.0

44 53 21.9

5 37.2

0

2 22.5

+44 58 59. 1

5

"...

6.7

3

July 27

1 32.7

50. 0

44 53 23.2

5 37.0

2 'J--.'. 7

59 0. 2

6

88 Pegasi y

3

July 19

2 7.0

50.0

13 58 49.6

5 29.6

0

2 57. 0

+14 4 19.2

7

" . .

3

July 23

2 7.8

49.8

13 58 47.2

5 28.7

2 57. 6

4 15.9

8

tc

3

Aug. 17

2 7.7

49.3

13 58 53.0

5 23. 9

2 57. 0

4 16.9

9

((

3

Aug. 20

2 8.2

49.3

13 58 50.6

5 23. 3

2 57. 5

4 13.9

10

11

3

Aug. 21

2 8.0

49.2

13 58 53. 9

5 23.1

2 57.2

4 17.0

11

"...

3

Sept. 15

2 8.6

49.3

13 58 54.6

5 18.3

2 57. 9

4 12.9

12"

"...

4

Sept. 15

2 11.8

45.4

13 59 2H.8

4 56. 1

2 57.2

4 16.9

13

"...

4

Sept. 16

2 11.9

45. 3

13 59 18.5

4 56. 0

2 57.2

4 14.5

14

"...

4

Sept. 28

2 12.2

45. 2

13 59 20. 8

4 54.4

2 57. 4

4 15-. 2

15*

"...

4

Sept. 30

2 11.8

45. -2

13 59 17.7

4 54.2

2 57. 0

4 11.9

16

"...

4

Oct. 2

2 12.0

45.2

13 59 23.0

4 54. 1

2 57.2

4 17.1

17*

Bessel, W.181

7.6

4

Oct. 6

2 50.0

45.4

32 0 50.2

4 54.2

0

3 41.4

+32 5 44.4

18

89 Pegasi x

4

Sept. 15

3 30. 3

45.4

19 0 40. 3

4 56.6

0

4 15.7

+19 5 42.9

19

Lalande 186,8

7

4

Sept. 17

3 58. 8

45. 5

30 20 42.3

4 57.4

0

4 44.3

+30 25 39.7

20

36 Pisciurn .

3

July 27

5 28.6

49.7

7 2 13.6

5 25.5

0

6 18.3

+ 7 7 39. 1

21

Lalande 221 . .

8

4

Sept. 28

5 33.8

45.6

35 26 9. 1

4 55.1

0

6 19.4

+35 31 4.2

22

24 Androuiedte 8

3

July 23

5 51.0

50.4

37 28 34. 8

5 35.8

0

6 41.4

+37 34 10.6

23

k

3

Aug. 20

5 51.3

49.8

37 28 46. 9

5 28.3

6 41.1

34 15.2

24

k

3

Aug. 21

5 51.2

49.7

37 28 47. 9

5 28.0

6 40.9

34 15.9

25

(i

3

Sept. 15

5 51.7

49.2

37 28 52.0

5 20.8

6 40. 9

34 12.8

26

"...

4

Sept. 16

5 55. 1

45.7

37 29 11.0

4 58.5

6 40.8

34 9.5

27*

tc

6.5

4

Sept. 17

5 55.2

45. 7

37 29 16.8

4 58.1

6 40.9

34 14.9

28

25 Andvomcdje a

5

4

Sept. 28

7 9.2

45.6

35 35 35.9

4 55.1

0

7 54.8

+35 40 31.0

29

"...

4

Sept. 30

7 9.6

45.6

35 35 34. 1

4 54.7

7 55.2

4(1 28.8

30

Bessel, W.180 .

4

3

July 20

7 10.3

49.8

10 0 18.5

5 26.5

0

8 0.1

+10 5 45. 0

31

tc

5.6

3

July 27

7 9.9

49.8

10 0 18.8

5 26.4

7 59.7

5 45.2

32

26 AncIromediB -

7

4

Sept. 15

7 25.8

45. 9

42 35 45. 8

4 59. 3

0

8 11.7

+42 40 45. 1

33*

it

4

Sept. 16

7 26.1

45. 9

42 35 46.7

4 59.3

8 12.0

40 46.0

34

Lalande 323 . .

7

3

Aug. 20

8 22. 8

49.9

39 31 43. 0

5 28.5

0

9 12.7

+39 37 11.5

35

it

7

3

Aug. 21

8 23.4

49.8

39 31 43. 5

5 28.2

9 13.2

37 11.7

36

"...

7

4

Sept. 17

8 27.2

45.9

39 32 13.8

4 58.3

9 13.1

37 12.1

37

it

7

4

Sept. 26

8 27.4

45.8

39 32 16.4

4 56. 0

9 13.2

37 12.4

38

Lalande 367 .

6

4

Oct. 6

9 34.1

45.7

31 43 13.9

4 53.2

0

10 19.8

+31 48 7.1

39

Lalande 375 . .

7

4

Sept. 28

9 51. 5

45.3

9 47 3.2

4 54.0

0

10 36.8

+ 9 51 57.2

t40

7

4

Sept. 30

9 51.7

45.3

9 45 49. 5

4 53.8

0

10 37. 0

+ 9 50 43. 3

41

27 Andromeda? p

3

July 23

9 47.0

50.7

36 45 56. 5

5 35.4

0

10 37.7

+36 51 31. 9

42

tt

3

Si'pt. r>

9 48.4

49.4

36 46 14.5

5 20.6

10 37.8

51 35.1

43

it

6.5

4

Sept. 15

9 51.0

46.0

36 46 37.9

4 58.4

10 37.0

51 36.3

44

tt.

6

4

Sept. 16

9 51.1

46.0

36 46 33.7

4 58.2

10 37. 1

51 31.9

45 Lai ancle 418 . .

8

4

Oct. 8

11 36.8

45.7

28 15 47.8

■1 52.6

0

12 22. 5

+28 20 40. 4

46* Johnson 8]

7

3

Aug. 20

11 38.1

50.2

43 19 21.0

5 29.2

0

12 28.3 +43 24 5(1.2

47 "...

3=-.8

:;

Aug. 21

11 38.5

50. 2

43 19 20. 7

5 28.8

12 28. 7 24 49. 5

48 Groombridge 57 .

6.7

3

Aug. 20

12 39.2

50.3

43 3 45. 1

5 29.1

0

13 29.5 +43 9 14.2

49 " - .

6.7

•;

Aug. 21

12 39.6

50.3

43 3 52.2

5 28.7

13 29.9 ! 9 20.9

50 "...

8

3

Sept. 15

0 12 40. 7

+ 49.8

+43 3 54. 2

+ 5 21.3

0

13 30.5 +43 9 15.5

20

(153)

154

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag

Date

App't a

Reduct'r

App't 6

Reduction

a

cS

h m s

s

c / //

/ //

h m s

OIH

51

Piazzi 59 - .

7.8

4 Sept. 16

0 13 25.5

+ 46.0 1+30 10 55.0

+ 4 57.2

0 14 11.5

+30 15 52.2

52

"...

7

4 Sept. 17

13 25.8

46.0

30 10 57. 3

4 56.9

14 11.8

15 54.2

53'

"...

8.7

4 Sept. 28

13 25.5

45.9

+30 10 58. 2

4 54.4

14 11.4

15 52.6

54

7 Mayer . . .

6.7

3 July 23

13 27.7

49.6

— 3 24 51.4

5 22. 3

14 17.3

19 32. 1

55

"...

6

4 Sept. 15

13 30.5

45.1

3 24 26. 0

4 54. 0

0 14 15.6

— 3 19 32.0

56

10 Ceti . . .

3 July 26

15 32.5

49.0

1 14 50.0

5 22.1

0 16 22. 1

— 1 9 27. 9

57*

(1

6

4 Sept. 15

15 36.2

45.2

— 1 14 21.3

4 53.9

16 21.4

9 27.4

58

Bradley 30 '. '.

7

4 Sept. 28

10 22.4

45.6

+14 50 4. 9

4 53.4

0 17 8.0

+14 54 58. 3

59

ii

7

4 Sept. 30

16 22. 1

45. 6

14 50 1.0

4 53.2

17 8.0

54 54. 2

60

Piazzi 74 .

6

3 Aug. 20

16 40.7

50.7

43 11 39.9

5 27.0

0 17 31.4

+43 17 6.9

61

"...

6.5

3 Aug. 21

16 41.2

50.7

43 11 44.6

5 26.7

17 31.9

17 11.3

62

"...

6

4 Sept. 16

16 44.4

46.6

43 12 9.1

4 58.7

17 31.0

17 7.8

63

"...

6

4 Sept. 17

16 45.4

46.6

43 12 16. 1

4 58.4

17 32.0

17 14.5

64

"

6

4 Sept. 26

16 44.5

46.5

43 12 17.8

4 55.8

17 31.0

17 13.6

65*

"...

7.8

4 Oct. 8

18 4.7

46.0

+27 38 17. 9

4 52.0

0 18 50.7

+27 43 9.9

66

Bessel, W.366 .

7

4 Sept. 30

18 39.9

44.9

— 4 1 36. 7

4 52. 9

0 19 24.8

— 3 56 43. 8

67

28 Androinedse .

3 July 26

18 45.0

50.9

+28 33 23. 2

5 31.1

0 19 35.9

+28 38 54. 3

68

"...

3 July- 27

18 45. 1

50.8

28 33 22. 7

5 31.0

19 35.9,

38 53. 7

69*

"

3 Sept. 15

18 46. 1

49.7

28 33 32.5

5 18.6

19 35.8

38 51. 1

70

"...

6

4 Oct. 6

18 49. 8

46.1

28 33 59. 1

4 52. 5

19 35.9

38 51.6

71

Flamsteed, B.30

7

4 Sept. 15

19 6.3

45.4

3 40 13. 1

4 53.8

19 51.7

+ 3 45 11.9

72

Piazzi 93 . . .

7

3 Aug. 20

29 39. o

51.0

42 44 53. 6

5 28. 3

0 20 30. 0

+42 50 21.9

73

"...

7

3 Aug. 21

19 3 -. :

50. 9

42 44 55. 0

5 28.0

20 29.6

50 23. 0

74

Flamsteed. B.34

6

4 Sept. 17

20 3.8

46.4

32 23 4H.4

4 56.5

0 20 50.2

+32 28 36. 9

75

. L

6

4 Sept. 26

20 4.2

46.3

23 41. 5

4 54.5

20 50. 5

28 39.0

76

Lalande 742 .

7.8

4 Sept. 16

20 40.0

45. 9

+16 55 19. 9

4 54.8

0 21 25. 9

+17 0 14.7

77

Bessel, W.393

7.8

4 Sept. 30

20 42. II

45.0

— 2 58 52. 1

4 52.7

0 21 27. 0

— 2 53 59. 4

78

Groombridge 84 .

8

3 Sept. 15

20 51.7

50.6

+42 17 57. 3

5 20.4

0 21 42.3

+42 23 17.7

79

51 Piscium .

3 July 26

21 14.9

49.9

5 45 40. 7

5 23.4

0 22 4. 8

+ 5 51 4.1

80*

it

3 July 27

21 15.5

49.9

5 45 41.0

5 23.3

22 5.4

.51 4. 3

81

"...

7

3 Sept. 17

21 16.2

48.8

5 45 44. 5

5 15.5

22 5.0

51 0.0

82

"...

6

4 Sept. 15

21 is. 7

45.5

5 46 6.5

4 53.7

22 4.2

51 0.2

83

Lalande 849 .

7

3 Sept. 15

23 39.5

50.4

35 38 25. 6

5 19.0

0 24 29. 9

+35 43 44. 6

84

"...

6

4 Oct. 8

23 43. 2

46. 6

35 38 52. 4

4 51.6

24 29. 8

43 44. 0

85

Piazzi 115

6.7

4 Sept. 17

23 48. 6

45.7

12 11 14.8

4 53.7

0 24 34. 3

+12 16 8.5

-86

Johnson 149 .

7

3 Aug. 20

24 2.7

50.8

47 49 33.2

5 29.0

0 24 53.5

+47 55 2.2

87

"...

6.7

3 Aug. 21

24 2.7

50.8

+47 49 32.4

5 28.6

24 53. 5

55 1.0

88

14 Mayer

7.8

4 Sept. 28

24 31.7

45.0

— 1 41 14.4

4 52.0

0 25 16.7

— 1 36 22.4

89

ti

6.7

4 Sept. 30

24 31.4

45. 0

— 1 41 12. 1

4 52. 0

25 16.4

36 20. 1

90

Flamsteed, B.40 '

6

4 Sept, 17

24 48.6

45.7

+12 1 59.2

4 53.5

0 25 34. 3

+12 6 52. 7

91*

Piazzi 122 . .

7

4 Sept. 16

25 0.4

46.4

26 4 14. 1

4 55.3

0 25 46. 8

+26 9 9.4

92

18 ( Hev. )Androm.

6.5

3 Aug. 21

25 5.7

51.5

43 17 32.6

5 27.4

0 25 57. 2

+43 23 0. 0

93

29 Andromeda: x

3 July 23

25 23. 0

51.6

32 31 29. 5

5 32. 1

0 26 14.6

+32 37 1. 6

94*

ii

3 July 26

25 22. 7

51.5

32 31 32.7

5 31.3

26 14.2

37 4.0

95

K

3 July 27

25 22. 7

51.5

32 31 30.8

5 31.1

26 14.2

37 1.9

96

"...

3 Sept. 15

25 21.1

50.3

32 31 41.2

5 18.3

26 14. 4

36 59.5

97

ii

3 Sept. 17

25 23.3

50.3

32 31 43.0

5 17.9

26 13.6

37 0.9

98

ii

4.5

4 Oct. 6

25 27. 9

46.6

32 32 8. 9

4 51.7

26 14.5

37 0.6

99

ii

4.5

4 Oct. 8

25 27. 7

46.6

32 32 7.9

4 51.2

26 14.3

36 59. 1

100*

53 Piscium .

7

4 Sept. 15

25 36.6

45.9

+14 2 54.2

4 53.9

0 26 22.5

+14 7 48. 1

101

15 Ceti . . .

7

4 Sept. 28

27 6.4

45.0

— 1 41 6.9

4 51.5

0 27 51.4

— 1 36 15.4

102

ii

4 Sept, 30

27 6. 1

45.0

— 1 41 12.1

4 51.5

27 51. 1

36 20. 6

103

30 Andromeda! c

3 Sept. 15

27 11.2

50.2

+2* 8 11.2

5 17.4

0 28 1.4

+28 13 28. 6

104

"...

3 Sept. 17

27 10.8

50.1

28 8 11.0

5 17.0

28 0. 9

13 S8.0

105

Groombridge 113

6

3 Aug. 20

27 17.8

52. 2

48 9 37. 1

5 28.6

0 28 10.0

+48 15 5.7

106

1 1

6

3 Aug. 21

27 18.4

52.1

48 9 42. 6

5 28.2

28 10.5

15 10.8

107

31 Andromeda; <5

I! July 26

27 48.4

51.5

29 40 27. 0

5 30. o

0 28 39. 9

+29 45 57. 0

108

"...

3 July 27

27 48.8

51.4

29 40 24. 3

5 29.8

28 40.2

45 54. 1

109

"

■1 Sept. (5

27 52.7

46.8

29 41 0. 1

4 55.0

28 39.5

45 55. 7

110

-

4 Sept. 16

0 27 52. 8

4- 46.7

4-29 40 55. 0

4- 4 55.4

0 28 39. 5

4-29 45 50. 4

(154)

GOULD

— CATALOGUE OF STARS OBSERVED

3Y DAGELET.

155

-

Mean equinox 1800. 0

No.

Name

Mag

Date

App't a

Reduct'i

App'l .1

Reduction

a

d

h m s

s

O / II

/ //

h m s

O ' "

Ill

31 Andromedse <'

3

4 Oct. 6

0 27 53.5

+ 40.0

+29 41 3.7

+ 4 51.2

o 28 40.1

+29 45 51.9

112

54 Piscium .

6

4 Oct. 8

28 13.3

40.1

20 5 24. 5

4 50.6

0 28 59. 4

+20 10 1.,. I

113

"...

6

4 Oct. 15

28 13. 1

46.0

20 5 28. 5

4 49. S

28 59. 1

lo 18.3

111

55 Piscium .

6

: Sept. 17

28 38.4

40.2

20 15 27.4

4 53.7

0 29 24.6

+20 20 21.1

115

"...

6

4 Ont. 15

23 38.5

46.0

20 15 ;:...:.

4 49. 8

29 24.5

2i 1 25. 3

116

32 Andromedaj .

3 July 20

29 25.9

52.4

38 16 4. 1

5 32. 3

0 30 18.3

+38 21 36.4

11?

"...

6

3 Aug. 21

29 27.9

51.5

38 16 5.7

5 25.4

30 19.4

21 31.1

118

Piazzi 145

7.8

4 Oct 8

29 43. 3

46.1

+19 50 25.6

4 50.4

0 30 29.4

+19 55 16.0

119

Hi Mayer

6

4 Sept. 30

29 46.6

44.8

— 5 31 55. 8

4 50.8

0 30 31.4

— 5 27 5. 0

120

Piazzi 148 . .

7

4 Sept. 17

30 13.7

46.5

+23 27 0. 3

4 53.8

0 31 0.2

+23 31 54. 1

121

it

7

4 Oct. 6

30 15.1

46.3

23 26 58. 4

4 50.6

31 1.4

31 49.0

122

33 Andromeda; .

:: Sept. 15

30 59.7

51.2

40 5 12.7

5 18.5

0 31 50.9

+40 10 31.2

123

Lalande 1113,4 .

8.9

3 Sept. 17

31 1.4

50.2

26 27 17.8

5 11.8

0 31 51.6

+26 32 29.6

124

Lalande 1125

7.8

4 Oct. 9

31 41.1

45.9

15 29 15. 8

4 511.0

0 32 27.0

+15 34 5.8

125

"...

6

4 Oct. ns

31 40.0

45. 9

15 29 18.3

4 49.4

32 25. 9

34 7.7

126

Lalande 1149

7.8

3 Aug. 20

32 17.5

51.2

32 7 21.4

5 23. 6

0 33 8.7

+32 12 45. 0

127

"...

7.S

3 Aug. 21

32 17.9

51.2

+32 7 19.1

5 23.3

33 9.1

12 42.4

123

16 Ceti fi

4 Sept. 15

32 48. 0

44.0

—19 9 59. 0

4 49. 5

0 33 32. 0

—19 5 9.5

129

1 (

4 Sept. 16

32 48. 0

44.0

—19 9 57. 0

4 49.6

33 32.0

5 7.4

130

Lalando 1191 '.

9

4 Sept. 28

33 52. 2

46.4

+22 24 43. 9

4 51.2

0 34 38.6

+22 29 35. 1

131

Groombridge 140

6

3 Sept. 15

34 18.1

51.9

43 40 38.2

5 18.5

0 35 10.0

+43 45 56. 7

132

"...

6.7

3 Sept. 17

34 17.7

51.8

43 40 40. 1

5 18.0

35 9.5

45 58. 1

133

it

7

4 Sept. 17

34 21.2

48.2

43 41 5. 4

4 56.2

35 9.4

40 1. 6

rn

57 Piscium . .

6

4 Oct. 7

35 20. 4

45.9

14 18 7.6

4 49.5

0 36 6. 3

+14 22 57. 1

135

1 1

6

4 Oct. 8

35 20. 3

45.9

14 18 6.6

4 49.2

36 6.2

22 55. 8

13(3

II

6

4 Oct. 9

35 20. 4

45.9

14 18 7.2

4 49.2

36 6.3

22 56. 4

137

58 Piscium . .

6

4 Oct. 15

35 50. 3

45.7

10 48 1.2

4 48.8

0 36 35.0

+10 52 50.0

138

59 Piscium .

6

3 Aug. 20

35 49.8

50.2

18 23 37.8

5 19.2

0 36 40. 0

+18 28 57. 0

139

" ...

6.7

3 Aug. 21

35 50.2

50.2

18 23 41.4

5 19.0

0 36 40. 4

+18 29 0.4

140

34 Andiomedic f

3 July 26

35 54. 7

51.4

23 5 15.6

5 26.0

0 36 46. 1

+23 10 41.6

141

tt

5

4 Sept. 28

35 59.4

46.6

23 5 42. 3

4 50.7

36 46. 0

10 33.0

142

a

4

4 Sept. 30

35 59.6

46.6

23 5 44. 1

4 50.4

36 46. 2

10 34.5

143

Groombridge 149

8.9

3 Sept. 17

36 37.8

52.0

43 47 30. 3

5 17.4

0 37 29.8

+43 52 47. 7

144

63 Piscium rf

3 July 23

37 28. 8

50.3

6 24 22. 1

5 20.7

0 38 19. 1

+ 6 29 42. 8

145

"...

4 Sept. 15

37 34.2

45.7

6 24 51.7

4 50.5

38 19.9

29 42.2

146

"...

4 Sept. 16

37 32.7

45.6

6 24 50.2

4 50.4

38 18.3

29 40.6

147

it

4

4 Oct. 15

37 33.4

45.4

6 24 53. 3

4 49.6

38 18.8

29 42. 9

148

64 Piscium .

6

3 Aug. 21

37 38.8

50.2

15 46 16.4

5 17.8

0 38 29. 0

+15 51 34.2

149

"...

6.7

4 Oct. 6

37 43.7

46.1

15 46 46.7

4 49.0

38 29. 8

51 35.7

150

ii

6

4 Oct. 8

37 43.2

46.1

46 46. 0

4 48.7

38 29. 3

51 34.7

151

ii

6

4 Oct. 9

37 43.2

46.1

46 46.2

4 48.6

38 29. 3

51 34.8

152

35 Andromeda; v

3 July 26

37 56. 6

53.0

39 53 42. 9

5 31. 1

0 38 49. 6

+39 59 14. 0

153

65 Piscium i

4 Sept. 28

38 23. 3

46.9

26 32 15. 7

4 50.5

0 39 10.2

+26 37 6.2

154

Piazzi 196

7

3 Sept. 15

38 19.2

52.2

43 49 13.3

5 17.7

0 39 11.4

+43 54 31.0

155

"...

7

3 Sept. 17

38 18.9

52.2

43 49 18.9

5 17.1

39 11.1

54 36.0

156

ii

7.8

4 Sept. 17

38 22.7

48.5

43 49 39. 5

4 55. 4

39 11.2

54 34.9

157

Lalando 1414

7

3 Aug. 20

40 14.9

51.8

32 42 46. 7

5 21.9

0 41 6.7

+32 48 8. 6

158

"...

7.8

3 Aug. 21

40 15.4

51.8

32 42 45. 5

5 21.6

41 7.2

48 7.1

159

Piazzi 208 . .

8.9

4 Oct. 15

40 21.5

45. 8

11 36 49.9

4 47.7

0 41 7.3

+11 41 37.6

160

Lalande 1464

7

4 Sept. 17

41 42.7

48.0

36 15 3.9

4 53.5

0 42 30. 7

+36 19 57. 4

161

"...

l7

4 Sept. 30

41 43.7

47.8

36 15 2.4

4 50.3

42 31.5

19 52. 7

162

" . . . -

6.7

4 Oct. 6

41 43.8

47.8

36 15 9.5

4 49.0

42 31.6

19 58.5

163

"...

6.7

4 Oet. 8

41 43.6

47.8

36 15 4.8

4 48.4

42 31. 4

19 53.2

104

Bessel, W.1179 .

8

4 Sept. 15

42 4. 0

47.4

28 19 26.4

4 52.5

0 42 51.4

+28 24 18. 9

165

it

7.8

4 Sept. 16

42 4.1

47.4

28 19 19.2

4 52. 3

42 51.5

24 11.5

166

25 Mayer

8

:: Sept. 15

42 13.4

48.9

2 54 48. 5

5 10.5

0 43 2. 3

f 2 59 59. 0

167

it

8

3 Sept. 17

42 13.2

48.8

2 54 48. 6

5 10.4

43 2.0

59 59. 0

168

Groombridge 17]

6.7

3 Auo-. 2ii

42 53.8

53.8

47 30 4.8

5 23. 8

0 43 47. 6

f47 35 28.6

169

"...

6.7

3 Aug. 21

42 53. 7

-f- 53.8

17 30 5.4

5 23. 5

43 47.5

35 28. 9

170

06 Piscium .

i;

4 Oct. 8

0 43

fl8 1 17.3 ■

f 4 47. 6

0 44

fl8 6 4.9

1

(155)

156

GOULD CATALOGUE OF STAES OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Eeduct'n

App't c5

Reduction

a

S

h m s

^

o / //

. //

h in s

O 1 II

171

60 Piseium .

6

4

Oct.

9

0 43 14.9

+ 40. 4

+ 18 1 17.9

+ 4 47. 4

0 44 1.3

+18 6 5.3

172*

"...

6

4

Oct.

15

43 14.7

46.3

18 1 18.4

4 46.8

44 1.0

6 5.2

ra

36 Andromedse .

4

Sept.

15

43 29. 8

47. 0

22 27 43. 3

4 51.3

0 44 16.8

+22 32 34.6

174

37 Andromedse fi

3

July

26

44 48.2

53. 1

37 19 13.3

5 28. 2

0 45 41.6

+37 24 41.5

175

"...

3

July

27

44 48.4

53.3

37 19 12.5

5 28. 0

45 41.7

24 40.5

176

"...

4

Sept

16

44 52.7

48. 3

37 19 47. 0

4 53.2

45 41.0

24 40.2

J 77

C(

1

Sept.

17

44 53.0

48.3

37 19 49.2

4 52.9

45 41.3

24 42. 1

178

"...

4

Sept.

28

44 53. 4

48.2

:;7 19 17.0

4 50. 1

45 41.6

24 37. 1

179

"...

4

Sept.

30

44 53.2

48.2

37 19 51.3

4 49.7

45 41.4

24 41.0

180

"

4.3

4

Oct.

6

44 53. 3

48.1

37 19 55.4

4 48.3

45 41.4

21 43.7

181

38 Andromedse >/

4

4

Oct.

2

45 46.2

46.8

22 15 16.5

4 47.8

0 46 33. 0

+22 20 4. 3

182

"...

6

4

Oct.

15

45 45. 9

46.7

22 15 23. 4

4 40. 0

46 32.6

20 9.4

is;

68 Piseium h

6

4

Oct.

8

46 15.3

47.3

27 49 43. 3

4 47.0

0 47 2.6

+27 54 30. 3

184

"

6

!

Oct.

9

46 15.3

47.3

27 49 45. 3

4 46.8

47 2.6

54 32.1

185

Lalande 1634

6.7

3

Aug.

20

46 12.7

52.8

38 18 9.2

5 21.7

0 47 5. 5

+38 2:: 30.9

186

"...

7

3

Aug.

21

40 13.1

52.8

38 18 12.1

5 21.4

47 5. 0

23 33.5

187

29 Mayer . .

7.8

3

.Sept.

15

47 8. 7

49.1

5 40 31.7

5 9.3

0 47 57. 8

+ 5 45 41.0

1 88

"

7.8

3

(Sept.

17

47 8.6

49.1

5 40 29. 2

5 9.1

47 57.7

45 38.3

t 189

4

Sept.

16

47

43 33 36. 9

4 49.5

0 48

+43 38 26. 4

190

Strove C. G. 75 .

6.7

4

Sept.

17

47 57.8

49.3

43 33 4. 9

4 53.2

0 48 47. 1

+43 37 58. 1

191

30 Mayer . .

7

4

Oct.

6

48 4:1.0

45.5

5 19 21.5

4 46.0

0 49 28. 5

+ 5 24 7. 5

192

" .

7

4

Oct.

8

48 42.0

45.5

5 19 19.8

4 45.8

49 28. 1

24 5. 6

193

Lalande 1706,7

9

1

Oct.

15

48 40. 3

48. 2

36 37 46.9

4 45.3

0 49 28. :.

+36 42 32.2

194

Lalande 1783

6

::

Aug.

20

50 40.0

54.2

46 12 34. 6

5 22.5

0 51 :u. -

+4(3 17 57. 1

195

"...

7

o

Aug.

21

50 40. 1

54.2

46 12 30.6

5 22. 2

51 34.3

17 52.8

19G

"...

7.8

i

Sept.

16

50 44. 9

49.9

46 12 58.0

4 53.3

51 34.8

17 51.3

197

39 Andromedse -

7

1

Sept.

28

50 54.0

48.9

40 11 5.5

4 48.9

0 51 42. 9

+40 15 51.4

198

"...

7

4

Sept.

30

50 53. 8

48.9

40 11 9.4

4 48.4

51 42.7

15 57.8

199

"...

6

4

Oct.

9

50 54. 2

48.8

40 11 14.4

4 46.3

51 43.0

16 0.7

5200

70 Piseium .

9. K

3

Sept.

17

50 54. 6

49.3

6 46 14.2

5 8.0

0 51 43. 9

+ 6 51 22.2

201

69 Piseium <r

6

4

Sept.

15

51 6.0

48.1

30 38 53.3

4 50.6

0 51 54. 1

+30 43 43. 9

202

"...

6.7

4

Oct.

15

51 7.0

47.7

30 38 57. 0

4 44.5

51 54.7

43 41.5

203

Lalande 1801,2 .

7.8

4

Oct.

2

51 16. 1

47.3

25 8 21.4

4 46.4

0 52 3.4

+25 13 7.8

204

71 Piseium t

3

July

26

51 44.2

50. 5

6 43 25. 2

5 15.8

0 52 34. 7

+ 6 48 41.0

205

"...

3

July

27

51 44.3

50.4

6 43 18.5

5 15.5

52 34.7

48 34.0

206

"...

3

Sept.

15

51 45.5

49.3

6 43 27. 7

5 7.9

52 34.8

48 35. 6

2( 17

"...

3

Sept.

17

51 45.4

49.3

6 43 29.2

5 7.7

52 34. 7

48 36.9

208

it

4

1

Oct.

6

51 49.0

45.6

6 43 53. 1

4 45.0

52 34.6

48 38. j

209

1 1

4

4

Oct.

8

51 49.0

45.6

6 43 50. 9

4 44.8

52 34.6

48 35.7

210

Groombridge 232

8.9

4

Sept.

28

52 35.5

48.9

38 50 7. 3

4 48.3

0 53 24. 4

+38 54 55. 6

211

Flamsteed, B.103

7

4

Oct.

2

52

28 30 35. 3

4 46.8

0 53

+28 35 22. 1

212

"...

7

4

Oct.

15

• 52 45. 8

47.6

28 30 37. 1

4 44.0

53 33.4

35 21. 1

213

73 Piseium . .

6

4

Oct.

6

53 46. 2

45.4

4 30 7.4

4 44. 3

0 54 31.6

+ 4 34 51.7

211

74 Piseium ip1 pr.

6

4

Oct.

9

54 12.0

46.9

20 19 11.5

4 44.2

0 54 58.9

+20 23 55. 7

215

i>' toll.

6

4

Oct.

9

54 13. 1

46.9

20 18 47. 7

1 11.2

0 55 0. 0

+20 23 31.9

216

77 Piseium pr. .

7.8

3

Sept.

17

54 39.5

49.0

3 45 25. 0

5 6. 4

0 55 28. 5

+ 3 50 31. 6

217

foil. .

7.8

3

Sept.

17

54 42.2

49.0

3 45 23. 8

5 6.4

55 31.2

50 30.2

218

Piazzi285 . .

7

3

Aug.

20

54 42. 0

55.2

48 23 36. 9

5 21.8

0 55 37.2

+48 28 58. 7

219

"...

7

3

Aug.

21

54 42.5

55.2

48 23 32. 4

;, 2i.:.

55 37.7

28 53. 9

220

"

7

4

Sept.

30

54 46.4

50.4

48 24 5. 0

4 48.4

55 36.8

28 53. 4

221

41 Andromedse .

4

Sept.

28

55 44. 8

40. 7

42 47 32. 7

4 47.9

0 56 34. 5

+42 52 20. 6

222

78 Piseium . .

6.7

4

Oct.

2

56 11.6

48.1

30 51 42. 1

4 45.5

0 56 59. 7

+30 50 27. 6

223

ft

7

4

Oct.

15

56 J l.o

48.0

30 51 44. 3

4 43.0

56 59. 0

56 27. 3

224

70 l'iscium i//2

6

4

Oct.

8

56 28. 3

46.9

19 35 37.-9

4 43.6

0 57 15.2

+19 40 21.5

225

"...

6

4

Oct.

9

56

46.9

19 35 39.0

4 43.5

57

40 22.5

220

42 Andromedse <J>

4

Sept.

30

57 7.5

50.3

46 5 20. 1

4 47.4

0 57 57. 8

+46 10 13.5

227

80 Piseium c

5.6

4

Oct.

6

57 19.7

45.5

4 3o ;;:,. 2

l 4::. 1

0 58 5. 2

+ 4 35 18.3

228

43 Andromedse j3

3

July

26

57 40.3

53.9

34 28 4.8

5 22. 9

0 58 34. 2

+34 33 27. 7

229

"...

3

July

27

57 40. 5

53.9

34 28 4.0

5 22. 7

58 34. 4

33 26.7

230

"...

4

Sept.

28

0 57 40. 2

+ 48.7

+34 28 36.5

+ 4 46.2

0 58 34.9

+34 33 22. 7

(156)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

157

Mean equinox 1800. 0

No.

Name

Mag-.

Date

App't a

Reduct'n

App't <i

Reduction

a

6

ll m s

s

O ' "

/ //

h m s

O ' »

331

43 Andromedse I

4 Oct.

o

0 (57)

+34 28 41.5

+ 4 45. 3

ll,:.-)

4-34 33 20. S

232

82 Pfeoiam g

6

! Oct.

9

59 19.2

+ 48.1

30 10 45. 1

4 4:;. 1

1 0 7.3

+30 21 28.2

233

CI

6.5

4 Oct.

15

59 19.1

48.1

30 10 43.3

4 42.0

0 7.2

21 25.3

23 1

83 Piscium t

5

4 Oct.

8

0 59 52. 9

48.0

28 50 51.0

4 43.9

1 o 40.9

+29 1 33,0

235

Piazzi 9 .

6

3 Aug.

20

1 0 7.8

55.0

44 10 49.6

5 is. 7

1 1 2. s

+ 11 10 s. 3

236

"

6.7

3 Aug.

21

0 7.4

55. 1 1

44 10 53.1

5 IS. 7

1 2.4

10 11. s

237

"...

0

I Sept.

30

0 12.1

50.2

44 11 21.0

4 46.3

1 2. 3

10 7.2

238

Piazzi 11 .

0

i Oct.

8

1 12.0

48.1

28 55 19. 0

4 42. 5

1 2 0.7

+20 0 1.5

239

Lalande2154

0.7

1 Oct.

0

1 21.4

48.6

32 57 19.4

4 43. 1

1 2 10.0

+33 2 2.5

240

35 Piscium 0

4 Sept.

15

2 o. 3

47.8

23 26 33. 3

4 45.6

1 2 54. 1

+23 31 18.9

241

"...

6.5

4 Oct.

2

2 0.9

47. 5

23 26 33.6

4 42.7

2 54.4

31 10.3

242

"...

6

I Oct.

9

2 7.3

47.5

23 26 32.6

4 41.7

2 54. 8

31 14.3

2 13

Anonynia

7

4 Oct.

8

2 19.5

47. 9

27 23 25. 7

4 42.0

1 3 7.4

+27 28 7. 7

244

•in Mayer

3 Sept.

17

2 30.2

49.4

6 25 48. 5

5 3.6

1 3 19.6

+ 6 30 52. 1

245

87 Piscium .

6

4 Oct.

15

2

14 59 36.3

4 40.5

1 3

+15 4 16.8

246*

Piazzi 26 .

0.7

3 Aug.

20

3 45.7

55.9

46 55 56.4

5 18.0

1 4 41.6

+47 1 14.4

247

<i

7

3 Aug.

21

3 45.5

55.8

46 55 57. 3

5 17.8

4 41.3

1 15.1

248

it

7.8

4 Sept.

28

:; :,n. o

51.0

46 50 38. 1

4 45.8

4 41.0

1 13.9

249

"...

7

4 Sept.

30

3 49.0

51.0

46 56 22.8

4 45.3

4 40.6

1 8.1

•230

Piazzi 29 . . .

6.7

4 Oct.

6

4 24. 2

48.6

31 58 40.6

4 42.0

1 5 12.8

+32 3 22. 6

251

Lalande 2270

7.8

4 Oct.

2

4 51.5

47. 5

22 27 4. 9

4 41.0

1 5 39.0

+22 31 46. 5

252

Piazzi 30 . . .

9

4 Oct.

15

5 10.7

47.1

19 55 8. 0

4 39.6

1 6 3.8

+19 59 48.2

253

Lalande 2292,3 .

7

4 Sept.

15

5 31.8

48.8

30 36 22. 3

4 45.8

1 6 20.6

+30 41 8. 1

254

Piazzi 31 . . .

7.8

4 Sept.

28

5 35.3

51.1

46 16 49.5

4 45.2

1 6 26. 4

+46 21 34.7

255

"...

7.8

4 Sept.

30

5 35.8

51.0

40 10 53. 1

4 44.6

6 20. 8

21 37.7

256

Lalande 2330 .

6

3 Aug.

20

o 34.6

54.0

30 14 32.2

5 13.9

1 7 28.6

+36 19 46. 1

257

"...

6.7

3 Aug.

21

0 35.3

54.0

36 14 32.4

5 13.7

7 29.3

19 46.1

258

"...

7

4 Oct.

6

6 40.3

49. 4

36 15 6.7

4 41.5

7 20.7

19 4S.2

259

89 Piscium /

■3 Sept.

17

6 40.4

49.0

2 28 29. S

5 1.2

1 7 20.4

+ 2 33 31.0

260

li

0

4 Oct,

9

0 44.4

45.3

2 28 50. 8

4 39.4

7 29.7

33 30.2

261

90 Piscium v

6

4 Oct.

2

7 41.0

48.1

26 7 53.7

4 40.9

1 8 29.7

+26 12 34.6

262

"...

5

4 Oct.

8

7 42. 3

48. 0

26 7 50.2

4 39.9

8 3ii.3

12 30. 1

263

it

6

4 Oct.

15

7 42.2

48.0

26 7 53.7

4 38.9

s 3.0.2

12 32.6

264

91 Piscium I

6

4 Sept.

28

9 17.0

48.4

27 30 38.2

4 41.1

1 10 5.4

+27 41 19.3

205

"...

0

4 Sept.

30

9 17.4

48.4

27 36 39.6

4 40.8

lo 5.8

41 20.4

266

"

6

4 Oct,

15

9

48.2

27 36 40. 0

4 38.1

10

41 24.1

207

Piazzi 50 .

7.8

4 Oct.

6

9 45.8

50.6

42 27 10.7

4 41.1

1 10 36.4

+42 31 57.8

268

46 Audromedse f

4.5

3 Aug.

20

9 41.8

55.9

44 23 16. 3

5 14.9

1 10 37.7

+44 28 31.2

269

"...

3 Aug.

21

9 42. 0

55.8

44 23 18.0

5 14.6

10 37.8

28 32. 6

270

ii

3 Sept.

17

9 41.8

55. 2

44 23 29. 1

5 7.2

10 37.0

28 30. 3

271

Lalande 2446,8 .

8.9

4 Oct.

9

10 36.6

46.7

14 39 46.4

4 38.1

1 11 23.3

+14 44 24.5

272

Piazzi 56 - - -

7

4 Sept.

28

11 29.8

49.3

33 6 38.5

4 41.2

1 12 10. 1

+33 11 19.7

273

"...

7

4 Sept.

30

11 30.1

49.2

33 6 38.7

4 40.7

12 19.3

11 19.4

27 1

Piazzi 61 .

7.8

3 Aug.

20

11 46.1

55.6

42 0 21.5

5 13.3

1 12 41.7

+42 5 34.8

275

"...

7.8

3 Aug.

21

11 46.2

55.5

42 0 22.2

5 13.1

12 41.7

5 35.3

270

92 Piscium . .

7

4 Oct,

8

12 20. 5

47.0

16 41 42.8

4 37.5

1 13 7.5

+16 46 20. 3

277

"...

7

4 Oct.

9

12 20. 1

47.0

16 41 44.0

4 37.4

13 7. 1

40 21.4

278

Fiazzi 70 . . .

7.8

4 Sept.

28

13 58.4

49.5

33 27 36.6

4 40. 1

1 14 47.0

+33 32 10.7

279

"...

7.8

4 Sept,

30

13 58.4

49.4

33 27 41. 0

4 39.7

1 14 47.8

+33 32 20. 7

280

"...

6.7

4 Oct.

6

13 58.4

49.4

33 27 43. 8

4 38.5

14 47.8

32 22. 3

281

93 Piscium p

3 Aug.

20

14 38.0

51.7

18 2 27. 7

5 5.0

1 15 29.7

+18 7 32.7

282

"...

3 Aug.

21

14 38.2

51.6

18 2 30.4

5 4.8

15 29. 8

7 35.2

283

ti

5

4 Oct.

8

14 42.9

47.2

18 2 56. 3

4 36.5

15 30. 1

7 32.8

28 1

u

6

4 Oct.

15

14 42.4

47.2

18 3 5.3

4 35.8

15 29.6

7 41.1

285

48 Audromedse u

3 Sept.

17

14 48.0

55.6

44 17 5. 1

5 5.1

1 15 43.0

+44 22 10.2

286

Lalande 2604

7.8

4 Sept.

28

14 57. 1

49.6

33 15 23. 3

4 30.7

1 15 40.0

+33 20 3. 0

287

"...

7.8

4 Sept.

30

14 56.9

49.4

33 15 25. 5

4 39.3

15 40.3

20 4.8

288

u

6.7

4 Oct.

6

14 57.8

49.4

33 15 28.3

4 38.1

15 47.2

20 6.4

289

94 Piscium . .

6

4 Oct.

15

15 7.7

47.2

18 7 27.7

4 35.6

1 15 54.9

+18 12 3. 3

290

95 Piscium .

7

4 Oct.

9

1 16 32. 1

+ 45.5

-f 4 14 31.4

+ 4 35. 1

1 17 17.6

+ 4 19 6.5

(1.57)

158

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't (S

Reduction

a

6

h in s

s

o ' "

/ //

h m s

o / "

291

49 Andromedse A

6

,4 Sept.

28

1 17 18.9

+ 52.0

+45 53 29. 3

+ 4 40.6

1 18 10.9

+45 58 9.9

292

"...

6

4 Sept.

30

17 19.1

52. 0

45 53 31.3

4 40. 1

18 11.1

58 11.4

293

n

6

4 Oct.

2

17 18.5

52.0

45 53 27. 4

4 39.6

18 10.5

58 7.0

294

"...

4 Oct.

6

17 18.6

51.9

45 53 35.8

4 38.6

18 10.5

58 14.4

295

90 Piscium .

7

4 Oct.

15

17 51.8

45.6

6 10 59. 0

4 34.4

1 18 37.4

+ 6 15 33. 4

290

97 Piscium .

6

4 Sept.

16

18 18.7

47.5

17 14 20.1

4 37.8

1 19 6.2

+17 IS 57.9

297

99 Piscium 7/

3 Aug.

20

19 50.7

51.3

14 13 33. 7

5 1.3

1 20 48. 0

+14 18 35. 0

298

tt

3 Aug.

21

19 50. 9

51.3

14 13 33.7

5 1.1

20 48.2

18 34.8

299

it

3 Sept.

17

19 57.0

50. 7

14 13 37.2

4 56.8

20 47. 7

18 34. 0

300

"...

4

4 Oct.

8

20 1.7

46.9

14 14 1.7

4 34.0

20 48. 6

18 35.7

30!

53 Mayer . . -

9

4 Oct.

15

20 22. 0-

46.2

9 46 42.2

4 33.2

1 21 8.2

+ 9 51 15.4

302

204 Bradley . .

8

4 Oct.

6

20 30.4

47.1

15 50 55. 0

4 34.0

1 21 17.5

+ 15 55 29.0

303

Androm. 21 9B .

7

4 Oct.

2

20 33. 1

50. 0

34 44 1.4

4 36.7

1 21 23.1

+34 48 38. 1

304

Lalande 2790,2 .

9

4 Oct.

9

21 9.5

45.4

2 34 33.4

4 32.9

1 21 54.9

+ 2 39 0. 3

305

Lalande 2814

7

4 Oct.

2

21 38.1

50.0

34 30 0.7

4 36.1

1 22 28. 1

+34 34 36.8

300

Piazzi 104 . .

6.7

4 Sept.

28

21 50.4

50.4

36 7 42.9

4 37.1

1 22 46. 8

+30 12 20. 0

307

"...

4 Sept.

30

21 55.9

50.4

36 7 42.5

4 36.0

22 46. 3

12 19.1

308*

"...

7

4 Oct.

2

21

36 7 46.6

4 30.7

22

12 23. 3

309

Piazzi 110 . .

7

3 Aug.

20

23 8.9

51.9

17 21 3.7

5 0.5

1 24 0.8

+17 26 4.2

310

"...

7

3 Aug.

21

23 8.7

51.8

17 21 5. 9

4 59.5

24 0. 5

26 5.4

311

(<

7.8

4 Oct.

6

23 13.6

47.4

17 21 31.9

4 32.9

24 1.0

26 4.8

312

"...

7

4 Oct.

15

23 13.0

47.3

17 21 34.7

4 32.0

24 0. 9

20 0.7

313

Johnson 473 .

7.8

3 Sept.

17

23 12.4

55.3

39 57 53. 3

5 0.2

1 24 7.7

+40 2 53.5

314

55 Mayer

8

4 Oct.

9

23 38.2

40.0

7 10 20. 1

4 31.8

1 24 24.2

+ 7 14 51.9

315*

Piazzi 118

7

4 Oct.

8

24 19. 1

46.8

13 33 29. 5

4 31.8

1 25 5.9

+13 38 1.3

316

59 Andromedse v

3 Sept.

17

24 10.7

55. 5

40 19 9.9

4 59.8

1 25 6.2

+40 24 9.7

317

"...

4 Sept.

16

24 15.0

51.6

40 19 23.0

4 39.6

25 6.6

24 2.6

318

"...

4 Sept.

30

24 15. 1

51.3

40 19 28.0

4 36.2

25 6.4

24 4.2

319

"...

0.5

4 Oct.

2

24 15.4

51.3

40 19 28. 5

4 35.8

25 6.7

24 4.3

320*

102 Piscium . it

3 Aug.

20

25 38.4

52.4

11 1 51.2

4 53.5

1 26 30.8

+11 6 44.7

321

"...

5

4 Oct.

9

25 44.5

46.5

11 2 19.6

4 31.0

26 31.0

6 50.6

322

"...

G

4 Oct.

15

25 44.4

46.5

11 2 16.2

4 30.6

26 30.9

6 46.8

323

57 Mayer . .

7.8

4 Oct.

9

20 10.7

46.5

10 59

1 27 3.2

+11 3

324

"...

7

4 Oct.

15

20 17.3

46. 5

10 58 40. 0

4 30.4

27 3.8

3 10.4

325

52 Andromed:u \

6

4 Sept.

28

26 32. 3

52. 2

43 17 7.4

4 36.1

1 27 24.5

+43 21 43. 5

32G

(<

6

4 Sept.

30

26 32.5

52.2

43 17 7.4

4 35.7

27 24.7

21 43. 1

327

"...

5.6

4 Nov.

17

26 33. 1

51.8

43 17 22.6

4 25.0

27 24.9

21 47.6

328

Lalande 3023,4 .

7

3 Sept.

17

27 25. 2

55.6

39 34 57. 1

4 58.0

1 28 20. 8

+39 39 55. 1

329

tt

7

4 Sept.

16

27 29.4

51.7

39 35 12.2

4 38. 1

28 21. 1

39 50. 3

330

104 Piscium .

7

4 Oct.

8

27 47. 1

46.9

13 11 26.0

4 30.1

1 28 34.0

+13 15 56. 1

331

Bessel, W.714 .

8

4 Oct.

6

27 44.5

51.1

38 29 36. 0

4 33.0

I 28 35.6

+38 34 9. 0

332*

Groombridge 300

6

4 Sept.

28

27 51.4

52.0

42 12 9. 1

4 35.4

1 28 43.4

+42 16 44.5

333

53 Andromedse r

3 Sept.

17

27 53.9

55.6

39 28 36. 6

4 57.7

1 28 49.5

+39 33 34.3

334

"...

5

4 Sept.

16

27 57. 6

51.7

39 28 54. 4

4 37.8

28 49. 3

33 32.2

335

41 (Hev.)Androm.

0

4 Sept.

30

28 47.4

51.9

41 31 40.1

4 34.3

1 29 39.3

+41 36 14.4

336

105 Piscium .

7

4 Oct.

15

28

15 18 42. 8

4 29. 1

1 29

+15 23 11.9

337

Piazzi 145

7

3 Aug.

20

29 16.6

53.3

24 38 51.7

4 59.4

1 30 9.9

+24 43 51.1

338

"...

7

3 Aug.

21

29 15.9

53.3

24 38 49.7

4 59.2

30 9.2

43 48. 9

339

1 (Hev.)Trianguli

0

4 Oct.

2

29 42. 4

50.4

34 9 19.1

4 32.3

1 30 32.8

+34 13 51.4

340

"

0

4 Nov.

17

29 43.2

50.1

34 9 29. 4

4 24.3

30 33.3

13 53.7

341

Lalande 3100 .

7.8

4 Sept.

16

29 59. 6

51.8

39 17 6.7

4 36.8

1 30 51.4

+39 21 43. 5

342

106 Piscium v

3 Sept.

15

30 12.9

49.4

4 23 24. 4

4 49.7

1 31 2.3

+ 4 28 14. 1

343

"...

5

4 Oct.

15

30 16.3

45.6

4 23 49. 9

4 28.2

31 1.9

28 18. 1

344

107 Piscium . .

6

4 Oet.

2

31

19 13 6.9

4 29.8

1 32

+19 17 36.7

345

"...

6

4 Oct.

6

30 51.9

47.9

19 13 9.1

4 29.3

31 39.8

17 38.4

340

"...

0

4 Oct.

8

30 52. 5

47.8

19 13 8.4

4 29.0

31 40.3

17 37.4

347

"...

0

4 Oct.

9

30 52. 3

47.8

19 13 8.6

4 29.0

31 40.1

17 37.6

348

Lalande 3149,50

0.7

3 Aug.

20

31 32.7

54. 7

31 5 45.4

5 0.1

1 32 27. 4

+31 10 45. 5

349

"...

7

3 Aug.

21

31 32.7

54.6

31 5 49. 3

4 59. 9

32 27. 3

10 49.2

350

(<

0.7

4 Sept.

28

1 31 37.4

+ 50.0

+31 6 11.0

+ 4 31.7

1 32 27. 4

+31 10 42. 7

(15S)

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

159

Mean equinox 1800.0

No.

Name

Mag.

Dat<

App't a

Ri duct'rj

App't 6

Reduction

a

i!

A m s

s

O ' II

/ //

h m s

o / /'

351

Lalande 3149,50

7.6

4

Sept.

30

1 31 37.6

+ 50.0

+31 6 13.1

+ 4 31.3

1 32 27. 6

+31 10 44. 4

352

109 Piscium

e

3

Sent.

17

33 10.0

51.8

18 59 55.5

4 50. 6

1 34 1.8

+19 4 40. 1

353

"

6

4

Oct.

2

33 14.0

48.0

19 0 17.0

4 28.5

34 -.Ml

4 45.5

354

ii

8

4

Oct.

6

33 14. 1

47.9

19 0 19.5

4 28.0

34 2.0

4 47.5

it

6.7

4

Oct.

8

33 14.4

47.9

19 0 19.2

4 27.7

34 2. 3

4 46.9

356

ii

6.7

4

Oct.

9

33 13.9

47.9

19 0 19.3

4 27.6

34 1.8

4 46.9

357

1 1

8

4

Oct.

15

33 14.0

47.8

19 0 21. 0

4 27.0

34 1.8

4 4S. 0

358

110 Piscium o

3

Sept.

15

34 1.0

50. 1

8 3 53. 5

4 48.2

1 M 51.1

+ 88 41.7

31 9

3 Arietis -

6.7

4

Sept.

16

34 57.4

47.8

16 19 48.6

4 29.2

1 :;;. 45.2

+16 24 17. 8

360*

"...

7

4

Oct.

2

34 57.7

47.6

16 19 53. 8

4 27.2

•

35 45.3

24 21.0

361*

ii

9

4

Oct.

15

34 57.8

47.4

16 19 55.2

4 26.0

35 45. 2

24 21.2

362

Piazzi 170

6.7

4

Sept.

28

36 1.9

51.4

36 52 31. 1

4 30. 3

1 36 53. 3

+36 57 1.4

363

ii

7

1

Sept.

30

36 1.6

51.4

36 52 33. 3

4 29.9

36 53. 0

57 3.2

364

Piazzi 171

6.7

3

Sept.

17

36 22. 3

54.4

31 35 23. 5

4 51.4

1 37 16.7

+31 40 14.9

365*

4 Arietis .

6

4

Oct.

2

36 33.5

47. 5

15 52 49. 8

4 26.3

1 37 21. 0

+15 57 16.1

it

6.7

4

Oct.

8

36 34.0

47.5

15 52 49.5

4 25. 6

37 21.5

57 15. 1

367

1 Arietis ...

6

4

Sept.

16

38 18.0

48.8

21 12 0. 1

4 28. 4

1 39 6.8

+21 16 28.5

368

it

7

4

Oct.

9

38 18.3

48.4

21 12 10.5

! 25. 1

39 6.7

16 35.6

369

ii

7

4

Oct.

15

38 IS. 5

48.3

21 12 11.4

4 24.4

39 6. 8

16 35.8

370

it

8

4

Nov.

17

38 19.8

48.1

21 12 11.5

4 21.6

39 7.9

16 33. 1

371

Lalande 3:378

7.S

4

Sept.

30

39 22. 8

48.2

19 26 41.8

4 25. 4

1 40 11.0

+19 31 7.2

t 372

54 Oti .

6.7

3

Aug.

20

39 24. 5

51.1

9 57 57.7

4 28.8

1 40 15.6

+10 2 26.5

373

Bessel,W.1017 .

7

4

Oct.

2

40 6.8

47.8

17 13 44.2

4 24.5

1 40 54.6

+17 18 8.7

074

"...

6.7

4

Oct.

8

40 7.4

47.8

17 13 39.8

1 23. 8

40 55.2

18 3.6

375

Lalande 3405

8.9

3

Sept.

15

40 10.4

52.8

23 2 30.2

4 47.6

1 41 3.2

+23 7 17.8

376

"

8

4

Oct.

9

40 14.2

48.8

23 2 53.2

4 24.2

41 ::. o

7 17.4

377

2 Trianguli a

4

3

Sept.

17

40 48.9

53.9

28 31 11.2

4 48.0

1 41 42.8

+28 :;:. 59.2

378

Lalaude 3455

8

4

Sept.

30

41 0.5

49.8

27 45 15.7

4 25.8

1 41 50.3

+27 49 41. 5

379*

5 Arietis y

4

Sept.

16

41 46.1

48.4

18 14 7.7

4 25.8

1 42 34.5

+18 18 33. 5

380

"...

4

Oct.

2

41 46.6

48.1

18 14 12.5

4 23.6

42 34.7

18 36.1

381

1 1

4

4

Oct.

9

41 46.4

48.0

18 14 16.5

4 22.8

42 34.4

18 39.3

382

"...

4

4

Oct.

15

41 46.2

47.9

18 14 20.4

4 22.3

42 34. 1

18 42.7

383*

6 Arietis j3

3

Aug.

20

42 43.8

53.0

19 44 40. 0

4 49.8

1 43 36.8

+19 49 29.8

384

it

3

Sept.
Sept.

15

42 44.8

52.3

19 44 43. 4

4 45.2

43 37. 1

49 28.6

38a

"...

3

17

42 44.4

52.3

19 44 44.6

4 44.9

43 36.7

49 29. 5

386

Lalande 3514,5 .

8.9

4

Oct.

8

43 16.9

47.1

12 41 42. 8

4 21.6

1 44 4.0

+12 46 4.4

387

it

9

4

Nov.

17

43 17.6

46.8

12 41 43.9

4 20.0

44 4.4

46 3. 9

388

56 Andrornedae .

4

Oct.

15

43 28.5

51.4

36 11 31.7

4 22.7

1 44 19.9

+36 15 54. 4

389

7 Arietis .

6.7

4

Si pt.

16

43 54. 0

49.2

22 31 2.7

4 25.5

1 44 43.2

+22 35 28. 2

391 1

Groonibridge 418

7.8

4

Oct.

2

44 59. 1

52.8

40 38 19.3

4 25.2

1 45 51.9

+40 42 44. 5

391

8 Arietis t

6

4

Sept.

16

45 38.7

48.2

16 45 43. 6

4 23.2

1 46 26. 9

+16 50 6. 8

392

"...

6

4

Oct.

8

45 39. 3

47.8

16 45 48.7

4.20.5

46 27. 1

50 9.2

393

it

6

4

Oct.

9

45 38.8

47.8

16 45 51.4

4 20.5

46 26.6

50 11.9

394

9 Arietis 2,

3

Aug.

20

45 54.6

53.6

+22 32 4.4

4 48.7

1 46 48.2

+22 36 53. 1

395*

58 Ceti . . .

7

4

Sept.

30

47 5.2

44.6

— 3 6 42. 8

4 18.1

1 47 49. 8

— 32 24.7

396*

"...

7

4

Nov.

17

47 6.5

44.3

— 3 6 49. 0

4 20.4

47 50.8

2 28.6

397

Lalande 3640

7.8

3

Sept.

17

47 6. 1

51.9

+17 18 .4.0

4 41.6

1 47 58. 0

+17 22 45. 6

398

Piazzi 222 . .

6

4

Oct.

2

47 41.9

48.6

20 0 32.8

4 20.4

1 48 30.5

+20 4 53.2

399

"...

6.7

4

Oct.

8

47 42.9

48.5

20 0 35.4

4 19.7

48 31.4

4 55.1

400*

"

6

4

Oct.

15

47 42.3

48.4

20 0 30.6

4 18.9

48 30.7

4 49.5

401

Lalande 3715

4

Oct.

9

49 36.5

49.0

22 21 1. 6

4 18.7

1 50 25. 5

+22 25 20. 3

402

it

8

4

Nov.

17

49 36.8

48.7

22 21 6. 4

4 14.9

50 25. 5

25 21.3

403

07 Audroniedse y

3

Aug.

20

50 42. 1

58.6

41 16 55.6

4 51.4

1 51 40.7

+41 21 47.0

404*

it

3

Sept.

15

50 42.9

57.8

41 17 1.2

4 45.2

51 40.7

21 46.4

41 5

ti

3

Sept.

17

50 43. 1

57.8

41 17 2.8

4 44.6

51 40.9

21 47.4

406*

Lalande 3767

6

3

Sept.

17

50 4:;. 9

57.8

41(17)

1 51 41.7

+41(21)

407

113 Piscium a

4

Sept.

16

50 56.7

45.7

1 43 16.4

4 16.8

1 51 42.4

+ 1 47 33.2

408

"...

4

Sept.

30

50 57.6

45.5

1 43 20. 2

4 16.1

51 43.1

47 36.3

409*

10 Arietis

6

4

Oct.

2

51 29.2

50.3

24 53 39.9

4 18.8

1 52 19.5

+24 57 .".-.7

410

"...

6.7

4

Oct.

8

1 51 30.2

+ 49.5

+24 53 38. 4

+ 4 17.8

1 52 19.7

+24 57 56.2

(159)

160

GOULD— CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Namo

Mao-.

Date

App't a

Keduct'n

App't (5

Reduction

a 1 &

h m s

s

o ' II

,

„

h m s j ° ' "

411

10 Arietis

7

4 Oct.

15

1 51 30.0

+ 49.4

+24 53 39.4'

+ 4

17.0

1 52 19.4 +24 57 56.4

412

279 Bradley . .

7.8

4 Oct.

8

52 13. 6

49. 5

24 52 55. 0

4

17.5

1 53 3. 1 +24 57 12. 5

413

Lalande 3803,4 .

9

4 Oct.

9

52 40.9

46.3

7 3 37.5

4

15.3

I 53 27. 2

+ 77 52.8

411*

284 Bradley . .

7

4 Oct.

6

54 33.6

49.2

24(48)

1 55 22. 4

+24(52) .

415

12 Arietis K

4 Sept.

16

54 34.4

49. 4

21 37 1.2

4

18.8

1 55 23. 8

+21 41 20.0

416

"...

4 Sept.

30

54 34.9

49.1

21 37 4.8

4

16.7

55 24. 0

41 21.5

417

1 1

6

4 Oct.

2

54 34.9

49. 1

21 37 1.2

4

16.4

1 55 24. 0

+21 41 17.6

418

11 Arietis - .

6

4 Oct.

6

54 41. 1

49.6

24 40 21.0

4

16.2

1 55 30.7

+24 44 37.2

419

1 1

6.7

4 Oct.

8

54 41.1

49. 6

24 40 23. 1

4

15.9

55 30.7

44 39. 0

420

13 Arietis a

3 Aug.

20

55 1.2

51. 0

22 25 53. 6

4

42.4

1 55 55. 2

+22 30 36. 0

421

"...

3 Sept.

15

55 2.3

53. 3

22 25 59. 7

4 37.8

55 55. 6

30 37.5

422

"...

3 Sept.

17

55 1.9

53.2

22 26 0. 1

4

37.4

55 55. 1

30 37.5

423

it

2

4 Oct.

9

55 6.1

49. 1

22 26 2:,. 4

4

15. 3

55 55.2

30 40.7

424

58 Andromedoe .

6

4 Oct.

15

55 35.5

52.3

36 49 55.7

4

15.6

1 56 27. 8

+36 54 11.3

425

4 Trianguli /3

4 Sept.

30

56 48. 4

51.9

33 57 44.6

4

17.4

1 57 40. 3

+34 2 2.0

421!

"...

4

4 Oct.

6

56 49. 3

51.8

33 57 48. 0

4

16.2

57 41. 1

2 4.2

427

14 Arietis

6.5

4 Nov.

17

57 14.4

49.4

24 55 3.2

4

9. 9

1 58 3.8

+24 59 13. 1

428

Lalande 3950, 1 .

6.7

4 Oct.

8

57 37.2

48.0

16 12 37.9

4

13.0

1 58 25. 2

+ 16 16 50.9

429*

59 Andromedse .

6.7

3 Sept.

17

57 50.3

57.3

38 0 42. 7

4

39. 2

1 58 47.6

+38 5 21.9

430

"...

7.8

4 Oct.

15

57 55. 0

52.7

38 1 1.9

4

14.4

58 47.7

5 16.3

431

Lalande 3959

4 Oct.

2

57 50. 1

48.7

19 19 21. 1

4

13.9

1 58 38.8

+19 23 35. 0

432*

J5 Arietis

7

3 Aug.

20

58 40.4

53.2

18 28 20.1

4

38.4

1 59 33. 6

+18 32 58.5

433

"...

6

4 Sept.

16

58 44.7

48.9

18 28 45. 7

4

15.3

59 33.6

33 1.0

434

"...

4 Sent.

30

58 4.".. ii

48.6

18 28 46.7

4

13.4

59 33.6

33 0. 1

435

"...

6

4 Oct.

2

58 45.6

48.6

18 28 46. 6

4

13.2

59 34.2

32 59. 8

436

"...

6

4 Oct.

8

(58)

18 28 50. 0

4

12.5

(59)

33 2.5

437

"...

7

4 Oct.

9

58 45.4

48.5

18 28 49. 4

4

12.4

59 33.9

33 1.8

438

60 Andromedse b

3 Sept.

15

1 59 45. 3

59. 2

43 12 24. 6

4

39.5

2 0 44.5

+43 17 4. 1

439

64 Ceti . . .

6

4 Oct.

6

2 0 2.4

46. 5

7 33 27. 0

4

10.6

2 0 48. 9

+ 7 37 37. 6

440

17 Arietis ?/

3 Aug.

20

0 43.6

53.7

20 11 12.5

4

37.5

2 1 37.3

+20 15 50. 0

441

a

6

4 Oct.

8

0 48.5

48.9

20 11 41.8

4

11.4

1 37.4

15 53. 2

442*

Lalande 4068-70

11

4 Oct.

15

1 H.9

48.5

18 48 20. 0

4

10.4

2 1 49. 4 -

+18 52 30. 4

443

Piazzi 13 .

7

4 Oct.

2

1 1 . 6

56.3

47 46 0.0

4

16.8

2 1 57.9

+47 50 16.8

444

65 Ceti f

5.6

4 Oct.

6

1 38.9

46.6

7 49 58. 3

4

9.5

2 2 25.5

+ 7 54 7.8

445

Piazzi 20 . . .

8

■1 Sept.

16

1 57.7

49.0

18 35 56. 9

4

13.2

2 2 46. 7

+18 40 Hi. 1

446

"...

S

4 Oct.

8

1 58.6

48.6

18 36 7. 1

4

10.4

2 47. 2

in 17.5

447

"...

9

4 Oct.

15

1 58.4

48. 5

18 36 7.9

4

9.7

2 46. 9

40 17.6

448

"...

7

4 Nov.

17

1 59.6

48.2

1- 36 8.0

4

7.5

2 47.8

411 15.5

449

8 Trianguli A

3 Sept.

15

3 56.0

56.3

33 13 29.5

4 34.1

2 4 52. 3

+33 18 3.6

450

"...

3 Sept.

17

3 55.4

56.3

33 13 37.7

4

33.6

4 51.7

18 11.3

451

Piazzi 39 . . .

8

4 Sept.

30

5 0.0

50.8

27 44 39.7

4

10.9

2 5 50.8

+27 48 50. 6

452

Lalande 4210 .

7.8

4 Sept.

16

5 3.9

50.0

22 45 57. 6

4

12.0

2 5 53. 9

+22 50 9.6

453

"...

6.7

4 Oct.

2

5 3.9

49.6

22 45 57.7

4

9.7

5 53. 5

50 7.4

454

"...

7

4 Oct.

6

5 4.4

49.6

22 45 59.0

4

9.2

5 54.0

50 8.2

455

"...

7

4 Oct.

8

5 3.7

49. 6

22 45 59. 9

4

8.8

5 53.3

50 8.7

456

"...

7.8

4 Oct.

15

5 4.1

49. 4

32 46 2.0

4

8.0

5 53.5

50 10.0

457

"...

7

4 Nov.

17

5 4.8

49.2

22 46 2.5

4

5.0

5 54.0

50 7. 5

458

Lalande 4211

8

1 Oct.

6

5 8.6

49.6

22 52 13.4

4

9.1

2 5 58.2

+22 56 22. 5

459

22 Arietis 0 . .

3 Aug.

20

6 7.7

53.6

18 53 33.8

4

33.0

2 7 1.3

+18 58 6.8

460

1 0 Trianguli a

7

4 Sept.

30

6 32. 3

50.8

27 38 36.5

4

9.8

2 7 23. 1

+27 42 46. 3

461

Lalande 4295,6 .

6.7

4 Oct.

6

7 34.0

51. 1

29 11 38.9

4

8.4

2 8 25. 1

+29 15 47. 3

462

"...

7

4 Oct.

8

7 34.2

51.1

29 11 41.5

4

8.1

8 25.3

15 49. 6

463

"...

7

4 Nov.

17

7 34.3

50. 7

+29 11 45. 1

4

2.7

8 25.0

15 47.8

464

68 Ceti o

6.7

4 Sept.

16

8 29.8

44.7

— 3 57 32. 7

4

3.6

2 9 14.5

— 3 53 29. 1

465

47 (Hev.)Androm.

6.7

4 Oct.

15

o 32. :;

54. 2

+40 24 42. 2

4

7.2

2 10 26. 5

+ I11 28 49.4

466

Lalande 4358

7

3 Aug.

20

9 55.5

54.4

21 52 37. 6

4

31. 1

2 10 49. 9

+21 57 8.7

467

"...

7

4 Oct.

9

10 n.6

49.5

21 53 2.6

4

5. 2

III 511. 1

57 7.8

468

Lalande 1361

8

4 Oct.

o

10 3.6

48.2

15 10 23.8

4

4.9

2 10 51.8

+15 14 28.7

469

Lalande 4377,8 .

7.8

4 Oct.

6

10 36. 1

52. 6

34 27 1 8. 1

4

7.2

2 11 28.7

+34 31 25.3

470

8

4 Oct.

8

2 10 36. 1

+ 52.6

+34 27 16.8

+ 4

6.7

2 11 28.7

+34 31 23.5

flGO)

GOULD CATALOGUE OF STARS OI5SERVED HY O AGELET.

1G1

Mean equinox 1800.0

No.

Name

Mag,

Dati

App't a

Reduct'rj

App't <!

Reduction

a

d

h m s

s

O 1 II

/ //

// m s

0 / a

471

Piazzi 74 .

8

3

Aug.

20

2 12 54.2

+ 56. 6

+28 53 40.2

+ 4 27.8

2 13 50.8

| --.'- 58 8.0

472

ic

7.8

3

Sept.

17

12 55. -J

55.6

28 53 46. 1

4 25. 6

13 50.8

58 11.9

473

24 Arietis f

5

4

Kept.

16

13 8.3

47.6

9 37 49.0

4 2.9

2 14 5.9

+ 9 41 51.9

1M

Bessel, W.408 .

7.8

4

Oct.

•>

13 36.3

50.2

24 111 52.2

4 3.8

2 14 26.5

+24 14 56.0

475

"...

8

4

Oct.

8

13 36.5

no. 2

24 10 50. 8

4 3. 0

14 26.7

14 53.8

476

(i

7.S

4

Oct.

9

13 36.4

50. 1

24 10 49.9

4 2.9

14 26. 5

14 52. 1

477

IC

7

4

Not.

17

13 37. 1

49.7

24 10 51.4

3 58.9

11 26.8

14 50.3

478

Lalande 4493,4 .

8

4

Sept.

30

14 38.4

50.5

25 4 2.9

4 3.6

2 15 28.9

+25 8 6.5

1711

Lalande 4496

6

4

Oct.

6

14 45.7

50.7

26 2 27. 1

4 2.8

2 1 5 36. 4

+26 6 29. 9

480

(i

6.7

4

Oct.

8

14 45.6

50.6

26 2 28. 9

4 2.4

15 36.2

6 31.3

481

1 1 Trianguli d

6

4

Oct.

15

14 47.5

51.7

30 49 43. 6

4 2.7

2 15 39.2

+30 53 46. 3

482

12 Trianguli c

3

Aug.

20

15 32.5

56.4

28 41 36.8

4 28. 8

2 16 28.9

+28 46 5. 6

483

"...

3

Kept.

17

15 33.0

55.6

28 41 44. 9

4 23.6

16 28.6

46 8.5

484

25 Arietis

6

4

Kept.

16

15 58.2

47.4

9 14 13.5

4 0. 8

2 16 45.6

+ 9 18 14.3

485

13 Trianguli .

7.6

4

Oct.

2

16 15.2

51.5

28 57 24.7

4 2.8

2 17 6.7

+29 1 27.5

486

"...

7

4

Oct.

9

16 15.2

51.4

28 57 24. 0

4 1.7

17 6.6

1 25.7

487

"...

6.7

4

Nov.

17

16 15.8

51.0

28 57 29. 3

3 56. 6

17 6. 8

1 25.9

488

Lalande 4572,4 -

6.7

4

Sept.

30

17 1.6

50. 0

22 30 4.7

4 1.3

2 17 51.6

+22 34 6.0

489

Lalaude 4588

7

4

Oct.

15

17 24.8

52.4

32 52 12.2

4 0.5

2 is J7.2

+32 56 12.7

490

Piazzi 96 . .

6

4

Oct.

6

18 13.8

50.4

24 16 26. 8

4 0.0

2 19 4.2

+24 20 26.8

491

26 Arietis

6

4

Oct.

8

18 38.3

49.1

18 53 36.2

3 58. 5

2 19 27. 4

+18 57 34.7

492

14 Trianguli

6.5

3

Aug.

20

18 58.0

58. 6

35 10 37. 3

4 28. 1

2 19 56.6

+35 15 5.4

493

"...

3

Sept.

17

18 58. 6

57.8

35 10 44.4

4 22.6

19 56.4

15 7. 0

494*

"...

6

4

Oct.

2

19 3.2

53.4

35 11 0.2

4 2.0

19 56.6

15 2.2

495

" - - -

6

4

Oct.

9

19 3.2

53.2

35 11 4.2

4 0. 0

19 56.4

15 4.8

496

"...

5.6

4

Nov.

17

19 3.9

52.8

35 11 15.4

3 54.2

19 56.7

15 9.6

497

Piazzi 105

7.8

4

Oct.

15

19 58.2

52.7

33 35 11.6

3 58. 7

2 20 50.9

+33 39 30. 3

498

29 Arietis

7

4

Oct.

8

21 10.4

48.1

14 4 32.5

3 55. 8

2 21 58. 5

+14 8 28. 3

499

Lalande 4720,1 .

7

4

Oct.

6

21 21.6

52.7

32 50 17. 9

3 59. 1

2 22 14.3

+32 54 17. 0

500*

Groombridge 530

7

3

Aug.

20

22 0.6

60.0

38 42 25. 3

4 26.7

2 23 0. 6

+38 46 52. 0

501

Lalaude 4752

6

4

Oct.

2

22 28. 0

53. 9

36 21 44.4

3 59. 6

2 23 21.9

+36 25 44. 0

502

"...

6

4

Nov.

17

22 28. 9

53. 3

36 21 53. 6

3 51.6

23 22. 2

25 45.2

503

Lalande 4759

8

4

Oct.

9

22 51.9

47.4

10 39 16.8

3 54.0

2 23 39. 3

+ 10 43 III. 8

504*

15 Trianguli

3

Sept.

17

22 43.8

57.5

33 44 6.5

4 19. 1

2 23 41.3

+33 48 25. 6

505

it

6.7

1

Oct.

15

22 4S.li

52. 9

33 44 29. 1

3 56. 6

2:1 40.9

48 23. 7

506*

Piazzi 117 . .

7.8

3

Kept.

17

22 47. 4

57.5

33 46 12. 1

4 19.1

2 23 44.9

+33 50 31.2

5117

"...

7.8

4

Oct.

15

22 51.7

52.9

33 46 38. 6

3 56.5

23 44 6

50 35. 1

508

78 Ceti v

4

Kept.

30

24 37.4

46.2

4 38 55.9

3 52. 2

2 25 23. 6

+ 4 42 48. 1

509

"...

4.5

4

Oct.

9

24 37.8

46.1

4 38 59. 7

3 51.9

25 23. 9

42 51. 6

510

31 Arietis . .

5.6

4

Oct.

8

24

47.6

11 30 29. 4

3 51.3

2 25

+11 34 20.7

511

Lalande 4830 .

6

3

Aug.

20

24 58.9

59.5

36 46 45. 2

4 23.6

2 25 58. 4

+36 51 8.8

512

"...

7

4

Oct,

2

25 4.3

54.2

36 47 12.5

3 57.7

25 58. 5

51 10.2

513*

k

7

4

Oct.

6

25 4.2

54.1

36 47 12. 7

3 56. 9

25 58. 3

51 9.6

514

Bessel, W.704 .

7

4

Nov.

17

25 12.2

53.7

37 9 2.4

3 49. 6

2 26 5.9

+37 12 52.0

515

Lalande 4854

8.9

4

Oct.

15

25 51.3

52.6

32 28 44. 5

3 54. 0

2 26 43. 9

+32 32 38.5

516

32 Arietis v

3

Sept.

17

26 34. 6

54.0

21 1 6. 5

4 12.5

2 27 28.6

+21 5 19.0

517

33 Arietis

6

3

Aug.

20

28 5.4

56.2

26 7 16.3

4 17. 3

2 29 1.6

+26 11 33.6

518

"...

4

Sept.

30

28 10. 1

51.3

26 7 44. 3

3 53.4

29 1.4

11 37.7

519

"...

6.5

4

Oct.

8

28 ll.o

51.1

+26 7 44.8

3 52.3

29 2.1

11 37.1

520

82 Ceti 6

3

4

Oct.

9

28 29. 8

45.0

— 0 36 14.5

3 48.1

2 29 14. 8

— 0 32 26. 4

521

12 Persei . . .

7

4

Oct.

2

28 45.8

55.2

+39 16 26. 8

3 55. 4

2 29 41.0

+39 20 22. 2

522 '

i<

4.5

4

Oct.

6

28 45. 6

55.1

39 16 27. 7

3 54.6

29 411.7

20 22. 3

523

"

6

4

Oct.

15

28 45. 5

54.9

39 16 26. 9

3 52.7

29 40.4

20 19.6

52 1

"...

6

4

Nov.

17

28 46.4

54.5

39 16 36. 9

3 46.7

29 40.9

20 23. 6

525

34 Arietis ji

3

Aug.

20

30 12.6

54.4

19 4 50.2

4 13.0

2 31 7.0

+19 9 3.2

526*

11 Persei ...

3

Sept.

17

30 5.7

61.5

43 21 56. 8

4 15.4

2 31 7.2

+43 26 12.2

527

35 Arietis

4

Sept.

30

30 53.0

51.6

26 46 59. 1

3 51.4

2 31 44. 6

+26 511 50.5

528

■<

4

4

Oct.

8

30 53. 8

51.4

26 47 2. 2

3 50. 2

31 45.2

50 52. 4

529

86 Ceti y

3

4

Oct.

9

32 11.7

45.6

2 19 26.4

3 45. 4

2 32 57.3

+ 2 23 11.8

530

36 Arietis

7

4

Oct.

2

2 32 21.5

+ 49.1

+ L6 50 48.0

+ 3 47.9

2 33 10. 6 +16 54 35. 9

21

(101)

162

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET

Mean equinox 1800. 0

No.

Name

Mag.

Datt

App't a

Reduct'n

App't <5

Reduction

a

(i

h m s

s

O ' "

/ //

h m s

u ' "

531

36 Arietis

6.7

4

Oct.

6

2 32 21.5

+ 49.0

+16 50 47.6

+ 3 47.6

2 33 10.5

+16 54 35.2

532

"...

6

■I

Oct.

15

32 21.8

48.8

16 50 49.0

3 46. 9

33 Hi.6

54 35.9

533

37 Arietis o

::

Atiir.

20

32 39. 1

53.2

14 23 13.7

4 9.2

2 33 32. 3

+14 27 22.9

534

87 Ceti n

::

Sept.

17

33 16.9

51.2

9 11 36.9

4 3.5

2 34 8. 1

+ 9 15 40.4

535

39 Arietis . .

4

!

Sept.

30

35 9. 4

52.2

28 20 41 . 1

3 48.3

2 36 1.6

+28 24 29. 4

53G

Bessel, W.948 .

8

1

Oct.

2

35 11.1

50.6

22 43 36. 6

3 46. 8

2 36 1.7

+22 47 23. 4

537

"...

8.9

1

Oct.

6

35 11.3

50.5

22 43 34.9

3 46.3

36 1.8

47 21.2

538*

1*.

8.9

1

Oct.

8

35 11.5

50.5

22 43 35.6

3 46.1

36 2.0

47 21.7

539

Lalande 5149,50 .

9.10

4

Oct.

15

35 21.9

49.3

18 28 23.6

3 44.6

2 36 11.2

+18 32 8.2

540

16 Triauguii -

7

4

Oct.

8

36 18.7

50.9

24 16 56.3

3 45.4

2 37 9. 6

+24 20 41.7

541

tt

6.7

1

Oct

9

36 18.9

50.9

24 16 56. 3

3 45.3

37 9.8

20 41.6

542

16 Persei p1

4

3

Sept.

17

37 0. 5

59.6

37 25 3.2

4 7.8

2 38 0. 1

+37 29 11.0

543

41 Arietis

5.6

4

Oct.

6

37 22. 9

51.6

26 21 56. 9

3 45. 1

2 38 14.5

+26 25 42. 0

544

u

3

4

Oct.

15

37 22. 8

51.4

26 22 0. 3

3 44.0

38 14.2

25 44.3

545

Lalande 5221

6.5

3

Aug.

20

37 18.5

64.3

45 56 4. 5

4 15.6

2 38 22. 8

+46 0 20. 1

54i ;

Lalande 5248,9 .

8

4

Oct.

8

38 35.6

49.4

18 15 57. 0

3 42.5

2 39 25. 0

+18 19 39.5

547

43 Arietis a

6

4

Oct.

15

39 38. 8

48.3

14 11 19.7

3 411.4

2 40 27. 1

+ 14 15 0.1

548*

20 Persei . . .

6

3

Sept.

17

40 8.4

" 59.8

37 26 43. 1

4 5.0

2 41 8. 2

+37 30 48. 1

540

Piazzi 201 . .

7

4

Oct.

6

40 29. 3

53.0

30 45 19.3

3 43. 4

2 41 22.3

+30 49 2.7

550

'*

7.8

4

Oct.

9

40 29.4

52.9

30 45 19. 9

3 42.9

41 22.3

49 2.8

551*

Piazzi 203 . .

7

4

Sept.

30

41 16.0

49.0

15 35 50. 0

3 40.3

2 42 5. 0

+ r:» 39 30.3

552

it

6

4

Oct.

o

41 15.3

49.0

15 35 48.8

3 40.2

42 4.3

39 29.0

553

"...

7

4

Oct,

15

41 15.9

48.7

15 35 55.3

3 39.2

42 4. 6

39 34. 5

554

Lalande 5359 -

7.8

4

Oct.

6

42 39.6

49.9

19 29 22.2

3 39.4

2 43 29. 5

+19 33 1.0

555

45 Arietis p2

3

Aug.

20

43 41.2

54.3

17 26 41.8

4 1.8

2 44 35. 5

+17 30 43.6

556

"...

6.7

4

Oct.

8

43 46.7

49.4

17 27 7. 4

3 37.8

44 36.1

30 45.2

557

"...

6.7

4

Oct.

15

43 46.0

49.2

17 27 11.1

3 37.3

44 35.2

30 48. 4

558

46 Arietis p5

5

4

Sept.

30

44 20.2

49.5

17 9 25.5

3 38. 0

2 45 9. 7

+17 13 3.5

559

"...

6

4

Oct.

2

44 2(1.3

49.4

17 9 26.8

3 37.8

45 9.7

13 4.6

560

"...

6.7

4

Oct.

6

44 20. 2

49.4

17 9 29.6

3 37.5

45 9.6

13 7.1

561

( I

6.7

4

Oct.

8

44 20.9

49.3

17 9 27. 1

3 37.3

45 10.2

13 4.4

562

21 Persei . . .

3

Sept.

17

44 13.7

57.7

31 3 9. 2

3 59. 4

2 45 11.4

+31 7 8. 6

563

Anonyma .

6

4

Oct.

9

44 29.0

55. 4

37 44 24.2

3 40.8

2 45 24. 4

+37 48 5. 0

564

Bessel, W.864 .

6

4

Oct.

15

45 50. 6

45.9

3 37 34. 8

3 33. 8

2 46 36.5

+ 3 41 8. 6

565

48 Arietis e

3

Aug.

20

46 52.3

55.3

20 27 52. 1

3 58.0

2 47 47. 6

+20 31 50. 1

566

'*

4

Sept.

30

46 57.7

50.4

20 28 17.2

3 36.5

47 48. 1

31 53.7

567

14

6

4

Oct.

2

46 57.9

50.4

20 28 18.0

3 36.2

47 48.3

31 54.2

568

"...

6.5

4

Oct.

6

46 57.8

50.3

20 28 19.6

3 35.8

47 48. 1

31 55.4

569

tt

5

4

Oct.

8

46 57.7

50.2

20 28 18.3

3 35.6

47 47.9

31 53.9

570

Lalande 5523 .

8

3

Sept.

17

47 56.6

50.5

5 47 1.5

3 48. '.)

2 48 47. 1

+ 5 50 50.4

571

91 Ceti X

5.6

4

Oct.

9

48 13.5

47.1

8 2 36.2

3 32.2

2 49 0. 6

+ 8 6 8.4

572

"...

6

4

Oct.

15

48 13.2

47.0

8 2 35.4

3 32.2

49 0.2

6 7.6

573

49 Arietis . .

6.7

4

Oct.

2

49 16.8

51.8

25 36 6. 1

3 35. 3

2 50 8. 6

+25 39 41.4

574

"...

6

4

Oct.

6

49 16.5

51.8

25 36 8.7

3 34.8

50 8.3

39 43.5

575

92 Ceti a

3

Aug.

20

50 59. 8

50. 6

3 14 2.2

3 47.9

2 51 50.4

+ 3 17 5(1. 1

576

"...

3

Sept.

17

51 0. 5

49.9

3 14 3.5

3 45. 3

51 50.4

17 48.8

577

"...

4

Sept.

30

51 4.7

46.1

3 14 21.9

3 211. 1

51 50.8

17 51.0

578

"...

2

4

Oct.

9

51 4.5

45.9

3 14 23.4

3 28. 9

51 50.4

17 52. 3

579

"...

2

4

Oct.

15

51 4. 3

45. 8

3 14 27.9

3 29. 0

51 50.1

17 56.9

580

25 Persei p

4

4

Oct,

6

51 28.3

55. 9

37 59 44.6

3 35.4

2 52 24. 2

+38 3 20. 0

581

Lalande 5671

7

4

Oct.

2

52 45. 3

49.0

15 0 47. 7

3 29.9

2 53 34. 3

+15 4 17.6

582

52 Arieti3

6

4

Oct.

8

52 52. 8

51 5

24 24 32.0

:; 31. l

2 53 44. 3

+24 28 3. 1

583''

26 Persei fi

3

Aug.

20

54 10.1

62.7

40 6 28. 1

3 57. 5

2 55 12.8

+40 10 25.6

584

i i

3

Sept,

17

54 10.8

61.7

40 6 34.7

3 52. 5

55 12.5

10 27.2

585

K

4

Juuo

21

54 11.6

60.7

40 6 46. 7

3 47.8

55 12.3

10 34.5

586

"...

4

4

Oct.

6

54 15.8

56.9

40 6 55. 8

3 33. 5

55 12.7

10 29.3

587

"...

2.3

4

Oct.

9

54 15.6

56.8

40 6 53. 6

3 32.9

55 12.4

10 26.5

588

"...

2.3

4

Oct.

15

54 15.4

56. 7

40 6 57. 0

3 31.8

55 12. 1

10 28. 8

589

54 Arietis . .

4

Sept.

30

56 11.7

50.il

17 57 36.8

3 27. 6

2 57 1.7

+18 1 4. 4

590

■

6.7

4

Oct,

8

2 56 12.8

+ 49.8

+17 57 37.4

+ 3 26. 8

2 57 2. 6

+18 1 4.2

(162)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

163

No.

591
592
593
594
595
596
597
598
599
600

601
602
603
604
605
one,
607
608
609
010

GIL
612
613
til 4'
615
616
017
618
619
620'

621
622
623
624
625
020
627
628
629
630

631
632
633
634
635
636
637
638
639
640

641
642
643

1)44'
645
646
647

648
04: 1
650

Name

55 A ] litis

99 Mayer

28 Persei u

Groombridge 62]

f>? A i iitis d

56 Arietis

58 Arietis
12 Eridani

59 Arietis

00 Arietis

Lalande 6141,2 -

Piazzi 37 .

33 Persei a

Mag.

Groombridge 659

04 Arietis

Piazzi 53

1 Tauri o
31 Persei .

I -H Bradley . -

2 Tauri f

35 Persei a

108 Mayer . .
Groombridge 694

109 Mayer . .

36 Persei .
Str.G.C.345pr. .

foil.
4 Tauri s

Groombridge 703

37 Persei ip

7 Tauri . . .

it

Piazzi 87 . . .
9 Tauri . . .

7
-.11

8

7

3
3

7

7.8
6
2

2.3

2. 3
2.3

0

6

6

5.6

6

4
5

7.8

7.8

6

7.8

6.7
6
6

7

6

7
7.6

Date

Oct.

Oct.

Oct.

Oct.

Sept.

(let.

Sept.
Oct.

Oct.
Oct.

Sept. 17

Sept. 30

Oct. 2

Oct. 9

Oct. [5

Oct. 8

Oct. 8

Sept. 17

Get. 15

Pel.. 18

Apr. 9
An-. 20
June 21
Sept. 30
Oct. 2
Oct.
Oct.
Oct.
Oct.

6

9

15

6

Sept. 30

Oct. 8

Sept, 17

Oct. 0

Oct. 15

Get. 9

Oct. 6

Oct. 9

Sept. 30
Oct. 2
(let. 15

App't a

Reduct'n

Oct. 9

Oct. 15

(let. 8

Sept. 17

Sept. 30

Sept. 30

Oct. 2

Oct. (i

Oct. 9

Oct. 15

3 Sept. 17

4 Oct. 2
4 Oct. 8
4 Sept. 30
4 Oct, 0
4 Oct. 9
4 Sept. 30
4 Oct. 2
4 Oct. 0
4 Oct. 8

2 56 43. 5
57 22. 9
(57)
57 23.5

57 24.3

58 2.9

59 21.9
59

59 28.6
2 59 29. 0

30.7
57.6
57.7

51 . 8

8.6

43.6

8 2.7
8 5. 2
8 55.6

8 54.

9 0.
9 4.
9 4.

10 47.

11 38.

11 39.

12 45.

12 51.
J 2 52.

13 16.

14 6.

15 30.
15 32.
15 32.

15 30.

16 53.

17 2.

17 36.

17 32.

18 2::.
18 25,
18 40,
18 42.

18 41.

19 29.

21 13.2

21 44.6

21 45.3

21 50.0

21 55.:;

21 55.7
24 22.2
21 21.7
21 22.2
2 4 22.5

App't

+ 52.6

50. 1

50.0
61.4

57.7
50.3

52. 3

52. 3

54.9
36.7
36.7
36.5
36.4
52.5
52.1
54.7
61.5
71.0

72. 5
OS. 7
66.7
02. 4
62.3
62. 2
62.1
62.0
61.9
52.1

51.9
67.3

62.0
61.8

47.4
02. 4
48.5
47.8
47.8
61.3

48.1
01.5
49.7
65.9
53. 3
53.3
48. ::
48.2
48.1
57.0

67.4
52.3
52.1
50. 3
50.1
50.1
52.0
51.9
51.8
-f- 51.8

+23 14 45.8
18 33 4.3
18 32 57. 1
18 33 2.5
38 46 40. 5
41 33 2.0
18 54 12.9
18 54 13.3
26 26 9. 0
26 26 10.9

Reduction

/ //
+ 3 27.6
3 26.4

3 25. 8
3 25. 8
3 IS.'J

3 30.4

3 24.8
3 25. 0
3 25. 4
3 25. 5

+20 13
—29 50
29 50
29 50
■29 50
+26 16
24 52
19 4

48 25

49 4

49
49
49
49
49
49
49
49

48 20
23 57

56.9
14.9
I l.d
10.9
11.9
56.8
38.0
4(1.3
44.6
36.5

28. 0
20.3
39.2
41.8

40. 0
49.8
45.6
46. 0
49.9
5.3

23 57 4. 8

48 17 31.5

48 17 46.7

48 17 47.9

8 15 48. 5

48 44 52. 5

11 58 28.2

8 58 25. 3

8 58 23. 8

47 14 14.3

10 38
47 16
16 0
45 18
26 49
26 49
10 35
10 35
10 35
39 9

10.1
27.9
41.9
27.6
31.3
31.3
21.4
16.7
22. 7
40.4

47 27 21.7
23 43 57. 5
23 43 55. 5
17 7 3.3
17 7 2.6
17 7 5.5
22 29 21.4
22 29 19.2
22 29 21.0
+22 29 18.9

3
3
3
3
3
3
3
3
3
3

3
3
3
3
3
3
3
3
3
3

3
3
3
3
3
3
3
3
3
3

3
3
3
3
3
3
3
3
3
3

3
3
3
3
3
3
3
3
3
+ 3

38.4
12.6
12,8
13.8
14.9
18.2
17.4
32. 3
20.8
32.8

39.6

45.1
34.2
23.2
22.7
21.9
21 . 2
20.0
20.1
14.3

13.4

30.(1

18.0

16.3

8.5

17. 1

7.0

0.7

6.6

13.5

Mean equinox 1800. 0

2 57 36. I

2 58 1 3.(1

(58)

58 13.5

2 58 25. 7

2 59 0.0

3 0 12.2
0

3 0 20.9
0 21.3

+2- 18
+18 36

30

3lj
+38 5(1
+41 36
+18 57

57
+26 29

29

13.4
3(1.7
22. :i

28. 3

29. 4
33.0
37.7
38.3
34.4
36.4

3 25.6
3 34. 3
3 34.4
3 35.0
3 34.2
8 1.1
- 35.7

8 57.4

9 6.7

3

3
3

3

3 111

10
10
10
10
10
10
10
10

5.3

11.5

5.8

30. 0

8.8

8.8

3.8

3.6

3.4

8.0

26.8

4.0

3.3

2.3

1.8

1.6

1. 1

(1.9

0.5

0.4

7.3

7.3
7.2
6.5
6.4
7.2
6.9
6.5

11 49.5

12 30.6

12 31.5
l:; 53. I

13 53.8

13 54. 2

14 4.1

15 8.8

16 18.5
16 20. 2
16 20. 5

16 31.9

17 41.7
I- 3.6

18 26. 5

18 38. 0

19 10.9
19 IS. 4
19 29.2
19 30.8

19 29. 3

20 26. 6

22 2(1.0
22 36.9
22 37. 4
22 46. 3
22 45.4
22 45. 8
25 14.2
25 13.0
25 14.0
25 14.3

+20 17 35.3

29 47 2. 3

47 1.2

40 57. 1

40 57.(1

+26 20 15.li

+24 55 55. 4

+19 8 12.6

+48 29 5. 4

+49 8 9.3

8 8.2
6 5.4
8 13.4
8 5.0
8 8.7
8 11.7
8 6.8
8 6.0
+48 24 10. 0
+24 0 19.6

0 18.2
+48 21 7. 5

21 4.7
21 4. 2
+8 18 57. 0
+48 48 9.6
+ 12 1 35.2
+91 32. 0

1 30.4
+47 17 27.8

+10 41

+47 19
+16 3

+45 21
+20 52
+20 52
+ 10 38
38
38
+39 12

15.4

39. 4
47.7
57.6
4(1.1
40.1
25.2
20.3
26 1
48.4

+47 30 48.5

+23 47 1.5
46 58. 8

+ 17 10 5.6
10 4. 4
10 7. 1

+22 32 22. 5
32 20. 1
32 21.5

+22 32 19. 3

(163)

164

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag-

Date

App't a

Reduct'n

App't <!

Reduction

a

<5

k m s

s

0 ' "

/ //

h m s

0 ' "

i;;,i

9 Tauri . . .

7

4

Oct.

9

3 24 22. 1

+ 51.8

+22 29 21.4

+ 3 0.2

3 25 13.9

+22 32 21.6

652

Lalande 6677

8.9

4

Oct.

6

26 21.9

52.4

23 59 26. 3

2 58.9

3 27 14.3

+24 2 25.2

653

i i

8

4

Oct.

8

' 26 22. 4

52.3

23 59 27. 9

2 58. 7

27 14.7

2 26.6

654

39 Persei c!

3

Sept.

17

27 36.8

67. 6

47 4 43. 8

3 19.5

:i 28 44. 4

+47 8 3. 3

655

11 Tami . . .

6

4

Oet.

2

27 57.8

52. 7

24 37 21.5

2 57.8

3 28 50.5

+24 411 19.:!

656

"

7

4

Oct.

6

27 58.5

52. 6

21 37 2U.7

2 57.3

28 51.1

40 18.0

657

1 1

6.7

4

Oct.

8

27 58. 4

52. 6

24 37 19.7

2 57. 1

28 51.0

40 10.8

05s

"...

7

4

Oct.

9

27 58. 1

52.6

24 37 20. 1

2 57.0

28 50. 7

40 17.1

659

13 Tam-i . . .

6

4

Sept.

30

29 56. 7

51.11

19 0 0.4

2 54.4

3 30 47. 7

+19 2 54. 8

660

Lalande 6806,7 -

8

4

Oct.

6

30 17.2

24 59 3.9

2 55.1

3 31 10.0

+25 1 59.0

661

Robinson 776

7.8

4

Oct.

2

30 54.9

52.7

24 23 18.9

2 54.7

3 31 47. 6

+24 26 1:1.6

662

14 Tauri . . .

6.7

4

Sept.

30

31 23.6

51.0

18 58 30.7

2 52. 9

3 32 14.6

+19 1 23.6

663

"...

6.7

4

Oct.

8

31 23.8

50.8

18 58 27.7

2 52. 3

32 14.6

1 20.0

664

16 Tauri g

7

4

Oct.

9

32 3.6

52.4

23 36 2.1

2 52.6

3 32 56. 0

+23 38 54.7

665

17 Tauri 4

5

4

Oct.

9

32 0. 1

52.3

23 25 35. 9

2 52.4

3 33 1.4

+23 2- 28. 3

666

18 Tauri m

7.6

4

Oct.

2

32 22. 6

52.7

24 9 12.4

2 53.1

3 33 15.:;

+24 12 5.5

667

"...

4

Oct.

0

32 22. 7

52.6

24 9 8. 7

2 52. 7

33 15.3

12 1.4

668

20 Tauri c

3

Sept.

17

32 59. 8

56.9

23 4(1 59.11

3 6.3

3 33 56. 7

+23 44 5.3

669

25 Tauri i,

4

Sept.

30

34 44.3

52.6

23 25 41.9

2 50.6

3 35 36.9

+23 28 32.5

670*

li

4

Oct.

2

34 44.7

52.5

23 25 42. 3

2 50.4

35 37.2

28 32.7

671

"...

3

4

Oct.

6

34 45. 1

52.4

23 25 43. 8

2 50.0

35 37.5

28 33. 8

672

"...

3

4

Oct.

8

34 45.0

52.4

23 25 43. 0

2 49.8

35 37.5

28 32. 8

673

"...

3

4

Oct.

9

34 44. s

52.4

23 25 42. 9

2 49.7

35 37.2

28 32.6

674

27 Tauri /

3

Sept.

9

36 21.0

57.2

23 22 45. 5

3 3.1

3 37 18.2

+23 25 48. 6

675

"

6

3

Sept.

17

36 211.4

56.9

21! 22 45.3

3 2.3

37 17.3

25 47. 6

676*

"

4

Sent.

30

36 24. 6

52.6

2:1 23 2.2

2 48.8

37 17.2

25 51. 0

677"

"...

4

Oct.

o

36 26. 1

52.6

23 23 3. 0

2 48.6

37 18.7

25 51.6

678

"...

6

4

Oct.

6

36 25.6

52.4

23 23 3. 1

2 48. 2

37 18.0

25 51. 3

679

"...

6

4

Oct.

8

36 26. 8

52.4

23 23 2.7

2 48.0

37 19.2

25 50.7

680

" ...

6

4

Oct.

9

36 25. 4

52.4

23 23 4. 0

2 47.9

37 17.8

25 51. 9

681

Piazzi 179 . .

7.8

4

Oct.

2

39 22.2

53.0

24 30 51.2

2 45.7

3 40 15.2

+24 33 36. 9

682

31 Tauri u-

4

Sept.

30

40 33.6

47.2

5 52 47. S

2 39.6

3 41 20.8

+ 5 55 27. 4

683

Bessel,W.985,6 .

7.8

4

Oct.

ll

40 40.2

53.1

25 1 :■■:.:.

2 44.1

3 41 33. 3

+25 4 36.6

684

44 Persei C

3

Sept.

17

40 35. 1

60. 1

31 13 38.5

2 59.9

3 41 35.2

+31 16 38. 1

6.-5

129 Mayer . .

7

4

Oct.

9

40 54. 9

50.3

16 411 34. s

2 41.4

3 41 45.2

+16 43 16.2

686

Lalande 7164-6 .

8

4

Oct.

8

41 27.2

51.8

21 17 38.4

2 12.(1

3 42 19.li

+21 20 20.4

687

Lalande 7185, 6 -

7

4

Oct.

6

41 59.9

55.1

lid 23 57.8

2 44. 1

3 42 .V,. 11

+30 26 41.9

688

45 Persei f

3

Sept.

9

43 24. 5

64. 4

:;:i 22 5.5

3 0.2

3 44 28. 9

+39 25 5.7

689

"...

3

Sept.

17

43 23. 4

64.1

39 22 7. 0

2 59.1

44 27.5

25 6.1

690

32 Tauri . . .

4

Sept.

30

44 11.4

52.3

21 50 50. 2

2 39.9

3 45 3.7

+21 53 30. 1

691

"...

6

4

Oct.

8

44 11.9

52.1

21 50 46.4

2 39.2

45 4.0

53 25.6

692

ti

6

4

Oct.

9

44 12.0

52.0

21 50 49. 6

2 39.2

45 4.0

53 28. 8

693*

Lalande 7252

7.8

4

Oct.

6

44 16.2

56.8

34 10 46. 5

2 42. 7

3 45 13.0

+34 13 29.2

694

46 Porsei f

5

4

Oct.

2

45 4. 0

57.3

35 9 26. 9

2 42. 5

3 46 1.3

+35 12 9.4

695*

llessel.W. 1117 .

8

4

Oct.

6

47 12.4

57.8

+36 22 1.3

2 39. 9

3 48 10.2

+36 24 41.2

696

34 Eridani y

3

Sept.

9

47 58.5

44.8

—14 7 46.0

2 37.5

:; 48 43. 3

— 14 5 8.5

697

"...

::

Sept.

17

47 57.4

44.6

— 14 7 5(1.2

2 35.0

48 42.0

5 15.2

698

Piazzi 212

10.11

1

Oct.

9

48 11.6

51.4

+19 47 42.2

2 34.2

3 49 3. 0

+19 50 16.4

699

Piazzi 217 . .

7

1

Sept.

30

48 37.6

51.6

19 35 5. 1

2 34.4

3 49 29. 2

+19 37 39. 5

700

"...

6.7

4

Oct.

2

48 37. 3

51 . 6

19 35 3. 8

2 34. 2

49 28. 9

37 38.0

701

"...

6.7

4

Oct.

8

48 38. 1

51.4

19 35 5.5

2 33.8

49 29. 5

37 39. 3

7(12

"...

6.7

4

Oct.

9

48 37. 6

51.4

19 35 7.1

2 33.7

49 29.0

37 40. s

703

37 Tauri A

3

Sept.

17

51 56.2

56.6

21 28 42.7

2 43.2

3 52 52. 8

+21 31 25.9

704"

"...

5

4

Sept.

30

52 0.7

52.3

21 28 52. 0

2 31.2

52 53. 0

31 2:1.2

705

"...

1

Oct.

2

52 0. 7

52. 3

21 28 58.4

2 31.(1

52 53. 0

31 29.4

706

"...

6.5

1

Oct.

6

52 1.3

52. 2

21 28 56. 0

2 30.6

52 53.5

31 26.6

707

"...

5

1

Oct.

8

52 1.7

52.1

21 28 57. 0

2 30.5

52 53. 8

31 27.5

708

"...

6

I

Oct.

9

52 1.4

52. 1

21 28 55. 8

2 30. 4

52 53. 5

31 26.2

709

39 Tauri . . .

3

Sept.

9

52 34. 3

56.8

21 24 48.4

2 i::. 1

3 53 31. 1

+21 27 31.5

t7J0

6

1

Oct.

2

3 56 1.2

•

+ 52.5

+21 48 3.9

+ 2 26.2

3 56 53. 7

+21 50 30. 1

(164)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

1G5

Mean equinox IMJ0. 0

No.

Name

Mag.

Date

App't a

Ividuet'n

App't J

Seduction

a

(5

It III s

S

o ' //

/ //

h m s

o / //

711

Lalande 7661

7.8

4 Oct.

0

3 56 1.6

+ 52.8

+23 17 13.4

+ 2 20. 1

3 56 54.4

+2.3 19 30. 8

712

43 Tauri u1

3 Sept.

17

56 35.6

55.8

19 1 26.6

2 36.6

3 57 31.4

+ 19 4 3.2

713

"

1 Sept.

30

56 4(1.4

51.6

10 1 46.2

2 25.2

57 32.0

4 11.4

714

44 Tauri p

3 Sept.

1!

57 42.3

58.7

25 54 10.4

2 38.4

3 58 41.0

+25 56 18.8

71.".

"

6.7

4 Oct.

9

3 57 46.4

53. 8

25 54 26. 1

2 25. 1

58 40.2

56 51.2

TIC.

52 Persei /

3 Sept.

17

4 0 13,. 2

65.2

39 55 10. 1

2 39. 1

4 1 18. 4

+39 57 49.2

717*

Lalande 7865

10

4 Oct.

9

1 45.7

52. 4

21 53 41.5

2 10.6

4 2 38. 1

+21 56 1.1

718

1- Tauri .

7

4 Oct.

9

3 35. 9

50.1

14 51 3. 0

2 15.5

4 4 26.0

+ 14 53 18.5

719

51 Tauri .

7

4 Oct.

0

5 41.5

52.2

21 2 31.2

2 II. s

4 6 33.7

+21 4 46.0

720

56 Tauri -

6

4 Get.

9

(C)

21 14 33.4

2 13.7

4 (7)

+21 16 47. 1

721

54 Tauri y

4 Sept.

30

7 35.5

50. 4

15 5 46.0

2 11.4

4 8 25.9

+15 7 57.4

7'.".'

59 Tauri %

6

4 Oct.

9

9 31.8

53. 8

25 6 32.0

2 11.4

4 10 25.6

+25 8 43. 4

723

6J Tauri (S1

4

4 Sept.

30

lit 33.7

5 1 . 2

17 1 33.9

2 8.5

4 11 24.9

+17 3 42. 4

724

"...

I Oet.

2

10 33.5

51. 1

17 1 34.4

2 8.4

11 24.6

3 42. 8

7-.T.

64 Tauri d-

4 Oct.

2

11 43.0

51.1

16 56 1.8

2 7.0

4 12 34.7

+16 58 8.8

720

"...

4

1 Oct.

9

11 43.2

50.9

16 56 0.6

2 6.7

12 34. 1

58 7.3

7'J7

72 Tauri v'2

4 Oct.

2

14 27.9

53.1

22 29 57.4

2 5. 5

4 15 21.0

+22 32 2.9

72-'

"...

6

4 Oet.

9

14 28. 1

52.9

22 29 55. 8

2 4.9

15 21.0

32 0. 7

729

74 Tauri c

3 Sept.

9

16 1.4

56.3

18 41 13.2

2 12.7

4 16 57.7

+18 43 25.9

730

76 Tauri -

7

4 Oct.

9

16 13.6

50.0

14 15 1.5

2 0.6

4 17 3.6

+ 14 17 2.1

7:;i

158 Mayer . .

9

4 Oct.

2

17 43. 1

52.0

19 21 31.8

2 0.7

4 18 35. 1

+19 23 32. 5

732

80 Tauri . .

7

4 Oet.

9

17 54.8

50.4

15 9 24.0

1 58.9

4 18 45. 2

+15 11 22.9

733

81 Tauri . . .

6

3 Sept.

9

18 20.8

55.0

15 12 31.0

2 8. 5

4 19 15.8

+15 14 39.5

734*

"...

7

4 Oct.

9

18

15 12 44.1

1 58.3

19

14 42.4

7:'..".

85 Tauri . . .

3 Sept.

9

19 32.3

55.1

15 22 28.2

2 6.9

4 20 27. 4

+15 24 35. 1

73(5

"...

4 Oct.

9

19 30.6

50.5

15 22 41. 3

2 6.9

20 27. 1

24 48.2

737

Lalande 8561

7

4 Oct.

2

21 7. 5

51.4

17 32 59. 6

1 56.0

4 21 58.9

+17 34 55.6

738

86 Tauri p

3 Sept.

9

21 36.7

54. 8

14 22 37.4

2 3.9

4 22 31.5

+14 24 41.3

7: :;i

"...

5

4 Oct.

9

21 40.6

50.2

14 22 48. 8

1 54.1

22 30. 8

24 42.9

740

87 Tauri a

]

3 Feb.

18

23 29. 6

57.5

10 3 30.6

2 11.0

4 24 27. 1

+16 5 41.6

711*

"...

1

3 Mar.

6

23 29.6

57. 7

16 3 27. 8

2 11.4

24 27. 3

5 39.2

7 42

"...

3 Apr.

9

23 29. 2

58.2

10 3 28.8

2 12. 1

24 27. 4

5 40. 9

743-

"...

1

:; Sept.

9

23 32.8

55.4

16 3 42. 3

2 2.0

24 28.2

5 44. 3

744*

"...

4 Mar.

23

23

54.2

16 3 41.2

2 3.2

24

5 44.4

3 15

"...

4 June

21

23 33.2

54.0

16 3 39. 3

2 1.4

24 27.2

5 40.7

711.

"...

4 July

4

23 30.4

53.7

16 3 41.3

2 0.3

24 24. 1

5 41.6

7 17

"...

4 Oct.

2

23 30.0

51.0

16 3 52.7

1 52.6

24 27.6

5 45.3

748

i.

1

4 Oct.

9

23 30.9

50. 8

16 3 51.7

1 52.3

24 27. 7

5 44. 0

749

"...

1

4 Oct.

13

23 36.7

50.7

16 3 49. 4

1 52.2

24 27. 4

5 41.6

75(1

"...

1

5 Mar.

21

23 30. 8

50.4

16 3 46. 9

1 55. 5

24 27.2

5 42.4

751

"...

1

5 Mar.

23

23 37.5

50.5

16 3 41.5

1 55.6

24 28.0

5 37.1

752

90 Tauri c1

5

4 Oct.

9

26 lo.o

49.4

12 4 3.3

1 48.1

4 20 59. 4

+12 5 51.4

753

93 Tauri c-

6

4 Oct.

9

28 6. 9

49.4

11 45 46.0

1 45.8

4 28 56. 3

+11 47 31.8

754*

94 Tauri r

3 Mar.

6

29 14.9

60. 4

22 31 36.9

2 1. 1

4 30 15.3

+22 33 38. 0

7.".:.

"

3, Sept.

:i

29 18. 1

58.1

22 31 46.4

1 56.7

30 16.2

33 43. 1

756

"...

4 Oct.

2

29 22. 1

53.4

22 31 52. 5

1 47.6

30 15.5

33 40. 1

757 -

654 Bradley

7

4 Oet.

9

32 45. 1

53.5

23 13 8.5

1 43.3

4 33 38. 6

+23 14 51.8

758

(I

6.7

4 Oct.

13

32 45.0

53.4

+23 13 5.8

1 43.0

33 39.0

14 48.8

759

57 Eridani (i

3 Sept.

9

34 42.7

48.4

— 3 39 34. 1

1 40.6

4 35 31. 1

— 3 37 53. 5

760

"...

4 Oct.

2

34 40.3

44.5

— 3 39 26. 3

1 33.3

35 30.8

37 51.0

7(51

173 Mayer . .

7

4 Oet.

13

36 8. 4

51.6

+18 20 13.9

1 37.6

4 37 0.0

+18 21 51.5

762

90 Tauri . . .

6.7

4 Oct.

9

37 27.2

50. 8

15 30 59. 0

1 35.2

4 38 18.0

+15 32 34.2

763

'J7 Tauri i

6

4 Oet.

13

38 49.2

51.7

18 27 37.6

1 34.3

4 39 40. 9

+18 29 11.9

764

3 Oriouis

5

4 Oct.

2

:::i 46.4

47.4

5 13 37.4

1 29.6

4 40 33.8

+ 5 15 7.0

765

Lalande. 9195

7.8

4 Oet.

13

42 21.7

52.0

19 7 23. 9

1 30.1

4 43 13.7

+19 8 54.0

706

Bessel, W. 1025 .

6

4 Oet.

2

43 11. 1

48.2

7 25 10.7

1 25.9

4 43 59. 3

+ 7 26 36. 6

767

1 1 5 Argelander -

7

4 (let.

9

43 11.4

54.1

24 14 3.5

1 30.8

4 44 5.5

+24 15 34.3

708

Lalande 9256

7

4 Oct.

2

44 32.2

48.3

7 33 44.9

1 24.2

4 45 20. 5

+ 7 35 9. 1

769

170 Mayer . .

6.7

4 Oct.

9

44 47.7

53.9

23 35 56.6

1 28.6

4 45 41.6

+23 37 25.2

771)

Bessel, W.1199 .

8

4 Oct.

2

4 50 12.3

+ 50.4

•

+13 35 27. 2

+ 1 19.0

4 51 2.7

+13 36 46.2

(165)

166

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET

Mean equinox 1800.0

No.

Name

Mag.

Date

App't a

Jeduct'n

App't 6

Reduction

a

<i

h m s

s

0 ' "

/ //

h m s

0 ' n

771*

102 Tauii 1

4

4 Oct. 9

4 50 15.9

4- 53.1

4-21 16 12.2

4- 1 21.0

4 51 9.0 +21 17 33.2

772

"...

4

4 Oct. 13

50 16.3

52.9

21 16 3.9

1 20. 8 '

51 9.2

17 24.7

77:5

Piazzi 282 . .

7

4 Oct. 13

51 34.:;

52.8

2d 57 44.4

1 19.2

4 52 27. 1

4-20 59 ::. 0

774

10 Aurigse ?;

3 Sept. 9

51 23.4

68.0

40 55 17.2

1 33.4

4 52 31.4

-r-40 50 511.0

775

1 1 Ononis yl

5

3 Feb. 18

52 11.5

57.2

15 5 11.0

1 31.4

4 53 8.7

fl5 6 43.0

776

"...

5.6

4 Oct. 2

52 17.9

51.0

15 5 30. 1

1 16.6

53 s. ;i

6 46. 9

777

186 Mayer . .

7

4 Oct. 15

52 52. 6

52. 2

III 29 52.3

1 17.2

4 53 44. 8

-t-19 31 9.5

778

104 Tauri m

0

3 Feb. 18

54 111. 1

58. 5

1- 21 1 is. 7

1 26.8

4 55 38.6

+18 21 45.5

779

103 Tauri . .

0

4 Oct. 9

55 1.5

54.2

2:; 58 0.0

1 10.0

4 55 55. 7

+23 ■"'.> lb.11

-780

"...

0

4 Oct. 15

55 1.8

54.0

23 57 58. 9

1 15.7

55 55.8

59 14.6

781

105 Tauri . -

7.6

4 Oct. 13

55 5. 9

53.0

+21 24 22.6

1 24.9

4 55 58. 9

+21 25 47.5

782

00 Eridani

6

4 Sept. 20

56 9.0

44.4

— 4 57 12. 1

1 5. 0

4 56 53. 4

— 4 56 6. 5

783

07 Eridani ft

4

4 Oct. 2

57 17.9

43.9

— 5 22 is. 3

1 4.3

4 58 1.8

— 5 21 14.0

784

15 Ononis y-

6

4 Oct, 9

57 24. 6

50.9

+15 18 33.4

1 10.4

4 58 15.5

+ 15 10 4!!. S

785

11 Auriga; )i

C.5

4 Oct. 13

4 58 45. 7

60.7

38 12 38.4

1 15.2

4 59 46. 4

+38 i:s 53.6

786*

Auonyma .

7.8

3 Feb. 18

5 0 32.7

73.6

45 (54)

5 1 46. 3

+45(55)

787

Capella

1

3 Feb. 18

0 42.7

73.6

45 45 36. 6

1 9.1

5 1 56. 3

+45 40 45.7

788

"...

:; Mar. 17

(0)

45 45 40. 4

1 9.2

(1)

40 49.6

789

"...

:', Mar. 18

0 41.9

74.3

45 45 38. 1

1 9.3

1 50.2

46 47.4

790*

"...

3 Mar. 21

0 42. 0

74.4

45 45 42.7

1 9.4

1 56.4

40 52. 1

701

"...

3 April 30

0 41.9

75.0

45 45 29. 3

1 13.4

1 56.9

46 42.7

702

"...

3 July 19

(0)

45 45 25.6

1 22.3

(1)

46 47. 9

793*

"...

:'. Sept. 9

0 44.8

71.6

45 45 19.9

1 22.1

1 56.4

46 42.0

794*

"...

4 Mar. 2::

(0)

45 45 36.4

1 4.3

(1)

46 40.7

795*

"...

4 June 5

0 46.3

70. 0

45 45 32. 3

1 13.2

1 50.3

46 45.5

796

"...

4 June 8

0 46.2

Tii."

45 45 34.6

1 13.6

1 50.2

46 48.2

797

"...

4 June- ill

0 41 i. 3

69.8

45 45 38. 6

1 14.5

1 56. 1

46 53. 1

798

"...

4 July 4

0 40.9

69.3

45 45 29. 0

1 16.4

1 50.2

46 45.4

799

"...

4 July 14

(")

45 45 22. 5

1 17.1

(1)

46 39.6

800

"...

4 Oct. 2

0 .ML 'J

65.7

45 45 25. 5

1 15.9

1 55.9

46 41.4

801

"...

1

4 Oct. 9

0 50.4

65.5

45 45 26. 5

1 15.2

1 55.9

46 41.7

802

"

1

4 Oct. 13

0 50.9

65.3

45 45 27. 4

1 14.9

1 56.2

46 42.3

803

"...

1

4 Oct. 15

0 50.8

65.2

45 45 27. 0

1 14.7

1 50.0

46 41.7

804

"...

1

5 Mar. 21

II 51.11

64.6

+45 45 49.li

1 0. 0

1 55.0

40 49.0

805

729 Bradley . .

7

3 Feb. 18

3 9.4

48.0

— 8 25 13.3

1 23.5

5 3 57. 4

— 8 23 49. 8

806

Eigel ....

:; Feb. 18

4 8.4

48.0

8 28 0.5

1 22.11

5 4 50.4

— 8 20 38.5

807*

"...

3 Mar. 17

4 7.4

4*. 5

8 28 0. 8

1 22.6

4 55.9

26 38. 2

808

"...

3 Mar. 18

4 7.7

48.5

8 28 2.0

1 22.6

4 50.2

26 30. 4

809

"...

:; Mar. 21

4 7.4

48.5

8 28 3. 7

1 22.5

4 55.9

26 41.2

810

it

3 April 4

(4)

8 28 6. 3

1 22.0

(4)

26 44. 3

Ml

"...

3 April 30

4 7.2

49.0

8 27 57. 8

1 19.0

4 50.2

26 38.2

812

"...

3 July 19

4 9.1

48.2

8 27 47.8

1 5.6

4 57.3

20 42.2

813

"...

3 Sept. 9

4 9. 9

46.7

8 27 36.8

0 58.8

4 56.6

26 38.0

814

"...

4 Mar. 23

4 11.0

45. 1

8 27 56. 1

1 17.0

4 50. 1

20 38.5

815

"...

4 .June 5

4 9.9

45. 8

8 27 47.6

1 9. 4

4 55.7

20 38.2

816

"...

4 June 16

(4)

8 27 49. 6

1 7.3

(4)

26 42.3

817*

It

4 July 4

4 10.9

45.4

8 27 48. 4

1 3. 9

1 50.:;

26 44.5

818

[(

4 July 14

4 10.8

45. 1

8 27 51.3

1 2.0

4 55.9

20 40. 3

819"

"...

4 Sept. 211

4 13.0

43. 2

8 27 31.0

II 54.2

4 56.2

26 36. 8

820*

"

4 Oct. 2

4 13.4

42.9

8 27 38. 6

0 54.4

4 50. 3

26 44.2

821*

"...

1

4 Oct. 9

4 13.1

42.7

8 27 32. 3

0 54.7

4 55.8

20 37.6

822

"...

1

4 Oct. 13

4 13.5

42.6

8 27 31.9

0 55. 0

4 56.1

20 36.9

823

"...

1

4 Oct. 15

4 13.4

42. 5

8 27 27.5

0 55.2

4 55.9

26 32.3

824

"...

1

5 Mar. 21

4 13.8

42. 2

8 27 54. 1

1 13.8

4 56.0

26 40.3

825

"...

1

5 Mar. 23

4 13.5

42. 2

— 8 27 55. 5

1 13.8

4 55.7

20 41.7

826

Piazzi 43 . . .

8.7

4 Oct. 9

7 38.4

52. 6

+ 19 20 36.5

0 58.4

5 8 31.0

+19 21 34. 9

827

"...

7.6

4 Oct. 13

7 39.0

52. 1

19 20 38. 4

0 58.3

8 31.4

21 36.7

828

Johnson 1458

0.7

4 Oct. 15

7 40.0

62.3

40 47 51.0

1 4.6

5 8 1-.::

+40 4s 55. 0

829

190 Mayer . .

6.7

4 Oct. 2

8 15. 1

52.8

19 34 59. S

0 57.9

5 9 7.9

+ 19 35 57.7

830

"...

7.8

4 Oct. 9

5 8 10.2

+ 52. 0

+ 19 34 58.8

+ 0 57.7

5 9 8. 8

+ 19 35 50.5

(166)

GOULD— CATALOGUE Ob' STARS OB8ERVED ISY D AGELET.

1«7

Mean equinox 1800. 0

No.

Name

Mag.

Date

App'i a

teduct'n

App't (!

Reduction

a

6

h m s

s

o / "

/ a

h in s

O ' II

83]

196 Mayer - -

6

4 Oct. 13

5 8 15.6

4- 52.5

+19 34 57.6

+ II 57.6

5 9 8. 1

+19 :::> -,.-,.2

832

2 1 Ami pi' a

5.6

4 Oct. 15

10 3.8

i;ii.:;

+37 10 0.0

1 0.7

5 11 4.1

4-37 11 1.6

1 1

22 Ononis

6

4 Sept. 20

10 48.3

ii.ii

- n :;c, 17.7

ii 48.2

:, 11 :;:;. ■.'

- o :;:, 29.5

B34

Piazzi 63 .

6

4 Oct. 2

10 48.2

57. 7

4-30 .->:, 33.8

o 58.5

5 11 45.9

+30 56 32. ::

835

llii Tauri . .

6

4 Oct. 13

11 13.8

51.4

16 38 oi;.:'.

0 52. 9

5 12 5.2

+16 '-".I 49.2

836

112 Tauri /3

3 Fol>. 18

12 35. -

(ill. 2

28 24 20. 0

1 1 57 . -

5 13 39. 0

+28 25 27. 7

837

"...

3 Mar. 1?

12 :•.:.. '■<

63.6

28 24 2H.r,

ii r,-.ii

13 39.2

25 27.6

-.;-

"...

3 Mar. 18

12 :;:.. 9

63.7

28 24 29.5

ii ;,-.n

13 39.6

25 27.5

839

"...

3 April 4

12 35.7

64.0

28 24 30.4

0 58.7

13 39.7

25 29. 1

840

"...

3 April 5

12 35. 8

64. 0

28 24 28. 1

0 58.6

13 39.8

25 26.7

sir

X

3 April 11

12 35.7

64.0

28 24 29. 2

0 58.7

13 39.7

38 25 27.9

842

"

3 April 30

12 :'.r>. 7

61.2

28 24 30.3

0 59.7

13 311.11

25 30.0

843

"...

3 Sept. 9

12 38.2

61.5

28 21 26.3

0 59.6

13 39.7

•j:, 2.-,. 9

844"

"...

4 Mar. 23

12 40.3

59.6

28 24 35.0

0 54.0

13 H9. 9

25 29.(1

845

"...

4 Oct. 2

12 43.5

56. 5

28 24 35. 5

o 55. 1

13 40.0

25 311.6

846

cc

2

4 Oct. 11

12 43. 4

56.3

28 24 33. 9

o 54.8

13 39.7

25 28. 7

847

"...

2

4 Oct. 15

12 43. 4

56.1

28 '.'1 33.2

0 54.7

13 39.5

2.', 27.9

848*

"...

2

5 Mar. 21

12 44. 4

55.4

+28 24 37.4

0 5(1.9

13 39.8

25 28. :;

849*

27 Oriouis 0s

6

4 Sept. 20

13 :;4.:;

4.-.. 8

— 1 6 29. 1

0 44.3

5 14 20. 1

— 1 5 44.8

850

24 Ononis y

2

3 Feb. 18

13 31.3

53.6

+ 6 8 15.6

1 3. 9

5 14 24.9

+ 6 9 19.5

851

a

I! April 4

13 30.1

54.3

6 8 15.9

1 4.3

14 24.4

9 20.2

852

"...

:'. Sept. 9

13 33. 6

52. 2

6 8 32.6

0 50. 5

14 25.8

9 23. 1

853

"...

4 Mar. 23

13 34.2

511.6

6 8 21.8

1 1 1. :,

14 24.8

9 22. 3

854

"...

2

5 Mar. 21

13 37.6

47.0

6 8 25.6

0 57.5

14 24.6

9 23.1

855

113 Tauri - -

7.6

4 Oct. 13

13 41.0

51.4

16 29 41',. 6

0 49.7

5 14 32.4

+ 16 30 33.3

856

114 Tauri o

6

4 Oct. it

14 44.4

53.6

21 44 19.5

0 50.1

5 15 38.0

+21 45 9.6

857

116 Tauri . -

7

4 Oct. 15

15 25. 3

51.1

15 40 47.9

(1 47.4

5 16 16.4

+15 41 ::.-,.:;

858

118 Tauri . .

6

4 Oct. 2

16 3.2

:,:.. 1

24 57 36.5

0 49. 8

5 16 58. :'.

+24 58 26. 3

.-.Mi

"...

6

4 Oct. 13

16 :;. i

54.8

+24 57 30.7

0 49. 3

16 57.9

58 20.0

860

31 Ononis . .

6.5

4 Oct. 15

18 50. 0

45.1

— 1 16 14.3

0 38.1

5 19 35. 1

— 1 15 36.2

861*

9 Leporis j3

3 Mar. 17

18 57.8

43.2

—20 56 49. 5

1 4.7

5 19 41.0

—20 :,:> 44. *

862

25 Auriga; x

3 Feb. 18

18 38. D

65.1

+32 0 55. 6

0 47.9

5 19 44.0

+32 1 43.5

863

Lalaude 10346 .

8.9

4 Oct. 9

19 5.6

52. 2

18 4 9.4

0 4::. ::

5 19 57.8

+18 4 52.7

864

119 Tauri . .

6

4 Oct. 9

19 37.3

52. :;

+18 25 11.1

0 42.7

5 20 29. 6

+18 25 53.8

865

34 Ononis <5

6

3 Mar. 6

20 no. 2

51.3

— o 28 28.4

0 55. 7

5 21 47.5

— 0 27 32. 7

866

"...

:: Mar. 17

20 56. 0

51.5

o 28 27.2

ii 55.8

21 47.5

27 31.4

867

"...

3 Mar. 18

20 55. 9

51.5

0 28 31.6

0 55.8

21 47.4

27 35. -

868

"...

3 April 4

20 56. 1

51.8

ii 28 31.0

0 55.5

21 47.9

27 35.5

869*

"

3 April 5

20 56. 1

51.8

0 28 33. 1

0 55.5

21 47.9

27 37.6

870

k

4 Sept. 20

21 2.4

46.1

0 28 7.5

0 34. 7

21 48.5

27 32.8

871

(i

4 Oct. 2

21 1.8

45.7

0 28 8.2

0 34.8

21 47.5

27 3::. 1

872

"...

2

4 Oct. 13

21 2. 3

45.4

0 28 5. 3

0 35.2

21 47.7

27 3d. 1

873

"...

2

4 Oct. 15

21 2.0

45.4

0 28 4. 0

0 35.4

21 47.4

27 28.6

-74

cc

2

5 Mar. 21

21 2. 7

44.8

0 28 22.7

0 50. 3

21 47.5

27 32.4

875

"...

2

5 April 5

21 2. 6

45.0

— 0 28 20.5

(I 50.0

21 47.6

27 30.5

87G

120 Tauri . .

6.7

4 Oct. 9

20 56. 8

52. 3

+18 22 21.6

0 41.0

5 21 49. 1

+18 23 2. 6

877

1 1 Leporis a

3 Feb. 18

23 11.1

43.9

—17 59 lin. I

0 56.9

5 23 55. 0

—17 58 33.2

878

122 Tauri

7

4 Oct. 15

24 35.4

.-,1.6

+16 53 39.6

0 35. 9

5 25 27. 0

+16 54 I.',..",

-TH

42 Ononis c1

6

4 Oct. 2

24 47.5

44.2

— 4 59 18.0

0 28.6

5 25 31.7

— 4 58 49. 4

--H

123 Tauri J

3 Mar. 6

24 41.8

60.0

+20 59 39.9

0 42.8

5 25 41.8

+21 0 22.7

881

u

3 April 4

24 41.9

60.5

20 59 39.9

0 43. 2

25 42. 4

0 23. 1

882*

it

1! April 7

24 41.7

60.5

+20 59 36.2

0 43.2

25 42.2

(i 19.4

883

46 Ononis e

:', Mar. 17

25 13.3

51.1

— 1 21 18.9

0 49.9

5 26 4. 4

— 1 20 29. 0

884

((

3 Mar. 18

25 13.2

51.1

1 21 21.0

0 49.8

26 4.3

20 31.2

885

a

3 Mar. 21

25 12.9

51.2

1 21 21.5

(1 49.9

26 4.1

20 31.6

886*

"...

3 April 4

(25)

1 21 20.5

0 49. 6

(26)

20 30.9

887

"

3 April 9

25 13. 1

51.4

] 21 20.7

0 49.4

26 4.5

20 31.::

888

"

2

4 Oct. 9

•jr. 18.6

45.3

1 20 .',;,. 1

II -.'11. 2

26 3.9

'in 2-->. 9

389

(t

2

4 Oct. 13

25 18.9

45. 2

1 20 54.8

0 29. 4

26 4.1

20 25.4

890

((

2

5 April f>

5 25 19. 3

+ 44.7

— 1 21 16.1

+ 0 44.9

5 26 4. 0

— 1 20 31.2

(167)

168

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0.

No.

Namo

Mag.

Date

App't a

Reduct'n

App't S

Reduction

a

<S

h m s

s

O ' n

/ //

h m s

o / //

89]

40 Ononis e

2

5

Mar. 14

5(25)

— 1 21 16.4

+ 0 45. 1

5(26)

— 1 20 31.3

892

"...

2

5

Mar. 21

25 19.9

+ 44.4

— 1 21 14.9

0 45.2

26 4.3

20 29.7

893

125 Tauvi . .

d~7

4

Oct. 15

26 25. 1

55.1

+25 45 41.4

0 36.3

5 27 20. 2

+25 46 17.7

894

48 Ononis a

5.4

4

Oct. 2

27 57.9

45.0

— 2 44 1.3

0 25.2

5 28 42. 9

— 2 43 36. 1

895

50 Ononis C,

3

Feb. 18

29 50. 1

50.3

2 4 20.3

0 42.7

5 30 40. 4

— 2 3 37. 6

896

"...

3

Mar. 6

29 49.4

51.2

2 4 19.6

0 42.8

30 40.6

:! 36.8

897

"...

3

Mar. 17

29 49. 3

50.8

2 4 19. 0

0 43.4

30 40. 1

3 35.6

898

"...

3

Mar. 18

29 49. 5

50.8

2 4 20.4

0 43. 4

30 40.3

3 37. 0

899

"...

3

April 4

29 49.7

51.1

2 4 22.9

0 43. 1

30 40. 8

3 39.8

900

"...

3

April 7

29 49.7

51.1

2 4 28.5

0 43. 0

30 40. 8

3 45.5

901

"...

3

April 30

29 48.7

51.4

2 4 20.2

0 41.5

30 40. 1

3 38.7

90S

"...

4

Mar. 23

29 52.6

47.5

2 4 14.5

0 41.0

30 40. 1

3 33. 5

903

"...

4

Sept. 20

29 55.5

45. 6

2 3 58. 4

0 22.6

30 41.1

3 35.8

904*

it

4

Oct. 2

29 54. 6

45.2

2 3 57.5

0 22.8

30 39.8

3 34.7

91 15

(i

2

4

Oct. 9

29 55.5

45.0

2 3 55. 5

0 23.0

30 40.5

:; 32.5

906

"...

2

4

Oct. 13

29 5:.. 5

44.9

2 3 56. 3

0 23. 2

30 40. 4

3 33. 1

9U7

"...

2

5

Mar. 14

29 56. 3

44.1

2 4 17.3

o 39.6

30 40. 4

3 37.7

'JUS

"...

2

5

Mar. 19

29 56. 1

44.2

2 4 1H.9

0 39.6

30 40. 3

3 39. 3

909

"...

2

5

Mar. 21

29 56. 4

44.2

2 4 13.9

0 39. 6

30 40.6

3 34.3

910

"...

2

5

April 5

29 56.0

44.4

2 4 14.7

0 39.3

30 40. 4

3 35.4

91!

Columbse a

4

Sept. 20

31 52.3

32.7

—34 11 31.7

0 11.7

5 32 25. 0

—34 11 20.0

912

128 Tauri . .

9. 10

4

Oct. 13

32 31.1

51.4

+15 58 41.9

0 25.2

5 :'.:! 22.5

+15 59 7. 1

913

"...

4

Oct. 15

32 31.9

51.3

15 58 44. 3

0 25. 3

33 23. 2

511 9. 0

914*

Bessel,W. 939 .

6.7

4

Oct. 2

32 55. 3

50.5

+12 47 2.2

o 23.6

5 33 45. 8

+12 47 25.8

915

12 Leporis

3

Mar. 6

33 7.4

42.1

—22 29 33. 1

0 44.4

5 33 49.5

—22 28 48. 7

916

129 Tauri . .

7

4

Oct. 9

34 24.2

51.4

+ 15 43 31.0

0 22. 6

5 35 15. 6

+15 43 53. 0

917

"...

7

4

Oct. 13

34 24. 3

51.3

15 43 30. 8

0 22.7

35 15.6

43 53.5

918

130 Tauri . .

4

Oct. 15

34 54. 1

52.0

+17 38 6.3

0 22.7

5 35 46. 1

+17 38 29. 0

919

13 Leporis y

3

Feb. 18

35 26.8

41.8

—22 31 56. 5

0 39.9

5 36 8.6

—22 31 10.0

920

"...

3

Mar. 6

35 26. 1

42.1

22 31 56. 0

0 41.0

36 8.2

31 15.0

9-21

"...

4

Sept. 20

35 30.5

38.0

—22 31 26.5

0 9.4

36 8.5

31 17.1

922

133 Tauri . .

6

4

Oct. 2

35 31. 5

50.9

+13 48 30. 0

0 20.0

5 36 22. 4

+13 48 50.6

t923

Lalande 10975 .

5

Mar. 14

36 9.2

54. 9

27 32 45. 0

0 21 . 4

5 37 4. 1

+27 33 6. 4

924

32 Aurigse v

5

5

Mar. 19

36 37. 8

Oli. 0

+39 4 9. 1

0 16.8

5 37 38.4

+39 4 25. 9

925

53 Orionis k

3

Mar. 1

37 29.3

47.4

— 9 45 41.7

0 34.4

5 38 16.7

— 9 45 7. 3

926

"...

4

Mar. 23

(37)

— 9 45 34.5

o 33.0

(38)

45 1.5

927

134 Tauri . .

6

4

Oct. 15

37 27.6

50.1

+12 34 11.9

0 17.8

5 38 17.7

+12 34 29.7

928*

Piazzi 236

6

4

Oct. 13

37 26.2

50.2

27 53 12. 3

0 22. 1

5 38 22. 4

+27 53 34. 4

929

Piazzi 239 . .

5.6

3

Sept. 25

38 8.1

53. 3

9 47 28.6

0 10.7

5 39 1.4

+ 9 47 45. 3

930

135 Tauri

7

4

Oct. 2

38 14.9

51.1

14 13 47.8

0 17.1

5 39 6.0

+14 14 4.9

931

"...

6

4

Oct. 9

38 15.8

50.9

14 13 44.7

0 17.1

39 6.7

14 1.8

932

136 Tauri . .

6

4

Sept. 20

39 49. 6

56.9

27 32 42. 0

0 19.8

5 40 46. 5

+27 33 1.8

933

137 Tauri . .

6

4

Oct. 13

40 10.2

50.7

14 6 13.6

0 14.6

5 41 0.9

+14 0 28.2

934

"...

6

4

Oct. 15

40 9. 8

50.7

14 6 15.4

0 14.7

41 0. 5

6 30. 1

935

54 Orionis xl

3

Mar. 1

41 32.8

59.5

20 13 10.2

0 18.5

5 42 32. 3

+20 13 28.7

936

n

5

Mar. 14

41 40.4

51.9

20 13 14.0

0 16.9

42 32.3

13 30.9

9: 17

"...

5

Mar. 19

41 41.0

51.8

+20 13 10.5

0 17.0

42 32. 8

13 27.5

938*

15 Leporis J

3

Mar. 6

42 0.2

42.7

—20 54 41.3

0 30.9

5 42 42. 9

—20 54 10.4

939'

58 Orionis a

3

Feb. 18

43 26. 8

54.0

+ 7 21 6.0

0 19.8

5 44 20.8

+ 7 21 25. 8

9411

"...

3

Feb. 26

43 26. 7

54.1

7 21 1.6

0 20. 0

44 20. 8

21 21.6

911

it

3

Mar. 1

43 26. 4

54.2

7 21 5.7

0 20.2

44 20.6

21 25.9

942

"...

3

Mar. 6

43 20.5

54. 2

7 21 6.1

0 20.2

44 20.7

21 20.:;

943

"...

3

Mar. 9

43 26. 3

54.3

7 21 4. 5

0 20. 3

44 20.6

21 24.8

941*

"...

3

Mar. 17

43 20.9

54.4

7 21 3.2

0 20. 3

44 21.3

21 23.5

945

"...

3

Mar. is

43 21 i. 2

54.4

7 21 4.5

0 20. 3

44 20.0

21 24.8

946

"...

3

Mar. 21

43 2.".. 2

54.5

7 21 4.2

o 20.::

44 19.7

21 24.5

947

"...

3

April 4

43 20. 1

54.7

7 21 3. 1

o 20.2

44 20. 8

21 23.3

948

"...

3

April 5

43 25. 9

54.7

7 21 0.7

o 20.2

44 20.0

21 20.9

949

"...

3

April 7

43 20. 3

54. 7

7 21 0.4

0 20.2

44 21.0

21 20.6

950

■ -

3

April 9

5 43 25. 8

+ 54.8

+ 7 21 3. 4

+ 0 20. 1

5 44 20.6

+ 7 21 23.5

(168)

GOULD CATALOGUE OP STARS OBSERVED BY D AGELET

1G9

Mean ci|uincix L-'HO. 0

No.

Name

Map'.

Dal,

App't (7

Reduct'n

App't 6

K'c duction

a

*

h vi s

U

O ' »

/ //

h in s

O ' i>

'.c.i

58 Ononis a

3

April

16

5 43 25. 7

+ 54.9

+ 7 2! 2.6

+ 0 19.9

5 44 20.6

+45 21 22.5

952

« .

3

April

30

43 25. 8

55.0

7 21 4. 2

0 10.4

44 20. 8

■..'I 23.0

953

!(

4

Oct.

2

43 :;■.'. i

48.6

7 21 20.6

0 7.8

44 21.0

21 28.4

954

Lalan.lt' 11198,9

7.6

4

Oct.

13

43 46.6

54.7

24 12 5.1

() 13.2

5 44 41.3

+24 12 18.3

955

34 Auriga- j3

4

Mar.

23

43 42. 7

69. 1

44 54 34. 1

0 5. 9

5 44 51.8

+ 11 51 40.0

956

"...

4

Sept.

20

43 4.-,. -

66.5

44 54 13. 1

0 20. 5

44 52.3

54 33.9

957

"...

2

4

Oct.

15

43 4:.. 0

65.5

44 54 12.4

0 19.9

44 51.4

51 32.3

958

"...

2

5

Mar.

14

43 47.0

64. 1

44 54 28. 1

0 5.6

44 52.0

54 33.7

959

35 Aurigaa t

6

5

Mar.

21

44 0. 4

64.9

45 54 3. 3

0 5.1

5 45 5.3

+45 54 8. 4

960

139 Tauri . .

6

4

Oct.

9

44 39.6

55.6

25 54 40. 8

0 12.6

5 45 35.2

+25 54 53. 1

961

36 Auriga?

-

5

Mar.

14

(44)

17 52 12.5

0 4.4

, 5(45)

+47 52 10.0

962

37 Aurigae 8

3

Sept.

25

44 58.7

66.0

37 10 40.8

(i 16.6

5 46 4.7

+37 Id 57.4

963

Lalande 11252,3

7

4

Oct.

9

45 31.7

55. 5

25 44 27.0

0 11.4

5 46 30. 2

+25 44 38. 1

964

"...

7.8

4

Oct.

13

45 34.7

55. 4

25 44 26. 2

(i 11.4

46 30. 1

44 37.0

965*

14(i Tauri . .

7.8

3

Mar.

0

47 19.7

60. 8

22 52 18.9

0 9.1

5 48 20. 5

+22 52 28. 0

966

"...

8

4

Oct.

2

47 26.0

54.5

22 52 22. 3

ii 8.0

48 20. 5

52 3H.3

967*

"...

7.8

4

Oct.

15

47 26.6

54.1

22 52 23. 4

0 8.1

48 20.7

52 31.5

968

38 Aurigse

5

Mar.

14

47 50.0

62. 7

12 54 3.1

0 1.1

5 48 52. 7

+42 54 4.2

969

141 Tauri . .

7.8

4

Oct.

13

48 42. 8

54.0

22 22 45. 1

+ 0 5.2

5 49 36. 8

+22 22 5(1.3

117(1

39 Aurigse

5

Mar.

14

49 37. 8

62.8

42 58 49.7

— 0 1.2

5 50 4H.C.

+42 58 48. 5

071

1 Gerainorum h

3

Feb.

26

50 57. 1

60.8

23 15 29.8

+ 0 3.7

5 51 57. 9

+23 15 33.5

972

"...

3

Mar.

6

50 56.9

60.9

23 15 36.6

0 3.6

51 57.8

15 40.2

!)7:s

"...

3

Mar.

9

50 56. 6

61.(1

23 15 33. 0

0 3.7

51 57.6

15 36.7

974

"...

3

Mar.

17

50 56.5

61.1

23 15 33. 3

0 3.6

51 57.6

15 36.9

975*

t i

3

Mar.

18

50 5( ;. 7

61.1

23 15 34. 1

0 3. 5

51 57.8

15 37.6

976

"...

3

Mar.

21

50 56. 1

61.2

23 15 34.0

0 3.7

51 57.3

15 38. 6

977

it

6

4

Oct.

2

51 2. 9

54.7

23 15 37.8

ii 3.4

51 57.6

15 41.2

978

"...

4

4

Oct,

9

51 3.2

54. 5

23 15 36. 9

0 3.4

51 57.7

15 40. 3

979

"...

4

Oct.

13

51 3.6

54. 1

23 15 33.8

0 3.4

51 58.0

15 37.2

980

"

5

4

Oct.

15

51 3.2

54.3

23 15 34. 1

0 3.5

51 57.5

15 37.6

981

"...

5

5

Mar.

14

(51)

23 15 32. 5

0 3.8

(51)

15 36.3

982

"...

5

5

Mar.

19

51 5.0

53.1

23 15 3I.H

0 4.0

51 58. 1

15 35.ii

983

"...

5

5

Mar.

•.'I

51 4.7

53. 1

23 15 32.9

+ 0 4.0

51 57.8

15 36.9

984

2 Geminorum

7.8

3

Mar.

9

53 35.6

61.1

23 38 34.9

- 0 0.3

5 54 36. 7

+23 38 34.6

985

"...

7.8

4

Oct,

0

53 42. 9

54.7

23 38 27. 1

0 0.0

54 37.6

38 27. 1

986

"...

7.8

4

Oct,

13

53 42. 7

54.5

23 38 34.5

+ 0 0. 1

54 37.2

38 34.6

987

"...

7.8

4

Oct.

15

53 42.(1

54.5

23 38 33.7

+ 0 0.4

54 36.5

38 34. 1

988

Lalande 11563

7

4

Oct.

2

54 31.3

52.0

16 22 26.2

— 0 3. 6

5 55 23. 3

+16 22 22.6

989

235 Mayer . .

7.8

3

Feb.

26

56 28. 0

60.3

22 12 30. 5

II 4.H

5 57 29.2

+22 12 26. 5

990*

(<

3

Mar.

1

56 28. 8

60.3

22 12 37. 8

0 4.0

57 29. 1

12 33. 8

901

.<

7.8

3

Mar.

6

56 28. 4

60.4

22 12 34.6

0 4. 1

57 28. 8

12 3(1.5

992

a

7.6

4

Oct.

15

56 34.8

53. 9

22 12 32. 7

0 4.1

57 28.7

12 28. 0

993

t i

7.8

5

Mar.

14

56 36.8

52.6

22 12 30. 1

0 2.8

57 29. 4

12 27. 3

994

3 Geminorum

7

4

Oct.

2

56' 40. 5

54.7

23 8 0.8

0 4.0

5 57 35.2

+23 7 56.8

995

"...

7

4

Oct.

9

56 41.2

54. 5

23 7 58. 2

0 4.0

57 35.7

7 54.2

996

it

8

5

Mar.

14

56

23 7 58. 4

I) 3. 2

57

7 55.2

007

5 Gemiuonim

6

3

Sept.

25

58 16.0

59.5

24 27 6.6

0 6.7

5 59 16. 4

+24 20 5: (.0

998

"...

6

4

Oct.

13

58 21.2

54.9

24 27 4. 1

0 5. 7

59 16.1

26 58. 4

000

Lalande 11734 .

7

5

Mar.

14

58 57. 2

52.4

21 53 58. 3

0 5.7

5 59 49. 6

+21 53 52.6

1000

68 Ononis

3

Feb.

18

59 11.4

59. 1

19 49 22. 4

0 6.2

6 0 10.5

+19 49 16.2

1

ij Gerainorum

7

4

Oct,

9

59 17.4

54.4

22 56 28.6

0 7.5

6 0 11.8

+22 56 21.1

1002

"...

6

4

Oct.

15

5 59 16.9

54. 2

22 56 28. 9

0 7.4

0 11.1

56 21.5

1003

Lalande 11791 .

7

4

Oct.

2

6 (i 55. 5

52. 9

18 43 23.8

0 11.2

6 1 48.4

+18 43 12.6

Kiii-1

44 Auriga; k

4.5

5

Mar.

21

1 41.9

29 33 4-.'. 1

0 11.8

6 2 37.7

+29 33 3(1.3

1005

7 Geminorum ?/

3

Feb.

18

1 47. s

60.3

22 33 13.6

o 11.8

6 2 48. 1"

+22 33 1.8

1006

"...

3

Feb.

26

1 48. 1

60.4

22 33 J 1.6

0 11.9

2 48. 5

32 50.7

1(1117

"...

3

Mar.

1

1 47.5

60.4

22 33 12.9

0 11.9

2 47.9

33 1.0

J008

"...

3

Mar.

6

1 47.5

60.5

22 33 13.6

0 12.0

2 48.0

33 1.6

1009

"

3

Mar.

9

1 47.3

i,(i. i;

22 33 14.4

(1 11.0

2 47.9

33 2.5

1010

(i

3

Mar.

17

6 1 17. 1

+ 60.7

+22 AA 15. 1

— 0 12. 1

6 2 47.8

+22 33 3. 0

■i-z

(169)

170

GOULD

— CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800.0

No.

Name

Mag

Date

App't a

Reduct']

App't (5

Retlnchcm

a

r!

It 111 s

5

o ' II

/ //

It in s

o / "

ion

7 Geminorum r;

3 Mar. 18

6 1 47.6

+ GO. 7

+22 33 14. 8

— 0 12. 1

6 2 48. 3,

+22 33 2.7

1012

"

3 Mar. 21

1 47.4

60. 8

22 33 15.5

0 12.2

2 48.2

33 3. 3

1013

" - - -

3 April 4

1 47.3

61.0

22 33 12. 3

0 11.9

2 48. 3

33 0. 4

11114

"...

:; Sept. 25

1 49.6

58. 7

22 33 17. 1

O 12.4

2 48.3

33 4.7

1015

"...

4.5

4 Oct. 9

1 54.1

54.3

22 33 14.3

0 11. 1

2 48.4

33 3. 2

1016

"...

4.5

4 Or. 13

1 54.5

54. 1

22 33 12.0

o 11.0

2 48.6

33 1.0

1017

"...

4.5

4 Oct. 15

1 54.0

54.1

22 33 15.9

0 10.9

2 48. 1

33 5.0

1018

"...

4

5 Mar. 14

1 55.7

52.7

22 33 16.5

0 9. 7

2 48.4

33 0. 8

1019

9 Geminorum

8

3 Mar. 9

3 45. 2

61.1

23 47 5G. 3

0 15.2

6 4 46.3

+23 47 41.1

1020

" . . .

7.8

3 Mar. 17

3 45. 0

61.3

23 47 53. 0

0 15.5

4 46.3

47 37.5

1021

"...

7

3 Mar. 18

3 45. 2

61.3

23 47 51.8

0 15.5

4 40.5

47 36. 3

1(12-2

"...

7

4 Oct. 2

3 51.8

55. 1

23 47 53. 7

0 13.2

4 4G. 9

47 40. 5

1023

10 Geminorum -

7.8

3 Feb. 18

5 41.3

60.8

2:'. 40 13. 1

0 17.8

G 0 12. 1

+23 39 55, :;

[024

"

7

4 Oct. 9

5 48.2

54. 7

23 40 9. 1

0 15.8

G 42. 9

39 53. 3

1025

"...

7

4 Oct. 13

5 [8.6

54.0

23 40 9. 2

0 15.7

6 43.2

39 53.5

1026*

1 1 Geminorum .

7

4 Oct. 13

6 14.2

54. 6

2:'. 32 22.4

0 16.3

G 7 8. 8

+23 32 0. 1

1027

12 Geminorum .

7

:i Feb. 20

6 12.1

60.7

23 20 39. 5

o 18.5

6 7 12.8

+23 20 21.0

1028

Lalande 12053 .

7

4 Oct. 15

7 40.3

53. 5

21 10 9.5

0 18.9

G 8 33.8

+21 9 50.0

1029

Lalande 12057 .

6

5 Mar. 14

7 50. 4

49. 7

14 4:'. 36.5

0 14.5

6 8 40. 1

+ 14 43 22.0

1030

4.5

5 Mar. 19

(7)

14 43 28. 9

0 14.3

6 (8)

+14 43 14.6

1031

248 Mayer - .

7

1 Oct. 15

8 22. 8

53.5

21 12 54. 1

0 19.8

6 9 10.3

+21 12 34.3

1032

13 Geminorum \i

3 Feb. 18

9 51.2

60.3

22 30 :;:;. o

0 23.5

G 10 51.5

+22 36 10. 1

1033

"...

3 Feb. 26

9 51.2

60.4

22 30 30.0

0 23.6

10 51.6

36 6. 4

1034

"...

3 Mar. 0

9 51.0

GO. 5

22 30 32.0

0 23. 7

10 51.5

36 8. 3

1035

"...

:; Mar. 9

9 5o. s

on.:,

22 30 3:;. i

0 23.7

10 51.3

36 9. 1

1036

"...

:! Mar. 17

9 50.5

60.7

22 30 34.4

0 23.8

10 51.2

36 10.6

1037

"...

3 Mar. 18

9 50.5

00.7

22 36 32. 8

0 23. 8

10 51.2

36 9.0

1038

"...

3 Mar. 21

9 50.0

60.8

22 31 ; 34. 1

0 23. 8

10 51.4

36 10.3

1039*

"...

3 April 4

9 50.5

01. o

22 30 35.9

0 23. 8

10 51.5

36 12.1

1040

"...

:; April 9

9 51 1. -1

61.2

22 36 32. 2

0 23.7

10 51. G

3G 8.5

1041

"...

3 Sept. 25

9 52.9

58. 8

22 30 31.5

0 23.8

10 51.7

36 7.7

1042

" . . .

4 Oct. 2

9 57.2

54.5

22 30, 32.9

O 21.7

10 51.7

30 11.2

1043

"...

3

4 Oct. ' 9

9 57.2

54. 3

22 36 2-. B

o 21.6

10 51.5

36 7.2

[044

"...

5

5 Mar. 14

9 59.8

52.6

22 30, 30.3

0 20.0

10 52.4

30 lo.:{

1045

"...

:;

5 Mar. 21

9 58. 8

52.8

+22 30 27.8

0 19.9

10 51.6

36 7.9

1040

I Canis Majoris f

3

5 Mar. 19

12 5.8

33.4

—29 58 59. 2

0 6. 3

G 12 39.2

—29 59 :,. :,

1047

Cf

3

5 Mar. 21

(12)

—29 59 l.G

0 G. 3

(12)

59 7. 9

1048'

Piazzi 87 -

0.7

3 Feb. 18

12 19.1

60.7

+ 23 32 47.4

■0 27.4

6 13 20. 1

+23 32 20. 0

1049

"...

7.8

:; Mar. 9

12 2O.0

GJ . 0

23 32 44. 7

0 27.7

13 21. 0

32 17. 1

1050

"

7

3 Mar. 18

12 21.4

61.1

23 32 46. 7

0 27.8

0 13, 22.5

+23 3,2 18. II

1051

Piazzi 89 . . .

7

3 Mar. 17

12 22. 3

Gl.O

23 25 50.6

0 27.8

G 13 23.3

+23 25 22. 8

1052

"...

7

4 Oct. 9

12 29.3

54.7

23 25 43. 8

0 24.0

1 3 24. 0

25 19.2

1053

"...

6

4 Oct. 13

12 28.6

54.5

23 25 48. :.

0 24. 5

13 23. 1

25 24.0

1054

"...

6

4 Oct. 15

12 28.4

54.4

• 23 25 52. 2

0 24.4

13 22.8

25 27.8

IO.Vi

"...

7.8

5 Mar. 14

12 30.0

52. 9

23 25 49. 4

0 23. 4

13 22.9

2:, 26.0

1056

11 Geminorum .

7.8

3 Feb. 26

12 43.0

60. 0

21 11 55.0

0 27.5

G 13 43.0

+21 11 27.5

1057

15 Geminorum .

7

5 Mar. 14

14 59.5

51.9

20 54 24. 0

0 25.7

0 15 51.4

+20 53 .>.:!

1058

16 Geminorum .

6:7

1 Oct. 13

15 9.5

53.4

20 36 37.9

ii 28.9

0 10 2.9

+20 30 9.0

1059

"...

6

4 Oct. 15

15 9.8

53. 3

20 30 12. 9

o 28.8

10 3. 1

3G 1 1. 1

1000

18 Geminorum v

4

4 Oct. 13

1G 11.8

53. 3

20 19 58.2

0 30.4

G 17 5. 1

+20 19 27. 8

1061

"...

4

4 Oct. 15

10 11.6

53. 2

20 20 1.2

0 30.3

17 4.8

19 30.9

1002

C<

4

5 Mar. 19

16 13.7

51.8

20 19 52.8

0 27.0

17 5.5

19 25. 8

1063*

Bessel, W.G55 .

7.6

4 Oct. 9

[8 42.0

52. 2

17 4 37.9

o 34.5

6 19 34.2

+17 4 :s. 4

1004

"...

6

4 Oct. 15

18 42.5

52.0

17 4 31.4

0 34. G

19 34.5

3, 5G. 8

1065

Lalande 12454 .

8

3 Mar. 6

18 17.4

58.2

17 33 13.5

0 35.0

G 19 45.6'

+17 32 38.5

1066

Lalande 12462 .

:.-

3 Mar. 17

18 55. 6

On.5

22 19 22.7

0 3,7. 0

C 19 56. 1

+22 18 45.7

1067

19 ( ceminorum .

6.7

4 Oct. 13

19 15.6

51. G

16 2 24.3

ii 35.8

G 20 7.2

+16 1 48.5

1068

20 Geminorum .

7

5 Mar. 19

19 47.1

50. s

17 54 50.5

o 30.7

0 20 3,7.9

+ 17 54 19.8

[069

21 Geminorum .

7

5 Mar. 14

19 47.0

50. 7

17 55 12.7

0 30.7

0 2ii 38.3

+ 17 51 12.0

1070»

Lalande 12539 .

7.8

3 Feb. 26

6 21 5. 9

4- GO. 1

4-22 16 36.3

- o 39.7

6 22 O.o

+2-; 15 56.6

(170)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

171

Mean equinox 1800. 0

No.

Name

Mag.

Hair

App'l a

Reduct'i

App't *

Reduction

a

<S

h m s

s

o ' "

i a

h m s

O t II

1071

Lalande 1-2539 .

7.8

::

Mar. 18

6 21 4.3

+ 60.8

+22 16 29.3

— 0 40.7

6 22 5. 1

+22 15 49.2

1072

49 Aurigse . .

5. 6

i

Oct. 15

21 39.3

56.5

28 10 24.8

(I 31.7

U 22 35. S

+28 9 50. 1

1073

22 Geminorum .

7."8

4

Oct. 9

21 57.9

53. 1

19 34 45.6

I) 38. 3

(1 22 5I.ii

+19 34 7.3

1074*

258 Mayer

7

::

Mar. (i

22 24. 1

57.7

16 21 30.8

0 39.9

6 23 21.8

+ 16 2o 50.9

in:;.

"...

7

!

Oct. 13

22 30.2

51.8

16 21 28. 5

0 40.0

•2:i 22.11

20 48.5

1076

u

6.7

5

Mar. 19

22 31.8

50.2

16 21 22.4

0 33.(1

23 22.11

20 48.8

II ITT

It

7

5

Mar. 21

22

16 21 27.5

0 33.(1

23

20 53.9

I 1078

::

Mar. 17

22 54.2

60.4

22 16 29.6

0 42. 7

(1 23 54.6

+22 15 46.9

1079

23 Geminorum .

7.8

1

Oct. 13

23 35. 1

52.0

16 57 22. 5

o 41.2

6 24 27. 1

+16 56 41.3

1080

"...

7

..

Mar. 14

23 36.3

50.4

16 57 21.1

0 35.2

24 26.7

56 45. 9

1081*

50 Auriga*

5.6

5

Mar. 21

23 59.9

62.4

42 39 44. 4

0 45.3

6 25 2. 3

+42 38 59. 1

1082

Lalau.].' 12660 .

:;

Feb. 18

24 40.5

60. 6

23 46 14.8

0 45.3

(i 25 41.1

+23 45 29.5

1083

"...

7

:;

Mar. 18

24 4U.5

61.1

23 4ti 16.6

(1 45. S

25 41.(1

45 30.8

1084

"...

7

3

.Mar. 21

24 40. 1

61.1

23 46 J 9. 3

(I l"..!l

25 41.2

45 55. 4

1 1 185

53 Auriga;

6

4

Oct. 15

24 44.3

56.9

29 9 9.2

o 38.3

6 -25 41.2

+29 8 3i'. 9

1086

■24 Geminorum y

3

Feb. 18

C25)

16 34 10.3

o 41.o

6(26)

+16 3,:; 26.3

1087

"...

3

Feb. 26

25 11.6

57.6

16 34 5.6

0 44.11

20 9.2

33 21.6

1088

"...

3

Mar. l!

25 11.5

57.7

16 34 8.5

o 43.9

2(1 9. 2

3:1 24. 11

1089

u

3

Apr. 4

25 11.1

58.2

16 34 6.3

is 41. 1

26 9. 3

33 22. 2

1090

it

3

Apr. 5

25 111.9

16 34 5.4

0 44.1

26 9. 1

33 21.3

1091

it

3

Apr. 9

25 10.8

58.3

16 34 7.7

0 44.2

26 9.1

33 23. 5

I H9-2

ti

3

Apr. 16

25 10.8

58.4

16 34 3.8

0 44.2

21 1 9.2

33 19.6

1093

"...

3

Apr. 30

25 10.7

58.6

16 34 !». (1

(I 44.4

26 9.3

33 25. 2

Id! M

"...

3

Sept. 25

25 12 9

56.2

16 34 9.6

0 47. 6

26 9. 1 '

33 22. 0

L095*

"...

4

Mar. 22

25 15.4

54.1

in 34 3.8

0 41.0

26 9. 5

33 22. 8

1096*

"...

4

Mar. 23

25 15.2

54.2

16 34 5.0

0 41.0

26 9.4

33 23.9

1(197

"

4

Mar. 26

25 14.4

54.2

16 34 6.4

0 41.1

26 8. 6

33 25. 3

1098

if

4

Sept. 24

25 16.6

52. 4

16 34 7. 5

0 44.2

26 9. 0

33 23. 3

1099

"...

4

Oct. 2

25 IT.::

5-2. -2

16 34 5.4

0 43.9

21 1 9.5

33 21.5

1100

"...

2.3

4

Oct. 9

25 17.3

52.0

16 34 6. 1

0 43.7

26 9. 3

33 22. 4

1101

K

3

4

Oct. 13

25 18. 1

51.8

16 34 7.7

0 43. 5

26 9.9

33 24.2

1 1 1 12

ti

5

5

Mar. 1 !

(25)

16 34 3.9

(I 37.2

(26)

33 26. 7

1103

"...

2.3

5

Mar. 19

25 19.0

50.2

16 33 56. 1

1) 37.2

■Ji 1 9.2

55 18.9

11H4

"...

2.3

5

Mar. 21

25 19.3

50.3

16 34 1.5

1) 37.2

26 9.6

35 24.3

1105

55 Auriga?

1

Mar. 23

(27)

44 42 54.8

ii 53.9

6(28)

+44 42 0.9

1106

'•

5

5

Mar. 1!)

27 28. 2

63.6

44 42 48.0

0 49.11

28 31.8

41. 58.4

11H7

"...

5

5

Mar. 21

27 27. 1

63.6

44 42 5-2. 1

0 49.6

28 30.7

42 2.8

1108

25 Geminorum .

7

4

Oct. 9

27 47.6

56.8

28 22 42. 1

ii 12.8

ii 28 14.4 +28 21 59.3

1109*

261 Mayer . .

7.8

3

Feb. 26

28 52.2

57.6

16 34 59. 3

O 49.3

6 29 49.8

+16 34 in. (I

1110

"...

6

4

Oct. 15

28 57.4

51.8

16 35 4.0

o 58.6

29 49.2

34 5.4

1111

Groombridge 1213

6

5

Mar. 19

29 8.4

63.5

44 42 10. 0

0 51.7

H 30 11.9

+44 41 18.3

111-2

26 Geminorum .

3

Feb. 18

29 47. 4

58.0

17 50 31.1

0 51.0

6 30 45.4

+17 49 40.1

1113

K

3

Mar. 6

29 4(1.7

58.2

17 50 '29. 3

II 51. 1

30 44.9

49 38. 2

1114

27 Geminorum e

3

Feb. 18

39.35. 4

61.3

25 19 48.1

0 54.2

6 31 36.7

+25 18 53.9

1115

"...

3

Mar. G

30 35. 1

61.5

25 19 49.7

II 51.7

31 36.9

18 55.'0

1116

"...

3

Mar. 18

30 35.4

61.7

25 19 48.2

(1 54.9

31 37. 1

18 53.5

1117

i .

3

Mar. 21

30 35.2

61.8

25 19 49. 8

o 55.0

31 57.0

18 54.8

1118

it

3

Apr. 4

30 35.3

62.0

25 19 48.2

0 55. 1

31 37.3

18 53.1

1119

"...

3

Sept. 25

30 37.5

60.0

25 49 45.8

0 52. 0

31 37.5

18 53.8

1120

it

4

Mar. 23

30 39. 9

57.7

25 19 44.8

0 51.5

31 37.(1

18 53. 3

1121

ti

4

Mar. 26

30 38.7

57.8

25 19 44. 1

0 51.5

31 36.5

18 52.6

11-2-2

"...

4

Sept. 24

30 40. 9

56. 0

25 19 41.3

0 4*. 1

31 5(1.9

18 53.2

1123

"...

4

Oct. 2

30 41.5

55.7

25 19 41.8

0 47.8

31 37.2

18 54.0

11-24

.1

3

4

Oct. 9

30 41.8

55. 5

25 19 41.5

0 47.7

31 57.3

18 53. 8

11-25

"...

3

4

Oct. 13

30 42. 0

55.3

25 19 38.2

0 47.5

31 57.5

18 50. 7

1126

.i

3

5

April 5

30 42.5

53. 9

25 19 41.5

0 47. 1

31 36.4

18 54. 4

11-27

56 Aurigse

6

5

Mar. 21

31 15.6

62. 9

43 46 31.5

0 54. 1

(1 32 18.5

+ 43 45 37.4

1128

31 Geminorum f-

4

Mar. 23

33 11.0

13 6 45.5

0 50.(1

(i 31 ' 3.8

+13 5 54.9

1129

"...

4

Mar. 26

33 11.0

13 6 45.4

0 50.C,

34 3. -

5 54. 8

1 130 Rumkei 1993 .

6

5

Mar. 21

6 35 9. 3

+ 59.3

+37 44 10.0

— 0 56. 9

6 36 8. 6

+37 43 13. 1

171)

172

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't <i

Reduction

a

6

h m s

s

O 1 "

> //

h m s

O 1 a

1131

Rtimker 1903 -

7

5

Mar.

23

6 35 8. 6

+ 59. 4

+37 44 10. 4

— 0 57. 0

6 36 8.0

+37 43 13.4

1132

Sirius ....

3

Feb.

18

35 36. 0

44.3

—10 25 54.4

0 50. 8

6 36 20. 3

—16 26 45.2

1133

"...

3

Feb.

26

35 36.3

44.4

16 25 56. 0

0 49.9

36 20. 7

26 45.9

1134

"...

3

Mar.

6

35 36. 1

44.5

16 25 58. 2

o 49.2

30 20. 6

26 47.4

1135

"...

3

Mar.

18

35 36. 1

44.7

16 25 58. 3

0 48.6

36 20.8

20 46. 9

1136

"...

3

Mar.

21

35 35.7

44.8

16 26 1.8

0 46.5

36 20. 5

20 50. 3

1137

"...

3

April

4

35 35. 8

45.0

16 26 4. 3

0 48.5

36 20. 8

26 52. 8

1138

"...

3

April

9

35 35.6

45.1

16 26 2. 7

o 48.7

36 20.7

26 51.4

1139*

"...

3

April

16

35 35. 5

45. 2

16 26' 0.9

0 49.1

36 20. 7

26 50. 0

1140

3

April

19

35 35.7

45.3

16 26 5. 1

0 49. 2

36 21.0

26 54. 3

1141

"...

3

April

28

35 34.9

45.4

16 26 2.2

0 50.0

36 20.3

26 52.2

1142

"...

3

April

29

35 35. 1

45.4

16 26 0. 3

0 50. 1

36 20.5

26 50. 4

1 1 43

"...

3

April

30

35 35. 1

45.5

16 26 1.1

0 50.2

36 20.6

26 51.3

1141

"...

1

3

May

J5

35 35.5

45.6

16 26 2. 5

0 52.0

36 21. 1

26 54.5

1 145

"...

1

3

Sept.

25

35 37. 1

43.6

16 25 30.8

0 72. 7

36 20.7

26 43: 5

1146

"...

1

4

Mar.

22

35 39.2

41.8

l(i 26 5.5

ii 44.5

36 2J.0

26 50.0

1147*

"...

4

Mar.

23

35 38.5

41.8

10 26 2.3

0 44.4

36 20. 3

26 40.7

1148

"...

4

Mar.

26

35 30. 0

41.9

16 26 3.9

0 44.5

36 20. 9

26 48. 4

114!!*

"...

4

June

16

35 38. 0

42.7

16 25 56.5

ii 46.8

36 20. 7

20 43.3

1150

"...

4

Sept.

24

35 40.0

40.7

16 25 39. 1

o 0s.:i

36 20. 7

26 47. 4

1151

"...

4

Oct.

'J

35 40. 0

40.4

16 25 43. 1

0 68.1

36 20.4

26 51.2

1152

"

1

4

Oct.

9

35 40. 1

40.2

16 25 38. 9

o 67.8

36 20. 3

26 40. 7

1153

"...

1

4

Oct.

13

35 40.4

40.1

16 25 40.4

0 07.0

36 20.5

26 48. 0

1154

it*

4

Oct.

15

35 40.2

40.1

16 25 30. 9

0 67. 3

36 20.3

26 44.2

1 155

"...

5

Mar.

14

35 41.8

38.7

16 20 9. 5

0 40.0

36 20. 5

26 49. 5

1156

"...

5

Mar.

19

35 41.8

38.8

16 26 10. 3

0 39.7

36 20. 0

26 50. 0

1157

"

5

Mar.

30

35 42. 1

39.0

16 26 11. 9

0 39.6

36 21. 1

20 51.5

1158

"...

5

April

5

35 41.4

39.2

—16 26 13.7

0 39.6

36 20. 6

26 .',:;. :•.

1150

58 Aurigse

.4.5

5

Mar.

21

35 34.5

61.7

+42 1 5. 5

0 58.9

6 36 36. 2

+42 0 0. 0

1160

35 Geminorum .

4

Mar.

22

(38)

13 38 45. 1

0 55.9

6(39)

+13 37 49. 2

U61

59 Aurigae .

6

5

Mar.

21

38 15.3

00.0

39 6 33.5

0 61.2

6 39 15. 3

+39 5 32.3

1162

"...

6

5

Mar.

23

38 15. 1

(ill. 0

39 6 29. 1

0 61.3

39 15. 1

5 27.8

1163

36 Geminorum d

3

Feb.

26

38 33.7

59. >'

22 0 1.9

0 64.8

0 39 33.5

+21 58 57.1

1164

. 34 Geminorum >i

4

5

Mar.

14

38 38.5

57.3

34 12 20. 4

0 59.9

0 39 35.8

+34 11 20.5

1165

01 Aurigse

6

4

Oct.

9

39 11.6

01.9

38 41 57.6

0 54.0

6 40 13.5

+38 44 3.6

1166

Johnson 1841

6

5

Mar.

21

40 39. 1

64.5

46 31 48. 3

0 66.5

6 41 43.6

+ 10 30 41.8

1167*

37 Geminorum .

6

4

Oct.

9

42 4.4

55.6

25 37 45.6

0 61.6

6 43 0. 0

+25 36 44. 0

1168

1(1 Lyncis

4

Mar.

22

41 51.7

68. 5

45 21 27.7

0 73. 4

6 43 0.2

+45 20 14. 3

1169

ii

4

Mar.

23

41 51.4

68.5

45 21 31.6

0 73.4

42 59. 9

20 18.0

1170

1 1

6

5

Mar.

}9

41 56.9

63.6

45 21 20. 8

0 67.9

43 0.5

20 12.9

1171

it

6

5

Mar.

21

41 56.2

63.7

45 21 24.9

0 67.9

42 59.9

20 17.0

1172

38 Geminorum e

3

Mar.

6

42 25. 3

56.3

13 26 15.2

0 07. 8

6 43 21.6

+13 25 7. 4

1173*

tt

6

4

Oct.

13

42 3(1.7

50.7

13 26 15.2

0 07. 1

43 21.4

25 8. 1

1174

"...

6

4

Oct.

15

42 30. 0

50.6

13 26 18.6

0 66. 7

43 20. (i

25 11.9

1175

Lalande 13377

8

3

Feb.

26

44 3.5

55.9

12 50 33. 3

0 69.9

6 44 59.4

+12 49 23. 4

1176

"...

7.8

5

Mar.

23

44 10.1

48.8

12 50 28.7

0 59.5

44 58. 9

49 29. 2

1177

271 Mayer . .

7.8

5

Mar.

19

45 13.3

50.7

18 10 8.8

1 2.6

6 46 4. 0

+18 9 6.2

1178

39 Geminorum -

7

4

Mar.

22

45 20. 2

57. 9

26 20 53. 1

1 11.7

6 40 27. 1

+20 19 41.4

1179

tt

4

Mar.

23

(45)

20 20 56.9

1 11.8

(40)

19 45. 1

1180

"...

6

4

Oct.

9

45 31.9

55.9

26 20 49. 0

1 6. 4

40 27. 8

19 42.6

1181

tt

6

4

Oct.

15

45 31.5

55. 7

26 20 51.7

1 0. 0

40 27.2

19 45.7

1182"

40 Geminorum -

7

4

Mar.

22

46 8. 1

57.8

26 11 32.6

1 12.5

6 47 5. 9

+26 10 20.1

1183

"...

4

Mar.

23

(46)

26 11 35.7

1 12.5

(47)

10 23.2

1184

"...

6

4

Oct.

9

46 10.8

55.8

26 11 19.5

1 7.3

47 0.0

10 12.2

1185

Bessel.W. 1544,5

7.8

5

Mar.

21

46 53.7

54.2

27 9 29. 9

1 7.8

6 47 47. 9

+27 8 22. 1

1186

Piazzi 294 . .

7.8

3

Feb.

26

47 24.4

57. 2

16 13 22.6

1 15.7

6 48 21.0

+10 12 0.9

1187

274 Mayer

8

4

Oct.

13

47 37.9

54. 6

23 43 21.0

1 9.8

6 48 32. 5

+23 12 11.2

L188*

41 Geminorum .

7

3

Feb.

26

47 48.5

57.3

16 21 45.5

1 10.:;

6 48 45. 8

+ 10 20 29.2

1189

<t

4

Mar.

23

47 51.7

53.8

16 21 42.8

1 11.4

48 45. 5

20 31.4

1190

.

6

4

Mar.

26

6 47 52. 0

+ 53.9

+16 21 43.2

— 1 11.4

6 48 45. 9

+16 20 31.8

(172)

GOULD CATALOGUE OF STARS OBSERVED BY DAGELET.

173

Mean equinox 1800. 0

No.

Name

Mag.

Dat<

App't a

Reduct'n

App't (5

Reduction

a

<J

h m s

s

/ //

/ //

It tn s

0 ' a

1191

!l Geminorum -

6

4

Oct.

15

6 17 53.2

-f- 51.7

+ 10 21 41.5

— 1 12.6

6 48 44.9

+ 10 20 2-. 9

1192

"...

7

5

.Mar.

14

47 56.0

49.9

16 21 35.0

1 5. 4

18 !■".. '.I

20 30.2

1193*

tt

6.7

5

Mar.

19

47 56.2

50.0

16 21 34. 4

1 5. 3

48 46.2

20 29.1

1194

"...

6

5

Mar.

23

47 55. 7

50.0

16 21 35.4

1 5. 4

48 45.7

20 30.0

1195

12 < }i aiinorum u1

3

Mar.

6

49 12.4

60. 9

24 30 34.9

1 21.0

6 50 13.3

+24 29 13.9

1196

tt

7

4

Mar.

2*2

49 15.7

57.1

24 30 25. 3

1 16. 1

50 12.8

29 9. 2

1197

tt

6

5

Mar.

14

49 20. 1

52. 9

24 30 20. 4

1 9. 8

50 13.0

29 16.6

nu-

"...

6

5

Mar.

21

49 19.8

53.0

24 30 21.6

1 9. 9

50 12.8

29 11.7

ll;):!

Lalande 13577 .

G.7

4

Oct.

15

49 54.4

52.4

18 2 49. 1

1 14.6

6 50 46.8

+18 1 34.5

1200

"...

7

5

Mar.

21

50

18 2 45. 3

1 9. 7

50

1 35.6

1201

"...

6.7

5

Mar.

23

49 56. 4

50.6

+18 2 43. 7

1 8.4

50 47.0

1 35.3

1202

•21 Canis Maj. f

4

Mar.

26

(50)

—28 41 36. 3

1 0. 8

6(50)

—28 42 37. 1

1203

"...

3.2

4

Oct.

9

50 10.6

35.5

28 40 53. 8

1 29.6

50 46. 1

42 2:'.. 1

1204

k

2.3

4

Oct.

13

50 10.6

35. 1

—28 40 54.0

1 29.2

50 46. 0

42 23. 2

1205

Anonyma

6.7

5

Mar.

19

50 10.8

50.2

+16 57 58.2

1 8.3

6 51 1.0

+16 56 49.9

1206"

13 Geminorum C

3

Mar.

6

51 15.0

59.2

-20 5-2 24. 4

1 22.6

6 52 14.2

+20 51 1.8

1207*

tt

3

Apr.

4

51 14.7

59. 7

20 5-2 25. 1

1 23.2

52 14.4

51 1.9

1208

"...

4

Mar.

2-2

51 18.3

55.5

20 52 16.8

1 17.5

52 13.8

50 59. 3

1209

"...

5

5

Mar.

■21

51 22.4

51.6

20 52 10.7

1 11.1

52 14.0

50 59.6

1210

4 1 Geminorum u-

7.8

3

Feb.

26

52 15.6

60.0

22 50 45. 0

1 24.5

6 53 15.6

+22 55 20.5

1211

ii

4

Mar.

•23

52 18.9

56. 4

22 56 46. 9

1 19.6

53 15.3

55 27. 3

1212

it

7

5

Mar.

14

5-2 24.0

52.3

22 56 40. 3

1 13.1

53 16.3

55 27. 2

1213*

"...

6.7

5

Mar.

19

52 23. 2

52.4

22 56 43. 0

1 13. 1

53 15.6

55 29. 9

1214

"...

6.7

5

Mar.

23

52 -2::. o

52.4

22 56 36. 6

1 13.2

53 15.4

55 23.4

1215

Lalaude 137-24,5 .

7

4

Oct.

15

53 55. 2

50.5

28 29 30.7

1 16.0

6 54 51.7

+28 23 14.7

1216

"...

7.8

5

Mar.

21

53 56. 6

54.6

28 29 30. 9

1 16.9

54 51.2

28 14.0

1-217*

Piazzi 330

7.8

3

Feb.

26

55 30.6

63.5

30 28 34.5

1 29.9

6 56 34. 1

+30 27 4.6

1218

tt

8.9

5

.Mar.

21

55 38. 8

55.4

30 28 27. 3

1 19.7

56 34.2

27 7. 6

1219

Lalaude 13794 .

3

Mar.

6

55 54. 8

57.3

16 27 39.3

1 27.9

6 50 52. 1

+10 26 11.4

1 221 1

45 Geminorum o

6.7

3

Mar.

6

55 56. 4

57. 2

16 15 45.4

1 27.8

6 56 53.6

+16 14 17.6

1221

it

4

Mar.

26

56 0. 0

53.7

10 15 37.2

1 22.1

56 53.7

14 15.1

1222*

G3 Auriga;

4

Mar.

•22

56 48. 2

64.4

39 39 26. 4

1 31.2

6 57 52. 6

+39 37 55.2

1223

"...

4

Mar.

•23

56 48.5

64.4

39 39 25. 1

1 31.3

57 52.9

37 54. 1

1224

tt

4.5

4

Oct.

9

56 50. 4

62.3

39 39 7.9

1 16.2

57 52.7

37 51.7

1225

46 Geminorum r

3

Feb.

26

57 20.4

63.5

30 35 4.9

1 33.8

6 58 23.9

+30 33 31.1

1226

" . . -

4.5

4

Oct

15

57 26. 5

57.4

30 34 51.9

1 19.7

58 23. 9

33 32.2

1227

tt

6

5

Mar.

21

57 28. 4

55. 4

30 34 57. 0

1 21.9

58 23. 8

33 35. 1

1228

it

3

5

Mar.

23

57 28. 8

55.5

30 34 55. 4

1 22.0

58 24.3

33 33. 4

1229

47 Geminorum .

3

Mar.

6

57 51 i. 3

02. 0

27 11 50.2

1 34.0

6 58 58. 3

+27 10 10.2

1230

*

7

5

Mar.

14

58 4.2

53.9

27 11 40.8

1 21.2

58 58. 1

10 19.6

1-231

1036 Bradley . .

8

4

Oct.

13

59 0.1

51.5

15 40 18. 6

1 27.1

6 59 51.6

+15 38 51.5

1232

"...

7.8

5

Mar.

19

59 1.4

49. 0

15 40 10.3

1 IS. 7

59 51.0

38 51.6

1233

48 Geminorum m

4

Mar.

22

59 19.1

56.9

24 28 26. 4

1 29.3

7 0 16.0

+24 20 57. 1

1234

"...

6

1

Oct.

9

59 21. 4

55.0

24 28 23. 6

1 24.7

0 16.4

20 58.9

1235

it

5

Mar.

14

(59)

24 28 24. 0

1 22. 2

(0)

27 1.8

L236

49 Geminorum .

7.8

3

Mar.

6

59 28. 3

61.4

26 5 42. 0

1 35! 8

7 0 29. 7

+26 4 6. 2

1237

"...

7.8

4

Mar.

23

59 32. 9

57.6

26 5 39. 1

1 30.2

0 30.5

4 8. 9

1238

tt

7

4

Mar.

26

6 59 33. 0

57.6

26 5 39. 1

1 30.3

0 30.6

4 8.8

1239*

50 Geminorum .

8

1

Oct.

13

7 0 31. 1

51.5

15 31 31.4

1 28.6

7 1 22.0

+15 30 2.8

1240

51 Geminorum .

3

Feb.

26

1 1 55. 8

57.2

16 30 38.9

1 34.8

7 1 53.0

+16 29 4. 1

124 1

"...

6.5

4

Oct.

15

1 0. 6

51.8

16 30 36.7

1 29.2

1 52.4

29 7. 5

1-24-2

tt

6.7

5

Mar.

21

1 3. 0

49.9

16 30 28. 9

1 21.5

1 52.9

29 7.4

1243

"...

6

5

Mar.

23

1 2. 7

49.9

16 30 30.4

1 21.5

1 52.6

29 8.9

1-2-14

1048 Bradley . .

6.7

■">

Mar.

19

1 20.4

53.0

25 3 48. 3

1 24.7

7 2 13.4

+25 2 23.6

1245

52 Geminorum n

.;

Mar.

(i

1 20.0

61.0

25 14 48. 5

1 38.3

7 2 27.0

+25 13 10.2

1246

tt

7.S

i

Mar.

23

1 29.7

57.2

25 14 42.5

1 32.4

2 20,. "J

13 10.1

1247

"

i

Mar.

•20

1 29.3

57. 2

•25 14 43.5

1 32.5

2 20.5

13 11.0

1-24-

" . . .

6.7

:.

Mar.

19

1 3:1. 7

53.1

25 14 33.5

1 25. 1

2 26. 8

13 8.4

1249

"...

6.7

:»

Mar.

23

(1)

25 14 31.5

1 25.2

(2)

13 9.3

1250

53 Geminorum .

6

!

Mar.

22

7 2 28.0

+ 58.5

+28 15 29. 3

— 1 34.7

7 3 26. 5

+28 13 54.6

(173)

174

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. i>

No.

Name

Map-.

Date

App't a

Reduct'n

App't <i

Reduction

a

»

h m s

s

o / //

■in s

h m s

o / "

1251

53 Geminorum .

6

!

Oct.

9

7 2 30.5

+ 56.6

+28 15 21.3

— 1 27.3

7 3 27. 1

+28 13 54.0

1-252

64 Aurigse

5

5

Mar.

14

3 6.1

60.3

41 14 55.2

1 32.0

7 4 6.4

+41 13 23.2

1253

Lalanilc 14075 .

7.8

4

Oct.

13

3 42.1

55.0

24 54 3.6

1 29.8

7 4 37. 1

+24 52 33.8

L254

"...

7.8

5

Mar.

19

3 43.6

52.9

24 53. 57.2

1 27.6

4 3,li. 5

52 29.6

1255

"...

8

5

Mai'.

21

3 43. 4

53.0

24 54 U.2

1 27.6

4 36.4

52 32. 6

1250

"...

8

5

Mar.

23

3 44.2

53.0

24 54 ll. 0

1 27.7

4 37.2

52 32. 3

1257

285 Mayer

7

4

Mar.

23

3 40.7

57.9

27 3 50.7

1 35". 9

7 4 38.6

+27 2 14.8

1258

286 Mayer - -

7

4

Mar.

26

4 21.8

53.7

16 30 41.8

1 33.2

7 5 15.5

+ 10 20 8.6

1259

54 Geminorum "A

3,

Feb.

26

5 38.4

57.3

16 55 0.2

1 41.5

7 6 35.7

+16 53 18.0

1260

"

3

Mar.

6

5 38.2

57.4

16 55 1.7

1 41.6

6 35.6

53 20. 1

1261

«

4

Mar.

22

5 41.4

53.8

16 54 53. 0

1 35.0

6 35.2

53 18.0

1262

55 Geminorum 6

:;

Feb

26

7 10.6

59.5

22 21 54.4

1 45.1

7 8 10.1

+22 20 9. 3

1263

"...

3

Mar.

6

7 0. 7

50.6

22 22 3. 1

1 45.3

8 9.3

20 17.8

1264

"...

3

Aprx

4

7 9.8

60.1

22 21 50. 9

1 46. 1

8 9.9

20 13.8

1265*

"...

4

Mar.

22

7 13.4

55. 0

22 21 55.4

1 38. S

8 9.3

20 16.6

1266

"...

3

4

Oct.

0

7 16.3

54.2

22 21 48. 8

1 35.4

8 10.5

20 13.4

1267

"...

3

4

Oct.

12

7 15.9

54.0

22 21 47. 8

1 35.2

8 9.9

20 12.0

1268

"...

3

4

Oct.

13

7 16.1

54. 0

22 21 47. 4

1 35.1

8 in. 1

20 12.3

1269

"...

3

4

Oct.

15

7 15.0

53. 0

22 21 46. 4

1 35.0

8 9. 8

20 11.4

1270

"...

5

Mar.

14

7 18.7

51.8

22 21 46. 3

1 30.9

8 10.5

20 15.4

1271

[i

3

5

Mar.

19

7 18.3

51.9

22 21 46. 1

1 31.0

8 10.2

20 15. 1

1272

t i

3

5

Mar.

21

7 18.3

51.9

22 21 44. 1

1 31.0

8 10.2

20 13. 1

1273

a

3

5

Mar.

23

7 18.0

52.0

22 21 48.3

1 31.1

8 10.0

20 17.2

1274

65 Aurigsa

4

Mar.

23

7 37. 1

62.7

37 9 6.0

1 44.4

7 8 39.8

+37 7 21.0

1275

"...

4

Mar.

26

7 36.9

62. 8

37 9 8.2

1 44.6

8 39.7

7 23. 6

1271!

66 Aurigse

5.6

5

Mar.

23

9 15.5

Oil. 3

41 4 8.7

1 39.9

7 10 15.8

+41 2 28. 8

1277

57 Geminorum A

3

F.b.

26

1(1 15.5

60.8

25 27 4. 6

1 50.3

7 11 16.3

+25 25 14.3

1278

" . . .

3

Mar.

6-

Hi 15.:;

60.9

25 27 8.9

J 50.6

11 16.2

25 18.3

1279

58 Geminorum .

6

4

Mar.

26

10 30. 1

56.3

23 20 45. 6

1 43.5

7 11 26.4

+23 10 2. 1

1280

"...

7.8

5

Mar.

14

10 34.5

52.1

23 20 37. 4

1 35.2

11 26.6

VJ 2.2

1281

59 Geminorum .

6.7

5

Mar.

23

11 11.7

54.1

28 2 16.7

1 37.7

7 12 5.8

+28 0 39.0

1282

60 Geminorum i

4

Mar.

23

12 19.4

58.3

28 12 45.3

1 47.4

7 13 17.7

+28 10 57.9

1283*

"...

4.5

5

Mar.

14

12 23. 3

54.0

28 12 37.J3

1 38.9

13 17.3

10 58.9

1284

"...

4.5

5

Mar.

19

12 23. 5

54. 1

2S 12 32.5

J 30. 1

13 17.6

111 53. 1

1285

"...

5

5

Mar.

23

12 23. 8

54.2

28 12 35.7

1 30.2

13 is. n

10 50.5

1286

1 Canis Minoris

6

4

Mar.

22

12 59. 5

51.9

12 4 39.3

1 42.8

7 13 51.4

+12 2 56.5

1287

61 Geminorum r

3

Feb.

26

14 9.5

58.7

2H 411 31.2

1 54.2

7 15 8.2

+20 38 37.0

1288

"...

4

Mar.

26

14 13. 1

55.2

20 40 26. 5

1 47.4

15 8. 3

38 39. 1

1289

"...

0

4

Oct.

0

14 14.7

53.5

20 40 21.7

1 44.8

15 S.2

38 36. 9

1290

"...

6

4

Oct.

12

14 14.8

53.4

20 40 26. 1

1 44.5

15 8.2

38 31.6

1201

63 Geminorum p

0

5

Mar.

14

14 59.4

51.5

21 52 11.6

1 40.0

7 15 50.9

+21 511 31.6

1292*

Lalande 14453 .

6

4

Oct.

13

15 ll.il

50.3

12 22 12. 4

1 48.6

7 16 1.3

+12 20 23.8

1293

" . . .

7

5

Mar.

19

15 12.2

48.3

+12 22 11.8

1 37.1

16 0.5

20 34.7

1294*

31 ( lanis Maj. i]

4

Mai.

23

15 35.0

36.8

—28 53 47. 0

1 34.2

7 16 11.8

—28 55 22. 1

1205

Flamsteed.B. 1043

7.8

5

Mar.

23

15 20.0

54.0

+27 58 21.7

1 42.6

7 16 ll.ii

+27 50, 39. 1

129.6

65 Geminorum h1

3

Feb.

26

16 20.0

62. tl

28 20 52. 1

1 59.3

7 17 22.0

+28 18 52.8

1207*

"...

5.6

4

Mar.

22

16 22.7

58. 2

28 20 48.3

1 52.6

17 20.9

18 55.7

1208

"...

6

4

Oct.

12

16 24.9

56.4

28 20 43.4

1 44.4

17 21.3

18 50.il

1209

Piazzi 114

8

3

Feb.

26

17 11.0

62.0

28 20 56.6

2 0.4

7 18 13.9

+28 18 56. 2

1300

Lalande 14555 .

7

5

Mar.

14

17 49.0

46.4

7 0 28.2

1 38.5

718 35.4

+ 6 58 49.7

1301

6 Canis Minoris o

6

5

Mar.

19

17 50. 4

48.3

12 26 7. 7

1 40.2

7 18 38.7

+12 24 27. 5

1302

"...

6

5

Mar.

23

17 51.8

48.3

12 26 8. 5

1 40.3

18 40.1

24 28.2

1303

Lalande 14620 .

6

4

( let.

13

19 2:'.. 7

52.2

17 31 48. 1

1 51.9

7 20 15.9

+ 17 29 56. 2

1304

66 Geminorum a

3

Feb.

26

20 45.0

63.8

32 20 53.8

2 6.3

7 21 48. 8

+32 18 47.5

L305

"

3

Mar.

6

20 45.5

63.9

32 20 57. 0

2 6.8

21 49.4

18 51.1

1306

"

3

April

8

20 45. 1

64.5

32 20 51.5

2 8.4

21 49.6

IS 43. 1

1307

"...

3

April

9

2H 44.7

64. 5

32 20 57.0

2 8; 4

21 40.2

18 48.6

1308

"...

3

April

14

20 45. 5

64.6

32 20 53. 7

2 8.4

21 50. 1

18 45.:}

1309

"...

:;

April

26

20 44. 3

64. 8

32 211 50.5

2 8. 5

21 10. 1

18 51.11

1310

- - -

3

April

29

7 20 14. 1

+ 64.9

+32 21 1. 1

— 2 8.5

7 21 49. 0

+32 18 52.6

(174)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

175

Mian equinox 1800. 0

No.

4

Name

Mag.

Dati

App't a

Reduct'rj

*

App't (!

Reduction

a

6

k 711 s

s

C 1 "

t a

h m s

0 / "

131]

66 i ieminonim a

3

April

30

7 20 44.2

+ 64.9

+32 21 0.9

— 2 8. 5

7 -J 1 49. 1

+32 1- 52. 1

1312

"

3

.Max

3

20 44. 1

64.9

32 20 53. 2

2 8. 1

21 lit. 11

18 44.8

1313

"...

2

3

May

9

20 44.0

65.0

32 26 56. 3

2 8. 2

21 49.0

18 48. 1

131 1

"...

3

Sept.

25

20 45.11

63.0

32 'JO 47.3

1 58.3

21 18.9

18 49.0

1315

"...

4

Mar.

23

20 49.0

59.9

32 26 53.4

1 59.6

21 48.9

1- 53.8

1310

ti

4

Mar.

26

-.'il lit. 4

60.0

32 2li 51.2

1 59.7

21 411.4

18 51.5

1317*

(i

4

Oct.

2

20 50. 1

58. 5

32 20 46.9

1 49.2

21 48.6

18 57. 7

1318

14

1.2

4

Oct.

9

26 51.1

58. 2

32 20 35. 1

1 48.7

21 49.3

18 46.4

1319

tc

1.2

4

Oct.

12

20 51.2

58.1

32 26 38.9

1 48.5

21 49.3

.18 50.4

1320

Lalande 14688

7

5

Mar.

19

21 6.6

54.3

29 8 11.4

1 49.0

7 22 0.9

+29 6 22.4

1321

68 (ioninoram k

t;

5

Mar.

1 1

21 21.6

49.4

16 16 29.8

1 45.0

7 22 11. 0

+16 14 44.2

1322

Piazzi I3C

7.8

5

Mar.

19

21 59.6

54.2

29 4 53. 4

1 50.7

7 22 53.8

+29 3 2. 7

1323

69 Geminorum v

3

Feb.

26

22 33.5

61.4

27 21 45.4

2 7. 4

7 23 34.9

+27 19 38.0

1 32 1

"...

3

Mar.

6

22 33.6

61.5

27 21 51.8

2 7.8

23 35. 1

lit 44. 0

1325

"...

6. 5

1

Oct.

i:;

22 38.9

55.9

27 21 32. 8

1 52. 1

23 34. -

lit 40.4

1326

9 Canis Min. <P

4

.Mar.

26

22 56.9

19. 1

3 49 33. 0

1 52.7

7 23 46.3'

+ 3 47 40.3

1327

K

6

5

Mar.

23

23 0. 8

45.8

3 49 26. tt

1 43.5

23 46.6

47 4-.'. 5

1328*

l'iazzi 143

6.7

5

Mar.

23

(23)

3 43 46.7

1 43.5

(24)

+ 3 42 3. 2

1329

l'iazzi 144

7

5

Mar.

19

24 28.3

51.0

20 37 34. 9

1 50.8

7 25 19.3

+20 35 41. 1

1330

70 Geminorum -

0

4

Oct.

9

24 24.2

59.7

35 30 48.6

1 56.0

7 25 23. 9

+35 28 52.6

j:::;i

n

6.7

4

Oct.

12

24 23. 9

59.6

35 30 53.4

1 55.7

25 23.5

28 57.7

1332

302 Mayer . .

7

1

Oct.

13

24 58. 1

52.8

19 23 25.9

1 58.0

7 25 50.9

+19 21 27.9

1333

71 Geminorum o

3

Mar.

6

25 0.0

65. 2

35 4 1.7

2 13.4

7 26 5. 2

+35 1 48.3

1334

Piazzi 153

7.8

5

Mar.

14

25 14.0

52.4

24 49 11.5

1 52.9

7 26 6.4

+24 47 48.6

1335

1101 Bradley. .

7

5

Mar.

23

26 9.7

55.6

32 29 1 5. 1 1

1 56.8

27 5. 3

+32 27 18.2

1336

l'iazzi llil

7

4

Mar.

■:<;

26 8. 7

56.5

-'4 41 52.5

2 3. 8

7 27 5.2

+■.'4 39 48.7

1337

it

7.8

5

Mar.

14

26 13.2

52.3

24 41 49.4

1 54.(1

27 5. 5

39 55. 4

1338

74 Geminorum /

6

5

Mar.

19

27 5. 0

50.1

18 8 53.8

1 53.0

7 27 55. 1

+ 18 7 0.8

1339

Procyon .

3

Feb.

26

27 57.4

5 45 59.9

2 9.0

7 28 50.2

+ 5 43 50.9

1340

tt

3

April

4

27 57. 1

53.3

5 45 58. 5

2 8.6

28 50. 4

43 49. 9

1341*

..

3

April

5

27 57.li

53.3

5 45 57.2

2 8.6

28 50. 3

43 48.6

1342

" . .

3

April

it

27 56.8

53. 1

5 45 59.8

2 8. 8

28 50.2

43 51.0

1343*

"...

3

April

14

27 56. 3

53.5

5 45 57. 9

2 -J. 8

28 49. 8

43 49. 1

1344

it

3

Api il

19

27 57.li

53.6

5 45 58. 9

2 9.0

28 50.6

43 49. 9

1345

"

3

April 26

27 56.5

53.6

5 46 1 1. 1

2 9.3

28 50. 1

43 50. 8

1346

"...

3

April 28

27 56. 4

53. 7

5 45 58. 1

2 9. 3

28 50. 1

43 48. -

1347

"...

3

April

29

27 56.7

53.7

5 46 2.6

2 9.3

28 50.4

. 43 53.3

1348

"...

3

April

30

27 56. 4

53.7

5 46 2.6

2 9.4

28 50.1

43 53.2

1349

"...

3

May

3

27 56.5

53. 7

5 46 1.8

2 9.5

28 50.2

43 53.2

1350

it

1

3

May

9

27 56.2

53. -

5 45 59.8

2 9.7

28 50. 0

43 50. 1

1351

..

4

Mar.

22

23 1. 0

49.6

5 45 52. 5

I 59.7

28 50. 6

43 52. 8

1352

"...

4

Mar.

23

28 0.3

49.6

5 45 52.8

1 59.7

28 49. 9

43 53. 1

1 353

"...

4

Mar.

26

..(28)

5 45 -54. 6

1 59.7

(28)

43 54. it

1354

"

4

Oct.

2

-^ 1. 7

48.5

5 45 56.3

2 7.3

28 50. 2

43 49. 0

1355

"...

1

4

Oct.

9

28 2.0

48.3

5 46 2. 6

2 6.9

28 50.3

43 55.7

1356

"...

1

4

Oct.

12

28 1.9

48. 2

5 46 0. 3

2 6.6

28 50. 1

43 53. 7

1 357

tt

1

4

Oct.

13

28 2.2

48.1

5 45 57. 1

2 6:5

28 50.3

43 50: 6

1358

"...

1

5

April

• 5

28 3.7

46. 3

5 45 43.4

1 50.2

28 50.0

43 53. 2

1359

"...

1

5

April 26

28 3. 9

46.6

5 45 41.5

J 50.7

28 50.5

43 50. 8

1360

Lalande 14921 .

7

5

Mar.

14

28 7.2

51.9

23 30 5. 0

1 55.8

7 28 59. 1

1-23 26 9.2

1361

75 Geminorum a

3

Mar.

6

29 45. 3

62.2

29 23 37. 1

2 17.9

7 30 47. 5

+29 21 19.2

1362

3U9 Mayer . .

5

Mar.

14

30 35.8

51.6

22 53 29. 3

1 58. 1

7 31 27.4

+22 51 30. 9

1363

76 ( " minorum c

5

Mar.

19

31 1.0

52. It

26 16 53.2

2 0.2

7 31 53.9

+26 14 53.0

1364

"...

6

5

Mar.

23

31 ].U

53. 0

26 16 52. 8

2 0.3

31 54.0

14 52.5

1365*

77 Geminorum k

3

Mar.

6

31 21.0

60.2

24 54 12.9

2 18.7

7 32 21.2

+24 51 54.-J

1366

"...

3

Aj>ril

8

31 20.0

60.8

24 54 11.9

2 20.0

32 20.8

51 51.il

1:567*

"...

4.5

4

Oct.

9

31 26.3

54. 9

24 53 59.7

2 4 2

32 21.2

51 55.5

1368

"...

4.5

4

Oct.

12

31 26.2

54.8

24 54 0.0

■1 4.0

32 21.0

51 56.0

1369

78 Geminorum i

3

Feb.

26

32 2.6

61.7

28 32 6. 5

2 20. 4

7 33 4.3

+28 29 46. 1

1370

"...

3

April

4

7 32 2.2

+ 62.3

+28 32 10.0

— 2 m. 1

7 33 4.5

+28 -Jit 47.9

(175)

176

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Vlag.

Date

App"t a

Keduct'n

App't i)

Reduction

a

d

h in s

s

O ' II

/ //

h m s

O 1 II

1371

78 Geminorum j3

3 April 8

7 32 1.7

4- 62. 3

+28 32 1). 1

— 2 22. 2

7 33 4.0

+28 29 46. 9

1372*

"...

3 April 9

32 1.7

62.4

28 32 13.ii

2 22. 3

33 4.1

29 50. 7

1373

"...

3 April 14

32 2.2

62.5

28 32 9.7

2 22. 3

33 4. 7

29 47.4

1374

"...

3 April 16

32 2.0

62. 5

28 32 9.7

2 22. 3

33 4. 5

29 47. 4

1375

"

3 April 19

32 1.9

62. 5

28 32 14.9

2 22. 4

33 4.4

29 52. :>

1376

"...

3 April '.'6

32 2.0

62.6

28 32 i2.ii

2 22. 5

33 4.6

29 49.5

1377

"...

3 April 28

32 1.9

62.7

28 32 8.5

2 22. 5

33 4.6

29 46.0

L378

"...

3 April 29

32 1.7

62.6

28 32 12.5

2 22.5

3.3 4.3

29 5n. o

1379

"...

3 April Mil

32 1.6

62.7

28 32 14.4

2 22.5

33 4.3

29 51.9

1380

(i

:; May 3

32 1.6

62.7

28 32 9.7

2 22. 5

33 4.3

29 47.2

1381

"

3 May 9

32 1.6

62.8

28 32 10.8

2 22.4

33 4.4

29 48.4

1382

"...

4 Mar. 22

32 6.1

57.9

2- 32 1.2

2 12.3

33 4.0

29 48. !>

1383

"

4 Oet. 2

32 7.6

56.6

28 31 51. 3

2 4.4

33 4.2

29 46. !)

1384

"

o

5 Mar. 19

32 11.(1

53.8

28 31 55. 6

2 2.2

33 4.8

29 5:'.. 4

1385

" . . -

2

5 April 5

32 9. ;i

54. 1

28 31 52.7

2 3.0

33 4.11

29 4H.7

1386

tc

2

5 April 11

32 9. 5

54.2

28 31 52.9

2 3.1

33 3.7

29 49. 8

1387

79 Geminorum .

7

5 Mar. 14

32 33. 5

50.8

20 49 4.5

2 II. 1

7 33 24. 3

+20 47 4.4

1388

81 Geminorum g

3 April 4

33 34. 2

58.2

19 1 29.7

2 20.8

7 34 32.4

+18 59 8. 11

1389

"...

4 Oet. 12

33 3*. 7

52.6

19 1 2d. 1

2 8.7

34 31.3

59 11.4

1390

"...

6

4 Oct. 13

33 39.5

52.6

11) 1 17.6

2 8.6

34 32.1

59 9.0

1391

80 Geminorum rr

5

5 Mar. 23

33 38.9

56. (1

33 55 42.5

2 5.9

7 34 34. 9

+33 53 36. 6

1393

82 Geminorum .

3 Mar. 6

35 35.2

59.6

23 39 52.4

2 23.9

7 36 34. 8

+23 37 28. 5

1393

"...

6

5 Mar. 19

35 43. 1

51.8

23 39 32.5

2 5.4

36 34.9

37 27. 1

1394*

"...

7.8

5 Mar. 23

35 43. 1

51.9

23 39 33. 6

2 5.6

36 35. 0

37 2-. ii

1395

Lalaude 15218 .

5 Mar. 19

37 44.4

52. 2

24 41 22.7

2 7.3

7 38 36.6

+24 30 1 .".. 4

1396

25 Lyncis - .

6

5 April 5

38 49.4

63.7

47 55 36.7

2 17.1

7 39 53. 1

+47 53 19.6

i397

26 Lyncis

5

4 Oct, 13

38 5'J. 8

66. 5

48 6 2.2

2 4.9

7 4(1 6. ::

+48 3 57. 3

1398*

" ...

6

5 Mar. 23

39 2.4

63.5

48 6 18.3

2 16.6

411 5.9

4 1.7

1399

83 Geminorum <;>

:: Feb. 26

40 13.5

61.0

27 18 41.5

2 30.5

7 41 14.5

+27 16 11.0

1400

"

3 Mar. 6

40 13.0

61.0

27 18 46.7

2 31.0

41 14.0

10 15.7

1401

..

3 April 4

40 12.8

61.5

27 18 47.2

2 32.4

41 14.3

16 14.8

1 102*

"...

3 April 5

4(1 12.9

61.5

27 18 44.2

2 32. 5

41 14.4

16 11.7

1403

13 CanisMin. f

1 Mar. 22

40 30.9

48.3

2 18 L5.8

2 14.1

7 41 19.2

+ 2 16 1.7

1404

Lalande 15325

8.9

3 Fib. 26

4(1 28. 1

60.8

27 7 12.7

2 31.1

7 41 2-. '.I

+27 4 41.6

14(15

"...

9

3 Mar. 6

40 37.9

CH.'.I

27 7 15.7

2 31.2

41 28.8

1 44.5

14(16

85 Geminorum /

7

3 Mai. 6

43 (1.6

58. 1

20 26 33. 6

2 32.7

7 43 58. 7

+20 24 0.9

1407*

"...

:'. April 4

43 0. 2

58.6

20 26 33.4

2 33.6

43 58. 8

23 59.8

14(18'

"...

7

3 April 5

43 H.3

:.-.( ;

20 26 32.5

2 33.7

43 58. 9

23 58.8

1409

"...

6

1 Mar. 22

43 3. 7

54.4

2d 21 i 27.3

2 23.0

43 58. 1

24 4. 3

11 HI

1 Caneri .

7

:; Feb. 26

44 41.1

56.5

16 21 17.3

2 33. 6

7 45 37. 6

+16 18 43.7

1411

" . . •.

6

.3 Mar. 6

44 39.7

56.5

16 21 23.5

2 33. 6

45 36. 1

18 49.9

1412

"

4 Mar. 02

44 44.3

53.0

16 21 14.3

2 23. 6

4.". 37. 3

18 5(1.7

1413

Lalaude 15515-7

7

5 Mar. 23

45 46.8

56.9

36- 39 4. 7

2 2H.5

7 46 4:;. 7

+36 36 44. 2

Mil

14 Cauis Miuoris

4 Mar. 22

47 9. 4

48.4

2 47 14.2

7 47 57.8

+ 2 41 52. 1 1

1415

Lalaude 15565 .

7

:. Mar. 19

47 13.6

53.9

29 51 14.5

2 19.6

7 48 7.5

+29 48 54.9

1416

2 Caneri <j>

3 Feb. 21 i

47 48.0

60.2

25 58 18.8

2 Id. II

7 48 48.2

+2.". 55 38. 8

1417

"...

3 .Mar. 6

47 48.4

6U.2

25 58 16. 3

2 411. 3

48 48. 6

55" 36. 0

1418

"...

:: April 4

47 47.8

60.7

25 58 2(11 2

2 41.7

48 48.5

55 38. ■".

1419*

"...

3 April 5

17 47.9

6H.7

25 58 2H.2

2 41.8

48 48.6

55 38. 4

1420*

"...

3 April 8

47 47.5

60.8

25 58 21.3

2 41.9

48 48. 3

55 39. 4

1421

"...

:! April 9

47 47.2

60. S

25 58 21. 0

2 41.9

48 48.0

55 39. 1

1 122

3 Caneri .

:: April 4

48 21.9

57. 7

17 53 19.0

2 3D. 7

7 49 19.6

+17 fill 39.3

1423

4 Caneri u-

7

3 Mar. 6

48 38. 3

60. 1

2.". HI 21.4

2 41.3

7 411 38. 4

+2.". 37 4H. 1

1424

5 Caneri .

6

5 Mar. 19

(49)

17 1 55.5

2 17.8

7(50)

+16 59 37. 7

1425

"

6

5 Mar. 23

111 16.0

49. 4

17 1 59.7

2 17.9

50 5. 4

59 41.8

1426

6 Caneri -

3 Feb. 26

50 11.7

61.1

28 23 15.1

2 33.5

7 51 12.8

+28 20 41.6

1427

"...

:s Mar. 6

50 11.6

61 . 2

28 2:: 20.8

2 44.11

51 12.8

2(1 36. 9

1428

"...

3 April 5

50 11.4

61.7

2- 2:: is. 6

2 4.">.7

51 13.1

20 32. 1'

1 4211

"...

3 Apiil 8

50 1(1.6

61.7

28 23 18.8

2 45. 8

51 12.::

211 33.(1

1430

"...

3 April 11

7 Ml 111.7

+ 61.7

+28 23 2(i.(i

— 2 45. 8

7 51 12.4

+28 20 34.2

(176)

GOULD CATALOGUE OF STARS OBSERVED RY D AGELET.

177

Mean eipiinnx l-OO. O

No.

Name

Map'.

Date

App'l a

Reduct'i

App't ii

Reduction

a

6

It III s

s

o / //

/ //

t in 6

o / "

143]

7 ('aneri . .

7

4

Mar. 22

7 51 5.8

-f- 55.1

+22 39 45.5

— 2 33, 3

7

52 0.9

+22 37 12.2

1432

"...

6.7

5

Mar. 19

51 10.0

51.2

22 :» 32. 5

2 21.7

52 1 . 2

37 10.8

L433

ti

7

5

Mar. 23

51 9.9

51.2

22 39 31.4

2 21.8

52 1.1

37 9.6

1434

8 Cancri .

6

3

Mar. 6

53 0.4

55.4

13 43 20. 2

2 13.6

7

53 55. 8

+13 40 36.6

14:!.-.'

"

3

April 4

52 59. 8

55. 8

13 43 21.6

2 44. 1

53 55. 6

40 37.5

1436

it

3

April 5

52 59. 2

55.9

13 43 17.7

2 44.1

53 55. 1

40 33.6

L437

"...

3

April 8

52 58. 8

55.9

13 43 17.5

2 44.0

53 54. 7

40 33.5

1438

320 Mayer . .

7

5

Mar. 23

53 33.8

48.4

14 6 7. 1

2 21.7

7

54 22.2

+ 1 1 3 45. 4

1439*

9 Cancri /;'

3

Feb. 26

53 20. 0

58.9

23 14 29. 1

2 40.4

7

54 25.5

+23 11 42.7

1440

"...

7

4

Mar. 22

53 30.7

55.2

23 14 20.7

2 36.3

54 25.9

11 44.4

1441

tt

5.6

5

Mar. 19

53 34.9

51.3

23 14 7.:!

2 24.5

54 26.2

11 42.8

144-2

10 Cancri /i-

3

Feb. 26

54 59.9

58. 5

22 11 50.7

2 48. 1

7

55 58. 4

+22 9 2.6

!44:i

"...

3

April 4

54 59.7

59.0

22 11 52.7

2 49.6

55 5S.7

9 3.1

1444

" ...

3

April 5

54 59.2

59. 0

22 11 50.8

2 49.5

55 58.2

9 1.3

1445*

"...

3

April 8

54 58.9

59.0

22 11 54.il

2 49.7

55 57.9

9 4.3

1 lir,

"...

6-

4

Mar. 22

55

22 11 46.7

2 37.8

55

9 8.9

1447

1 1 Cancri

6

5

Mar. 19

55 41.4

53.0

28 5 29. 2

2 28. 3

7

56 34. 4

+28 3 0. 9

1 148

"

7

5

Mar. 23

55 41.2

:,::. ii

28 5 34.9

2 28. 5

56 34.2

3 6.4

1449

12 Cancri . .

3

April 4

56 35.0

56.0

14 15 28.7

2 48.8

7

57 31.0

+ 14 12 39.9

1450*

[(

3

April 8

(56)

14 15 34.0

2 48.9

57)

12 45.1

1451*

"...

4

Mar. 22

56 38.8

52.0

14 15 22. 4

2 37.1

57 30.8

12 45.3

145-2

13 Cancri i/;1

3

Mar. 6

57 5. 9

60.2

26 28 7. 5

2 52. 1

7 5)

+26 25 15.4

1453*

"...

3

April 5

57 6. 1

60.6

26 28 7. 8

2 53. 7

58 6.7

25 14. 1

1454

14 Cancri if/1

3

Feb. 26

57 23.2

60.0

26 9 3.2

2 51.9

7

58 23. 2

+26 6 11.3

1455

324 Mayer . .

7.8

5

Mar. 19

57 46. 1

49.4

17 38 1.3

2 47. 2

7

58 35.5

+17 35 14. 1

1450

Flamsteed, B.1140

6.7

5

Mar. 23

58 55. 4

48.6

15 15 5.2

2 27.9

7

59 44. 0

+15 12 37.3

1457

"...

6

5

April 5

58 55. 0

48.8

15 15 4.0

2 28.2

59 43.8

12 35.8

1 158

Bessel, W. 44 .

8

4

Mar. 22

59 33.3

53.0

17 10 4.5

2 41.4

8

0 26.3

+17 7 23. 1

1 459

15 Cancri

3

April 4

59 41.9

62.2

30 17 35.8

2 58.2

8

0 44.1

+30 14 717.0

1460

tt

3

April 8

59 41.3

62.2

30 17 37. 9

2 58. 4

0 43.5

14 39.5

1401*

tt

3

April 9

59 41.4

62.3

30 17 34.4

2 58. 5

0 43.7

14 35.9

140-2

"...

5

5

April 10

59 49. 1

55. 0

30 17 17.8

2 34. 5

0 44.1

14 43.3

1463

16 Cancri s"

3

Feb. 26

59 46. 9

56. 9

18 17 15.4

2 53. 1

8

o 43.8

+18 14 22.3

1464

" ...

3

Mar. 6

59 40.4

57.0

18 17 15.5

2 53.2

0 43. 4

14 22.3

1 105

it

3

April 5

7 59 45.4

57.4

18 17 15.1

2 54.2

0 42.8

14 20.9

1466

Bessel, W. 71, 2 .

7

4

Mar. 22

8 0 43.5

52.9

17 8 55.6

2 42.8

8

1 36.4

+ 17 0 12.8

1407

Lalaude 16053 .

7

5

Mar. 19

0 57.8

51.3

23 46 16. 4

2 32. 6

8

1 49.1

+23 43 43.8

1 Hi-

u

6.7

5

April 5

0 57.7

51.6

23 46 14. 1

2 33.4

1 49.3

43 40.7

1469

329 Mayer ! !

8

3

Feb. 26

1 40.7

56.9

18 19 1.0

2 55.5

8

2 43.6

+18 16 5.5

147U

t(

7

3

April 4

1 45.9

57.3

18 18 58.2

2 56. 6

2 43.2

10 1.6

1471

"...

7

5

Mar. 23

1 52.9

49.6

18 18 38.6

2 32. 0

2 42.5

16 6.6

1472

Ealande 16145,6

7.8

4

Mar. 22

3 51.9

00.3

36 22 53. 7

2 52. 4

8

4 52.2

+36 20 1.3

1473

17 Cancri j3

3

Feb. 26

4 45.8

53.9

9 50 26. 0

2 57.4

8

5 39.7

+ 9 47 28. 6

1474

"...

3

Mar. 6

4 44.9

53.9

9 50 27. 0

2 57.2

5 38. 8

47 29.8

1475

tt

3

April 4

4 45. 3

54.3

9 50 25. 3

2 57. 5

5 39. 6

47 27. 8

1476

. i

3

April 5

4 44.5

54.3

9 50 25. 0

2 57.5

5 38.8

47 27.5

1477

« tt

3

April 8

4 45.1

54.4

9 50 27. 2

2 57.6

5 39.5

47 29.6

1 17-

"...

3

April 9

4 45.7

54.4

9 50 23. 7

2 57. 6

5 40. 1

47 26. 1

1 4711

"...

3

April 14

4 44.8

54.5

9 50 25. 2

2 57. 7

5 39. 3

47 27.5

1480

"...

3

April 16

4 44.8

54.5

9 50 25. 7

2 57.8

5 39.3

47 27. 9

1481

1 1

3

April 26

4 44.0

54.6

9 50 26. 0

2 58.2

5 38.6

47 27.8

148-2

ti

4.3

5

Mar. 23

4 52. 0

46.9

9 50 0. 6

2 32. 5

5 38:9

47 28. 1

1 1-:!

"...

4.3

5

April 11

4 52.2

47.2

9 49 58. 9

2 32.8

5 39.4

47 26. 1

1484

331 Mayer . .

7

3

April 4

5 47.0

54.2

9 31 22,4

2 58. 6

8

o 41.2

+ 9 28 23. 8

1485

"...

5

Mar. 23

5 53.9

46.8

9 31 2.2

2 33. 6

6 40.7

28 23. 6

I486

Lalaude 162 15, -

7

5

April 5

5 54.8

52.6

26 59 32. 1

2 39. 8

8

6 47.4

+26 56 52. 3

1487*

Piazzi 34 -

9.10

3

April 2

5 54. 1

54.2

9 49 22. 4

2 58.8

8

6 48.3

+ 9 46 23. 6

1488

"...

8.9

3

April 5

5 54.4

54.3

9 49 22.7

2 58.8

6 48.7

46 23. 9

1489

Lalande 10237,8

7

5

Mar. 19

6 21.3

51.5

24 49 52.8

2 38.6

8

7 12.8

+24 47 14.2

1490*

Piazzi 36 . .

3

April 2

8 6 38. 0

+ 54.2

4- 9 48 35.4

— 2 59. 8

8

7 32.2

+ 9 45 35.6

23

(177)

178

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800.0

No.

Name

Mag.

Date

App't a

Reduct'n

App't (S

Reduction

a

S

h m s

s

o / "

/ //

It m s

o 1 "

1491

Piazzi 36 . . .

8

3

April 5

8 6 38.2

+54.3

+ 9 48 37. 7

— 2 59. 8

8 7 32.5

+ 9 45 37. 9

1492

18 Cancri x

3

April 8

6 52. 3

61.0

27 54 28. 4

3 6.4

8 7 53.3

+27 51 22. O

1493*

Bessel, W.238 .

3

Mar. 6

7 7.7

59.0

24 27

8 8 6.7

24 25

1494

19 Cancri A

3

Mar. 6

7 38.0

59.2

24 4) 33.7

3 4.5

8 8 37.2

+24 38 29. 2

1495

1 .

3

April 4

7 37.5

59.6

24 41 33.6

3 6.0

8 37. 1

38 27. 6

1496*

"...

3

April 8

(7)

24 41 34.4

3 6.2

(8)

38 28.2

1497

1 1

6

5

Mar. 19

7 45.9

51.4

24 41 5.9

2 40. 1

8 37.3

38 25. 8

1498

Piazzi 42 . . .

6

4

Mar. 22

7 45.3

54.2

21 25 1.3

2 52. 1

8 8 39.5

+21 22 9.2

1499

31 Lyncis

3

April 9

7 57.1

68.9

43 52 14. 5

3 13.2

8 9 6.0

+43 49 1.3

1500

"...

5

5

April 5

(8)

43 51 50. 9

.2 47.8

(9)

49 3. 1

1501

"

5

5

April 10

8 5.5

59.8

43 51 53.2

2 48.0

9 5.3

49 5.2

1502

"...

5

5

April 11

8 5.2

59.8

43 51 53. 5

2 48.1

9 5.0

49 5. 4

1503

Piazzi 48 .

8

5

April 5

10 38.4

47.5

11 19 53.6

2 39.4

8 11 25.9

+11 17 14.2

1504

20 Cancri d

3

Mar. 6

10 56.5

57.0

19 0 59.4

3 7.0

8 11 53.5

+18 57 52. 4

1505

"...

3

April 2

10 56.6

57.3

19 0 55.5

3 8.0

11 53.9

57 47.5

1506*

it

3

April 4

10 56.0

57.4

19 0 56.4

3 8.1

11 53.4

57 48.3

1507

it

3

April 5

10 56.0

57.4

19 0 56. 1

3 8.0

11 53.4

57 48.1

1508

"...

3

April 8

10 55.9

57.4

19 0 57. 5

3 8.2

11 53.3

57 49.3

1509

"...

7

4

Mar. 22

11 0.0

53.3

19 0 45.7

2 55.0

11 53.3

57 50.7

1510

Piazzi 51 .

9

3

April 2

11 0.0

57.2

18 48

3 8.0

8 11 57.2

+ 18 46

1511

21 Cancri

3

April 5

12 4.2

54.7

11 19 4.3

3 6.9

8 12 58. 9

+11 15 57. 4

1512

"...

3

April 8

12 3.9

54.7

11 19 6.3

3 7.0

12 58.6

15 59. 3

1513

"...

6

5

Apiil 5

12 10.5

47.5

11 19

12 58. 0

15

1514

22 Cancri f

3

Mar. 6

13 16. 1

60.6

28 35 48. 8

3 12.1

8 14 16.7

+28 32 36. 7

1515

"...

3

April 4

13 15.4

61.0

28 35 43. 8

3 14.0

14 16.4

32 29. 8

1516

"...

3

April 5

13 15.4

61.0

28 35 43.2

3 14.4

14 16.4

32 28. 8

1517

25 Cancri d'2

7

5

April 10

13 40.3

49.5

17 44 27.6

2 44. 8

8 14 29.8

+17 41 42.8

1518

23 Cancri f

3

April 4

13 39.6

60.6

27 37 51.7

3 14.2

8 14 40.2

+27 34 37.5

1519

"...

3

April 8

13 38.7

60.6

27 37 55. 4

3 14.4

14 39.3

34 41.0

1520

"...

4

Mar. 22

13 43.7

56.3

27 37 41. 1

3 0.7

14 40.0

34 40.0

1521

24 Cancri vl

5

Mar. 19

13 53.5

51.5

25 13 35.0

2 46. 6

8 14 45.0

+25 10 48.4

1522

Lalande 16581,3

10.1!

3

April 2

15 30.1

57.1

18 46 39. 5

3 13.4

8 16 27.2

+18 43 2i ;. 1

1523

28 Cancri v2

3

April 4

15 43.9

59.4

24 51 9.0

3 15.8

8 16 43.3

+24 47 53.2

1524

"...

7

5

April 10

15 51.8

51.6

24 50 44. 5

2 49. 6

16 43.4

47 54. 9

1525

29 Geminorum .

3

April 8

16 30.7

55.9

14 54 59.3

3 13.5

8 17 26.6

+14 51 45.8

1526

341 Mayer

3

April 4

16 45. 1

59.4

25 3 14.3

3 17.0

8 17 44.5

+24 59 57. 3

1527

340 Mayer . .

7

5

Mar. 19

16 55.8

51.9

26 53 48. 1

2 50. 2

8 17 47.7

+26 50 57. 9

1528

30 Cancri v^

3

April 5

18 40. 0

59.3

24 48 0.8

3 19.2

8 19 39. 3

+24 44 41.6

1529

"...

3

April 8

18 40. 1

59.3

24 47 59.3

3 19.4

19 39.4

44 39.9

1530

31 Cancri 0

3

Mar. 6

19 13.8

56.7

18 48 53.9

3 13.3

8 20 10.5

+18 45 40. 6

1531

"...

3

April 4

19 13.9

57.1

18 48 54. 6

3 17.8

20 11.0

45 36.8

1532

"...

3

April 16

19 13.0

57.3

18 48 56.3

3 18.3

20 10.3

45 38.0

1533

344 Mayer - .

6

5

April 9

19 20.9

49.9

19 41 53.8

2 51.4

8 20 10.8

+19 39 2.4

1534

32 Lyncis

3

April 9

19 25. 1

64.6

37 9 37. 6

3 24.6

8 20 29. 7

+37 6 13.0

1535

32 Cancri vi

3

April 5

20 9.9

59.2

24 48 34.7

3 21.0

8 21 9. 1

+24 45 13.7

1536

"...

3

April 8

20 9.5

59.3

24 48 36.6

3 21.2

21 8.8

45 15.4

1537

34 Cancri

7

5

April 10

20 58. 8

47.2

10 46 49.4

2 50. 0

8 21 46. 0

+10 43 59.4

1538

33 Lyncis

3

April 9

20 45. 8

64.5

37 9 6. 0

3 26. 2

8 21 50. 3

+37 5 40. 4

1539

"...

6

5

Mar. 19

20 55. 0

55.6

37 8 37. 4

2 57. 3

21 50.0

5 40. 1

1540

"

6

5

April 11

20 54. 3

56.0

37 8 40. 3

2 59. 0

21 50.3

5 41.3

1541

347 Mayer . .

7

5

April 5

21 51.3

48.1

13 58 44. 3

2 51.9

8 22 39. 4

+13 55 52. 4

1542

"...

6

5

April 9

21 50.1

48.1

13 58 42. 1

2 51.9

22 38. 2

55 50. 2

1543

"...

7

5

April 10

21

13 58 47.5

2 52. 0

22

55 55. 5

1544

35 Cancri

3

April 5

22 50. 9

57.5

20 19 25. 3

3 22. 6

8 23 48. 4

+20 16 2.7

1545

"...

3

April 8

22 50. 5

57.6

20 19 25.7

3 22. 8

. 23 48. 1

16 2.9

1546

349 Mayer . .

3

April 8

23 15.4

57.6

20 30 28. 1

3 23. 3

8 24 13. 0

+20 27 4. 8

1547

350 Mayer . .

7

5

April 10

24 4.8

48.7

16 2 38. 5

2 54. 9

8 24 53. 5

+15 59 43.6

1548

1 Leouis Minoris

3

April 9

24 44.5

62.7

33 32 47. 3

3 29. 5

8 25 47.2

+33 29 17. 8

1549

"...

6

5

Mar. 19

24 5:'.. ::

54.0

33 32 IS. 3

I! O. 1

25 47. 3

29 18.2

1550

5

April 5

8 24 52. 6

+ 54.3

+33 32 20. 7

— 3 1.4

8 25 46. 9

+33 29 19. 3

(178)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

171)

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

KcdiK't'n

App't r5

Reduction

a

6

h in s

s

0 / /'

, n

k 111 s

o / //

1551

1 Leonis Minoris

6

5

April 9

8 24 51.8

+ 54.4

+33 32 20. 4

— 3 1.6

8 25 46. 2

+33 29 18.8

1 552

36 Cancri c1

3

April 2

25 20.2

54.2

10 23 45.0

3 22.1

8 26 14.4

+ 1(1 2ii •.':'...->

1553

"...

3

April 4

25 20.2

54. 2

10 23 50.6

3 22. 1

20 14.4

211 2.-. 5

1554*

351 Mayer . .

5

April 11

25 27.7

49. 8

20 0 11.0

2 57. 6

8 26 17. 5

+19 57 13.4

1555*

2 Leonis Minoris

7

5

April 5

26 8.1

54.2

33 15 32.8

3 2.5

8 27 2. :;

+33 12 30.3

[556

ti

6

5

April 10

26 7.8

54.2

33 15 37.0

3 2.8

27 2. 0

12 34.2

1557

1 Hydrse 6

4

5

April 11

(26)

6 26 21.9

2 53.6

-C'T)

+ 6 23 28. 3

1558

:!? Cancri t?

3

April 2

26 19.3

54. 1

in 19 10.0

3 23. 2

8 27 13.4

+10 15 46.8

1559*

(4

3

April 8

26 21. 1

54. 2

10 19 14.9

3 23. 2

27 15.3

•15 51.7

1560

3 Leonis Minoris

3

April 9

26 22.5

62.6

33 28 51.4

3 31.3

8 27 25. 1

+33 25 20. 1

1561*

t .

6.7

5

April 9

26 30.2

54.3

33 28 22. 6

3 3.2

27 24.5

25 1!>. 4

1562*

"...

7

5

April 10

26 31.3

54.3

33 28 27. 3

3 3.3

27 25. 6

25 24.0

1563

4 Leonis Minoris

7

5

April 11

(27)

32 41 26.2

3 3.4

8(28)

+32 38 2-.'. 8

1564

:'>!> ( lancri

3

April 11

27 37.4

57.7

20 45 41 0

3 28. 6

8 28 35. 1

+20 42 12. 4

1565

363 Mayer

8.9

3

April 2

29 22. 2

57.4

20 37 58. 7

3 30.0

8 30 19.6

+20 34 28.7

1566

"...

6

3

April 8

29 21.7

57.5

20 38 6. 1

3 30.3

30 19.2

34 35. s

1567

"...

7

5

April 9

29 28. 9

40. 9

20 37 35. 0

3 1.8

30 18.8

34 31!. 2

1568

"...

7.8

5

April 10

29 29. 5

49.9

20 37 37-8

3 1.8

30 10.4

34 30.0

1569

Lalande 17111

7

5

April 5

29 48.0

55.6

37 28 25.8

3 7.6

8 30 43. 6

+37 25 18.2

1570*

"...

6.7

5

April 11

29 47. 8

55.6

37 28 31.8

3 7.9

30 43.4

25 23. 9

lf>71

Lalaude 17131

7.8

5

April 9

30

37 41 5.5

3 8.4

8 31

+37 37 57. 1

1572

"

6.7

5

April 10

(30)

37 41 7. 8

3 8.5

(31)

37 59. 3

1573*

"...

6

5

April 11

30 22. 6

55.8

37 41 4.7

3 8.6

31 18.4

37 51 i. 1

1574*

43 Cancri y

3

Feb. 18

30 43.7

57.5

22 14 8.5

3 30. 0

8 31 41.2

+22 10 38.5

1575

"...

3

April 2

(30)

22 14 10.8

3 32.2

(31)

10 38.6

1576

"...

3

April 5

30 43.6

58. 0

22 14 11.3

3 32.2

31 41.0

10 39. 1

ir.?7

"...

3

April 8

30 43. 0

58.0

22 14 16.4

3 32. 4

31 41.il

10 44.0

1578

"...

3

April 11

30 43.6

58. I

22 14 12.6

3 32.7

31 41.7

10 30. 9

1579

"...

3

April 16

30 42. 8

58.1

22 14 10.3

3 32.8

31 40 9

10 37.5

1580'

"...

3

April 19

30 43. 2

58.1

22 14 17.0

3 32.9

31 41.3

10 44. 1

1581

Lalaude 17153-6

7.8

5

Mar. 14

30 57.0

53. 4

32 49 22. 0

3 5.4

8 31 50. 4

+32 46 10.6

1582

Lalande 17182 .

7.8

5

April 9

31 49.0

55.9

38 3 43. 0

3 10.0

8 32 41. 0

+38 0 33.0

1583

46 Cancri

I!

April 8

32 1.3

61.4

31 28 19.6

3 37.0

8 33 2.7

+31 24 42.6

1584

47 Cancri 6

3

April 2

(32)

18 50 23. 5

3 32. 8

8(33)

+18 52 50.7

1585

" ...

3

April 16

32 20. 6

57.0

18 50 22.8

3 33. 4

33 17.6

52 49. 4

1586*

"...

3

April 19

32 21.3

57. 1

18 56 24. 1

3 33. 6

33 18.4

52 50.5

1 587

Lalande 17204 .

7.8

3

April 4

32 25. 9

60.5

29 13 7.8

3 36.3

8 33 26. 1

+29 9 31.5

15-'.-

"...

7.8

5

April 10

32 33. 8

52.5

29 12 41.9

3 7.7

33 26.3

9 34.2

1589

49 Cancri h

6

5

April 11

33 5.4

47.1

10 50 47. 8

3 2.0

8 33 52. 5

+10 47 45. 8

1590

48 Cancri i

3

April 4

33 32.8

60.6

29 32 30.5

3 37.8

8 34 33. 4

+29 28 52. 7

1591

"...

3

April 8

33 32. 8

60.6

29 32 29. 0

3 38.0

34 33.4

28 51.6

1592

"...

3

April 14

33 34.5

60.7

29 32 27. 3

3 38.4

34 35.2

28 48. 9

1593*

Lalaude 17256 .

7

5

April 5

34 10.6

52. ::

28 56 18.8

3 9.3

8 35 2.9

+28 53 9. 5

1594

"...

7

5

April 9

34 9.5

52.4

28 56 14.5

3 9.2

35 1 . 0

53 5.3

1595

50 Cancri A-

3

April 8

35 2.4

54.8

12 53 36. 1

3 34.0

8 35 57. 2

+12 50 2. 1

1596

Jl Hydra; e

4

5

Mar. 14

35 24.2

45. T

7 11 38.5

3 2.9

8 36 0.0

+ 78 35. 6

15: it

"...

4

5

April 11

35 25.li

40. 1

7 11 36.2

3 3.0

36 11.1

8 33.2

1598

Lalande 17327,8

7.8

3

April 4

36 18.6

62.4

34 30 43. 7

3 42.4

8 37 21.0

+34 27 1.3

1599

((

7.8

5

April 10

36 26. 8

54.3

34 30 20. 0

3 13.3

37 21.1

27 0. 7

1600

370 Mayer . .

3

April 14

36 43.4

55.0

13 20 0. 0

3 36.2

8 37 38.4

+13 16 29.8

1601

"...

7

5

April 11

36*

13 19 36. 4

3 6.4

37

16 30. 0

1602

13 Hydra' p

5.6

5

Mar. 21

37 4.2

45. 6

6 37 7.2

3 4.2

8 37 40. ■-'

+ 6 34 3. 0

1603

5 Leonis Minoris

6.7

5

April 5

37 10.3

54.0.

34 4 36.0

3 13.5

8 38 4. 3

+34 1 22.5

16H4

"...

6.7

5

April 10

37 10.9

51. 1

34 4 39.9

3 13.9

38 5.0

1 26.0

1605

35 Lyncis

5. 6

5

April 9

37 27. 8

58.5

44 30 50. 7

3 17.5

8 38 26. 3

+44 27 33.2

1606

371 Mayer

3

April 14

38 32. 8

56.7

18 47 52.8

.'! 39.9

8 :::» 19.5

+18 44 12.9

1607

372 Mayer , .

7

3

April 2

38 2 1. 3

56.8

19 37 43. 1

3 39.7

8 39 21. 1

+19 34 3.7

1608

54 Cancri

3

Feb. 18

38 57.2

55. 3

16 8 34.2

3 38.1

8 39 52. 5

+16 4 56. 1

1609

"...

7.6

5

April 11

39 3. 5

48. 1

16 8 7.0

3 9.6

39 51.9

4 57.4

1610

52 Cancri

7

3

April 5

8 39 2. 4

+ 56.0

+16 47 43. 1

- 3 39. 5

8 39 58. 4

+16 44 3.0

(179)

180

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET

n

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't (5

Reduction

a

(5

h m s

s

0 ' "

/ //

h m s

o / "

1611

52 Caucri

7

3

April

8

8 39 1.5

+ 56. 0

+16 47 43.4

— 3 39. 7

8 39 57.5

+16 44 3. 7

1612

5] Caucri a1

3

April

1

39 9. 9

61.8

33 16 32.5

3 45. 0

8 40 11.7

+33 12 47.5

L613

Bessel, W.1058 .

6.7

5

April

9

39

19 37 15.2

3 10.9

8 40

+19 34 4. 3

1614

55 Cancri p-

3

April

16

39 39. 8

60.3

29 8 53.6

3 45.0

8 40 40. 1

+29 5 8. 6

tl6l5

7

5

Mar.

21

41 4.5

45. 5

6 8 6.2

3 7.9

8 41 50. 0

+ 64 58. 3

1616

Piazzi 191 . .

7.8

5

April

5

41 5. 7

48.8

18 10 5.3

3 12.0

8 41 54.5

+18 6 53. 3

1617

"...

7

5

April

9

41 4.5

48. 9

18 10 5.0

3 12. 1

41 53.4

6 52. 9

1618

57 Caucri i"

6

5

April

10

41 7.6

52. 9

31 22 55. 1

3 16.6

8 42 0. 5

+31 19 38.5

1619

lalande 17512 .

7

3

April

8

41 24.9

59.6

27 44 4. ]

3 46.0

8 42 24.5

+27 40 18. 1

1620

Piazzi 195 . .

7

5

April

11

41 37.8

49.6

20 46 3.8

3 13.6

8 42 27. 4

+20 42 50.2

1621

Piazzi 196 . .

7

5

April

9

41 42.4

48.9

18 20 38.2

3 12.7

8 42-31.3

+18 17 25.5

1622

"...

7

5

A] nil

10

41

18 20 46.4

3 12.8

42

17 33.6

1623

Bessel, W. 1147,8

7

3

April

4

42 2.2

59.3

27 2 10.3

3 46. 1

8 43 1.5

+26 58 24. 2

1624

Piazzi 266 . .

li. 7

5

April

9

43 15.' 8

48.8

18 2 9.6

3 14.1

8 44 4. 6

+17 58 55.5

1625*

Lalande 17584 .

7

3

April

4

43 27. 7

58. 6

25 16 6.0

3 47. 1

8 44 26. 3

+25 12 18.9

1626

"...

6

3

April

5

43 28 o

58.0

25 16 4.4

3 47.1

44 26. 6

12 17.3

1627

"

7

5

April

10

43 35.2

50.8

25 15 39.7

3 16.9

44 26.0

12 22.8

1628*

59 Cancri a-

3

April

2

43 3.2. 4

61.7

33 44 1.3

3 50. 3

8 44 34. 1

+33 40 11.0

1629

"...

3

April

8

43 32. 0

61.8

33 44 3. 5

3 50. 7

44 33.8

40 12.8

1630

16 Hydra f

3

Feb.

18

43 56.2

52. 4

6 45 35. 1

3 42. 4

8 44 48.6

+ 6 41 52.7

1631

..

4

5

Mar.

21

44 3. 5

45.6

6 45 1.3

3 10.9

44 49. 1

41 50.4

1632

"

4

5

April

5

44 3.0

45. 8

6 45 2. 1

3 11.0

4-^.8

41 51.1

1633

00 Caucri a1

3

April

2

44 4.6

54. 4

12 26 32.4

3 43.5

8 44 59. 0

+ 12 22 48.9

1634

"

3

April

16

44 4.4

54.6

12 26 33. 9

3 44. 0

44 59. 0

22 49. 9

1635*

9 Ursa' Maj. i

3

April

26

44 17.7

69. 9

48 52 55. 7

3 57. 1

8 45 27. 6

+48 48 58.6

1636

61 Caucri

3

April

14

44 47.5

60.8

31 3 16.2

3 51.1

8 45 48. 3

+30 59 25. 1

1637

62 Cancri o1

3

April

14

45 9. 3

55. 7

16 8 25.9

3 46.4

8 46 5.0

+16 4 39.5

1638*

63 Cancri o-

3

April

8

45 27. 8

55. 7

16 24 11.4

3 46.5

8 46 23.5

+10 20 24.9

1639

"...

3

April

14

45 27. 4

55. 8

16 24 9.3

3 46.7

46 23.2

20 22.6

1640

Lalande 17653 .

10.11

5

April

11

45 38. 7

51.5

27 18 30. 0

3 19.5

8 46 30.2

+27 15 10.5

1641

Lalande 17674

7.8

3

April

5

46 4.6

58.4

24 47 35.5

3 49.7

8 47 3. 0

+24 43 45. 8

1642

"...

9

5

April

10

46 12.4

50. 7

24 47 6.9

3 19.1

47 3.1

43 47. 8

1643

64 Caucri cr'

3

April

16

46 12.2

61.6

33 15 4. 1

3 53. 3

8 47 13.8

+33 11 10.8

1644

65 Caucri a-

3

Feb.

18

46 36.7

54.1

12 41 10.5

3 46. 0

8 47 30.8

+12 37 24.5

1645

10 Ursse Maj. .

4.5

5

April

9

46 3S.5

57.0

42 37 18.5

3 25. 4

8 47 35. 5

+42 33 53. 1

1646

Bessel, -\V.1271 .

7.8

5

Mar.

21

47 15.0

51. 1

27 15 23.7

3 19.5

8 48 6. 1

+27 12 4.2

1647

"...

8

5

April

10

47

27 15 27. 3

3 20. 9

48

12 6.4

1648

"...

6.7

5

April

11

47 14.9

51.4

27 15 23. 6

3 20.9

48 6.3

12 2.7

1649

66 Cancri cr1

7

3

April

4

48 5.3

61.3

33 5 21.9

3 54.5

8 49 6. 6

+33 1 27.4

1650

67 Caucri p5

6.7

3

April

2

48 52.5

59.6

28 44 42.8

3 53.8

8 49 52. 1

+28 40 49.0

1651

.<

7

5

Mar.

21

49 0.2

51.5

28 44 16.4

3 21.5

49 51.7

40 54. 9

1652

"...

7

5

April

5

48 59.6

51.7

28 44 17. 9

3 22. 7

49 51. 3

40 55.2

1653

12 Ursa? Maj. k

3

April

30

48 45.9

69.1

48 0 21.7

4 1.8

8 49 55. 0

+47 56 19.9

1654

68 Caucri

7

5

April

10

49 40.2

48.6

17 54 43.8

3 20. 0

8 50 28. 8

+ 17 5] 23.8

1655

69 Cancri v

3

April

2

50 2.4

58. 3

25 17 41.6

3 53. 9

8 51 0. 7

+25 13 47.7

1656

"...

3

April

4

50 2.6

58. 4

25 17 41.6

3 54.0

51 1.0

13 47.6

1657

"...

3

April

5

50 2.4

58.4

25 17 44. 3

3 54. 0

51 0. 8

13 50.3

1658

"...

3

April

8

50 2. 0

58. 4

25 17 41.4

3 54.3

51 0. 4

13 47. 1

1659*

"...

3

April

14

50 2.1

58. 5

25 17 44.4

3 54.6

51 0.6

13 49.8

1660

"...

6

5

April

9

50 9. 0

50.7

25 17 9.1

3 22. 8

50 59.7

13 46. 3

1661

«

6.5

5

April

11

50 9. 8

50. 7

• 25 17 12.1

3 22.9

51 0. 5

13 49.2

1662

70 Caucri p"

3

Mar.

29

51 14.1

59.4

28 44 39.3

3 55.9

8 52 13.5

+28 40 43. 4

1663

"...

7

5

Mar.

21

51 21.2

51.4

28 44 12. 1

3 23. (i

52 12.6

40 48.5

1664

"...

7.8

5

April

5

51 20.9

51.6

28 44 16. 5

3 24. 8

52 12.5

40 51.7

1665

" . .

7

5

April

10

51 20.9

51.7

28 44 15.5

3 25.1

52 12.6

40 50.4

1666*

Flamsteed, B.1280

10

3

April

2

52 10.2

58.3

25 27 20. 6

3 56. 1

8 53 8. 5

+25 23 "24. 5

1667

"...

8.9

3

April

5

52 9.8

58.3

25 27 22. 7

3 56. 3

53 8.1

23 2(1. I

1668

17 (llev.) Lyncis

6

5

Mar.

21

52

39 18 3.0

3 27. 8

8 53

+3.9 14 35.2

1669

"...

5.6

5

April

5

52 49. 6

55. 2

39 18 5.1

3 29. 6

53 44. 8

14 35.5

[670

1282 Bradley

JO

3

April

2

8 54 6. 2

+ 55.9

+ 17 58 9.3

— 3 55.7

8 55 2. 1

+ 17 54 13.6

(180)

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

181

Mean equinox 1800. (1

No.

Name

Mag.

1 »ii t- -

App't a

Reduct'n

App't A

Reduction

a

6

h in s

s

o / II

/ //

h m s

o / "

1671

Lalande 17932 .

8

5 April in

8 :.l 14.9

+ 18.2

+16 4-2 30.9

— 3 23. 6

8 55 3. 1

+ 16 30 7.3

Hi?-.'

73 Cancri

7.8

3 April 16

54 19.7

55.5

16 7 50.7

3 56.0

8 :..". 15.2

+ 16 3 54.7

1073

Lalande 17950

8

3 April 5

54 U.7

59. l

28 51 57. 3

3 59.0

8 ."■■"> 44. ]

+28 17 58.3

1674*

72 Cancri r

3 April 4

54 57.9

60.0

30 30 55.7

4 0.7

8 55 57.9

+3(1 26 55.0

1675

"...

3 April 8

54 57.4

60.0

30 30 59,3

4 1.0

55 57.4

26 58. 3

1676

Piazzi "254 . .

0.7

5 Mar. -21

55 39.3

53.2

34 44 42.2

3 29. 0

8 .".6 32.5

34 41 13. -2

1677

.

0.7

f> April 5

55 39.0

53.4

34 44 46.8

3 30.5

56 32. 1

41 16.3

1678

7.". Cancri

6.7

3 April 4

56 0. 5

58.8

27 30 59. 6

4 0.8

8 56 59. 3

+27 26 58.8

1679

7 1 Cancri

o. 7

3 April 14

56 8.7

55.3

15 34 '26. 1

3 57.6

8 57 4. 0

+15 30 28.5

L680

"...

7

5 April 10

56 16.0

47.9

15 33 57. 0

3 25.1

8 57 3.9

13 30 31.9

168]

78 Cancri . .

7.8

3 April 2

56 52. 3

55.9

18 20 11.3

3 58.7

8 57 48. -2

+ 18 16 12.6

1682

"...

7

3 April 16

56 52. 1

56.1

18 20 ]5.6

3 59. 3

57 48.2

16 16.3

1683

"...

7.8

5 April 11

56 59. 8

48.6

18 19 39.0

3 26. 7

57 48.4

16 12.3

1684

77 Cancri J

3 April 13

56 5-2. 5

57.5

22 54 47. 4

4 0.7

8 57 50.0

+22 50 46. 7

1685

Lalande 18032 .

8

3 April 5

57 4. 1

59.9

30 25 38. 1

4 2.8

8 58 4.(1

+30 21 35.3

1686

Lalande 18033 .

8. 9

3 Mar. 29

57 12.9

55.2

16 6 28. 1

3 .".-. 1

8 58 8. 1

+ 16 2 30.0

1687

Lalande 18044,5 .

6.7

5 Mar. 21

57 39.6

52.1

31 49 41.1

:; 29.9

8 58 31.7

+31 46 11.2

1688

"...

0.7

5 April 5

57 39.5

52.3

31 49 41.5

3 31.4

58 31.8

46 10.1

1689

79 Cancri

3 April 5

57

22 52 1 . 8

4 0. 3

8 58

+22 48 1.5

1690

"...

6

3 April 13

57 52.2

57.4

22 51 59. 4

4 1.7

58 49.6

22 47 57.7

1691

.<

3 April 14

57 53. 0

57.4

22 52 1.8

4 1.9

58 50. 4

47 59.9

1692

395 Mayer . .

7

.> April 11

58

12 25 36. 6

3 26.7

8 59

+12 22 9.9

1693

36 Ljucis

5

5 April 10

59 42. 4

56.9

44 5 37.3

3 37.4

9 0 39. 3

+44 1 59.9

1694

80 Cancri . .

3 April 4

59 45. 8

56. 0,

18 55 18. 5

4 1.9

9 0 41.8

+18 51 16.6

1695

"...

3 April 5

59 4.".. 7

56.0

18 55 25. 1

4 1.9

0 41.7

51 23.2

1696

"...

7.8

3 April 13

59 45.5

:>>;. i

18 55 21.1

4 2.2

II 41.6

51 18.9

1697

"...

7

5 Mar. 21

59 54. 3

48.4

18 54 45. 3

3 35.2

0 42. 7

51 10. ]

1698

"...

7.8

5 April f>

8 59 52.9

48.7

18 54 51.0

3 -20. -2

0 41.6

51 21.8

1699*

81 Cancri ■*

3 Mar. 29

9 0 25. 4

55.0

15 51 35. 9

4 1.3

9 1 20.4

+15 47 34. 0

1700

"

3 April 14

0 24.7

55.2

15 51 34. 6

4 1.9

1 19.9

47 32.7

17111

Lalande 18162 .

8.9

3 April '2

1 1-2.0

53.8

11 32 58.0

4 1.0

9 2 5.8

+11 28 57.0

1702

"...

9.10

5 April 11

1 19.4

46.8

11 32 19.1

3 28.3

2 6. 2

28 50. 8

17(13

19 Ursse Majoris

6

3 April 8

1 53.7

61.6

35 31 7.8

4 9.5

9 2 55. 3

+35 26 58. 3

1704

"...

3 April 16

1 53.7

61.7

35 31 7.2

4 KM

2 55. 4

26 57. 1

1705

"...

6.7

5 April 5

2 1.4

53.3

35 30 42. 2

3 36.3

2 54.7

27 5.9

1706

Lalande 18216 .

5 April 10

3 1.7

47.0

12 22 26.5

3 29. 1

9 3 48. 7

+12 18 57.4

17(17

C(

8.9

5 April 11

3 1.0

47.0

12 22 26.0

3 29. 9

3 48.0

18 56. 1

1708*

B2 Cancri . -

3 Mar. 29

3 15.9

55.0

15 49 46.0

4 4. 1

9 4 10.9

+15 45 41.9

1709

" .

3 April 4

3 15.5

55.0

15 49 48.9

4 4.3

4 10.5

45 44.6

1710

"...

6

3 Apnl 5

3 15.3

55.0

15 49 51. 3

4 4.3

4 10.3

45 47. 0

1711

«

3 April 13

3 15.0

55.1

15 49 49. 4

4 4.7

4 10.1

45 44. 7

1712

Lalande 18251

9

3 April 5

3 53.6

55.0

15 53 57. 6

4 5.0

9 4 4*. 6

+15 49 52. 6

1713

Lalande 18256 .

7

5 Mar. 21

4 9.3

52.6

34 23 34. 1

3 36. 1

9 5 1.9

+34 19 58. 0

1714

"...

7.8

5 April 5

4 10.5

52. 8

34 23 33.4

3 37.8

5 3. 3

19 55.6

1715

38 Lyncis

3 April 8

5 19.0

62. 2

37 42 38.9

4 13.6

9 6 21. 2

+37 38 25. 3

1716

"...

3 April 10

5 19.0

62.4

37 42 40.9

4 14.2

6 21.4

38 26. 7

1717*

398 Mayer . .

6.7

3 April 14

6 5.4

54.1

12 23 58.6

4 6.4

9 6 59.5

+12 19 52.2

1718

L(

6.7

5 April 11

6 12.3

46.9

12 23 21. 0

3 32.7

6 59.2

19 48.3

1719

83 Cancri . " _

3 Mar. 29

6 53. 1

55.6

18 36 47.2

4 8.4

9 7 48.7

+18 32 38. 8

1720

"...

7

3 April 2

6 52. 4

55.7

18 36 52. 5

4 8.0

7 48.1

32 43.9

1721*

K

3 April 4

ft6 5-2. 3

55.7

18 36 54. 4

4 8.7

7 48.0

32 45.7

1722

il - - -•

3 April 5

6 52.4

55.7

18 36 53.8

4 8.7

7 48. 1

32 45. 1

1723

"

3 April 13

6 52.2

55.8

18 36 52.1

4 9.2

7 48.0

32 42. 9

1724

it

7

5 Mar. 21

6 59.8

48.1

18 36 19.6

3 34.2

7 47.9

32 45. 4

1725

Lalande 18360,2

6

3 April 16

7 '21.7

62.8

39 5 50.4

4 16.7

9 8 24. 5

+39 1 33.7

1726

"...

7

5 April 5

7 '29.7

54.3

39 5 19.0

3 41. 9

8 24.0

1 37.1

17-27

40 Lyncis

3 April 8

7 48.9

61.1

35 17 58. 7

4 15.1

9 8 50. 0

+35 13 43. 6

17-28

"...

3 April 26

7 48.9

61.4

35 18 4.0

4 16.6

8 50.3

13 47.4

1729

LalauuY 18412 -

6.7

:> Mar. 21

'J -24. 3

47. 5

16 16 18.7

3 35.7.

9 10 11.8

+16 1-2 43.0

1730

((

7.8

5 April 5

9 9 23. 9

+ 47.7

+16 16 19.4

— 3 36. 4

9 10 11.6

+16 12 43.0

(181)

182

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

ieduct'n

App't <i

Reduction

a

6

h m s

s

O ' "

/ //

h vi s

o 1 "

1731

Lalande 18414 .

7.8

3 April 4

9 9 22. 5

-|- 55.3

-|-17 30 41.4

— 4 10.7

9 10 17.8

+17 26 30.7

1732

"

7.8

5 April 10

9 29.2

48.0

17 30 8.2

3 37. 0

10 17.2

26 31.2

17:;:',

Lalande 18422 .

8.9

3 April 14

9 36.5

56.1

19 40 1.7

4 12.2

9 10 32.6

+19 35 49.5

1734

Lalande 18424 .

9

3 April 2

9 37. 1

56.7

22 24 40.2

4 12.4

9 10 33.8

+22 211 27.8

1735

"...

8

5 April 11

9 45. 1

49.2

22 24 4. 5

3 38. 9

10 34.3

20 25.6

1736

6 Lecmis Minoris

3 April 5

10 58.0

57.8

26 5 59. 4

4 15.0

9 11 55.8

+26 1 44.4

1737

"...

6

M April 8

10 57.7

57.8

26 5 59. 4

4 15.2

11 55.5

1 44.2

1738

"...

:: April 13

10 57.8

57.9

26 6 2. 9

4 15.5

11 55.7

1 47.4

17:;;)

Lalande 18406 .

6

3 April 10

HI 56.9

61.9

37 30 29.5

4 19.5

9 11 58.8

+37 26 10. 0

1740

"...

6.7

5 April 10

11 4.2

53.6

37 30 0.5

3 44.8

11 57.8

26 15.7

1741*

402 Mayer . .

3 Mar. 29

11 30.6

57.9

26 50 22. 7

4 15.1

9 12 28.5

+26 46 7. 6

1742

"...

7

3 April 2

11 30.3

58.0

26 50 21.7

4 15.5

12 28. 3

46 6.2

1743*

u

3 April 4

11 29.9

58.0

26 50 20. 0

4 15.6

12 27. 9

46 4.4

1744

1 Leonis k

3 Feb. 18

12 0.4

57.8

27 6 18.4

4 12.6

9 12 58.2

+27 2 5.8

1745

"...

3 Mar. 29

12 0.9

58.0

27 6 18.7

4 15.7

12 58.9

2 3.0

1740*

"...

3 April 2

12 0. 3

58.0

27 6 19.2

4 16.0

12 58.3

2 3.2

1747

"...

3 April 4

12 0. 9

58.0

27 6 22. 0

4 16.2

. 12 58.9

2 5.8

1748

k

3 April 5

12 0.7

58.0

27 6 23. 0

4 16.2

12 58.7

2 6.8

1749

if

3 April 26

11 59.7

58.4

27 6 25.7

4 17.8

12 58. 1

2 7.9

17! Ml

' ...

3 April 28

12 0.2

58.4

27 6 21.8

4 17.9

12 58. 6

2 3.9

1751

"...

3 April 29

12 0.2

* 58.4

27 6 25. 3

4 17.9

12 58.6

2 7.4

1752

"...

5 April 30

11 59.9

58.4

27 6 26.5

4 18.0

12 58. 3

2 8.5

1753

Lalande 18508,9 .

7

5 Mar. 21

12 30.9

48.1

19 3 15.4

3 38. 9

9 13 19.0

+18 59 36.5

1754

"...

8.9

5 April 5

12 30. 1

48.3

19 3 17.8

3 39.8

13 18.4

59 38.0

1755

Lalande 185211 .

8

3 April 14

12 35. 1

55.7

18 37 55.2

4 14.6

9 13 30.8

+18 33 40.6

1756

"...

7

5 April 11

12 42.7

48.2

18 37 -J 1.2

3 40.1

13 30.9

33 41.1

1757

Lalande 18545 .

7

3 April 8

13 15.7

61.7

37 23 16.8

4 20. 0

9 14 17.4

+37 18 56. 8

1758

"...

6.7

3 April 16

13 15.8

61.7

37 23 16.0

4 21.7

14 17.5

18 54.3

1759

"...

7

5 April 10

13 23.9

53.4

37 22 41.5

3 46.6

14 17.3

18 54.9

1760

41 Lync.is

3 April 13

14 23.9

65.7

46 32 37.7

4 25.3

9 15 29.6

+46 28 12.4

1761

Piazzi 84 . . .

6.7

3 April 2

15 2.9

54.5

15 14 1.8

4 15.3

9 15 57.4

+15 9 46.5

1762

"...

7.8

3 April 4

15 2.7

54. 6

15 14 4.9

4 15.3

15 57.3

9 49. 6

1763

it

7

5 April 11

15 10.4

47.4

15 13 31.1

3 41.0

15 57.8

9 50. 1

1764

2 Leonis u

3 Feb. 18

16 50. 4

52.9

9 59 25.9

4 15.6

9 17 45. 3

+ 9 55 10.3

1765

"...

3 Mar. 29

16 51.6

53. 1

H 59 24.8

4 15.3

17 44.7

55 9. 5

1766*

"...

3 April 2

16 49.5

53.1

9 59 23. 1

4 15.4

17 42.6

55 7.7

1767

"...

3 April 5

16 50.8

53.2

9 59 26. 4

4 15.4

17 44.0

55 11.0

1768*

"...

3 April 8

16 50.4"

53.2

9 59 28. 1

4 15.6

17 43.6

55 12.5

1769

"...

3 April 14

16 50.4

53.3

9 59 26. 6

4 15.8

17 43.7

55 10.8

1770

6

5 Mar. 21

16 08.0

45.9

9 58 49. 3

3 40.2

17 43.9

55 9.1

1771

"...

5

5 April 5

16 57. 6

46.1

9 58 54. 8

3 40.6

17 43.7

55 14.2

1772

Lalande 18631 .

7

3 April 16

16 47. 3

60.4

34 29 27. 7

4 24. 0

9 17 47.7

+34 25 3. 7

1773

"...

6.7

5 April 10

16 55.2

52.3

+34 28 53.5

3 48.5

17 47.5

25 5.0

1774

30 Hydra- a

3 April 29

(16)

— 7 43 47. 8

4 10.5

9(17)

— 7 47 58.3

1775

"

3 April 30

16 56. 5

49.1

7 43 47. 8

4 10.5

17 45.6

47 58. :;

1771!

"...

3 May 2

16 .Mi. !

49.1

7 43 46.7

4 10.6

17 45.5

47 57.3

1777

"...

3 May 16

16 56.7

48.9

— 7 43 48.7

4 11.1

17 45.6

47 59.8

1778

3 Leonis .

6

3 April 4

16 56.3

53.0

+ 9 7 27.5

4 15.3

9 17 49. 3

+ 93 12.2

1779"

"...

3 April 8

16 55. 6

53.0

9 7 26.9

4 15.3

17 48.6

3 11.6

1780

7 Leonis Minoris

3 April 13

17 35.2

60.4

34 36 0. 3

4 24. 4

9 18 35.6

+34 31 35.9

1781

"...

6

3 April 16

17 35. 1

60.4

34 36 0.3

4 24.6

18 35.5

31 35.7

1782

"...

6

5 April 10

17 43.5

52.3

34 35 29. 6

3 49.2

. 18 35.8

31 40.4

i:>:;

Lalande 18662 .

7

5 Mar. 21

18 12.4

48.8

22 44 41.2

:; 44. 1

9 19 1.2

+22 40 56. 8

1784

"...

7

5 April 11

18 11.7

49. 1

22 44 40. 6

3 45.8

19 0. 8

40 54. 8

1785

8 Leonis Minoris

6

5 April 10

18

36 2 37.6

3 49.7

9 19

+35 58 47. 9

1786

4 Leonis A

:! Mar. 29

19 19.9

56. 7

23 54 53.0

4 21.4

9 20 16.6

+23 50 31.6

17-7

"...

3 April 2

19 19.8

56. 8

23 54 50. 9

4 21.8

20 16.6

50 29. 1

1788

"...

3 April 4

19 2ll.li

56. 8

23 54 55. 4

4 21.9

20 16.8

55 :;:;..-,

1789*

"...

3 April 5

19 2(1. 1

56.8

23 54 54. 3

4 21.9

20 16.9

50 32.4

1790

"...

3 April 8

9 19 19.6

+ 56. 9

+23 54 5]. 3

— 4 22. 1

9 20 16.5

+23 50 29. 2

(182)

GOULD — CATALOGUE OF STARS OBSERVED BY D AOELET.

183

Mi hi equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't rS

Reduction

a

<!

h m s

s

O 1 II

/ //

h m s

0 ' a

1791

1 Leonis A

IS April II

9 19 19.,-

+ 57. 0

+23 54 53. 7

— 4 22.6

9 20 16.8

+2:1 on 01. 1

1792

"...

4.5

5 April 11

10 26.9

lo.:;

20 54 19.7

3 47.2

20 10.2

50 32.5

1793

5 Leon is £

3 I'.!', is

20 15.8

53. 4

12 14 56.3

1 18.4

0 21 0.2

+12 10 07.0

1794

0 Leonis Minoris

7

3 April Hi

211 9.9

61.3

37 26 16.4

4 27.9

0 21 11.2

+37 21 48.5

1795

"...

3 April 20

20 8. 9

61.5

37 20 22. f.

4 28.8

21 10.4

21 50.7

1796

6 Leonis h

6

3 April 5

(20)

10 39 41.0

4 18.8

9(21)

+ 10 35 22.2

1797

"...

3 April 8

20 2d. s

53. 3

10 39 38.-7

4 18.9

21 14.7

35 19. s

i 1798

0 Mar. 21

20 31.8

47. 1

15 29 20.0

3 44. 4

9 21 18.9

+15 25 30.2

1799

10 Leonis Miuoris

1.5

:i April 13

20 53.9

01.2

37 21 8.5

4 28.2

9 21 55. 1

+37 16 lo.:i

1800

"...

4.5

3 April 10

20 53.9

61.2

37 21 5.5

4 28. 5

21 55. 1

16 37.0

I8ffl

Lalande 18775 .

7

5 April 5

21 42.2

49.3

24 24 9.0

3 48.7

9 22 31.5

+24 20 20. 3

i Bl 12

"...

(i.7

5 April 10

21 42.8

■10. 3

24 24 5. 0

3 48.9

22 32. 1

20 10.1

1803

(i

6

5 April 11

21 4:1.(1

49. 4

24 24 :i. 0

3 49. 1

22 32.4

20 14.5

1804*

1 1 Leonis Minoris

3 April 13

22 36.8

CO. 0

36 47 1.5

4 29.6

9 2:i 37. 7

+36 42 31.9

1805

"...

6

3 April 16

22 36.9

00.0

36 40 58.9

4 29.9

23 07. 8

42 29.0

1806

410 Mayer . .

7

3 April 14

23 13.5

54.1

13 30 40.7

4 22.7

9 24 7. 0

+13 32 18.0

1807

"...

7

:» April 10

23 20.6

40. 8

13 36 4.3

3 10.0

24 7. 4

32 17.4

1808

Bessel, W.591 .

8. o

0 Mar. '.".1

23 19.5

54.2

15 1

4 22.4

0 21 13.7

+14 57

I SI 111

"...

8.9

3 April 5

23 10.2

54. 3

15 1

H. I

4 22.7

24 13.5

57 25.4

l-m

9

5 April 11

23 26. 0

47.1

15 1

15.7

3 47. 7

24 13.1

57 28. 0

1811

7 Leonis .

3 Mar. 29

24 2.3

54.3

15 20

18.4

4 23. 2

9 24 50. 0

+15 15 55.2

1812

"...

3 April 2

24 2.1

54.3

15 20 12.9

4 23.4

24 56.4

15 49.5

1813

it

3 April 4

24 1.8

54.4

15 20 17.0

4 23.4

24 56.2

15 53.0

1814

"...

3 April 5

24 1.7

54.4

15 20 18.0

4 23. 4

21 56. 1

15 51.0

1815

it

3 April 8

24 1.5

54.4

15 20 15.0

1 20.0

21 55. 9

15 51.4

1816*

"...

6

5 April 11

24 9.1

47.2

15 19 41.7

3 48.1

24 56.3

15 53.6

1-17

"...

6

5 Mar. 21

24 9.5

47.0

15 19 39.8

3 47.1

24 56.5

15 52.7

1818"

■ (i

7

5 Mar. 23

24 8.6

47.0

15 19 40..')

3 47. 2

24 55. 6

15 50.3

is in-

8 Leonis .

3 April 8

25 4. 1

54. 9

17 24

1.3

4 25.2

0 20 59.0

+17 19 36. 1

1820

10 Leonis

3 Feb. 18

25 46.2

52.3

7 47

53.1

4 23.4

9 20 38. 5

+ 7 43 29. 7

1821

"...

3 Feb. 26

25 46.5

52. 2

7 47

49.1

4 22.9

26 38.7

43 26. 2

1822

11 Leonis

3 April 2

26 11.4

54.3

-l.~. 19

1.3

4 25.2

9 27 5. 7

+ 15 14 36.1

1823

"...

6.7

3 April 5

26 11.8

54. 3

15 19

3.8

4 25.4

27 6. 1

14 38.4

1824*

it

3 April 14

26 11.2

54.4

15 19 7. 1

4 25.8

27 5. 6

14 41.3

1 -25

Fiazzi 133 . .

6.7

3 April 16

26 19.6

on.;,

36 12 49. 9

4 32.9

9 27 20. 1

+36 8 17.0

1826

Lalande 18921 .

7.8

5 April 5

26 37.3

40. 7

13 41 35.6

3 49.1

9 27 24. 0

+13 37 40. 5

1827

U

7

5 April 1(1

26 37.0

40. 8

13 41 28.8

3 49.4

27 24.4

37 39.4

1828

(C

6.7

5 April 11

26 37.5

46.8

13 41 30. 9

3 49.4

27 24. 3

37 41.5

1829

Piazzi ]35

0

5 Mar. 21

26 50. 5

48.2

21 15 24. 3

3 50.5

9 27 OS. 7

+21 11 33.8

1830

ti

7.8

5 Mar. 23

26 49. 3

48.2

21 15 23. 0

3 50.6

27 37.5

11 32.4

1833

Fhunsteed, B. 1359

3 April 13

26 48.7

60.4

36 18 25. 0

4 33.0

9 27 49. 1

+36 13 52.0

1-02

"...

6

3 April Hi

26 48. 9

60.5

36 18 28.4

4 33. 4

27 40.4

13 55.0

1833*

413 Mayer

7

3 April 19

27 30.8

54.2

14 10 54.0

4 20.9

9 28 20.11

+ 14 12 27. 1

l-.'.l

Lalande 18976 .

9

3 Feb. 2(1

28 30.:!

52.6

9 14 55.3

4 2.'.. 0

9 29 31.9

+ 9 10 29.7

1835

43 Lyncis . .

6.5

5 April l(i

28 40.2

53.7

40 43 43. 8

3 59. 3

0 39 00.9

+40 39 44.0

1836

Lalande 18986 .

8

5 April 5

28 5."). 8

46.7

14 1 29.7

3 51.0

9 29 42.5

+13 57 38.7

1837

41

7

5 April 11

28 55.5

46.8

14 1 23.7

3 51.3

29 42.3

57 32.4

1 -il-

13 Leonis

8

3 April 2

29 9. 0

57.2

26 53 26. 1

4 31.2

9 30 6.2

+20 48 0-1.9

ls:!!)

"...

3 April 4

29 9.7

57.2

26 53 28. 1

4 31.3

30 0. 0

48 56.8

1840

u

3 April 5

29 9. 0

57.2

26 53 28.9

4 31.3

30 6. 2

48 57. 6

]-li

13 Leonis Minoris

6

3 April 8

29 36.2

60.1

36 4 35.4

4 34.8

9 00 36.3

+36 0 0.6

1842

"...

6

3 April 13

29 36. 0

60.2

36 4 39. 1

4 35.3

00 36.2

0 3.8

l-io

"...

3 April 16

29 36.2

On.2

36 4 38.8

4 35.6

30 36. 4

0 3.2

i-il

14 Leonis o

3 Feb. 18

29 34.8

52.9

10 52 9.5

4 26.9

9 30 27.7

+10 47 42.6

1845

"...

3 Feb. 26

29

10 52 6.0

4 26.6

30

47 39.4

1846

"...

0 Mar. 29

29 35.9

53. 1

10 52 8. 5

4 26.8

30 29. 0

47 41.7

1847

"...

3 April 19

29 3.-,.:,

53. 3

10 52 7.9

4 26. 6

30 28. 8

47 41.3

1848*

"

3 April 26

29 33.4

r,o. 1

. 10 52 10.2

1 20.2

30 26. 8

47 44.0

1849

"...

3 April 28

29 31.5

:,:'.. 1

10 52 5. 3

4 28.0

30 24. 9

47 37.3

1850

ti

3 April 29

9 29 31. 0

+ 53.5

+ 10 52 12.3

— 4 26. 0

9 30 24. 5

+10 47 46.3

(18.3)

184

GOULD — CATALOGUE OF STARS OBSERVED BY D'AGELET.

Mean equinox 1800. 0

No.

Name

Mag

Date

App't a

Reduct'i

App't 6

Reduction

a

0

h in s

s

o / II

/ //

h m s

o / //

1851

14 Leoiris o

3 April 30

9 29 34. 2

+ 53.5

+ 10 52 14.4

-4 28.1

9 30 27. 7

+10 47 46. 3

1852

"...

3.4

5 April 26

29 41.8

46.3

10 51 35. 3

3 51.5

30 28. 1

47 43.8

1853

Lalande 19048 .

8

5 April 10

30 49.6

51^8

35 4 15.4

3 59.2

9 31 41.4

+35 0 16.2

1854

15 Leouis /

3 April 2

30 111. ;.

58.4

30 57 46. 1

4 32.8

9 31 47.9

+30 53 13.3

1855

Lalande 19068 .

7.8

3 April 8

31 11.0

59.9

35 42 22. 7

4 36.0

9 32 10.9

+35 37 46.7

1856"

if

9. 11

5 April 11

31 19.4

51.9

35 41 50.3

3 59.8

32 11.3

37 50.5

1657

16 Leonis ip

3 April 4

31 55.1

54.1

15 0 16. 1

4 30. 1

9 32 49. 2

+14 55 46. 0

1 858

"...

3 April 5

31 55.5

54.1

15 o 18.4

4 30.1

32 49. 6

55 48.3

L859

"...

3 April 13

31 54.8.

54.2

15 0 15.3

4 30.6

32 49. 0

55 44.7

1860*

"...

3 April 14

31 55.5

54.2

15 0 17.2

4 30.6

32 49.7

55 46.6

1861

i«

6

5 Mar. 21

32 3.8

46.7

14 59 39. 1

3 52.9

32 50.5

55 4Q.0

L862

14 Leonis Minoris

7

5 April 5

32(55)

55.2

46 6 13.7

4 3.3

9 33(50)

+46 2 10.4

1863

(t

7

5 April 10

32 55.2

55. 3

46 6 14.7

4 4.0

33 50.5

2 10.7

1864

Piazzi 163

7

:s F,l,. 26

32 56. 3

56.2

24 27 46. 7

4 31.0

9 33 52. 5

+24 23 15.7

1865

"...

7

3 April 2

32 56. 1

56.4

24 27 48. 3

4 33.5

33 52. 5

23 14.8

1866

ti

8

3 April 19

32 55. 0

56.6

24 27 :.3. 7

4 34.9

33 51.6

23 18.8

1867

17 Leonis c

3 Pel.. 18

33 31.5

56.3

24 45 111. -J

4 31.0

9 34 27. 8

+24 41 18.2

L868

"...

3 Fel.. 26

33 31.7

56.2

24 45 45. 3

1 31.4

34 27.9

41 13.9

1869

"...

3 Mar. 21

33 31.4

56. 3

24 45 50. 2

4 33. 1

34 27. 7

41 17.1

1870

"...

3 Mar. 29

33 31.7

56.4

24 45 45. 6

4 33.8

34 28. 1

41 11.8

1871

"...

3 April 2

33 31.6

56.4

24 45 49. 1

4 34.0

34 28. 0

41 15.1

1872

"...

3 April 4

33 32. 1

56. 5

24 45 51.6

4 34.2

34 28. 6

41 17.4

1873

"...

3 April 5

33 31.5

56.4

24 45 54.4

4 34.3

34 27.9

4 1 20. 1

1874

"

3 April 8

33 31.1

56.5

24 45 50.6

4 34.6

34 27.6

41 16.0

1875

"...

3 April 29

(33)

56.8

24 45 53. 7

4 36.2

(34)

41 17.5

1876

"...

3 April 30

33 31.2

56.8

24 45 52.5

4 36. 2

34 28. 0

41 16.3

1877*

"...

3 May 16

33 30. 7

56. 8

24 45 51.6

4 37.0

34 27.5

41 14.6

1878

18 Leonis

3 April 8

34 41.9

53. 5

12 47 55. 0

4 31.9

9 35 35.4

+12 43 23. 1

1879

"...

3 April 14

34 42.0

53. 6

12 47 56.6

4 32.2

35 35. 6

43 24. 4

1880

15 Leonis Minoris

6

3 April 16

34 33.2

64.2

47 1 25.2

4 43.1

9 35 37.4

+46 56 42. 1

1 — 1

Lalande 19172,3 .

6.7

3 Feb. 26

35 3.9

56.1

24 38 25. 0

4 32.4

9 36 0. 0

+24 33 52. 6

1882

"...

7

3 Mar. 21

36 3.1

56.2

24 38 32.5

4 34.3

35 59. 3

33 58. 2

1883

"...

3 April 2

35 3.3

56. 3

24 38 29.9

4 35.4

35 59.6

33 54.5

1884

"...

7.8

3 April 4

35 3. 4

56.4

24 38 30.7

4 35.5

35 59. 8

33 55. >>

1885

"...

8

3 April 5

35 3.8

56.4

24 38 32.2

4 35.5

36 0.2

33 56. 7

1886

"...

7

3 April 19

35 3. 3

56.6

24 38 31.6

4 36.7

35 59. 9

33 54. 9

1887

19 Leonis

7

3 April 8

35 44. 8

.-,3. :,

12 33 44. 8

1 32.8

9 36 38.3

+12 29 12.0

1888

"...

3 April 14

35 44.8

53.5

12 33 42.8

4 33. 1

36 38. 3

29 9. 7

1889

Bessel, W.856 -

6

5 April 11

36 27. 3

52. 2

37 44 19.8

4 4.0

9 37 19. 5

+37 40 15. 8

1890

Jolinson 2399

*

7

5 April 10

36 49.4

54.6

46 4 56.4

4 6.4

9 37 44. 0

+46 0 50. 0

1891

16 Leonis Minoris

7.8

5 April 5

37 0.0

53.0

40 37 24. 9

4 4.6

9 37 53. 0

+40 33 20. 3

1892

"...

5

5 April 26

37 0.7

53.4

40 37 29.5

4 6.8

37 54. 1

33 22. 7

11893

6

3 Feb. 26

37 42.6

56.3

25 34 42 6

4 34.8

9 38 38.9

+25 30 7.8

1894

20 Leonis

3 Mar. 29

37 41.7

55.6

22 10 53.9

4 36.5

9 38 37.3

+22 6 17.4

1 895

"...

3 April 4

37 42.8

55.6

22 10 57. 4

4 36.9

38 38.4

6 20. 5

1896

"...

3 April 13

37 40.6

55.7

22 10 54. 1

4 37.5

38 36. 3

6 16.6

1897

Piazzi 183 . .

7.8

3 April 8

37 49.8

56.5

2:. 33 44. 9

4 38. 4

9 38 46. 3

+25 29 6. 5

1898*

"...

8

3 April 19

37 50.8

56.7

25 33 46. 3

4 39.3

38 47. 5

29 7.0

1899

21 Leouis

6

3 Feb. 26

39 9.8

53. 2

12 :.o 41.2

4 34.7

9 40 3. 0

+12 46 9. 5

1900*

17 Leonis Minoris

6.7

3 April 16

39 9.5

60.6

38 55 30.9

4 44. 3

9 40 10. 1

+38 50 46. 6

1901

n

6.7

5 April 11

39 18.7

52.4

■ 38 54 52. 1

4 6.4

40 11.1

50 45.7

1902

23 Leonis

3 April 14

39 17.9

53.8

J4 4 16.8

4 36. 3

9 40 11.7

+13 59 40.5

1903

22 Leonis g

3 April 2

39 34. 1

56.3

25 24 46. 6

4 39.1

9 40 30.4

+25 20 7. 5

1904

"...

8.9

3 April 5

39 33. 6

56.4

25 24 50.7

4 39.3

40 30.0

20 11.4

1905

"...

3 April 8

39 33. 0

56. 4

25 24 47. 7

4 39.6

40 29. 4

20 8. 1

1906

"...

6.5

3 April 19

39 33.7

56. 6

25 24 53,. 9

4 40.5

40 30.3

20 13.4

19117

"...

6

5 April 5

39 41.2

48. 9

25 24 11.9

4 2.0

40 30. 1

20 9.9

1908*

"...

6.5

5 April 10

39 41.2

48. 9

25 24 10.4

4 2.4

40 30. 1

20 8.0

1909

"...

6

5 April 26

39 41.2

49.1

■ 25 24 13. 1

4 3.7

40 30.3

20 9. 4

1910*

24 Leonis //

3 Feb. 18

9 40 24. 7

+ 56.6

+27 1 7. 1

— 4 36. 6

9 41 21.3 +26 56 30.5

(184)

GOULD CATALOGUE OF STARS OBSERVED I!Y D AGELET.

185

Mean equinox 1800. 0

No.

Name

M : i •; .

Date

A |ip'l ii

Reduct'n

App't 6

Reduction

a

&

It m s

s

0 ' //

/ //

k m s

Q 1 II

1911

•24 Leonis ft

3 Mar. -.'I

9 4n 24.7

+ 56.6

+27 1 11.8

— 4 39. 1

9 41 21.3

+20 50 32.7

1912

"...

3 Mar. 29

40 25.1

50.7

27 1 8. 7

4 39.9

41 21.8

50, 28.8

1913

"...

3 April 2

40 24.9

56.7

27 1 12.5

4 40.3

41 21.0

56 32.2

1914

it

3 April 4

40 25.0

50. S

27 1 11.7

4 40.4

41 21.8

50 31.3

1915

"

3 April 26

40 24.2

57.11

27 1 15.il

4 42.3

41 21.2

50 32.7

1916

"

3 April 38

(410

57. 0

27 1 10.9

4 42.5

(41)

50 28.4

1917*

"...

3 April 29

40 24.9

57.0

27 1 14. 1

4 42.6

41 21.9

50 31.5

1918

"...

3 April 30

4(1 24.8

57.1

27 1 14.6

4 42.6

41 21.9

56 32.0

1919

tt

3 May 2

40 24.7

57. 1

27 1 13.4

4 42.7

41 2L8

50 30.7

1920

Lalande 19377 !

8

5 April 11

42 31.0

46. 0

11 15 33.8

4 0.1

9 43 17.0

+11 11 33.7

1921

423'Mayer . .

7.8

3 April 14

42 37.4

52.6

9 5 20.8

4 37.5

9 43 30.0

+ 90 43. 3

1922

t i

8. 9

3 April 19

42 38.0

52. 7

9 5 2ii. !

4 37.6

43 30.7

0 42. 8

1923

Lalande 19386 .

8. 9

3 Mar. 29

42 47.9

56.2

25 39 36.0

4 41.4

9 43 11. 1

+25 34 54.0

1924

18 Leonis Minoris

6

3 April 26

43 46.5

58.6

33 24 21.4

4 47. 1

9 44 45. 1

+:;:; 19 34.3

1925

"...

6

3 April 28

43 46.7

58. 7

33 24 18. 6

4 47.3

44 45.4

19 31.3

1926

Piazzi 208 . .

7

5 April II

44 34.7

45.4

8 41 9. 5

4 0.7

9 45 20.1

+ 8 37 8. 8

1927

19 Leonis Minoris

3 April 26

(41)

61.4

42 4 58.8

4 50. 4

9(45)

+42 0 8.4

1 928

"...

5. 6

3 April 29

44 22.0

61.5

42 4 57.3

4 50.7

45 23.5

0 0. 6

1929*

Lalande 19442 .

8.9

3 Feb. 18

44 51.4

53.8

15 45 7.2

4 39.4

9 45 45.2

+15 40 27.8

1930

"...

7.8

3 April 16

44 50. 1

54. 0

15 45 12. 4

4 41.3

45 44. 1

40 31.1

1931

10 Sextantis .

6.7

3 April 14

44 56.0

52.8

9 57 6. 3

4 39.5

9 45 48.8

+ 9 52 20. s

1932

"...

8

3 April 19

44 56.5

52.8

9 57 6.5

4 39.8

45 49.3

52 20. 7

1933

Lalande 19476,8

3 April 12

45 40.1

55. 2

21 11 49.0

4 43.5

9 46 35. 3

+21 7 5. 5

1934

26 Leonis

6.7

3 April 13

46 23.6

54.1

16 14 50.0

4 42.4

9 47 17.7

+16 10 8.5

1935

27 Leonis v

3 Mar. 29

46 34.3

53.3

13 28 17.1

4 41.1

9 47 27.0

+13 23 30.0

1936

"

3 April 2

46 33.9

53. 'A

13 28 12.2

4 41.2

47 27.2

23 31.0

1937

"...

3 April 5

46 34.2

53. 4

13 28 19.2

4 41.4

47 27.6

23 37. 8

1938

"...

3 April S

46 33.5

53.4

13 28 10.9

4 41.5

47 26.9

23 29. 4

1939

"...

3 April 14

46 33. 6

53.5

13 28 17.::

4 41.8

47 27. 1

23 35. 5

1940

"

3 April 30

46 33. 4

53.7

-13 28 17.5

4 42.7

47 27. 1

23 34.8

1941

11 Sextantis . .

6

5 April 10

46 45. 4

45.5

9 19 10.2

4 2.3

9 47 30.9

+ 9 15 43.9

1942

i<

7

5 April 11

46 45.3

45. 5

9 19 40. :;

4 2.4

47 30.8

15 43. 9

1943

Lalande 19515 .

7.8

3 Feb. 26

47 3. 7

52.9

ii 59 :;. 7

4 40.7

9 47 50. 6

+11 54 23.0

1944

"...

9

3 April 19

47 3.8

53.2

11 59 2.6

4 42. 1

47 57.0

54 20.5

1945

29 Leonis it

3 Feb. is

48 45. 3

52.3

9 4 33.5

4 42.1

9 49 37.6

+ 8 59 51.4

1946*

"...

3 Mar. 29

(48)

9 4 36.7

4 41.6

(49)

59 55. 1

1947*

Cf

3 April 2

48 45. 5

52.4

9 4 ::::. o

4 41.8

49 37.9

59 51.8

1948

"...

3 April 5

48 45. 3

52.4

9 4 35.9

4 41.8

49 :!7. 7

59 54. 1

1949

fl

3 April 8

48 45. 2

52. 4

9 4 36.0

4 41.9

49 37.6

59 54. 1

1950

"...

3 April 14

48 45. 3

52.5

9 4 34.8

. 4 42. 1

49 37.8

59 52. 7

»

1951

tt

3 April 16

48 44.6

52. 5

9 4 35. 1

4 42.2

49 37. 1

59 52.9

1952

** . . .

3 April 28

48 45. 3

52. 7

9 1 29.5

4 42.7

49 38.0

59 40. 8

1953

"...

3 April 29

48 45. 2

52. 7

9 4 31.0

4 42.8

49 37.9

59 48. 8

1954

"...

3 April 30

48 45. 1

52. 7

9 4 33.3

4 42.8

49 37.8

59 50. 5

1955

tt

3 May 2

48 44.7

52. 7

■ 9 4 33.7

4 4:!. 0

49 37.4

59 50. 7

1956

"...

4

5 April 10

(48)

15. 4

9 3 50.7

4 3.5

(49)

59 5:i. 2

1957

"...

6.5

5 April 11

48 52. 4

45.4

9 3 55. 6

4 3.7

49 37.8

59 51.9

195S

(t

4

5 April 26

48 52.4

45.6

9 3 59.9

4 4.3

49 38. 0

59 55. 6

1959*

15 (Hev.) Leonis

3 April 12

50 42.7

55. 4

22 59 15.2

4 37.7

9 51 ::-. 1

+22 54 37.5

I960

ti

6.7

5 April 11

50 50. 1

48.0

22 58 35. 8

4 9.1

51 38. 1

54 26.7

1961

Flamsteed, B.1422

9.1(1

3 April 4

51 49.0

52.4

9 16 7.5

4 44.2

9 52 41.4

+ 9 11 23. 3

1962

"...

8.9

.1 April 8

51 48.0

52. 4

9 10 9.2

4 44.2

52 40. 4

11 28.0

1963

tf

9

3 April 19

51 48.4

52. 6

9 16 9.4

4 44.6

52 41.0

11 24.8

1964

Lalande 19635 .

9

3 April 2

51 57.9

54.6

19 59 43. 0

4 47.0

9 52 52. 5

+19 54 56. 0

1965

428 .Mayer . .

3 April 5

52 2. 5

52. 7

+ 10 56

4 44.8

9 52 55. 2

+ 10 51

1966*

"...

7

5 April 10

.52 8. 1

45.7

10 55 47.!!

4 6.3

52 5::. 8

51 41.0

U967

8

3 April 14

52 9. 5

48.8

— 94 25. 9

4 39.7

9 52 58. 3

— 99 5. o

1968

429 Mayer . .

8

3 April 30

52 31.8

53.4

+ 12 40 6.8

4 46.9

9 53 25.2

+12 35 ](). ()

1969

" " .

7

5 April 26

52 38.0

46.2

12 :v.) 37.6

4 8.0

53 21.2

35 2g (;

1970*

430 Mayer . .

9

3 April 14

9 53 36.9

+ 52. 4

+ 9 1 59. 4

— 4 45.7

9 54 29. 3

+ 8 57 I-,.' 7

24

(185)

186

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't <!

Reduction

a

c!

h m s

s

o / //

/ //

h m s

o ' /'

1971

430 Mayer . .

7

5 Mar. 23

9 53 43. 8

-f- 45.2

+ 9 1 22.2

— 4 6.3

9 54 29.0

-f- 8 57 15. 9

197-2*

431 Mayer . .

7

3 Mar. 29

53 56. 1

53.8

10 48 15.6

4 47.3

9 54 49. 9

+16 43 28. :;

1971?

"...

7

3 April 2

53 54. 9

53.8

16 48 11.5

4 47.6

54 48.7

43 23. 9

1974

"...

3 April 4

53 55. 0

53. 9

Hi 48 10.6

4 47.6

54 48.9

43 23. 0

1975

. i

7.6

3 April 13

53 54.4

54.0

16 48 15.8

4 48.4

54 48. 4

43 27. 4

1976

"...

7.8

3 April 16

53 54.5

54.0

16 48 16.9

4 48.5

54 48.5

43 26. 4

1977

"

7.6

5 April 11

54 2. 4

40. 7

16 47 32.4

4 9.2

54 49. 1

43 23. 2

1978

21 Leonis Minoris

3 April 26

54 36.2

58.8

36 17 46.6

4 56. 1

9 55 35.0

+36 12 50.5

1979

"...

3 April 26

54 36.4

58. 9

36 17 42. 1

4 56.2

55 35. 3

12 4.',. !i

1980

L

5

3 April 29

54 36.6

58.9

36 17 44. 1

4 56. 3

55 35. 5

12 47.8

HVl

Lalaiule 19724 .

8

3 April 19

54 58.2

53.4

13 49 57.9

4 4^.4

9 55 51.6

+13 45 9. 5

1982

"...

8

5 April 26

55 5.1

46.4

13 49 17.5

4 9. 9

55 51.5

45 7.0

1983*

30 Leonis 7/

3 Feb. 18

55 30. 2

53. 9

17 48 45.5

4 47.3

9 50 24. 1

+17 43 58.2

1 984

"■ . . .

3 Feb. 26

55 30.7

53. 9

17 48 44.8

4 47.2

56 24.6

43 57. 6

1985

"...

3 Mar. 29

55 30.9

54.0

V 48 43.9

4 48.7

56 24. 9

43 55. 2

1966

"...

3 April 2

55 3O.0

54.0

17 48 44.8

4 48.8

56 24. 6

43 50.0

1987

"...

3 April 4

55 30.8

54.0

17 48 46. 1

4 49.0

56 24. 8

43 57. 1

] 968

"...

3 April 5

55 30. 8

54.0

17 48 45.4

4 49. 1

56 24. 8

43 56. ::

1989

"...

3 April 8

55 30. 1

54. 1

17 48 42.8

4 49.3

56 24. 2

43 53.5

1990

"...

3 April 14

55 30.0

54.1

17 48 45.7

4 49.7

56 24. 1

43 56. 0

1991*

"...

3 April 26

55 29. 6

54.3

17 48 44. 4

4 50.6

56 23.9

43 53. 8

1992

"...

3 April 28

55 30.3

54. 3

17 48 40.9

4 50. 8

56 24.6

43 50. 1

1993*

"...

3 April 29

55 30. 1

54. :;

17 48 46.0

4 50.9

56 24. 4

43 55. 1

1994

"...

3 April 30

55 30. 1

54.3

17 48 47. 9

4 51.0

56 24. 4

43 50. 9

1995*

"...

3 May 2

55 30.4

54.4

17 48 47.0

4 50.9

56 24. 8

43 56. 1

1996

"...

3 May 9

55 29. 8

54.4

17 48 44. 1

4 51.4

56 24. 2

43 52.7

1997

"...

3.4

5 April 11

55 37.2

46. 9

17 48 5.9

4 10.5

56 24. 1

43 55. 4

1998

"...

3.4

5 Mar. 23

55 37. 1

46.7

17 48 5.4

4 9. 4

56 23. 8

43 56.0

1999*

Lalande 19749 .

8.9

3 April 4

56 39.7

53. 1

13 (3)

9 57 32. 8

+ 12(5,- )

2000

Regulus .

3 Feb. 18-

56 49.6

52. 9

13 1 6. 8

4 48.1

9 57 42.5

+12 56 18. 7

2001

"...

3 Feb. 26

56 49. 7

52. 9

13 1 8.7

4 47.9

57 42.6

56 20.8

2002

"...

3 Mar. 21

56 49. 1

52.9

13 1 8. 0

4 48.0

57 42.0

56 20. 0

2003

"...

3 Mar. 29

50 50. 8

53. 0

13 1 8.2

4 48.4

57 43.8

56 19.8

2004

"...

3 April 2

56 49.5

53.0

13 1 4.5

4 48.5

57 42. 5

56 10.0

2005

"...

3 April 4

56 49. 9

53.1

13 1 6.7

4 48. (i

57 43.0

56 18. 1

2006

"...

3 April 5

56 49.6

53.1

13 1 9.9

4 48.7

57 42.7

56 21.2

•2007

"...

3 April 8

56 49. 1

53. 1

13 1 7.9

4 48.9

57 42.2

56 19.0

2008*

"...

3 April 12

56 49.8

53.1

13 1 7. 5

4 49. 1

57 42.9

50 18.4

2009

"...

3 April 13

56 49. 4

53.1

13 1 6.8

4 49.1

57 42.5

56 17.7

2010

"

3 April 14

56 49. 4

53.1

13 1 10.6

4 49.2

57 42.5

56 21.4

2011

"...

3 April 16

56 49.8

53.1

13 I 8.6

4 49.3

57 42.9

"56 19.3

2012

"...

3 April 20

56 50. 0

53.3

13 1 7.4

4 49.9

57 43. 3

56 17.5

2013

"

3 April 28

56 49. 5

53. 3

13 1 3.8

4 50.0

57 42. 8

56 13.8

2014

"...

:', April 29

56 49. 5

53.3

13 1 9. 4

4 50.0

57 42.8

56 19.4

2015

"...

3 April 30

56 49. 4

53. 3

13 1 9. :;

4 50.1

57 42.7

56 19.2

2010

"...

3 May 2

56 49. 3

53. 3

13 1 10.3

4 50.2

57 42.6

56 20. 1

2017

"...

3 May 3

56 49. 5

53. 3

13 1 9.8

4 50.3

57 42.8

56 19.5

2018

"

3 May 9

56 49. 2

53.4

13 1 8.2

4 50.6

57 42.6

56 17.6

2019*

"...

1

3 May 16

56 49. 5

53.5

- 13 1 7.0

4 51.0

57 43. 0

56 10.0

2020

" . . .

1

3 July 10

56 49.2

53.9

13 1 13.4

4 53.0

57 43. 1

56 20.4

2021

»

4 June 16

56 52. 3

50.2

13 0 51.5

4 26.0

57 42.5

56 25. 5

2022*

(i

4 Sept. 26

56 53.0

49.7

13 0 50.0

4 30. 1

57 42.7

56 19.9

202::

"...

1

5 A] nil 5

56 56. 8

45. 9

13 0 28.7

4 9.7

57 42.7

50 19.0

2021

"...

1

5 April 10

56 50. 7

46.0

13 0 29.6

4 10.0

57 42.7

56 19.6

21 (25

tt

1

5 April 11

56 56. 8

46.0

13 0 28.5

4 10.0

57 42.8

56 1^.5

2026

"...

1

5 April 26

56 56. 2

46.2

13 0 32.3

4 10.7

57 42. 4

50 21. 0

2027

Bessel, W.1316,7

7.8

5 Mar. 23

57 28.6

47.3

21 22 40. 3

4 11.2

9 58 15. 9

+21 L8 29. 1

2028

435 Mayer .

5 April 11

58

10 38 10.6

4 9. 8

9 59

+ 10 31 0.8

2029

33 Leonis

7

:', April 2

58 58. 9

53.7

16 46 1.2

4 51. 1

9 59 52. 6

+ 16 41 10.1

2030

Lalande 19808 .

7.8

5 Mar. 23

9 59 15.2

+ 47.3

+21 45 11.5

— 4 12. 4

10 0 2. 5

+21 40 59.1

(186)

GOULP-

—CATALOGUE OF STARS OBSERVED BY I) AGELET.

187

Mean equinox 1800. 0

No.

NaiiK'

Mag.

Date

App't a

teduct'n

App't (5

Reduction

a

6

h m s

s

o ' "

/ //

It m a

O 1 II

2031

Lalande 19808

7.6

5 April 26

9 59 14.8

+ 47.7

+•21 45 15.6

— 4 15.0

111 n 2.5

+21 41 0.0

2032

34 Leonis . .

7

3 Feb. 26

59 58.9

53. 1

14 25 1.7

4 50. 1

ID H 52.0

+ 14 '20 11.6

2033

"...

7.8

3 April '2

59 59. 0

53. '2

14 25 0.5

4 51.2

(I 5'2.2

20 9. 3

2034

" ...

7

3 April 4

59 59. 0

53.2

14 25 1.2

4 53.3

(l 1V2.-2

•20 9. 9

2035

"...

3 April 5

59 58. 8

53.2

14 25 6.0

4 51.3

0 52. 0

20 14.7

2036'

"

3 April 8

59 58. 5

53. '2

14 25 0. 1

4 51.5

n 51.7

20 8.6

2037*

" . • .

3 April 14

59 58. 4

53.3

14 25 5. 2

4 51.8

(1 51.7

20 13.4

2038

"...

7

3 April 16

59 58. 5

53.3

14 25 5.3

4 51.9

n 51.8

20 13.4

2039

"...

7.8

3 April 29

9 59 58.3

53.5

+14 '25 5. 0

4 52.8

i) 51.8

20 12.2

•JiMd

18 Sextantis .

3 Feb. 18

10 u in. ii

49.0

— 7 21 20. 8

4 50.5

10 U 59.0

— 7 26 11.3

2041

Lalande 19837 .

7

5 April 10

I) 3(1. 0

48.9

+29 17 42. 1

4 16.7

10 1 19.5

+29 13 25.4

2042

"

7

5 April 11

(1 311. 2

48.9

29 17 43.9

4 16.8

1 19.1

13 27.1

•jm:!

Lalande 19865 .

6.7

5 April 5

1 41.2

48.5

28 11 34.0

4 16.6

10 2 '29.7

+28 7 17.4

21 ' 1 1

" . .

6.7

5 April 10

1 4-2.(1

48.6

28 11 29.5

4 17. 1

•2 30.6

7 12.4

2045

437 Mayer

7

3 April 19

2 33.2

54.8

22 14 28.4

4 56.3

10 3 28. 0

+22 9 32. 1

2046

" _

7

5 Mar. '23

•2 40.7

47.3

22 13 49.4

4 14.5

3 28.0

9 34.9

2047

"

7

5 April 11

•2 411. '2

47.4

22 13 47.8

4 16.0

3 '27. 6

9 31.8

2048

■22 Leonis Minoris

3 April 26

2 37.7

57.3

32 3-2 18.8

5 0.4

10 3 35.0

+32 27 18. 4

•21 Mil

"...

6.7

3 April 28

'2 38. 8

57.3

32 32 16.9

5 0. 6

3 36. 1

27 16.3

2050

438 Mayer .

3 Feb. 26

•2 46.2

53. 6

17 12 21.3

4 52.2

10 3,39.8

+17 7 29. 1

2051

"...

7

3 Mar. 29

2 46.7

53.6

17 12 26.2

4 54.5

3 40.3

7 31.7

2052

K

7.8

3 April 2

•2 46.5

53. 6

17 12 22.6

4 53.7

3 40. 1

7 28.9

2053

"...

8

3 April 14

2 46. 1

53. 8

17 12 25.4

4 54.5

3 39.9

7 30.9

2054

ti

8

3 April 16

2 46.4

53.8

17 12 25. 4

1 54.7

3 4(1.2

7 30.7

2055

23 Leonis Minoris

3 April 26

3 53. 8

56.7

30 23 9. 3

5 0. 5

10 4 50.5

+30 18 8.8

2056

"...

5.6

3 April 28

3 54.3

56.7

30 23 3. 9

5 0. 6

4 51.0

18 3.3

21 157

33 Ursa? Majoris 2

3 April 8

3 59.0

60.1

43 59 28. 0

5 2.4

10 4 59. 1

+43 54 25. 6

2058

"

3 April 13

3 58.7

60.2

43 59 29. 4

5 3.1

4 58. 9

54 26. 3

2059

1 1

3 April 30

3 59. 0

60.5

43 59 33. 3

5 5.2

4 59.5

54 28. 1

2060

'24 Leonis Minoris

6

3 April 28

(4)

29 45 39.5

5 0.7

111 (.-,)

+29 40 38. 8

2061

"...

7.8

5 "April 5

4 17.0

48.7

29 45 5. 9

4 18.5

5 5.7

40 47.4

2062

"...

7

5 April lb

4 17.0

48.8

29 45 5.4

4 19.0

5 5.8

40 46.4

2063

439 Mayer . .

8

3 April 14

4 '27.5

54.0

18 48 45.5

4 56.1

10 5 '2I.:>

+18 43 49. 4

2064

"...

3 April 19

4 26.8

54.1

18 48 47.6

4 56.5

5 20.9

43 51. 1

-:r{-,:,

"...

6

5 April -2(i

4 34.2

47.11

18 48 7.7

4 17. 2

5 '21. '2

43 50.5

2066

35 Leonis

7

3 Feb. 26

4 30.7

55. 0

24 34

10 5 25.7

+24 29

2067

"...

:: April 4

4 31.0

55.1

24 34 26. 5

4 57.0

5 26.1

29 -29.5

2068

"...

3 April 5

4 31.4

55.1

24 34 23. 3

4 ;.7. 1

5 26.5

29 26. 2

2069

it

3 April 29

4 30.8

."». 4

24 34 28.0

4 59.2

5 26. 2

29 28. 8

2070

3G Leonis f

3 Feb. 26

4 37.0

54.9

24 29 24. 9

4 54.0

10 5 31.9

+24 24 30.9

2071

"...

3 Mar. 29

4 37.5

55.0

24 29 26. 1

4 56.4

5 3-2.5

24 29.7

•2117-2

"...

3 April 2

4 36.8

55. 0

■24 29 24. 3

4 56.8

5 31.8

24 27.5

2073

". .

3 April 4

4 36.9

55.1

•24 29 26. 5

4 57. 0

5 32.0

•24 '29.5

•21174

1 .

3 April 5

4 37.5

55. 1

24 29 30. 3

4 57.0

5 32. 6

24 33.3

2075

" . . .

3 April 29

4 36.5

55.4

24 29 31.1

4 59.3

5 31.9

24 31.8

2076

"...

3 May 3

4 36.9

55.4

24 29 28. 8

4 59.5

5 3-2.3

24 29. 3

2077

"...

3 Mav 16

4 36.4

55. li

24 29 29. 0

5 U.3

5 32.(1

•24 28.7

2078

37 Leonis

3 April 12

5 2.5

53. 2

14 48 6.5

4 55. 3

10 5 55.7

+14 43 11.2

2079

39 Leonis

3 April 8

5 17.5

55.0

24 11 14.5

4 57.7

10 6 12.5

+24 0 16.8

2080

"...

3 April 16

5 18.3

55. 1

24 11 16.8

4 58.4

6 13.4

0 18.4

2081*

"...

6.7

5 Mar. 23

5 25.1

47.5

24 10 35.8

4 10.4

6 12.6

6 19.4

2082

Lalande 19973-5

8

3 April 12

5 51.7

54.4

21 5 15.2

4 57.6

10 6 46. 1

+21 0 17.6

2083

Bessel, W.201 .

7

3 April 20

5 55.9

56. 1

28 29 35. 6

5 1.2

10 6 52.0

+28 24 34. 4

2084

"...

7

5 April 5

6 3.8

48. 4

28 28 53. 4

4 19.1

6 5-2.2

24 34. 3

2085

"...

7

5 April 10

6 5.1

46.4

26 28 54. 4

4 19.6

6 53.5

24 34.8

2086

" . . .

7

5 April 11

6 3.9

48.4

+28 28 53. 5

4 19.7

6 5'2. 3

24 33.8

•2i i-7

22 Sextantis . .

3 Feb. 18

6 52.9

49.2

— 6 59 30.4

1 55. 1

10 7 42. 1

— 7 4 25. 5

2088

441 Mayer

3 April 14

6 49.9

53. (I

+ 13 42 0.6

4 56.2

10 7 42.9

+13 37 4. 4

2089

"

7.8

5 April 26

(6)

13 41 -27.3

4 16.8

(7)

37 B. :>

21.90

In 1 nis

:; April 8

III 7 55.3

+ 54.2

+20 33 53. 2

— 4 58. 1

10 8 49.5

+20 28 54. 8

(187)

188

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't <5

Reduction

a

d

h m s

s

Q 1 II

/ //

I m s

O ' It

2091

40 Leonis

3 April

12

10 7 55.7

+ 54.2

+20 33 47. 2

— 4 58. 8

10

8 49.9

+20 28 48. 4

2092

"...

7

5 April

11

8 2.3

47.0

211 33 9.4

4 18.5

8 49.3

28 50. 9

2093

41 Lennis y

3 Feb.

26

8 1.2

54.1

2H 55 51.3

4 55.8

10

8 55.3

+20 50 55. 5

2094

"...

3 Mar.

29

8 1.1

54.2

20 55 53. 6

4 57.8

8 55. 3

50 55. 8

2095

II

3 April

2

8 1.0

54. 2

20 55 49.5

4 58.0

8 55. 2

50 51.5

2096*

If

3 April

4

8 1.1

54.2

•ill 55 51.5

4 58.2

8 55.3

50 53. 3

2097

"...

3 April

5

8 1.1

54.2

20 55 56.4

4 58.3

8 55.3

50 5-. 1

2098

"...

3 April

13

8 0. 8

54.3

20 55 48. 0

4 58.9

8 55.1

50 40. 1

2099

It

3 April

16

8 0.7

54.4

20 55 52. 3

4 59.2

8 55.1

50 53. 1

2100

1 t

3 April

19

8 0.8

54.4

20 55 53. 7

4 59.5

8 55.2

50 54.2

2)01

.1

3 April 29

8 0.6

54.5

20 55 54. 1

5 0.2

8 55.1

50 53. 9

2102

"...

3 May

3

8 0.9

54.6

20 55 53.3

5 0. 0

8 55.5

5(1 52.7

2103

"...

3 May

9

8 0.2

54.6

20 55 53. 4

5 1.0

8 54.8

50 52. 4

2104*

"...

3 May

16

8 0.7

54.7

20 55 52. 1

5 1.3

8 55.4

50 50.8

2105

"...

3

5 Mar.

23

8 8.0

46.9

20 55 14. 9

4 17.2

8 54.9

50 57.7

2106

25 Leonis Minoris

3 April

26

8 1.4

59.7

42 56 4. 2

5 7.1

10

9 1.1

+42 50 57. 1

2107

" . . .

3 April

28

8 2.2

59.8

42 55 59. 7

5 7.3

9 2.0

50 52. 4

2108

Anouyma

8

5 April

5

8 36.6

48.9

31 44 7.6

4 21.4

10

'.) 25. 5

+31 39 46.2

2109

"...

7.8

5 April

10

8 36. 9

49.0

31 44 7.3

4 22. 0

0 25. 0

39 45. 3

2110

Lalande 20057,8

7

3 April

12

8 57.0

54.2

20 37 17. 3

4 59.4

10

9 51.2

+20 32 17. 9

2111

"...

8.9

5 April

11

9 3.S

46. 9

20 36 39. 1

4 19.1

9 50.7

32 20. 0

2112

1433 Bradley' '.

0.5

3 April

28

9 14.7

59. 6

42 19 33.2

5 7.3

10

111 14.3

+42 14 25.li

2113

34 Ursa- Maj. /i

3 April

2-

9 22. 4

59.6

42 35 8. 2

5 8.1

10

10 22.0

+42 30 ii. 1

2114

42 Leonis

7

3 Feb.

26

10 11.0

53. 1

16 3 37. 3

4 56.0

10

11 4.1

+15 58 4(1.4

2115

"...

3 Mar.

29

in 11. 1

53. 2

16 3 45.3

4 58.0

11 4.3

58 47. 3

2116*

"...

3 April

3

10 10.8

53.2

16 3 39. 3

4 58.2

11 4.0

58 4 1 . 0

2117

"...

3 April

4

10 10.7

53. 2

16 3 41.3

4 58.3

11 3.9

58 43. 0

2118

"...

3 April

5

10 in. 7

53. 2

16 3 45.2

4 58.4

1 1 3. 0

58 46.8

2119

it

6

3 May

2

10 10.2

53. ;>

16 3 43.6

5 0. 2

11 3. 7

58 43. 4

2120

i<

7

5 Mar.

23

10 18.3

46.il

16 3 4. 6

4 17.4

11 4.3

58 47.2

2121

26 Leonis Minoris

7.8

5 April

5

10 38.0

49.7

36 17 49.2

4 23.7

10

11 27.7

+36 13 25.5

2122

tt

8

5 April

10

in 38.1

49.8

36 17 49.6

4 24.4

11 27.0

13 25.2

2123

"...

7

5 April

11

10 37.9

40. 8

36 17 47.6

4 24. 5

11 27.7

13 23.1

2124

"...

7

5 April

26

10 38.3

50.0

36 17 46.9

4 26. 3

11 28.3

13 211.6

2125

27 Leouis Minoris

6

3 April

8

10 34.9

57.1

34 59 40. 8

5 4.0

10

11 32.ii

+34 54 45. 8

2126

'•15 Mayor . .

7.8

3 April

14

10 48. 4

52.3

10 2 56.0

4 57.6

.10

11 40.7

+ 9 57 58.4

•.'127

"...

:; April

19

10 48.0

52.3

10 2 57. 7

4 57.9

11 40.3

57 50. -

2128

43 Loonis

7

3 April

4

II 4H.6

51.7

7 38 9.7

4 57.2

10

12 32.3

+ 7 33 12.5

2129

"...

6

3 April

29

11 39.6

52. (1

7 38 9.7

4 58.2

12 31.6

33 11.5

2130

28 Leonis Minoris

6

3 April

8

11 39.4

57.11

34 48 34. 1

5 4.7

10

12 36. 4

+34 43 29. 4

2131

"...

3 April

13

11 38.9

57.0

34 48 35.9

5 5.3

12 35. 9

43 30. 6

2132

"...

3 April

Hi

11 40.0

57.1

34 48 43. 2

5 5. 6

12 37. 1

43 37.6

2133

tt

6.5

5 April

26

11 47.4

49.6

34 47 50.0

4 26. 4

12 37.0

43 3:;. 5

2134

446 Mayer

7.8

3 Mar.

20

12 52.4

52. 4

11 41) 45. 1

4 58.7

10

13 44.8

+ 11 35 46.4

2135

"...

3 .April

19

12 51.2

52.6

11 40 4H.5

4 50.7

13 43. 8

35 40. 8

2136

29 Loonis Minoris

3 April

26

13 12.9

57. 6

36 31 20.9

5 8.3

10

14 10.5

+36 26 21.6

2137

1 1

3 April

27

13 13.2

57.6

36 31 27.4

5 8._4

14 10.8

26 10.11

2138

"...

7

5 April

5

13 2H.2

49.6

36 30 49.7

4 25.1

14 9.8

26 24. 6

2139

"...

7

5 April

10

13 211.3

49. 7

36 30 48.8

4 25.7

14 10.0

26 23. 1

214(1

"...

6.7

5 April

11

13 20.5

49. 7

36 30 46. 8

4 25. s

14 10.2

26 21.0

2141

Lalande 20178 .

7

3 April 28

13 17.0

56. 0

33 51 22.9

5 7.7

10

14 13.0

+33 46 15.2

2142

"...

7.8

5 April

26

13 21.7

49. :;

:::; 50 47.0

4 27.0

14 14.0

46 20.0

2143

30 Loonis Minoris

4.5

3 April

8

13 27.2

56. 0

34 53 39.8

5 5.7

10

14 24. 1

+34 48 34. 1

2144*

tt

5

3 April

13

13 27.4

57.11

:;i 5:; 39.2

5 6.4

14 24.4

48 32. -

2145

"...

6

3 April

16

13 27.6

57. 0

34 53 44. 3

5 6.8

14 24.6

48 37. 5

2146

1 1

3 April

30

13 27. 5

57.2

34 53 43.6

5 8.4

14 24.7

48 35.2

2147

11 Loonis

6.7

:•> Fob.

26

13 50.0

52.0

9 52 49. 5

4 58. 9

10

14 42.0

+ 9 47 50.6

21 18

"...

3 April

2

13 49.6

52. 1

9 52 43. 0

4 59. 0

14 41.7

47 44.(1

2140

"...

3 April

3

13 40.7

52. 1

9 52 in. i

4 59.0

14 41.8

47 41.4

2 1511

"...

3 April

4

10 13 40.4

+ 52. 1

-f '.< 52 47.6

— 4 50.ii

10

14 41.5

+ 9 47 48.6

(188)

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

189

Mian equinox 1800. 0

No.

Name

Mag.

Pali

App't a

Reduct'n

App'l 6

Reduction

a

<S

h m s

s

C ' //

/ //

U in s

o ' II

215]

44 Leonis

3

April

5

10 13 49.8

+ 52. 1

+ 9 52 49. 5

— 4 59. 0

10 11 41.9

+ 9 47 50.5

"...

::

April

14

13 50.2

52.2

9 52 48. 6

4 59.5

14 42.4

47 49. 1

2153"

"...

3

April

2r,

13 40.0

52.3

9 52 42.0

5 0.8

11 41.3

47 41.3

2154

"...

3

April

29

13 48.5

52.3

9 52 43. 1

5 0.3

14 40.8

47 42. 8

2155

ti

3

May

2

13 48.9

52. 1

9 52 40. 9

5 0.4

14 41.:;

47 10.5

2156

Piazzi (17 .

0.7

3

Feb.

26

14 lo.r.

52. 0

9 52 8. 7

4 59. 1

10 15 2.5

+ 9 47 9.6

2157

"...

8. 9

3

April

2

1 1 0. 1

52. 0

9 52 5. 2

4 59.2

15 1.1

47 0. 0

2158

«i

8. 9

::

April

3

14 10.7

52. 1

9 52 3. 4

4 59.2

15 2.8

47 1. 2

2159

CI

7.S

3

April 29

14 9.0

52. 3

+ 9 52

15 1.3

17

2 l'CO

1449 Bradley" 1

7.8

3

Feb.

18

15 20. 1

49.0

— 5 19 49.6

5 0. 0

10 16 15.7

— 5 24 50. 2

2161

"

7

3

April

11)

15 25.5

49.7

— 5 19 50. 0

4 55.4

10 15.2

24 45.4

2162

31 Leonis Minoris

3

April 20

15 18. 1

57.7

+37 48 50.2

5 10.0

10 10 15.8

+37 43 40.2

2163

"...

6.5

3

April

30

15 18.8

57.8

37 48 52.5

5 lo.:'.

10 10.6

43 42.2

2164

ti

5.0

3

May

1

15 19. 1

57.8

37 48 51.2

5 10.4

10 16.9

43 40. >

2165

45 Leonis

7

3

Mar.

29

10 13.6

52. 2

10 51 40. 1

5 0.5

10 17 5.8

+ 1(1 46 39.0

2166

ti

3

April

3

10 11.4

52.2

10 51 36.8

5 0.7

17 3.6

46 36. 1

2167*

*(

3

April

5

16 13. 1

52. 2

10 51 41.5

5 0.8

17 5. 3

46 40.7

2168

it

3

April

29

10 11.7

52. 4

10 51 40. 1

5 2.0

17 1. 1

46 38. 1

2169

it

0

5

Api il

20

10 19.0

45. 4

10 50 56. -

4 21.0

17 5.0

46 35. 8

2170*

Lalande 20278,9 '.

7.6

3

April

13

10 18.4

51.3

4 39 44.8

4 59. 4

10 17 9.7

+ 4 34 45.4

•J 171

"...

8

5

Apiil

11

10 25.5

44.4

4 39 1.1

4 16.0

17 9.9

34 42. 5

2172

Piazzi 79 .

0

5

Mar.

23

10 55.2

48.2

30 49 9. 9

4 23.8

10 17 43.4

+30 44 46. 1

•jit:;

it

0.7

5

April

10

10 55.3

48.4

30 49 14.9

4 20.0

17 43.7

44 48.9

2174

Lalande20294 '.

9. 8

5

April

11

10 59.6

44. 3

4 24 11.9

4 18.9

10 17 4::. 9

+ 4 19 53.0

2175*

449 Mayer . .

e

:;

April

12

17 13.2

53.0

15 26 41. 1

5 3.0

10 18 6.2

+15 21 38. 1

2176"

"...

:;

April

2.".

17 12.8

53. 1

15 26 45.2

5 3.8

18 5. 9

21 41.4

2177

32 Leonis Minoris

3

April

20

17 24.9

58. 1

40 1 52. 1

5 11.8

10 18 23.0

+39 50 40.3

2178

"...

6.7

3

April

27

17 25.5

58. 1

40 1 51.6

5 12.0

18 23. 6

56 39. 6

2179

450 Major . .

7.8

3

May

1

17 42.9

52. 5

11 15 30.3

5 3.1

10 18 35.4

+11 10 27.2

2 1 80

"...

7.8

3

May

2

17 42.8

52. 5

11 15 31.9

5 3.2

18 35.3

10 28.7

2181

Lalande 20339 .

7

3

April

8

18 4.1

57.2

37 23 1 . 0

5 9. 0

10 19 1.3

+37 17 52.0

2 1 82

[(

0

3

April

28

18 4.1

57.4

37 23 0.8

5 11.7

19 1.5

17 49.1

21-::

It

6

3

April

30

18 4.3

57. 5

37 23 0. 9

5 11.8

19 1.8

17 49.1

21-1

Lalande 2034.3 .

7

3

April

27

18 21.5

58. J

40 7 54.3

5 12.6

10 19 19.0

+ 40 2 41.7

2185

"...

7.8

5

April

10

18 29.6

50. 1

40 7 9. 8

4 29.3

19 19.7

2 40.5

2186

30 Sextantis .

0.7

3

Feb.

1-

19 13.2

50.5

0 28 7. 0

5 2.7

10 20 3.7

+ 0 23 4. 3

2187

"...

0

3

April

10

19 14.0

50. 0

0 26 3.7

5 0.2

20 4.6

23 3.5

21 —

31 Sextantis .

7

3

April

13

19 19.5

51.0

3 15 20.3

5 0.9

10 20 10.5

+ 3 10 25.4

2189

"...

7

3

April

20

19 19.4

51.2

3 15 25. -

5 1.3

20 in. 0

10 24.5

2190

1

7

5

April

11

(19)

41.2

3 14 39.5

4 20.0

(20)

10 19.5

2191

"...

7

5

April

26

19 26.4

44.3

3 14 46.7

4 20.2

20 l'i.7

10 26.5

2192

33 Leonis Minoris

5

3

April

16

19 31.8

56.3

33 29 16. 4

5 0. 7

10 20 2-. 1

+33 24 6.7

2193

"...

4.5

5

April

20

19 39.il

49. o

33 28 41.4

4 30.2

20 28.0

24 11.2

2194

Groombridge 1653

7.8

3

April 27

2ii 28.8

5S. 0

40 20 7. 1

5 13.8

10 21 20. 8

+40 14 53.3

2195

. 1

7.8

5

April

10

20 30.4

50.0

40 19 23.0

4 30.4

21 20.1

14 53.2

2196

46 Leuuis i

3

April

2

2(i 37.8

52.8

15 14 35.3

5 4.2

10 21 30.6

+15 9 31.1

2197

n ►

3

April

3

20 37.6

52. 8

15 14 33.0

5 4.2

21 30.4

9 28.8

2198

"...

3

April

5

20 37.4

15 14 40.3

5 4.3

21 30.2

9 36.0

21 '.!>•

"...

3

April

12

20 :'.;.:,

52.9

15 14 33.4

5 4.8

21 30.1

9 28. 6

22(10*

t(

3

April

14

20 37.7

52.9

15 14 38. 1

5 4.9

21 30.6

9 33.2

2201

»

3

April

•J.',

20 37.2

53.0

15 14 33.0

5 5.7

21 30.2

9 27. 9

2202'

33 (Hev.)Urs.Maj

5.6

3

April

28

2H 33.4

41 32 12.2

5 14.7

10 21 31.6

+41 26 57.5

2203

"...

5.0

3

April

30

20 33. 2

58.3

41 32 17.5

5 14.5

21 31.5

27 3. 0

2204

34 Leonis Minoris

5

3

April

8

21 5. 1

56.0

36 6 0.4

5 10.3

10 22 1.7

+36 o 50.1

22o:.

"...

3

April

20

21 5.0

56.9

36 6 6.2

5 12.7

22 1.9

0 53.5

2206

"...

5

5

Mar.

23

21 13.0

48.9

36 5 23. 0

4 26.9

22 1.9

0 56.1

2207

47 Leonis p

3

Pel..

18

21 24.0

52.0

10 24 55.0

5 3.6

10 22 10.0

+ 10 19 52.3

22H-

"...

3

Feb.

20

21 21.:;

52.0

10 24 55. 3

5 3. 2

22 18.3

19 52. 1

2209

ti

3

Mar.

20

21 25.0

52.0

10 24 59.5

5 3. 3

22 17.o

19 50.2

22 in

n

3

April

5

10 21 24.6

+ 52.0

+ 10 25 0.2

— 5 3. 6

10 22 10.0

+10 19 56.6

(189 ]

190

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1866. 0

No.

Name

Mag.

Date

App't u

Jeduct'n

App't d

Reduction

a

6

h m s

s

0 1 II

/ //

It m s

O 1 II

2-211

47 Leonis p

3 May 1

10 21 23.4

4- 52.3

4-10 24 53. 1

-5 5.0

10 22 15.7

+10 19 48. 1

2212*

"...

3 May 9

21 22.9

52.4

10 24 55. 1

5 5.4

22 15.3

19 49.7

2213

"...

4

5 April 20

21 28.8

45. 3

10 24 16.2

4 23. 6

22 1 4. 1

19 52. 6

2214*

Lalande 20436 .

11

3 April 19

22 3. 6

51.8

8 11 38.8

5 4. 0

10 22 55.4

+8 6 34. 8

2215

Lalande 26437 .

8. 9

5 April 26

22 11.0

46. 8

21 24 22.4

4 27.4

10 22 57.8

+21 19 55.6

2216

Lalande 20457,8

7

5 April 11

22 49.4

47.8

20 4 8. 4

4 28. 4

10 23 37.2

+28 50 40.0

2217

48 Lconis

:'. April 3

23 29. 7

51.6

8 3 45. 7

5 4.2

10 24 21.3

+ 7 58 41.5

2218

"...

3 April 12

23 20. 0

51.7

8 3 48. 3

5 4.4

24 21.6

58 43. 9

2219

"...

3 April 14

23 29. 6

51.7

8 3 49. 1

5 4.6

24 21.3

58 44. 5

2220

K

3 April 19

23 30. 1

51.8

8 3 48.6

5 4.7

24 21.9

58 43. 9

2221

11

5.6

3 April 20

23 29.5

51.9

8 3 47.8

5 5. 3

24 21.4

58 42. 5

2222

"...

6

5 April 20

23 36.2

44.9

8 3 4.4

4 23. 9

24 21. 1

58 46.5

2223

49 Lconis

3 Mar. 29

23 40. 1

51.8

9 45 57.6

5 4. 5

10 24 31.0

+ 9 40 53. 1

2224*

"...

3 April 2

23 38. 6

51.9

9 45 47. 4

5 4.6

24 36.5

46 42.8

2225

35 Leonis Minoiis

5. 6

:; April 8

23 53. 1

56.7

37 26 45. 8

5 12.1

10 24 49.8

+37 21 33.7

2226

"...

3 April 16

• 23 52. 7

56.8

37 26 50. 0

5 13.2

21 49.5

21 36.8

2227

"...

3 April 27

23 53. 1

57.6

37 26 50.5

5 14.7

24 56. 1

21 35.8

2228*

Lalande 20484 .

7.8

3 April 13

23 55. 8

51.0

3 18 58.9

5 3.5

10 24 46.8

+ 3 13 55. 1

2229

"...

7

3 April 25

23 55.9

51.1

3 19 5.6

5 3.8

24 47.0

14 1.8

2230

i ,

7

3 May 1

23 56. 2

51.2

3 19 5.3

5 4. 0

24 47.4

14 1.3

2231

"...

7

3 May 2

23 55. 3

51.2

3 19 5.6

5 4.1

24 46.5

14 1.5

2232

Johnson 2525 .

8

;', April 28

21 8. 1

50. 7

47 40 11.4

5 18.1

in 25 7.8

+47 34 53. 3

2233

"

7.8

3 April 30

24 8.3

59. 7

47 46 14.4

5 18.3

25 8. 6

34 56. 1

2234

Fiazzi 116

9

3 April 3

24 45.4

51. 6

8 9 26. 1

5 4.8

10 25 :',7.i>

+ 8 4 21.3

22.;:.

"...

8

3 April 29

24 45.4

51.8

8 9 26. 1

5 6.0

25 37.2

4 26. 1

2236

"...

8.9

5 April 29

24 51.6

44.9

8 8 46.6

4 24.6

25 36.5

4 22.6

2237

36 Leonis Minoiis

3 April 26

25 33.0

56.4

35 11 56.9

5 14.8

16 26 29.4

+35 6 42. 1

2238

"...

3 April 27

25 32.7

56.4

35 11 56.9

5 14.9

26 29. 1

6 42.0

2230

"...

7.6

5 April 26,

25 40.4

48. 0

35 11 20.9

4 33.3

26 29.3

6 47.6

2240

455 Mayer

8

3 April 2

26 8.6

53.1

18 23 57. 5

5 7.9

10 27 1.7

+18 18 49.6

2241

"...

9

3 April 14

26 7.9

53. 2

18 23 57.7

5 8.8

27 1. 1

18 48.0

2242

"...

9

5 April 10

26 15.6

46.0

18 23 18.2

4 27. 0

27 1.6

1- 51.2

2243

37 Leonis Minoiis

3 April 26

26 20.5

55.9

33 5 56,. 3

5 14.7

10 27 25.4

+33 0 41.6

2244

"...

3 May 9

26 29. 4

56.1

33 5 54.7

5 15.9

27 25.5

0 38. s

2245

"

5.6

5 April 11

26 37.0

48. 2

33 5 11.4

4 31.2

27 25.2

0 40.2

2246

38 Lconis Minoiis

6

3 April 8

26 41.6

56.9

39 2 16.3

5 14.0

10 27 38.5

+38 56 56. 3

2247

Lalande 20568 .

8.9

3 April 25

27 ln.7

52. 8

15 8 44.7

5 9. 1

16 28 3.5

+ 15 3 35.6
+47 52 43. 0

2248

Arg. Z., Oel. 11017

7

3 April 28

27 8.7

59. 7

47 58 1 . 7

5 18.7

10 28 8. 4

2240

et

7

3 April 30

27 O.li

59. 5

47 58 12.5

5 10.9

28 8. 5

52 52. 6

22511

50 Leonis

3 Feb. 26

27 16. 8

52.9

17 14 58.9

5 6. 7

10 28 9.7

+17 9 52.2

2251

'

3 April 2

27 16.8

52.9

17 14 56.9

5 8.2

28 9.7

9 48.7

2252

'

6.7

3 April 3

27 17.0

52. 9

17 15 0.9

5 8.2

28 9.9

9 52.7

2253

*

3 April 5

27 17.0

52. 9

17 15 3.4

5 8.4

28 9.9

0 55.0

2251

'

7.8

3 April 14

27 16.9

53.0

17 15 4.6

5 9.1

28 0. 0

9 55.5

2255

' . . .

7

3 April 16

27 18.2

53.0

17 15 3.5

5 9. 2

28 11.2

9 54. 3

2256

' . . .

7

3 May 1

27 17.0

53. 2

17 15 9.8

5 10.4

28 10.2

0 59.4

2257

'

7

3 May 2

27 16.4

53. 2

17 15 4.1

5 16.5

28 0. 6

9 53. 6

2258

' . . .

7

5 April 26

27 23.0

46.0

17 14 26.8

4 28.5

28 9. 9

9 58. 3

2250

"...

7.8

5 April 20

27 23.4

46. 1)

17 14 23.8

4 20. 1

28 9.4

9 54.7

2260

Lalande 20575 .

7.8

3 April 29

27 21.4

57. 1

+38 58 6. 9

5 17.2

10 28 18.5

+38 52 40. 7

2261

2 Hydra f

3 Feb. 18

28 2. 8

48. 1

—15 45 22. 2

5 8.8

10 28 5(1.9

— 15 50 31.0

2262

Lalande 20589 .

8.9

3 April 3

27 58.3

52.9

+ 17 8 28.0

5 8.6

10 28 51.2

+17 3 26.3

226;;

457 Mayer . .

7

:J, April 13

28 20.9

51.0

9 57 57. 5

5 7.6

10 20 12.8

+ 0 52 49. 9

2264

39 Leonis Minoris

7.8

5 April 11

28 27. 1

47.4

28 38 17.9

4 30.9

10 20 14.5

+28 33 47. 0

2265

Anonyrna .

10

3 April 2

29 17.9

53. 2

19 59 9.2

5 10.0

10 30 11.1

+19 53 59.2

2266

"...

10

:; April 19

20 18.4

.-,:;. i

10 50 0.0

5 11.3

30 11.8

53 58.6

2267

Flamsteed, B.15H

4.5

3 April 8

311 1. 1

55. 1

32 40 34.2

5 14. 1

10 30 56.5

+32 44 26. 1

2268

'• . . .

5

3 April 26

30 1.2

55.6

32 40 39. 7

5 16.3

36 56.8

41 23.4

226,0

"...

3 April 27

30 i.o

55.6

32 40 37. 4

5 16.4

36 57.2

44 21.0

227(1

. . .

G

3 April 28

10 30 1.4

+ 55.6

+32 40 36.7

— 5 16.6

10 30 57. 0

+32 44 20. 1

(190)

GOULD CATALOGUE OF STARS OBSERVED J3Y D AGELET.

191

Mean equinox 1800.0

N...

Name

Mag.

Date

App't a

Reduct'n

App't 6

Reduction

a

(!

h in s

s

o ' "

/ //

It III s

o / /'

227 1

BHamsteea, B.1519

(i

5

April

10

10 30 8.5

+ 48.0

+32 49 0. 5

— 4 32.6

III 30 56.5

+ 32 44 27.9

2272

M

li

5

April

26

30 9. 0

48.2

32 49 0. 8

4 34.6

30 57.2

44 26.2

2273"

. .

6. 5

5

April

29

30 8.4

48. 2

32 49 2. 0

4 34.9

30 50. 6

44 27. 1

2274

l'iazzi 132 [ 1

10

:;

Feb.

26

30 5.4

52. 5

15 6 14.6

5 8.0

10 30 57.9

+ 15 1 il. II

2275

"...

s

3

A j .i il

29

30 5. 1

52. 8

15 6 L8.6

5 11.0

311 57.9

1 7.6

2276

36 (Hev.)Ur.Maj.

6

3

Api il

30

30 ii;.;.

58. 9

47 20 29.2

5 21.6

10 3! 45.4

+47 15 7.6

.'•.'77

"...

6.5

3

May

1

30 46.-4

58. 9

47 20 28. 3

5 21.6

31 45.3

15 (i.7

227 -

Bessel, W.618 .

7

3

April

13

30 52. :l

52.0

11 29 5.3

5 9. 4

10 31 44.3

+ 11 23 55.0

2279

40 Leouis Minoi'is

3

April

25

31 6. 9

54.6

27 27 33.9

5 15. 1

10 32 1.5

+27 22 18.8

2280

"...

6.5

3

May

2

31 0.6

54.7

27 27 36. 0

5 15.8

32 1. 3

22 20. 2

2281

"...

6

5

April

10

31 14.5

47.1

27 26 51.4

4 31.6

32 1.6

22 19.8

._,os._>

Bessel, W.624 .

3

April

12

31 14.3

50.7

1 59 22.0

5 7.1

in 32 5.0

+ 1 54 14.9

2283"

l'iazzi 137 . .

7

3

April

30

3! 14.6

58.9

47 20 44.7

5 21.9

10 32 13.5

+47 15 22. 8

2284

"...

7

3

M ay

1

31 14.7

58.9

47 20 40.:'.

5 22.0

32 13.6

15 18.3

'.'. -

Ill Sextantis .

6.7

5

Mai.

23

31 33.5

44. 1

4 41 53.3

4 26.0

10 32 17.6

+ 4 37 27. 3

2286

11 Leouis Minoris

3

May

9

31 36.3

54.2

24 19 7.6

5 15.5

1(1 32 3,11.5

+24 13 52.1

-'•2-7

35 Sextantis .

3

April

5

32 6. 6

51.2

5 52 47.0

5 8. 3

10 32 57.8

+ 5 47 38. 7

2288

"...

6

3

April

14

32 6.9

51.3

5 52 45. 1

5 8. 6

32 58.2

47 36.5

2289

Lalande 20693 .

7..8

3

April

2

32 8. 9

53.0

19 26 45. 3

5 11.2

10 33 1.9

+19 21 34. 1

2290"

"

7.8

3

April

3

32 9. 0

53.1

19 26 47. 4

5 11.2

33 2.1

21 36.2

2291

"...

8

3

April

16

32 9. 1

53.2

19 26 49.5

5 12.3

33 2.3

21 37.2

2292

Groombridge 1685

7

5

April

11

32 57. 9

49.5

42 25 59. 3

4 36.4

10 33 47.4

+42 21 22.9

2293

42 Leonis Minoris

5

3

April

8

33 47.5

55.0

31 49 13.2

5 15.6

10 34 42.5

+31 43 57.6

2294

"...

5

3

April 25

33 47.5

55.2

31 49 18.8

5 17.8

34 42.7

44 1. 0

2295

"...

6.7

3

April

27

33 47.9

55.2

31 49 13.2

5 18.0

34 43. 1

43 55.2

2296

"...

6

3

April

28

33 47.7

55.2

31 49 14.4

5 16.8

34 42.9

43 57.6

2297

"...

5

3

May-

2

33 47.3

55.3

31 49 16.3

5 18.5

34 42.6

43 57.8

2298

l'iazzi 146

7

3

April

28

33 49. 7

55.2

31 45 46. 4

5 18.2

10 34 44. 9

+31 40 28.2

2299

"...

8

3

May

2

33 49. 3

55.3

31 45 56. 8

5 18.5

34 44.0

40 38.3

2300

459 Mayer

8.9

3

April

14

34 14.4

51.6

8 39 0. 1

5 10.4

10 35 6.0

+ 8 33 49.7

2301

Bessel, W.672 .

8

3

April

12

34 20. 9

5H.7

2 8 36.3

5 8. 6

10 35 11.6

+ 23 27.7

2302

"...

8.9

5

Mar.

23

34 28.6

43.8

2 8 3.4

4 26. 8

35 12.4

3 36.6

2303

Lalande 20741 .

3

April

28

34 22.0

55. 2

31 48 49. 4

5 18.5

10 35 17.2

+31 43 30. 9

2304

51 Leonis m

3

April

2

34 43.0

53.0

20 1 44.3

5 12.6

10 35 36. 9

+19 56 31.7

2305

"...

3

April

3

34 43.3

53.1

20 1 42.9

5 12.6

3.5 36. 4

56 30.3

2300

u

7

3

April

16

34 42.9

53. 2

20 1 48.2

5 13.7

35 36. 1

56 34.5

2307

"

3

May

3

34 43.3

53.4

20 1 49.0

5 15.2

35 36.7

56 33.8

2308

1 .

6

5

April

10

34 50.3

46. 0

20 1 4. 2

4 31.2

35 36.3

56 33.0

2309

52 Leonis k

•

3

Feb.

18

34 56.4

52.5

15 20 1. 4

5 10.5

10 35 48.9

+15 14 50.9

2310

"

3

Feb.

26

34 57. 1

52.4

« 15 20 1.9

5 10.4

35 49.5

14 51.5

2311

1 1

3

April

13

34 56. 1

52. 5

15 20 2. 0

5 12.4

35 48.6

14 40. 0

2312

k

7

3

April

19

34 56.7

52.5

15 20 2.6

5 12.8

35 49.2

14 40.8

2313

ti

3

April

29

34 56. 4

52.6

15 20 3.2

5 13.6

35 49. 0

14 49.6

2314

Johnson 2558

7.8

5

April

11

35 40. 1

49.3

42 14 18.6

4 37.4

10 36 29. 4

+42 9 41.2

•s.i\;>~

"...

7

:.

April

20

35 39.7

49.5

42 14 23. 0

4 39.7

36 29. 2

9 43.3

2316

it

7

5

April 21

35 40. 8

49.6

42 14 22. 4

4 39.9

36 3.0.4

9 42.5

2317

Groombridge 1689

7

3

April

30

35 34.3

56.9

40 53 6. 1

5 22. 0

10 36 3,1.2

+40 47 44. 1

2318

"...

7

3

May

1

35 34. 1

56.9

40 53 0. 8

5 22. 1

36 31.0

47 38.7

2319

Lalande 20778 .

7.8

5

April

29

36 2.1

49.5

42 17 25.4

4 40.1

10 36 51.6

+42 12 45.3

2320

38 Sextantis .

8.7

3

April

14

36 3.1

51.4

7 29 4. 8

5 10.8

10 36 54.5

+ 7 23 54. 0

2321

Lalande 20973 .

8.9

3

April

3

36 34. 1

52.4

15 20 57. 9

5 12.4

10 37 26.5

+15 15 45.5

2322

43 Leonis Minoris

3

April

29

36 58.9

54.8

30 33 35.5

5 19.3

10 37 53.7

+30 28 16.2

2323

Groombridge 1692

8

3

April

30

36 57. 2

57.1

42 32 3. 4

5 23. 1

10 37 54.3

+42 26 40.3

2324

53 Leonis (

3

Feb.

18

37 52. 0

51.9

11 41 10.7

5 12.0

10 38 43.9

+11 35 58.7

2325

"...

:;

Feb.

26

37 52.2

51.9

11 41 14.3

5 11.7

38 44. 1

36 2.6

2326

"...

:;

April

2

37 52. 5

51.8

11 41 10.6

5 12.2

38 43. 3

35 58.4

2327

"...

3

April

3

37 51.8

51.8

11 41 10.3

5 12.2

38 43.6

35 58. 1

2328

"

3

April

5

37 52. 1

51.8

11 41 14.4

5 12.3

38 43. 9

36 2.1

2329

"...

3

April

8

37 52.5

51.9

11 41 11.4

5 12.4

38 44. 4

35 59. 0

2330

"...

3

April

13

10 37 52. 6

+ 51.9

+11 41 13.1

— 5 12.7

10 38 44.5

+11 36 0.4

(191)

192

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean er[uinox 1800. 0

No.

Name

Mill;'.

Date

App't a

Reduct'n

App't <5

Reduction

a

<S

h m s

s

o ' n

/ //

h m s

O ' II

2331

53 Leonis /

3 May

9

10 37 51.2

+ 52.2

+•11 41

10 38 43.4

+11 36

2332

Lalande 20838 .

8

5 Mar.

23

38 19.3

44. 0

4 34 14. 1

— 4 29. 1

10 39 3.3

+ 4 29 45. 0

2333

Lalande 20843 .

8

3 May

1

38 28.0

55.2

33 10 2H.3

5 21.0

10 39 23. 2

+33 4 59. 3

2334

"...

7.8

3 May

2

38 28.5

55.2

33 10 22.4

5 21.1

39 23.7

5 1.3

2:;;!.-.

Lalande 20847 .

8

3 April

19

. 38 38.4

54.0

26 47 12.4

5 17.8

10 39 32.4

+20 41 54.6

2336

Lalande 20852 .

6

3 April

16

38 51.2

53.6

24 32 58. 1

5 16.9

10 39 44.8

+24 27 41.2

2337

"

0.7

5 April

26

38 59. 0

46.-6

24 32 is.:;

4 35.6

39 45. 6

27 42.7

2338

Piazzi 172

8

5 Mar.

23

39 52. 3

44.0

4 43 23. 9

4 29.4

10 40 30.3

+ 4 38 54.5

2339

Bessel, W.892 .

9

5 April

11

40 7. 2

47.6

33 45 52. 1

4 36.9

10 40 54.8

+33 41 15.2

2340

Lalande 20903 .

8

3 May

1

40 36.3

55.2

31 8 23. 0

5 22.2

10 41 31.5

+34 3 0.8

2341

>■

9

5 April

11

40 43.6

47.6

34 7 40.6

4 37.2

41 31.2

3 3.4

2342

45 Leonis Minoris

6

3 April

30

40 55.4

54.4

29 0 40. 3

5 20.6

10 41 49.8

+28 55 19.7

2343

Lalande 2(1919 .

7

5 April

26

41 13.4

44.0

2 9 25. 0

4 29. 8

10 41 57.4

+ 24 55.2

2341

46 Leonis Minoris

4.5

3 April

28

41 9.7

55. 3

35 22 40.2

5 22. 0

10 42 5.0

+35 17 2::. 0

2345*

" ...

5.6

3 May

1

41 9.6

55.4

35 22 51.9

5 22.9

42 5.0

17 29.0

2346

"...

3 May

2

41 9.5

55. 4

35 22 511. 1

5 23.0

42 4. 9

17 27. 1

2347

45 Ursa? Maj. u

3 April

29

41 28.1

57.1

44 211 29.5

5 25. 5

HI 42 25.2

+44 15 4.0

2348

Lalande 20941 .

7.8

3 April

3

4"1 45.2

53.8

27 21 22. 3

5 17.4

10 42 39.0

+27 10 4.9

2349

"...

7.8

3 April

19

41 45.6

53.9

27 21 31. 1

5 19.4

42 39.5

16 11.7

2350

48 Leonis Minoris

7

3 April

2

42 55. 5

53.6

26 38 21.9

5 17.7

10 43 49.1

+26 33 4. 2

2351*

"...

7

3 April

16

42 54. 8

53.7

26 38 25.2

5 19.2

43 48. 5

33 6.0

2352

"...

7

3 April

19

42 55. 4

53. 7

26 38 26. 3

5 19.6

43 49. 1

33 6.7

2353*

47 Leonis Minoris

3 April

28

42 53. 6

55.2

35 11 19.7

5 23. 3

10 43 48.8

+35 5 56. 4

2354

"...

6

3 April

30

42 53. 6

55.2

35 11 23.3

5 23. 4

43 48.8

5 59. 9

2355

ti

6

3 May

1

42 53. 9

55.2

35 11 21.8

5 23. 5

43 49. 1

5 58. 3

2::56

464 Mayer . .

7.8

5 April

29

43 38. 1

44.5

6 59 7. 0

4 32.2

10 44 22.0

+ 0 54 34. 8

2357

46 Ursne Majoris

3 April

29

43 42.4

55.1

34 39 42. 6

5 23.5

10 44 37.5

+34 34 19. 1

2358

"...

3 May

1

43 42.3

55. 1

34 39 43. 0

5 23.7

44 37.4

34 19.3

23511

ti

6

3 May

2

43 42. 8

55. 1

3 ! 39 40. 0

5 23. 8

44 37.9

34 10.2

2360

54 Leonis

4.5

3 Feb.

26

43 52. 2

53. 5

25 54 0. 7

5 14.5

10 44 45.7

+25 48 46.2

2361

\

3 April

2

43 51.7

53.5

25 54 7. 0

5 18.0

44 45. 2

48 49. 0

2362

"...

3 April

3

43 51.7

53.5

25 54 2. 6

5 18.11

44 45.2

48 44.0

2363

"...

3 April

8

43 51.7

53.5

25 54 5. 1

5 18.6

44 45. 2

48 46.5

2364

"...

3 April

13

43 52. 3

53. 6

25 54 4.0

5 19. 1

44 45.9

48 45. 5

2365

"...

5.6

5 April

11

43 59. 3

46.4

25 53 24. 2

4 36. 3

44 45.7

4* 47.9

2366

55 Leonis

7

3 Pel,.

18

44 34.0

50.7

1 53 18.6

5 15.6

10 45 24. 7

+ 1 48 3.0

2367

"...

3 May

3

44 33.7

50.8

1 53

45 24.5

48

2368

"...

5.6

3 May

9

44 33.5

50.8

1 53 13.9

5 14.2

45 24. 3

47 59.7

2369

" - - .

6.5

5 Mar.

23

44 41. 0

43.7

1 52 36. 6

4 3J.2

45 24.7

48 5. 4

2370

50 Leonis Minoris

7

3 April

16

44-48.4

53.6

26 39 16.5

5 20. 1

10 45 42. 0

+26 33 50. 4

2371

"...

7.8

3 April

19

44 47.9

53.7

26 39 15.4

5 20.4

45 41.6

33 55. 0

2372

11

6

3 April

27

44 48.2

53. 8

20 39 15.6

5 21.2

45 42. 0

33 54. 4

2373

57 Leonis

6

5 Mar.

23

45

1 34 25.3

4 31.3

10 46

+ 1 29 54.(1

2374

Piazzi 200 . .

8

3 April

3

47 1.7

52.7

211 40 43.6

5 18.1

10 47 54.4

+20 41 25.5

2375

"...

8

3 April

19

47 2. 0

52.8

20 40 42.4

5 19.7

47 54.8

41 22.7

2376*

47 Ursse Majoris

3 April

25

47 17.9

55.9

41 35 7.0

5 20.5

10 48 13.8

+41 29 40.5

2377

"...

3 April

26

47 18. 1

55.9

41 35 9.8

5 20.7

48 14.0

29 43. 1

2378

"...

8

5 April

29

47 24.2

48.5

41 34 30. 1

4 44.2

4* 12.7

29 45. 9

2379

Piazzi 203 . .

6

3 April

27

47 25. 3

55.2

37 15 19.7

5 25. 6

10 48 20.5

+37 9 54. 1

2380

6.7

3 April

28

47 25.4

55.2

37 15 16.9

5 25. 8

48 20. 6

9 51. 1

2381

tt

6

3 April 30

47 25. 4

55.2

37 15 22.7

5 26. 0

48 20. 6

9 56.7

2382

" . .

6.7

3 May

1

47 25.4

55. 2

37 15 20.2

5 26.1

48 20. 6

9 54.1

2383*

49 Ursae Majoris

3 April

29

48 39. 6

55.6

40 22 28. 4

5 27.2

10 49 35.2

+40 17 1.2

238.4

"...

6.7

3 May

1

(46)

+40 22 32. 1

5 27.5

(49)

17 4.6

2385

Lalande 21116 .

7.8

3 April

16

49 0. 0

50.2

— 2 18 51.7

5 14.2

10 49 50.2

— 2 24 5. 9

2386

"...

8

3 May

2

49 0. 3

511.3

— 2 19 2.5

5 14.4

49 50.0

24 16.9

2387

58 Leonis it

3 Feb.

18

49 22.6

51.11

+ 4 46 34. 2

5 17.4

10 50 13.6

+ 4 41 16.8

2388

"...

3 Feb.

19

49 22. 1

51.0

4 46 32.4

5 17.3

50 13. 1

41 15.1

2389

"

3 Feb.

26

49 22. 4

511.9

4 40 36.6

5 16.7

50 13.3

41 19.9

2390

.

3 April

2

10 49 22.9

+ 50.8

+ 4 46 35. 2

— 5 14.8

10 50 13.7

+ 4 41 20.4

f 192)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

193

Mean equinox 1800. 0

No.

Name

Mag

Dato

App't a

liVcllU't'll

App't 1!

Reduction

a

0

h m s

S

of"

/ //

h in *

0 t it

2391*

58 Leonia d

3

April 3

10 40 10.0

4- 50.8

+ 4 40 33. 7

— 5 15.8

10 50 0.8

+ 4 41 17.9

2392

"

3

April 11

40 23. 1

50.0

4 40 38. -

5 lO.o

50 ll.o

41 22.8

2393

CI

5

Mar. 2::

10 20.5

41.0

4 45 54. 8

4 32.9

50 13.5

41 21.9

2394

59 Leonis <-

3

A] nil 8

40 31.1

51.1

7 15 40.7

5 10. 1

10 50 22.2

+ 7 10 24.3

2395

"...

3

April 13

40 31.2

51.2

7 15 39.5

5 10.0

50 22. 4

10 22.0

2396

"...

3

April l>i

40 31.2

51.2

7 15 42. 2

5 10.0

50 22. 4

10 25.3

2397

Bessel,W.1082 -

7

3

April 27

49 50. :•,

54.1

31 1 53.3

5 24. 7

10 50 53.4

+30 50 28.6

2398

(id Leonis h

3

April 12

50 45.2

52.7

21 20 17.7

5 20.5

10 51 37.9

+21 14 57.2

2399

Groombridge 1730

7.8

3

May 1

51 21.2

56.4

45 30 0.9

5 29.9

10 52 17.6

+45 24 31.0

•j n o

"

7.8

5

April 29

51 2*. 0

48.8

+45 29 22. 5

4 46.7

52 16.8

24 35.8

24(11

Bessel,W.991 .

7

3

April 10

51 30.3

50.2

— 2 21 0. 5

5 15.2

10 52 26. 5

— 2 26 15.7

2402

Piazzi 224 . .

6

3

April 20

52 3. 2

53.4

+20 56 15.0

5 24.1

10 52 50.0

+26 50 51.5

2403

"...

7

3

April 27

52 4.0

53.4

26 56 17.9

5 21. 2

52 57. 4

50 5:;. 7

•24(14

"...

0.7

3

Apiil 20

52 3. 6

53.4

26 56 14. 9

5 24. 4

52 57. 0

50 50-5

2 Id.".

"...

0.7

5

April 20

52 10.5

40.3

26 55 33. 0

4 41.0

52 50.8

50 52; 0

2406

Groombridge 1732

3

April 28

52 10.0

55. 2

40 2 0.5

5 28. 3

III 53 0. 1

+39 50 32.2

21(1?

"...

7

3

April 30

52 10.9

55.3

40 2 6. 2

5 28. 5

53 6.2

56 37. 7

2408

Flamsteed, B.1571

8.9

3

April 3

52 25. 3

51.2

8 44 40.9

5 17.8

10 53 16.5

+ 8 39 23. I

2409

tc

8. 9

3

April 10

52 25.6

51.3

8 44 45. 8

5 18.4

53 16.9

39 27.4

2410

51 Ursse Majoris

3

April 25

52 20.5

55.1

39 24 27. 5

5 27. 8

10 53 21.6

+39 18 59.7

2111

62 Leouis g

3

Feb. 26

52 31.7

50.5

1 9 15.2

5 is. 0

10 53 22.2

+ 1 4 27.2

2412

"...

3

April 13

52 31.5

50.5

1 9 44. 3

5 16.4

53 22.0

4 27. 0

2413

Piazzi 228 . .

8

3

April 25

52 39.2

55.1

39 24 54.9

5 27.8

10 53 34.3

+39 19 27. 1

2414

407 Mayer

7

3

April 14

52 48.9

50.9

4 48 8.8

5 17.4

10 53 30. 8

+ 4 42 51.4

2415

( Iroombridge 1734

8

5

April 20

53 34.3

48.0

45 27 33.5

4 47.3

10 54 22.9

+45 22 46.2

2416

01 Leonis Minoris

7

3

April 20

5:1 40.0

53.2

26 22 20. 5

5 24. 6

10 51 33.8

+20 10 55.9

2417

"...

7.8

3

April 27

53 41.2

53. 3

26 22 20.6

5 24.7

54 34.5

10 55.9

2418

"...

7.8

5

April 20

53 48. 1

46.1

+20 21 38. 3,

4 41.4

54 3,1.2

16 56.9

2419*

Piazzi 233 . .

8

3

Fell. 1-

53 41. 1

50. 3

— 1 20 42. 8

5 19.6

10 54 31.4

— 1 26 2.4

2420"

n

9.10

3

Feb. 19

53 40.8

50.3

— 1 20

54 31.1

26

2421

03 Leonis %

3

Feb. 20

53 50.8

51.2

+ 8 30 12.8

5 18.3

10 54 42. 0

+ 8 24 54. 5

2422

II

3

Apiil 2

53 50. 8

51.2

8 30 12. 4

5 18.2

54 42.0

24 54.2

2423

It

3

April 3

53 50. 0

51.2

8 30 10. 5

5 18.2

54 41.8

24 52. 3

2424

"

3

April 8

53 5o.r,

51.2

8 30 7. 6

5 18.4

54 41.8

24 49.2

2425

"...

3

April 19

53 50.0

51.3

8 30 10.2

5 18.8

54 42.2

24 51.4

2426

II

3

May 2

53 50.4

51.4

8 30 9.9

5 19.6

54 41.8

24 50.3

2427

Lalantle 21205 .

8

3

May 1

54 29.0

56.0

45 17 5.8

5 31.0

10 55 25. 0

+45 11 34.8

242-

"...

7

5

April 29

54 36.6

48.5

45 16 25. 3

4 47.6

55 25. 1

11 37.7

2429

Piazzi 239

7.8

3

May 2

54 54.7

51.4

8 18 7.4

5 19.9

10 55 40. 1

+ 8 12 47.5

2430

Lalande 21277 .

9.10

3

April 10

55 22. 6

52.6

21 39 8.7

5 22. 7

10 56 15.2

+21 33 40. 0

2431

52 Leonis Minoris

0.7

3

April 12

55 25.2

53.1

26 42 18. 9

5 23. 6

10 56 18.3

+26 36 55. 3

2432*

"

7

3

April 27

55 25.0

53. 2

26 42 19.8

5 25.3

56 1-.2

36 54. 5

2433

"...

ij

May 3

55 25.5

53.3

26 42 20. 6

5 26. 0

56 18.8

36 54. 6

24:',4

65 Leonis p-

3

Feb. 18

55 51.1

50. 8

3 7 43.9

5 20. 0

10 50 41.0

+ 3 2 23. 9

2435

"...

3

Feb. 10

55 51.5

50.8

3 7 40.8

5 20. 0

50 42.3

2 20. 8

2436

"...

3

April 8

55 51.2

50. 6

3 7 40.9

5 18.0

50 41.8

2 22. 9

2437

"...

3

April 13

55 51.5

50.7

3 7 39. 3

5 18.2

50 42.2

2 21.1

2438

"...

3

April 14

55 52. 1

50.7

3 7 45.5

5 18.2

56 42. 8

2 27. 3

2430

04 Leonis

0

3

Feb. 26

56 2.6

52.8

24 29 29.2

5 19.0

10 56 55. 4

+24 24 10.2

244U

Bessel.W. 121 8-20

7

3

April 30

50 38.0

54.5

37 10 57.0

5 29.3

10 57 32.5

+37 5 27. 7

2111

67 Leonis

3

April 3

57 10.9

52.8

25 49 40. 3

5 22. 8

10 58 3.7

+25 44 17.5

2112

ii

6

3

April 12

57 10.5

52.9

25 49 42. 1

5 24.0

58 3.4

44 18. 1

2443

ii

5.0

3

April 25

57 10.5

53.0

25 49 42. 7

5 25.5

58 3.5

44 17.2

2444

"...

3

April 20

57 10.0

53.0

25 49 40. 8

5 25.6

58 3.6

44 21.2

244.">

ii

3

April 27

57 10.0

53.0

25 49 45. 4

5 25. 7

58 3. 0

44 19.7

2446

"...

3

Mav 3

57 ll.ii

53. 1

25 49 45. 9

5 26. 3

58 4.1

44 19.6

2447

Piazzi 251

0

3

April 20

57 12.0

52. 3

18 22 47. 5

5 23.7

10 58 4.9

+18 17 23.8

2448

"...

6.7

5

April 26

57 20.0

45. 2

18 22 6.7

4 40.2

58 5. 8

17 26. 5

2449

Piazzi 252

7

3

April 30

57 22. 3

5 I. 5

37 29 3.4

5 20.5

10 58 10. -

+37 23 33. 9

2450

" - - -

6

5

April 29

10 57 29.6

+ 47.3

+37 28 19. 1

— 4 45. 9

10 58 16.9

+37 23 33.2

(193)

194

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'u

App't (5

Reduction

a

<S

i

h m s

s

0 / a

/ //

h

m s

0 ' "

2451

52 Ursse Maj. ip

3 May

1

10 57 26. 9

-f- 55.8

+45 40 25. 3

— 5 32. 1

10 58 22.7

+45 34 53.2

2452

60 Leonis

8

3 April

2

58 HI.7

50.3

— 09 43,. 2

5 18.3

10 59 1.0

— 0 15 1.5

2453

"...

3 April

14

10 58 10.5

511.4

— 0 9 38. 3

5 18.2

59 0.9

14 56.5

•2454

Piazzi 4 . . .

6.7

3 April

12

11 0 21.2

51.7

+ 15 34 27.6

5 22. 1

11

1 12.9

+ 15 20 5.2

2455

"...

6.7

3 April

13

0 22. 0

51.7

15 34 28. 4

5 22. 5

1 13,. 7

29 5. 9

2456*

u

7

3 April 25

0 22. 1

51.8

15 34 28. 3

5 23. 6

1 13.9

29 4. 7

2457

"...

6

3 May

3

i! 22.2

51.9

15 34 31.7

5 24. 2

1 14.1

29 7.5

2458

Piazzi 5 . . .

7.8

3 April

30

0 19.6

54.3

38 4 11.8

5 3,0. fi

11

1 13.9

+3,7 58 41.2

2459

Lalamlr 21411

7.8

3 April

27

0 32. 6

54. 0

35 57 51.7

5 20. 7

11

1 2li.fi

+35 52 22. 0

2400

"...

6.7

3 May

9

0 32.1

54.2

35 57 50. 1

5 31.3

1 26.3

52 18.8

2461

Lalande 21418 .

7

5 April

29

0 50.0

46.9

36 59 18.5

4 47.0

11

1 36.0

+36 54 31.5

2462*

Lalande 21422 .

7

3 April

2'.l

0 53. 8

52.3

25 49 32. 8

5 23. 8

11

1 4(i. 1

+25 44 9.0

2463

Anonynia

8

:; April

8

1 6. 6

50.4

0 45 49. 1

5 19.3

11

1 57.0

+ 0 40 29.8

2464

Lalande 21440 .

fi

5 April

26

1 40.8

46.5

34 36 50. 0

4 4fi.2

11

2 27.3

+34 32 3,. -

2465

4li;> Mayer . -

7

3 April

26

2 17.6

52. 3

21 18 4fi.fi

5 25.0

11

3 9.9

+21 13 20.7

2466

" . .

6

3 May

1

2 17.3

52. 4

21 18 47.4

5 26. 4

3 9.7

13 21.0

2467

68 Leonis 6

3 Feb.

26

2 34.7

52.3

21 42 25. 7

5 21.0

11

3 27.0

+21 37 4.7

2468

"...

3 April

0

2 35. 0

52. 2

21 42 27.9

5 23. (>

3 27.2

37 6. 3

2469*

"...

3 April

3

2 3,4. 4

52.2

21 42 24. 7

5 23.. 7

3 26. 6

37 1.0

2470

3 April

16

2 34.8

52.2

21 42 27.4

5 25.1

3 27.0

37 2. 3

2471

"...

3 April

25

2 34.4

52.3

21 42 2(i. 8

5 26.0

3 26.7

37 0.8

2472*

"

3 April

26

2 34.5

52. 3

21 42 30.0

5 26. 0

3 26.8

37 4. 0

2473

"...

3 April

27

2 34.fi

52. 3

21 42 29.7

5 26. 2

3 26. 9

37 3.5

2474

"...

3 April

29

2 34.1

52.4

21 42 28.4

5 26.4

3 26. 5

37 2. 0

2475

"...

3 May

3

2 34. 4

52. 4

21 42 31.3

5 26. 8

3 26.8

37 4. 5

2476*

69 Leonis

3 I'M..

18

2 411.3

511.6

1 6 22.7

5 22.6

11

3 30. 9

+ 1 1 0. 1

2477

"...

3 Feb.

19

2 40. 4

50.6

1 6 21.2

5 22. 1

3 31.0

0 58. 8

2 178

. it

3 April

8

2 411.7

50.4

1 6 20. 2

5 19.9

3 31. 1

1 0. 3

2479

Flamsteed, B.1587

6

3 April

19

2 40.3

51.2

9 14 32.0

5 22. 2

11

3 37.5

+ 9 9 9.8

2480

70 Leonis t)

3 Feb.

10

(2)

16 36 37.5

5 21.3

11

(3)

+16 31 16.2

2481

1 1

3 April

12

2 52.0

51.8

16 36 36.6

5 23. 5

3 43.8

31 13. I

24.-2

"...

3 April

13

2 51.8

51.8

Ifi 3fi 36.7

5 23. fi

3 43.6

31 13.1

2483

"...

3 April

14

2 52.1

51.8

16 36 42. 9

5 23.7

3 43.9

31 19.2

2484

Lalande 21473 .

7

3 May

1

2 55.2

52. 3

21 12

11

3 47.5

+21 7

2 185

72 Leonis

3 April

8

(3)

52.3

24 16 26.7

5 25.4

11

(4)

+24 11 1.3

2486

Lalande 21503 .

9

3 April

3

4 3. 5

51.7

Ifi 17 26.9

5 22.7

11

4 55.2

+ 16 12 4.2

2487

73 Leonis n

3 Feb.

is

4 31.6

51.7

14 29 10.8

5 21.8

11

5 23.3

+14 23 49. 0

2488

"...

3 Feb.

19

4 31.5

51.7

14 29 10.2

5 21.9

5 23. 2

23 48. 3

2489

"...

3 Feb.

26

4 32.1

51.6

14 29 9.5

5 21.7

5 23. 7

23 47. 8

2490

"

3 April

12

4 32.0

51.5

+14 29 9. 4

5 23. 5

5 23.5

23 45.9

2491

74 Leonis <j>

3 April

0

5 40.0

50.1

— 2 28 13.0

5 20.4

11

6 30.1

— 2 33 33. 4

2492

"...

3 April

14

5 39.9

50. 1

2 28 10.9

5 20.2

6 30.0

33 31. J

2493

"...

3 April

16

5 40. 1

50. 2

— 2 28 14.9

5 20. 1

t\ 30.3

33 35.0

2494

75 Leonis

.', Feb.

26

6 8.1

50.6

+ 3 11 58.6

5 22.fi

11

6 58.7

+ 3 I) 36.11

2495

Piazzi 27 . . .

7.8

5 April

29

6 36. 2

47.2

43 29 24. 7

4 40.5

11

7 23.4

+43 24 44. 2

2496

53 Ursje Maj. f

3 April

13

6 36. 3

53.1

32 44 46.7

5 28. 5

11

7 29. 4

+32 30 1 -. 2

21! IT

"...

3 April

25

6 36.6

53.2

32 44 49. 1

5 30.3

7 29.8

39 18.8

2498*

"...

3 April

26

6 36. 3

53.2

32 44 51.0

5 30. I

7 29.5

39 21.2

2499

"...

3 April

27

6 36.7

53. 2

32 44 49. 1

5 3,0.6

7 29.9

39 18.5

2500*

"

3 April

28

6 36.5

53.2

32 44 45. 3

5 30.7

7 29.7

39 14.6

2501

54 Ursse Maj. v

3 April

26

6 45. 3

53.3

34 16 35.0

5 30.9

11

7 38.6

+34 11 4.1

25U2

"...

3 April

29

fi 45.6

53.4

34 16 31.5

5 31.3

7 39.0

11 0.2

2503*

H

3 April

30

6 45.2

53.4

34 Ifi 34.5

5 31.4

7 38.6

11 3.1

251 1 1

Piazzi 30 .

6

5 April

26

7 7.9

46.4

3fi 39 41.8

4 48.0

11

7 54.3

+36 34 53. 8

-2.-.1 15

55 Ursse Maj.

fi

3 May

3

7 17.6

54.0

3,0 22 24. 4

5 33. 5

11

8 11.6

+39 16 50. 9

2506*

Lalande 21571

7

3 May

2

7 38.4

51.7

Ifi

11

8 30. 1

+ 16

25(17

76 Leonis

:; Feb.

26

7 48.0

50.fi

2 50 12. 3

5 23.2

11

8 38.6

+ 2 44 49. 1

251 18

ii

3 April

2

7 47.9

50.5

2 50 6. 0

5 21.8

8 38.4

44 44.2

2509

"...

3 April

3

7 48.5

50.5

2 50 3. 8

5 21.7

8 39.0

44 42. 1

2510

Lalande 21578 .

7

3 April

25

11 7 51.8

+ 53,. 2

+34 0 27. 0

— 5 30. 9

11

8 45.0

+33 51 56. 1

(194)

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

195

Mean equinox 1800. 0

No.

Name

Ma?

Date

App't a

Reduct'n

App't (5

Reduction

a

(i

It m 8

s

O 1 I*

/ //

It vi s

O ' "

25 1 1

Lalande 21578

7

3 April 26

11 7 :.l.7

+ 53.2

+34 0 29. 5

— 5 31.1

II 8 44.9

4-33 54 58. 4

2512

"

7

:: April 28

7 51.8

53. 2

34 0 23. 2

5 31.4

8 45.0

54 51.8

2513

it

6

3 April 30

7 50.8

53. 3

+34 0 30.4

5 31.6

8 44.1

54 58. 8

■jr. 14

Lalande 21586 '.

7

3 April 14

8 22. 3

50.3

— 0 27 46. 1

5 21.4

11 9 12.6

— 0 33 7.5

25J5

> i

3 May 9

8 21.4

50.5

— 0 27 53. 0

5 22. 0

9 11.9

33 15.0

2516

Johnson 2064

8

5 April 29

- :;-.:

47.4

+46 10 27. 1

4 51.4

11 9 26.1

+46 5 35.7

2517

Piazzi 4(1 - . -

7

3 April 19

9 3.7

51.8

18 29 42. 6

5 26.3

11 9 55.5

+18 24 16.3

2518'

"...

-

3 May 2

9 2.6

51.8

18 29 47.0

5 27.6

9 54.4

24 19.4

2519"

"...

8.9

:; May 3

9 3.0

51.9

18 29 47.0

5 27. 6

9 51.9

24 19.4

2520

"...

3 May 9

9 0.9

51.9

18 29 47. 5

5 28. 2

9(52.8)

24 19.3

2521

Groombridge 1768

8

3 April 30

9 42. 8

54.0

41 37 22.4

5 34.3

11 10 36.8

+41 31 48.1

2522

"...

7

5 April 26

9 49. 8

46.7

41 36 33. 6

4 49.9

10 36.5

31 43.7

2523

77 Leonis a

3 Feb. 18

9 58. 1

51.0

7 12 48.9

5 24. 1

11 10 49.1

+ 7 7 24.8

252 1

"...

:: l'.l.. 19

9 57. 6

51.0

7 12 47. 8

5 23. 6

10 48.6

7 24.2

2525

"...

3 Feb. 26

0 58. :;

50.9

7 12 51.3

5 23.5

10 49.2

7 27.8

2526

"...

3 April 2

9 58.2

51.0

7 12 49. 4

5 23. 7

10 49.2

7 25.7

■.'.-.'.'7

"...

3 April 3

9 58. 4

51.0

7 12 44.9

5 23. 7

10 49.4

7 21.2

2528

ic

3 April 29

9 58. 1

51.0

7 12 44.9

5 24.3

10 49.4

7 20.6

2529

Groombridge I77J

7

3 April 27

10 :,■_>. 7

53.8

41 21 45.7

5 34. 0

11 11 46.5

+41 16 11.7

2530

"...

7

3 April 28

10 52.2

53.8

41 21 42.8

5 34.2

11 46. U

16 8.6

2531

cc

7

3 April 30

10 52.5

53.8

41 21 52. 3

5 34.5

11 46.3

16 17.-

2 i 1 .'

"

6

5 April 26

10 .V.i. 1

46.6

41 21 8.0

4 50. 1

11 45.7

16 17.9

2533

56 Urs.o Majoris

3 April 25

10 54.3

54.1

44 40 14.0

5 34.6

11 11 48. 4

+44 34 39.4

2534*

"...

3 April 26

10 53.8

54. 1

44 40 18.0

5 34.8

11 47.9

34 43.2

2535

"...

6

5 April 29

11 1.0

47.0

44 39 33. 2

4 51.5

11 48.0

34 41.7

2536

71 Leonis

8

3 May 2

11 8.8

51.8

18 37 26.2

5 28.1

11 12 0.6

+18 31 58. 1

■jr.: ;7

Groombridge 1774

3 May 9

12 8.8

53.5

38 25 26. 4

5 35.1

11 13 2.3

+38 19 51.3

2538

I'iazzi 50 .

6.7

3 April 14

12 13.6

50.4

1 19 13.9

:. 22.9

11 13 4.0

+ 1 13 51.0

2539

Lalande 21688 .

6.7

3 May 1

12 17.5

51.8

18 19 44. ::

5 28. 1

11 13 9.3

+18 14 16.2

2540

78 Leonis i

3 Feb. 26

12 38.2

51.2

11 43 12. 1

5 24. 1

11 13 29.4

+11 37 48.0

■jr. U

!<

3 April 2

12 38. 1

51.1

11 43 13.0

5 24. 5

13 29.2

37 48.5

2542*

If

3 April 3

12 38. 1

51. 1

11 43 9.7

5 24.6

13 29.2

37 45. 1

2543

"...

3 April 12

12 37. S

51.1

11 43 10.0

5 25. 1

13 28.9

37 44.9

•jr.44

"...

3 April 13

12 39. 1

51. 1

11 43 11.4

5 -j;,. 1

13 30.2

37 46.3

•j;,4r,

7'J Leonis

3 Feb. 18

(12)

2 35 44. 3

5 25. 4

11(13)

+ 2 30 18.9

2546

i[

3 Feb. 19

12 55. 1

50.7

2 35 40. 7

5 25.2

13 45. 8

39 15.5

25 17

"...

3 April 16

12 56. 0

50. 5

2 35 38. 9

5 23.4

13 46.5

30 15.5

25 18

"...

5.6

3 April 29

12 56.0

50.6

2 35 36. 3

5 23. 7

13 46.6

30 12.6

2549

.-' 1 Leonis

3 April 12

14 18.6

51.4

17 38 41.1

5 26.8

11 15 lo.ii

+17 33 11.3

2550

"...

3 April 19

14 18.7

51.5

17 38 41.3

5 27. 5

15 10.2

33 13.8

2551

,,

3 April 26

14 1-'.::

51. 6

17 38 42. 5

5 28.1

15 9.9

33 14.4

•J.V.J

"...

3 May 1

11 17.7

51.6

17 38 44. 3

5 28.5

15 9.3

33 15.8

2553

"...

7

3 May 2

14 18.6

51.6

17 38 45. 3

5 28.6

15 10.2

33 16.7

2554

"...

7

3 May 3

14 18.7

51.6

17 38 45. 8

5 28.7

15 10.3

33 17. 1

2555

80 Leonis

3 April 2

14 42. 6

50.6

5 3 1.3

5 23. 9

11 15 33.2

+ 4 57 37.4

2556

"...

3 April 14

14 43.3

50.6

5 3 4. 9

5 24.3

15 3:',. 9

57 40. 6

2557

Lalande 21756,7

7

5 April 29

14 54. 9

45.8

34 37 42.8

4 49.5

11 15 40.7

+34 32 53. 3

2558

Arg. Z., Oel. 11722

8.9

3 April 27

15 43.6

54. 0

47 29 30. 4 '

5 36.7

11 16 37.6

+47 23 53.7

2559

"...

8.9

3 April 28

15 44.2

54.0

47 29 24. 1

5 36.9

16 38.2

23 47.2

2500

K

9.10

3 April 30

15 44.8

54.0

47 29 33.8

5 37.2

16 38.8

23 56. 6

2561

83 Leonis

8

3 Feb. 26

15 47.5

50.7

4 11 29.6

5 25. 2

11 16 38.2

+ 4 6 4.4

2562

"...

8.9

3 April 3

15 47.9

50.5

4 11 27.1

5 24. 1

16 38.4

6 3.0

2563

ti

7

3 April 29

15 47.7

50. 7

4 11 25.9

5 24.9

16 38.4

6 1.0

2564

Anonvma .

6.7

5 April 26

16 4. 1

46.6

46 22 0. 4

4 52.4

11 16 50.7

+46 17 8.0

2565

Lalande 21789 .

5.7

5 April 26

16 12.6

46.6

46 3 39. 4

4 52.4

11 16 59.2

+45 58 47.0

2566

-1 Leonis r

3 Feb. 18

16 48.3

50.8

4 2 49. 0

5 26. 1

11 17 39. 1

+ 3 57 22. 9

2567

"...

3 Feb. 19

16 48. 1

50.8

4 2 47. 6

5 26. 0

17 38.9

57 21.6

2568

11

3 Feb. 26

16 48. 1

50.6

4 2 50.8

5 25.5

17 38.7

57 25.3

2569

"...

3 April J

16 48.4

:,ll.5

4 2 50.3

5 24. 2

17 38.9

57 26. 1

2570

"

3 April 3

II li; 48. 1

4- 50.5

+ 42 42. 9

— 5 24. 3

11 17 38.6

+ 3 57 18. 6

(195)

19G

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

pp't 6

Reduction

a

(5

k m s

s

O 1 II

/ //

i m s

o / "

2571

84 Leouis t

3

April

16

11 16 4^.2

+ 50.6

+ 42 51.7

— 5 24. 6

11

17 38.8

+ 3 57 27. 1

2572

u

3

April

19

16 48. 2

50.6

4 2 45. 4

5 24.7

17 38.8

57 20. 7

2573

"

3

April

29

16 47.9

50.6

4 2 47. 8

5 25. 1

17 38.5

57 22. 7

2574*

"...

3

May

16

16 48. 3

50.8

4 2 44.7

5 25.9

17 39. 1

57 18.8

2575

Johnson 2688 .

7.8

3

April

25

16 53.2

53. 1

411 29 56.2

5 34.8

11

17 46.3

+4H 24 21.4

2576

57 Ursa1 Majoris

3

April 25

17 22. 1

53. 1

40 31 48.5

5 34. 9

II

18 15.2

+40 26 13.6

2577*

it

6

5

April

29

17 29.2

46.0

40 31 4. 3

4 51.7

18 15.2

26 12.6

2578

85 Leonis

3

April

12

18 24.5

51.3

16 36 29. 9

5 27.4

11

19 15.8

+16 31 2. 5

2579

"...

3

April

13

18 25.0

51.3

16 36 29. 3

5 27.5

19 16.3

31 1.8

2580

Lalande 21863 .

6

3

April

26

18 35.1

52.3

31 10 15.8

5 32. 8

11

19 27.4

+31 4 43.0

2581

ti

6

3

May

9

18 34.7

52.4

31 10 14.7

5 34.4

19 27. 1

4 40.3

2582

58 Ursae Majoris

6.7

5

April 29

18

44 21 4.0

4 52.7

11

19

+44 16 11.3

2583

Groombridge 1794

7

3

April

27

18 46.8

53.4

44 46 8. 1

5 36.6

11

19 40. 2

+44 40 31.5

2584

"...

7

3

April

28

18 46. 9

53.4

44 46 3.0

5 36.8

19 40.3

40 26.2

2585

"...

7

3

April

30

18 47.1)

53.4

44 46 14.4

5 37. 1

19 40.4

40 37.3

2586

86 Leonis

3

April

16

19 111.3

51.4

19 36 7.9

5 28.6

11

20 1.7

+19 30 39. 3

2587

'• . . .

3

May

1

19 10. 1

51.5

19 36 5. 5

5 30. 2

20 1.6

311 35.3

2588

"...

6

3

May

2

19 10.3

51.5

+19 36 5.7

5 30. 3

20 1.8

30 35.4

2589

87 Leonis e

3

April

2

19 15.1

50.1

— 1 48 37,5

5 24.0

11

20 5. 2

— 1 54 1.5

2590

"

6

3

April

16

19 16.0

50.4

— 1 48 41.7

5 24.1

20 6. 4

54 5.8

2591

Lalande 21892,3

7.8

3

April

12

20 13.0

51.3

+18 56 39.7

5 28.3

11

21 4.3

+18 51 11.4

2592

"...

7

3

May

2

20 12.8

51.5

18 56 47. 5

5 30.3

21 4. 3

51 17.2

2593

"...

3

May

9

20 12.0

51.5

18 56 42. 7

5 30.9

21 3.5

51 11.8

2594

88 Leonis . .

3

Feb.

26

20 33.8

51.3

15 34 10.6

5 25. 6

11

21 25.1

+15 28 45. 0

2595

"...

7

3

April

29

20 33.9

51.2

+15 34 9.4

5 29.1

21 25.1

28 4n.:;

2596

480 Mayer . .

3

April

19

20 56.6

50.0

— 5 16 24.9

5 23. 6

11

21 46.6

— 5 21 48.5

2597

Lalande 21922 -

7.8

3

April

27

21 29.6

52.4

+35 14 55.4

5 34.5

11

22 22. 0

+35 9 20. 9

2598

"...

8

3

April

28

21 29.2

52. 4

35 14 49.5

5 34.7

22 21.6

9 14.8

2599

Lalande 21925 .

7.8

3

April

12

21 32. 1

51.3

19 11 45.0

:, 28.6

11 2:

+19 6 16.4

2600

It

7

3

April

26

21 33.3

51.4

19 11 48.0

5 30.0

22 24.7

6 18.0

2601

i (

7.8

3

May

2

21 32.9

51.4

19 11 49.1

5 30.5

22 24. 3

6 18.6

2602

11

7

3

May

9

21 32.9

51.5

19 11 50.0

5 31.2

22 24. 4

6 18.8

2603

Bessel, W.481 .

7

5

April

26

22 0. 9

44.8

37 57 6.0

4 51.1

11

22 45.7

+37 52 14.9

2604

Piazzi 100 . .

7.8

3

April

3

22 12.5

50.5

4 33 22.8

5 25.5

11

23 3.0

+ 4 27 57. 3

2605

"...

8

3

April

16

22 12.3

50.5

4 33 28.6

5 25.7

23 2.8

28 2.9

2606

Lalande 21947 .

6.7

3

April

30

22 24. 0

52.5

38 0 59. 3

5 35. 9

11

23 16.5

+37 55 23. 4

2607

" . . .

5.6

5

April

26

22 30.9

45.5

38 0 17.0

4 51.2

23 16.4

55 25. s

2608

it

7

5

April

29

22 30. 4

45.5

38 0 15.4

4 51.7

23 15.9

55 23.7

2609

Bessel, w!448 '

8

3

April

2

22 29. 3

50.4

+ 3 41 4H.2

5 25.3

11

23 19.7

+ 3 36 14.9

2610

Piazzi 104 . .

8

3

April

19

22 37.9

50.0

— 5 20 38. 2

5 23.9

11

23 27.9

— 5 26 2. 1

2611

89 Leonis

3

Feb.

18

23 17. 1

50.8

+ 4 15 41.6

5 27.4

11

24 7.9

+ 4 10 11.2

2612*

"...

3

Feb.

19

23 17.0

50.7

4 15 41.3

5 27.4

24 7.7

10 13.9

2613

"...

3

April

3

23 17.2

50.5

4 15 36. 4

5 25.7

24 7.7

111 10.7

2614

[(

6

3

April

16

23 17.2

50.5

4 15 44.6

5 26. 0

24 7. 7

10 18.6

2615*

90 Leonis

6

3

Feb.

26

23 26. 0

51.3

17 59 28.6

5 26.8

11

24 17.3

+17 54 1.8

2616

"...

3

April

12

23 25.8

51.2

17 59 30. 2

5 28. 7

24 17.0

54 1.5

2617

"...

:i

April

13

23 25.5

51.2

17 59 31.6

.". 28. 7

24 16.7

54 2.9

2618

"...

3

April

25

23 25.5

51.2

17 59 32. 9

5 30.0

24 16.7

52 2. 9

2619

K

3

April

29

23 25. 7

51.3

17 59 31.1

f> 30.3

24 17.11

54 0.8

2620*

"...

3

May

16

23 25. 6

51.4

17 59 30.9

5 31.9

24 17.0

53 59.0

2621

Lalande 219.^7 .

7.8

3

April

26

24 2:;. 6

51.3

19 4 14.1

5 30.5

11

25 14.9

+18 58 43.6

2622

"...

8

3

April

27

24 22. 8

51.3

19 4 10.6

5 30.5

25 14.1

58 40. 1

2623

"...

7

Q
O

Maj

2

24 23.9

51.3

19 4 15.3

5 31.0

25 15.2

58 44. 3

2624

45 (He v.) Leonis

6

3

April 2;

24 53. 1

51.8

28 58 42. 2

5 33.6

11

25 44. 9

+28 53 8. 6

2625

"...

6

3

April

30

24 53.3

51.8

28 58 43. 1

5 33.7

25 45. 1

53 9.4

2626*

"...

6

3

May

9

24 52.3

51.9

28 58 41.8

5 34.9

25 44.2

53 6. 9

2627

Lalande 2201s .

7

3

A pi il

28

25 50. 3

51.7

28 58 21. 1

5 33.7

11

26 42. 0

+28 52 511.7

2628

91 Leonis v

3

April

3

25 52. 5

5U.2

0 22 11.8

5 2",. 5

11

26 42. 7

+ 0 16 46.3

2629

"...

:;

April

13

25 52. 1

50. 3

0 22 11.5

5 25.6

26 42. 1

16 45.9

2630

3

April

19

11 25 51. 8

+ 50. 3

+ 0 22 11.4

— 5 25. 7

11

26 42. 1

+ 0 16 45.7

196)

GOULD — CATALOGUE OF STARS ORSERVEO I!Y D AGELET.

197

•

Mean equinox 1800. 0

No.

N.'llnr

Mag.

Date

App't a

Keduct'n

App't <i

Reduction

a

d

It m s

s

o / //

/ //

It m s

u ' "

2631

01 Leonis v

3

April 20

1 1 25 52. 2

+ 50.4

+ 0 22 8. 6

— 5 25. 0

11 20 42.6

+ 0 16 42.7

2632

Piazzi 121

7.6

3

April 27

26 30.2

51.0

33 4 58.8

5 35.7

11 27 31. 1

+32 59 23. 1

2033

5!) Ursae Majoris

3

April 25

2( ; 46. 1

52. 6

44 40 35.8

5 37.0

11 27 3H.7

+44 43 58. 2

2634

it

6

5

April 26

26 54. 0

45.5

44 48 55.2

4 53.5

27 3,0.5

44 1.7

2635

1 Virginis o>

3

Feb. 18

27 17.2

50.9

9 19 52.2

5 27. 5

1 1 28 8. 1

+ 9 14 24.7

2636'

"...

3

Feb. 10

27 16.8

50.9

9 19 52.2

5 27.5

28 7.7

14 24.7

2637

[i

3

Feb. 26

27 17.3

50.8

9 19 55.2

5 27.2

28 8. 1

14 28. 0

2638

"

3

April 2

27 17.7

50.6

9 19 52.7

5 27.0

28 8. 3

1 I 25. 7

2639

"...

3

May 16

27 18.3

50.9

9 19 52.7

5 20.7

28 0. 2

14 23.0

2640

Piazzi 132 . .

7.8

3

April 13

29 18.4

50.3

2 9 3.0

5 26.5

1] 30 8.7

+ 2 3 36.5

264]

"...

7

3

April 26

20 18.3

50.4

2 9 2.7

5 26. 9

30 8.7

3 35.8

2642

02 Leonis

6

3

Feb. 26

20 31.3

51.3

22 33 11. 9

5 26.7

11 30 22.6

+22 27 45.2

2643

"...

3

April 3

20 30.8

51.1

22 33 14.6

5 '.'0. 1

3,1) 21.0

27 45.2

2644"

, 1

3

April 20

29 30.6

51.2

22 3.3 20. 1

5 32.5

3(1 21.8

27 47.0

2645

ti

4.5

5

Mar. 30

29 37. 4

44.2

22 32 31.7

4 44.0

3(1 21.0

27 40. 8

2646

ill Ursse Majoris

3

April Hi

29 36.6

51.7

35 25 32. 3

5 33. 8

11 311 '.'-.3,

+35 10 58.5

2647

"...

3

April 25

29 37.2

5 1 . 8

35 25 29. 5

5 35.5

3,(1 20.11

10 54.0

2648

"...

3

April 30

29 37.2

51.9

35 25 33.9

5 35.3

30 20. I

19 58.6

2649

Piazzi 137

3

May 13

30 13.7

52.3

42 26 33. 4

5 411.1

11 31 6.0

+42 20 53.3

2650

02 Ursse Majoris

5.6

3

April 27

30 16.7

51.6

32 56 45. 3

5 35.1

11 31 8.3

+32 51 10.2

265]

..

3

April 28

30 16.7

51.0

32 56 41.1

5 35.3,

31 8.3

51 5.8

2652

"...

6.7

3

May 9

30 17.0

51.8

32 56 46. 1

5 36.9

31 8.8

51 9. 2

•_'i ;;,;;

"...

6

5

April 26

30 23.8

44.7

32 56 6. 1

4 50.8

31 8.5

51 15.3

2654

,,

6

5

April 29

3ii 23.6

44.7

32 56 3. 6

4 51.3

31 8.3

51 12.3

2055

Lalande 22144 .

7

5

Mar. 30

30 56.5

44.2

23 24 2.7

4 45. 1

11 31 40.7

+23 19 17.6

2656

4>4 Mayer

3

April 19

31 3.0

50. 5

5 56 41.3

5 27. 7

11 31 54. 1

+ 5 51 13.6

2057

Lalande 22155 -

7

3

May 1

31 19.6

50. 5

3 33 41.7

5 27.0

11 32 10.1

+ 3 28 14. 1

2658*

Lalande 22150 .

7

3

May 2

31 29.7

51.1

19 26 35.8

5 32. 3

11 3,2 20.8

+19 21 3.5

2659

Lalaudu 22175,6

7

3

April 16

32 9.7

51.4

32 57 58. 8

5 33.7

11 33 1.1

+32 52 25. 1

2660

"...

7

3

April 25

32 9.6

51.5

32 57 56.9

5 35.]

33 1.1

52 21.8

266]

«

6.7

3

April 27

32 9.2

51.5

32 58 2. 6

5 35.3

33 0. 7

52 27. 3

2662

"...

7

3

April 28

32 9.3

51.5

32 57 54. 7

5 35.4

33 0.8

52 19.3

2663

"...

3

April 30

32 0.5

51.5

32 58 2. 1

5 35.8

3,3 1.0

52 26. 3

2664

"...

7.8

3

May 0

32 9.2

51.6

32 58 0. 3

5 37.2

33 0.8

52 23. 1

2665

"...

7

5

April 26

32 16.5

44.6

32 57 18.0

4 51.0

33 1. 1

52 27.0

2000

( i

7

5

April 20

32 10.2

44.6

32 57 15.7

4 51.5

33 0.8

52 24. 2

2667

Piazzi 140

5

Mar. 30

33 2.7

44.2

26 24 21.2

4 45.8

1 1 33 40. 0

+26 10 35.4

2668

Lalande 22220 .

6

3

April 12

34 1.0

50.7

15 27 53. 0

5 20.0

11 34 51.7

+15 22 23. 4

2669

"...

6.7

3

April 13

34 II. 0

50.7

15 27 52. 9

5 29. 6

34 51.0

22 23.3

2670

tt

7

5

April 20

34 8.0

44.0

15 27 10.2

4 46.9

34 52.0

22 23.3

2671

2 Virginis f1

3

Feb. 26

34 6.7

50.7

9 27 37.2

5 28. 1

11 34 57.4

+ 9 22 9. 1

2672

"

3

Mar. 18

34 6.7

50. 5

9 27 38. 0

5 27.7

34 57.2

22 10.3

2673

"...

3

April 2

34 7.1

50.5

9 27 39.2

5 28.0

34 57.6

22 11.2

207 4"

"...

3

April 3

34 (i. 5

50.5

9 27 37. 0

5 28.0

34 57.li

22 0.0

2675

"...

3

April 26

34 6.6

50.6

9 27 37. 0

5 29.3

34 57.2

22 7. 7

2676

Lalande 22222 .

3

May 2

34 6.9

51.il

21 5 43.2

5 29.9

11 34 57.9

+21 0 13.3

2077

Lalande 22231 .

7.8

3

April 10

34 10.7

50.5

8 13 59.2

5 28.9

11 55 7.2

+ 88 30.3

2678*

63 Ursai Maj. x

3

April 28

34 34.2

52.0

48 58 49. 0

5 39.9

1 1 3,5 26. 2

+48 53 9. 1

2679

"...

3

April 20

34 35.5

52.0

48 58 56. 0

5 40. 1

35 27.5

53 15.9

2680

3 Virginis v

3

April 16

34 44.2

50.5

7 44 28.5

5 28.4

11 35 34.7

+ 7 39 0. 1

2681

,i

3

April 25

34 43.6

50.5

7 44 28. 3

5 28.9

35 34. 1

38 59. 4

2682

Piazzi 156

6.7

3

April 30

35 46. 3

51.1

24 55 23.7

5 34.0

11 36 37.4

+24 49 49.7

2683

"...

6

3

May 2

35 46. 7

51.1

24 55 23.9

5 34.2

36 37.8

49 49.7

2684

"

7

5

April 26

35 53. 4

44.2

24 54 40.7

4 49.1

30 37.0

49 51.0

2685

4 Virginis f-

::

Feb. 19

36 40. 2

50.8

9 26 50. 0

5 ■.'-.(',

11 37 37.0

+ 9 21 21.4

2686*

tc

7

::

Mar. 18

36 40.7

.-mi.;,

9 26 49.6

5 28.0

37 37.2

21 21.6

2687

it

5.6

3

April 16

36 47. 8

50. 5

9 26 52. 2

5 28.8

37 38.3

21 23.4

2688

It

3

May 1

30 40.4

50.6

9 26 49. 2

5 20.0

37 37.0

21 10.3

2689

"...

5.6

5

April 10

30 53. 0

43.7

9 20 8. 1

4 44.4

37 3,7.3

21 24.0

2690

93 Leonis

::

Feb. 26

11 30 4^.2

+ 51.0

+21 25 13.6

— 5 27.5

11 57 50.2

+21 10 40. 1

(197)

198

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

•
Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't <5

Reduction

a

S

h m s

s

o / "

/ //

h m s

o / "

269]

93 Leonis . .

3

April 2

11 30 47.7

+ 50.8

+21 25 24. 5

— 5 30. 0

11 37 38.5

+21 19 54.5

2692

"

5

5

April 29

30 54. 0

44.1

21 24 38. 5

4 48.8

37 38.7

19 49.7

2093

1604 Bradley .

3

April 3

37 30. 1

50.6

15 29 9. 9

5 29. 2

11 38 20.7

+15 23 40.7

2094

"...

6.7

3

April 13

37 3H.2

50.(1

15 29 11.7

5 30.0

38 20. 8

23 41.7

2695

Flamsteed, B.1656

7

3

April 25

38 0.9

50.5

(1 23 40.6

5 29. 0

11 38 51.4

+ 6 18 11.6

2696

94 Leonis ft

3

Feb. 26

38 0.7

50.8

15 46 50.7

5 27.9

11 38 51.5

+15 41 22.8

2(197

"...

3

April 3

38 0.7

50.6

15 46 52. 3

5 29. 3

38 51.3

41 23.0

2698

"...

3

April 12

38 1.0

50.6

15 40 54.3

5 30. 0

38 51.6

41 24.3

2699

"...

3

April 13

38 1.1

50.0

15 40 55. 1

5 30.1

38 51.7

41 25.0

2700

[i

3

April 10

38 0.7

50.0

15 46 56. 2

5 30.7

38 51.3

41 25.5

2701

"...

3

April 29

38 0.7

50. 7

15 46 55. 1

5 31.0

38 51.4

41 23.5

2702

"...

3

May 13

38 0. 7

50.8

15 46 52. 9

5 32.9

38 51.5

41 20.0

2703

"...

2

3

Mav 111

38 0. 9

50.8

15 46 52.3

5 33.2

38 51.7

41 19.1

27114

"...

2

3

May 20

38 0.6

50.9

15 4(1 58. 1

5 33.5

38 51.5

41 24.6

27 1 15

" ...

2

3

May 31

38 0.5

51.0

15 46 52.5

5 34. 3

38 51.5

41 18.2

2706

"...

2

3

June 2

38 o. 0

51.0

15 40 54. 8

5 34.4

38 51.6

41 20.4

2707*

"...

2

3

June 3

38 0. 0

51.0

15 40 58. 9

5 34.5

38 51.0

41 24.4

2708

it

3

July 10

37 59.8

51.5

15 40 58.5

5 30. 1

38 51.3

41 22.2

2709

55(Hev.)Ur.Maj.

6

3

April 27

38 25. 2

51.2

30 8 10.1

5 30.7

11 39 10.4

+36 2 33. 4

2710

"...

6

3

April 28

38 25. 3

51.2

36 8 5. 8

5 30.9

39 16.5

2 28.9

2711

it

6

3

April 30

38 25. 1

51.2

36 8 13.8

5 37.2

39 16.3

2 36.6

2712

Lalande 22334 .

9

3

April 28

38 54. 2

51.1

35 59 44. 7

5 36.9

11 39 45.3

+35 54 7.8

2713

"...

9

3

April 30

38 54.4

51.1

35 59 45.

5 37.2

39 45. 5

54 8.

27 14

5 Virgini8 ji

3

Feb. is

39 25.6

50.0

2 59 4. 8

5 29.9

11 40 16.2

+ 2 53 34.9

271.3

"...

3

Feb. 19

39 24.9

50.6

2 59 4. 1

5 29. 8

40 15.5

53 34. 3

27 Hi*

"...

3

Feb. 26

39 25. 1

50.5

2 59 6. 0

5 29.1

40 15.6

53 36.9

2717

"...

3

Mar. 18

39 25. 0

50.3

2 59 7.7

5 27.9

40 15.3

53 39.8

2718

"...

3

April 2

39 24.8

50.3

2 59 7. 2

5 27.8

40 15. 1

53 39.4

2710

"...

3

April 3

(39)

2 59 2.6

5 27.7

(40)

53 34.9

2720*

"...

3

April 29

39 24. 3

50.4

2 59 3. 2

5 28. 3

40 14.7

53 34.9

2721

"...

3

3

May 16

39 25. 4

50.5

2 59 1.0

5 29. 1

40 15.9

53 32. 5

2722

"...

3

May 20

(30)

2 59 5. 5

5 29. 5

(40)

53 36.0

2723

"...

3

May 31

39 25. 1

50.6

2 59 0. 3

5 29.9

40 15.7

53 30.4

2724

"...

3

June 2

(39)

2 59 1.9

5 30. 1

(40)

53 31.8

27 -jr.

Anonynia .

7

3

May 1

39 48. 3

50.6

13 23 52.9

;, 31.3

11 40 33.9

+13 23 21.6

2726

"...

6

3

May 2

39 48.5

50.6

13 28 55.3

5 31.4

40 30. 1

23 23. 9

27 27

"

7

3

May 9

39 48.0

50.7

13 28 53. 3

5 3 1 . 0

40 38.7

23 21.4

2728

"...

6

5

April 20

39 55.4

44.8

13 28 8.8

4 40.5

40 40.2

23 22. 3

2720

Lalande 22:160 .

6

5

Mar. 30

40 0. 1

44.0

34 33 57.4

4 47.5

11 40 44. 1

+34 29 9.9

2730

Lalande 2236(1 .

8.9

3

April 25

40 19.3

50.5

13 0 31.5

5 30.7

11 41 9.8

+12 55 0. 8

2731*

"...

7.8

3

May 9

40 19.7

50.6

13 0 39.6

5 31.9

41 10.3

55 7.-7

27: 12

"...

7.8

5

April 20

40 26. 5

43.8

12 50 5-.'. 7

4 40.5

41 10.3

55 0. 2

t2733

6.7

5

April in

40 34.3

44.1

9 14 46. 1

4 50.2

11 41 18.4

+ 99 55. 9

2734

1830 Gronrnbridge

7

3

April 27

40 27.4

51.0

39 1(1 25.7

5 37.7

11 41 18.4

+39 10 48.0

2735

"...

7

3

April 28

40 27. 2

51.1

30 10 27.0

5 37.9

41 18.3

10 49. 1

2736

n

6.7

5

April 29

40 34.6

44.2

39 15 32. 1

4 53.7

41 18.8

10 38.4

2737

Lalande 22390 .

3

April 12

41 21.5

50.0

21 36 49. 0

5 31.3

11 42 12.1

+21 31 17.7

2738

Johnson 2755

8

3

April 20

41 39.0

51.1

47 45 51.0

5 39. 0

11 42 30.1

+47 40 12.0

2739

Piazzi 176 . .

7

5

Mar. 30

42 40. 0

43.8

::i 48 34.1

4 47.6

11 43 23.8

+34 43 40.5

2740

"

7

5

April 10

42 40. 0

43.9

34 48 39. 2

4 49.4

43 24. 5

43 49. 8

2741

Flamsteed, B.1862

7.8

3

April 27

42 34.2

50.0

42 7 21.5

5 38. 1

11 43 25.1

+42 1 43.1

27 12

"...

7.8

.3

April 28

42 33. 9

50.0

42 7 24.4

5 38.6

43 24. 8

1 45.8

2743

"...

7

3

April 30

42 33. 9

50.9

42 7 25.2

5 39.0

43 24.8

1 40.2

2744

Lalande 22414 .

10

3

Mar. 18

42 32. 1

50.4

9 40 32. 0

5 28.4

11 43 22.5

+ 9 41 4.2

2745

"...

0. 10

3

April 3

42 33.0

50.4

9 40 25.4

5 28.7

43 23. 4

40 5(1. 7

27411

"...

8. 0

3

May 2

42 33. 1

50.5

9 40 34.8

5 30.5

43 23. 0

41 4.3

27 17

(15 l'is;e Maj. pr.

7

3

April 2(1

43 47. 3

50.9

47 41 3.9

5 39.7

II 44 38.2

+47 35 21.2

2748

"...

6

3

April 20

43 48.3

5O.0

47 41 5.4

5 40.2

44 30.2

35 25. 2

2740

"...

7

3

May 0

43 47. 4

51.0

47 41 0.3

5 42.0

44 38. 4

35 24.3

2750

"...

7

5

April 29

11 43 54.7

+ 44.1

+47 40 20. 1

— 4 55. 9

11 44 38.8

+47 35 24. 2

(198)

GOULD CATALOGUE OF STARS OI5SERVED BY I) AGELET.

199

Mean equinox 1800. 0

No.

Name

Map:.

Date

App't a

Reduct'n

App't (S

Reduction

a

6

It VI s

s

O ' "

/ //

i m s

o / "

2751

65 I'is.t Maj. foil.

7

5

April 29

11 44 li.ll

+ 44. 0

+47 39 59. 1

— 4 55. 9

11

44 44.9

+47 35 3.2

2752*

ii Virginia A

3

Feb; in

43 54. 8

50.7

9 38 49.8

5 29. 1

11

4 1 45.5

+ 9 33 20.7

2753

. i

3

Mar. 18

4:: :.:.. ::

50. 4

9 38 50.9

II 15.7

33 22. 4

2754

ii

3

April 3

43 56 (i

50.3

9 38 16.7

5 28. 8

44 46.3

33 17.11

2755

"

3

April 13

43 55. T

5U.4

9 38 48. 8

5 29. 2

44 46. I

:« in.6

2756

"...

3

April 25

43 55.6

50. 1

9 38 47. 9

5 30. 1

44 46.0

33 17.8

27. >7

"...

;:

May 2

4:! 55. 5

50. 4

9 38 54. 8

5 30.5

44 45.9

33 24. 3

2758

Lalande 22455 .

6

3

May 13

44 14.4

50.8

26 43 44. 1

5 36.6

11

45 5. 2

+26 38 7.5

2759

i.

7

3

May 16

44 14.5

50.8

26 43 43. 3

5 38.6

45 5. 3

38 5. 3

2760

491 Mayer '. .

3

April 19

44 111.7

51.3

2 18 10.5

5 28.2

11

45 11.0

+ 2 12 42. 3

2761

"...

7.8

5

April 26

44 26.7

43.5

2 17 28. 1

4 44.0

45 10.2

12 44. 1

2762

95 Leonis o

7

3

April 16

44 31.9

50.4

16 51 7.5

5 30.9

11

45 22. 3

+ Hi 45 36.6

2763

Groombridge 1836

7.6

3

April '27

44 49.3

50.7

41 51 26. 1

5 38. 4

11

15 40.0

+41 45 47.7

2764*

"...

8

3

April 28

44 4H.7

50. 7

41 51 21.9

5 3s. 7

45 40.4

45 43. 2

2765

"...

7.8

3

April 30

44 4^.7

50. 7

41 51 26.8

5 38.8

45 39. 1

45 48.0

2766

Piazzi 195 - .

6

5

Mar. :;n

45 13.5

43.7

36 38 23.0

4 47.9

11

45 57.2

+36 33 35. 1

2767

Groombridge 1-4 1

7.6

3

April 27

46 4. 2

50. 6

41 33 14.7

5 :;-. i

11

46 54.8

+41 27 36. 3

2768*

"...

6.7

3

April 28

46 3.9

50. 6

41 33 13.5

5 :;-. 7

46 51.5

27 34.8

2769

it

7.6

3

April 30

46 4.4

50.6

41 33 16.7

5 38.9

46 55. 0

27 35. -

2770

"

7

5

April 10

46 11.1

43.6

41 32 35.0

4 50.8

46 54.7

27 44.2

•2771

Piazzi 201 . .

8.9

3

April 25

46 39. 4

50.3

8 10 54.0

5 29. 8

11

47 29.7

+ 8 5 24.2

2772

"...

8

3

May 2

46 39.2

50. 1

8 u i.:;

5 30.2

47 211. 6

5 31.!

2773

Lalande 22534 .

6

3

May 13

46 59. 2

50. 7

33 29 5.3

5 38. -

11

47 49.9

+33 23 26. 5

2774

"...

6

3

May 16

46 58.0

50.7

33 29 7.4

5 39. 1

47 48.7

23 28. 3

■JT 7 . >

492 Mayer

7

3

Mar. 18

47 -.5

50.3

4 41 12.8

5 28. 1

11

47 58. 6

+ 4 35 44.4

277(i

"...

6.7

3

April 3

47 8.8

50.2

4 41 12.2

5 28.3

47 59. 0

35 43. 9

2777

it

6.7

3

April 4

47 8.8

50.2

4 41 13.6

5 28. 3

47 59. 0

35 45. 3

2778

" . .

7

3

May 9

47 8.0

50.4

4 41 15.9

5 2!) 8

47 58. 4

35 50. 1

2779

"...

7

5

April 26

47 15.2

43. 5

4 40 36. 1

4 44.7

17 58.7

35 51.4

2780

493 Mayer . .

7

3

May 1

47 59.2

50.3

1 44 4.2

5 28. 6

11

48 49. 5

+ 1 38 35. 6

•27.-1

Lalande 22566,7 .

6.7

3

May 16

48 48. 9

50.6

35 14 26. 1

5 39.7

11

49 39.5

+35 8 46.4

2782

"...

7

5

April 29

48 56. 0

43.6

35 13 41.4

4 52. 9

49 39.6

8 48. 5

2783

7 Yirjrinis 6

3

Feb. 19

48 51.7

50.6

4 51 41.3

5 2H.1I

11

4!l 42. 3

+ 4 46 11.4

2784

"...

7

3

Mar. 18

48 52.6

50. 3

4 51 39. 1

49 42. 9

46 10.6

■:; 85

ii

3

April 3

48 52. 5

50.2

4 51 37. 5

5 28. 4

49 42. 7

46 9. 1

2786

"...

3

April 13

48 52. 1

50.2

4 51 37.5

5 28. 8

49 42. 3

46 8.7

27 -7

"...

7

3

May 11

48 51.4

5(1.4

4 51 41.0

5 29. 9

49 41.8

46 11.1

2788

ii

6

5

April 26

4-' 58.8

43.5

4 50 58. 5

4 44.11

49 42. 3

46 13.6

2789

Lalande 22574 .

7.8

5

Mar. 30

49 8.2

43. 5

37 55 18.3

4 48.0

11

49 51.7

+37 50 30.3

2790

"...

8.9

5

April 10

49 7.7

43.5

37 55 30.0

4 50. 0

49 51.2

50 40.0

•27111

Jolinsnu 2783

8

3

April 26

49 14.1

5H.2

45 50 16. 0

5 3! 1.2

11

50 4. 3

+45 44 36. 8

2792

"...

8

3

April 27

41) 1 1.6

50.3

45 50 12.2

5 39. 4

50 4. 9

44 32.8

2793*

"...

8.9

3

April 28

49 13.9

5ii.::

45 50 12. 9

5 39.6

5(1 4.2

44 33.3

2794*

"...

8

3

April 30

49 14.3

.mi.:;

45 50 18.7

5 40.0

50 4.6

44 38.7

2795

8 Virginia w

3

April Hi

49 47. 1

511.2

7 49 19.3

5 211. 3

11

50 37.3

+ 7 43 50.0

27 Hi ;

"...

3

April 19

49 47. 2

511.2

7 49 16.2

5 29. 5

50 37. 4

43 46.7

2797

"...

3

April 25

49 46.7

50. 3

7 49 14.5

5 29. 9

50 37.0

43 44. 6

2798

"...

3

May 2

49 46. 9

50.3

7 49 19.3

5 30.2

50 37.2

43 49. 1

2799

"...

3

May 20

49 47. 1

50.5

7 49 18.5

5 31.5

50 37. 6

43 47. 0

2800

Lalande 22612,3 .

6

3

May 13

50 33.1

50.4

37 15 20. 9

5 39.9

11

51 23.5

+37 9 41.0

2801

"...

6.5

3

Mav 16

511 33.2

50.4

37 15 21. 3

5 40.3

51 23.6

9 4L0
+23 12 3077

2802

1 Coinse . . .

7

3

April 211

5ii :;-. I

50.3

23 18 4.9

5 34.2

n

51 28.4

2803

67 Ursse Majoris

3

April 26

51 5.4

50.1

44 15 0.8

5 38.8

ll

51 55.5

+44 9 22.o

2-114

"...

6

3

April 27

51 5.7

50.1

44 15 0.7

5 39. 0

51 55.8

9 21.7

2805

"...

3

April 28

51 5. 3

5li. 1

44 14 54.7

5 39.2

51 55.4

9 15.5

2806

.I

6

::

April 30

51 5.4

50.1

44 15 4.6

5 39.6

51 55.5

9 25. 0

2807

i.

6.7

5

April 10

51 11.6

43. 2

44 14 14.1

4 51.2

51 54.8

9 22. 9

2808

Piazzi 218 . .

6.7

3

April 26

51 28. 1

50.0

44 19 27. 8

5 38.8

11

52 1 -. 1

+44 13 49.0

2809'

It

7

3

April 28

51 2-. 6

50. 1

44 19 22.7

5 39.2

52 18.7

13 43.5

2810

"...

7

3

April 30

11 51 28.6

+ 50. 1

+44 19 30.6

— 5 39.6

11

52 18.7

+44 13 51.0

(199)

200

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0.

No.

Name

Mag

Date

App't a

Reduct'n

App't ri

Reduction

a

d

k m s

s

o / //

/ //

h m s

o / //

2813

Lalande 22655 .

7

3 May 13

1 1 52 28. 1

+ 50.3

+30 53 18.7

— 5 38.0

11

53 18. 4

+30 47 40.7

2812

" .

7.8

3 May 16

52 27. 3

• 50. 3

30 53 17.9

5 38.4

53 17.6

47 39.5

2813

497 Mayer . .

7

3 April 16

52 41.8

50. 2

6 46 8. 9

5 29. 2

11

53 32.0

+ 6 40 39.7

2814

"...

7.6

5 April 29

52 48. 3

43.5

6 45 20. 5

4 45.6

53 31.8

40 34.9

2815

2 Comae .

3 April 29

53 11.1

50.2

22 39 57. 5

5 33.9

11

54 J . ::

+22 34 23.6

2816

9 Virginia o

:'. Feb. 19

54 10. 1

50.6

9 56 8. 0

5 29. 2

11

55 0.7

+ 9 50 38.8

2817

"...

3 April 3

54 10.8

50.2

9 56 6. 7

5 29.0

55 1.0

50 37. 7

28 1 - "

"...

3 April 4

54 11.2

50.2

9 56 8. 1

5 29. 0

55 1.4

50 39. 1

2819

"

:i April 25

54 11.2

50.2

9 56 3. 6

5 30.4

55 1.4

50 33.2

2820

3 May 9

54 9.8

50.3

9 56 9. 1

5 31.4

55 0. 1

50 37.7

2821

"...

3 May 20

54 8.9

50.4

9 56 6. 9

5 32.3

54 59.3

50 34.6

2822

Lalande 22717 .

8

3 May 16

54 56. 4

50.2

24 24 45. 1

5 36.4

11

55 46.6

+24 19 8.7

282:!

Piazzi 232 . .

9

3 April 30

55 18.6

49.6

47 29 39. 3

5 40.2

11

56 8.2

+47 23 59. 1

2824"

"...

7.8

5 Mar. 30

55 23. 8

42.7

47 2-' 42.9

4 49. 1

56 6. 5

23 53. 8

2825*

Lalande 22750 .

9.8

3 April 28

56 19.7

49.6

44 18 13.5

5 39.0

11

57 9. :i

+44 12 34.5

2826

Lalande 22754

8

3 May 13

56 25.7

50.1

24 14 57.0

5 35.9

11

57 15.8

+24 9 21.1

2827

.".on Mayer . .

7

:; April 16

56 56. 4

50.2

1 49 53. 1

5 28. 3

11

57 46.6

+ 1 44 24.8

2828

Lalande 22762 .

9.10

3 April 4

56 59. 3

50. 1

7 14 28.9

5 28.6

11

57 49.4

+ 79 0. 3

2829

"...

8.9

3 April 29

56 59. 1

50.2

7 14 35.2

5 30.0

57 49.3

9 5.2

2830

"...

8

3 May 2

56 59. 2

50.2

7 14 36.3

5 30.1

57 49.4

9 6.2

2831

"...

If. 11

5 April 29

57 4.4

43.4

7 13 47.2

4 45.6

57 47.8

9 1.6

2832

Lalande 22768 .

7

3 April 26

57 8.9

49.6

40 51 53.0

5 37.6

11

57 58.5

+40 46 15.4

2833*

"...

7.8

3 April 27

57 8.6

49. 6

40 51 51. 2

5 37.4

57 58.-2

46 13.8

2834*

"...

7.8

:! April 28

57 9.1

49.6

40 51 49.4

5 37.2

57 58.7

46 12.2

2835

"...

8.9

3 April 30

57 8.6

49. 6

40 51 50.8

5 36.5

57 58.2

46 14.3

2836

Ill Virgin is r

7

3 Feb. 19

58 35.9

50. 6

3 6 54.6

5 30.2

11

59 26. 5

+ 3 1 24. 4

2837

"...

3 Feb. 26

58 36.2

50.4

3 6 50. 9

5 29. 6

59 26. 6

1 21.3

2838

"...

3 April 3

58 36.6

50. 1

3 6 47. 1

59 26. 7

1 18.9

2839

"...

3 April 4

58 36. 1

50.2

3 6 49. 0

5 28. 2

59 26.3

1 20.8

2840

"...

3 April 16

58 36. 4

50.2

3 6 51.8

5 28.4

59 26.6

1 23.4

2841"

"

3 May 9

58 35.7

50.2

3 6 47.3

5 29.4

59 25. 9

1 17.9

2842

"...

6.7

5 April 29

58 42. 6

43.4

+ 36 6.0

4 44.6

59 26.0

1 21.4

2843

2 Corvi e

3 May 31

59 1.2

50.6

—21 25 2.5

5 22. 7

11

59 51.8

—21 30 25.2

2844

11 Virgiuis s

7

3 Feb. 19

59 1.3

50.5

+ 7 0 41.6

5 29. 6

11

59 51.8

+ 6 55 12. 0

28 15

"...

3 April 3

59 1.8

50.1

7 0 39.2

5 28.6

59 51.9

55 10.6

2846

"...

5

3 April 25

59 1.2

50. 1

7 0 40. 1

5 29. 6

59 51 . 3

55 10.5

28 17

"...

6

5 April 10

59 8.4

43.3

6 59 58. 5

4 44.5

59 51.7

55 14.0

2848

3 Comse .

3 April 29

59 29. 0

50.0

18 0 55.7

5 32.5

12

0 19.0

+17 55 23.2

2849

Flamsteed, B.1681

6

3 May 13

59 45.5

49. 9

28 29 19.::

5 37.0

12

o 35.4

+28 23 42.3

2850

"...

6.5

3 May 16

59 45.7

49.9

28 29 20. 6

5 37.4

0 35.6

23 43. 2

2851

(1

6

5 May 30

59 52. 9

43.0

28 28 27. 8

4 46.3

0 35.9

23 41.5

2852

Lalande 22846 .

7

3 April 26

59 50. 0

49. ::

41 5 59. 8

5 37.6

12

0 39.3

+41 0 22. 2

2853

"...

7

3 April 27

59 50.0

49.4

41 5 55.5

5 37.8

o 39. 1

O 17.7

2854

"...

7

3 April 28

59 50.2

49.4

41 5 54. -

5 38.0

o 39.6

0 16.8

2855

"...

7.8

3 April 30

11 59 50.1

49.4

41 6 0.4

5 38. 3

0 39.5

0 22. 1

2856

Piazzi (3 . . .

7

5 April 29

12 0 4:!. 2

4:!. 4

5 14 55.5

4 45. 1

12

1 26.6

+ 5 10 lo. l

2857

1 Comse .

3 May 9

0 50.9

49.8

27 4 43.6

5 36.0

12

1 40.7

+26 59 7. 6

2858

"...

3 May 20

0 50.7

49. 8

27 4 1^.7

5 37.5

1 40.5

59 11.2

2859

Lalande 22887 .

9.10

3 April 4

1 14.9

50.1

7 4 45.2

5 28. 5

12

2 5. 0

+ 6 59 16.8

2860

"...

9

3 May 2

1 14.5

50. 1

7 4 54. 9

;, 30. o

2 4.6

59 24. 9

2K1

12 Virgiuis t

3 Feb. 26

2 23. 5

50. 3

11 28 0.7

5 28.4

12

3 13.8

+1 1 22 32. 3

2862

"...

3 April 3

2 23.8

50. 0

11 27 58.4

5 28.8

3 13.8

22 29.6

2863

Lalande 22914 .

8

3 April 3

2 26.0

50. 0

11 15 47.0

5 28. 8

12

3 16.0

+11 10 18.2

2864

Aiionvma

9

3 Feb. 19

2 48.1

50.6

0 33 49. 5

5 30.5

12

3 38.7

+ 0 28 19.0

2865

Lalande 22944 .

7

5 Mar. 30

3 35. 0

42. 9

24 51 46.1

4 45.5

12

4 17.9

+24 47 0. 6

2866

Lalande 22946 .

7

3 April 28

3 31.2

48.6

48 1.". 6.4

r> 39.2

12

4 19.8

+48 9 27. 2

286/

"

3 April 30

3 31.3

48.6

48 15 15.2

:> 39.7

1 19.9

9 35.5

2868

Lalande 22948 .

7.8

3 May 16

3 42.7

49. 3

40 33 3.2

:. 40.4

12

4 32.0

+40 27 22. 8

2869*

Lalande22949 .

7

3 April 28

3 49. 6

48. 5

48 (8)

12

I 38. 1

+48 (8)

2870

Lalande 2296:! .

7.8

3 April 26

12 4 26. 1

+ 48.5

4-48 19 26. 6

- 5 38. 7

12

5 14.6

+48 13 47. 9

(200)

GOULD — CATALOGUE OP STARS OBSERVED BY D AGELET.

201

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't (!

Redaction

a

<5

It m s

s

o / II

/ //

h in s

O ' II

287]

Lalamle 22903 .

3 April

27

12 1 25.8

+ 48.5

+48 19 23. 3

— 5 38.9

12 5 14.3

+48 13 44.4

2872

"...

3 April

28

4 26. 3

48.5

48 19 17.4

5 39.1

5 14.8

13 38.3

2873

"...

3 April

30

4 25.3

48. r,

48 19 29.2

:> 39. 5

5 13.8

13 49. 7

2874*

"...

7

:i May

9

4 20. 1

48.7

48 19 25. 6

5 41.3

5 14.8

13 44.3

2875

"...

7.8

3 May

13

4 26. 3

48.7

48 19 24.8

5 42. 0

5 15.0

13 42.8

2876"

"...

7

5 April

10

4 33.2

41.8

+48 18 35.3

1 50.9

5 15.0

13 41.4

2877

4 Corvi y

r

3 May

31

4 41.7

50.7

—16 20 29.4

5 24. 1

12 5 32.4

—16 25 53. 5

2878

"...

3 June

2

4 41.8

50.7

—16 20 28. 7

5 24. I

5 32. 5

25 52. 8

2879

0 ( Vina' .

:s April 29

5 0.7

49.8

+16 6 19.6

5 31.7

12 5 50.5

+16 0 47.9

2880

7 Coinse . . .

3 April

4

5 22.7

49.5

25 8 59.9

5 30.3

12 6 12.2

+20 3 29.6

2881*

u

3 May

20

5 22.5

49.7

25 9 7.3

5 30.5

6 12.2

3 30.8

2882

*(

5. 6

5 Mar.

30

5 29. 4

42.8

25 8 15.5

4 45.4

6 12.2

3 30. 1

■J--:;

Lalande % 2 .

8.9

:', May

16

5 50. 7

49.1

40 47 58.9

5 40. 3

12 6 39. 8

+40 42 18.6

2884

"

8.9

5 April 29

5 57.3

42.3

40 47 11.9

4 53.3

6 39.6

42 18.6

2885

Piazzl 34 . . .

7.8

3 May

9

7 4.7

49.7

+19 38 26. 1

5 33.4

12 7 54.4

+ 19 32 52.7

2886

Flamsteed, B.1703

8

3 April

16

7 2r).7

50.3

— 7 41 50. 8

5 26. 4

12 8 16.0

— 7 47 17.2

2887

13 Virginia n

; 1 el,.

19

7 34.8

50.6

+ 0 25 3. 1

5 30. 1

12 8 25. 1

+ 0 19 33.0

2888*

it

3 Feb.

26

7 35.1

50.5

0 25 2. 9

5 29.4

8 25.6

19 33.5

2889

k

3 Mar.

18

7 34.7

50.2

0 25 4. 7

5 27. 9

8 24.9

19 36.8

2890*

"

3 April

3

7 35.3

50.2

0 25 2. 0

5 27.4

8 25.5

19 34.6

289]

u

3 April,

4

7 34.8

50.2

0 25 10. 1

5 27.4

8 25.0

19 42.7

2892

"...

6

3 May

1

7 35. 2

50.2

0 25 0. 5

5 27. 8

8 25. 4

19 32.7

2893

Flamsteed, B.1G97

7

5 Mar.

30

8 13. G

42.6

+27 12 1.7

4 45.4

12 8 M. 2

+27 7 16.3

2894

14 Virginis .

it

3 April

16

8 13.1

50.0

— 7 42 42. 1

5 26. 3

12 9 3. 1

— 7 48 8. 4

2895

"...

7

3 April

29

8 13.2

50.0

— 7 42 36. 4

5 26.1

9 3.2

48 2.5

2896

Bessel, W.213 .

7.8

3 April

26

8 16.8

48.6

+41 31 7.5

5 36.7

12 9- 5.4

+41 25 30.8

■-'.-117

"...

7

3 April

27

8 18.1

48.6

41 31 0.3

5 36.9

9 6.7

25 23. 4

2898

"...

7

3 April

28

8 18.0

4S.6

41 30 56.4

5 37. 1

9 6.0

25 19.3

2899*

"...

8

3 April

3D

8 17.6

48.6

41 31 9.2

5 37.5

9 6.2

25 31.7

2900

it

8

3 May

10

8 17.3

48.8

41 31 6.1

5 40.2

9 6.1

25 25.9

2901

8 Comre .

3 May

13

8 22. 4

49.6

24 14 21.0

5 34.9

12 9 12.0

+24 8 46. ]

2902

15 Virginia ?/

3 Feb.

19

8 49. 9

50.6

0 32 16.3

•5 29. 9

12 9 40.5

+ 0 26 46. 4

2903

"

:; Feb.

26

8 50. 2

50.5

0 32 14.6

5 29.2

9 4H.7

26 45.4

2904

k

3 Mar.

18

8 50.1

50.2

0 32 20.4

5 27. 8

9 1(1.3

26 52. 6

2905

K

3 April

3

8 50. 6

50.2

0 32 13.3

5 27.2

9 40.8

26 46. 1

2906

"...

3 April

4

8 50.8

50.2

0 32 14. 0

5 27.2

9 41.0

26 46. 8

2907

"...

3 May

1

8- 50. 2

50. 2

0 32 12. 2

5 27. 6

9 411.4

26 44.6

2908

16 Virginia c

3 May

9

9 21.7

50. 1

4 31 9.2

5 29. 1

12 10 11.8

+ 4 25 40. 1

2909

Flamsteed, B.I Toil

7.6

5 Mar.

30

9 31.5

42.6

27 11 29.4

4 45.2

12 Id 14. 1

+27 6 44.2

2910

Beaael, W.278,9 .

7.8

5 April

10

9 53. 3

42.5

28 15 10.7

4 46.9

12 10 35.8

+28 10 23. 8

2011

Piazzi 55 . -

7

5 April

29

9 57.7

43.0

16 43 57. 0

4 47.1

12 10 40.7

+16 39 9. 9

2912

Arg. Z., Oel. 12568

7.8

3 April

26

in 20.9

48.0

46 43 17. 8

5 37.6

12 11 8.9

+46 37 40.2

2913

"

7.8

3 April

27

10 22.2

48.0

46 43 15. 4

5 37.8

11 10.2

37 37.6

2914*

a

7.8

3 April

28

10 21.7

48.0

16 43 15.3

5 38.1

1 1 9. 7

37 37.2

2915*

[(

8

3 April

30

1(1 21.4

48.0

46 43 21.5

5 38. 3

11 9. 4

37 43.2

2916

Lalande 23154 .

7

3 May

16

11 4.4

49. 7

17 56 58. 1

5 28.8

12 11 54.1

+17 51 29.3

2917

17 Virginia .

3 Feb.

26

11 31.6

50.3

6 30 37. 8

5 28.1

12 12 21.9

+ 6 25 9. 7

29J 8

3 Mar.

If

11 31.8

50.0

.6 30 42. 0

5 27. 3

12 21.8

25 14.7

2919

(<

6

3 April

3

11 32.4

50.0

6 30 36. 6

5 27.4

12 22. 4

25 9.2

2920*

"...

3 April

4

11 32.3

50.0

6 30 38.3

5 27.6

12 22. 3

25 10.7

2921

„

6

3 April

14

11 32.3

49.9

6 30 38. 0

5 27.7

12 22. 2

25 10.3

2922

"

3 April

16

11 32.1

49.9

6 30 39.7

5 28.0

12 22.0

25 11.7

2923

"...

3 May

2

11 32.1

50.0

6 30 41.5

5 28.9

12 22. 1

25 12.6

2921

[i

3 May

9

11 31.3

50.0

6 30 39. 4

5 29. 3

12 21.3

25 Kl.l

2925

12 Comae e

3 May

13

11 36.5

49.3

27 2 58. 7

5 35.5

12 12 25; 8

+26 57 23.2

2926

tf

4.5

5 Mar.

311

11 44.1

42.5

27 2 14.0

4 44.8

12 26.6

57 29.2

2927

4 Canum Veil. .

6.7

3 April

26

13 7. 1

47.9

43 44 45. 8

5 36.4

12 13 55.0

+ 13 39 9.4

2928

5

3 April

27

13 6.8

48.0

43 44 43. 3

5 36.6

13 54.8

39 6.7

2929*

(i

:! April 28

13 6.7

48.0

43 14 40.9

:, 36.8

13 54.7

39 4. 1

2930

" . -

7

3 April

30

12 13 6.7

+ 4J. II

+43 44 48.5

— 5 37. 3

12 13 54.7

+43 39 11.2

26

(201)

202

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'u

App't 6

Reduction

a

<S

h in s

s

o / "

m s

h m s

o / //

2931

13 Comae /

3 May

13

12 13 26.0

+ 49.2

4-27 18 5.2

— 5 35. 3

12 14 15.2

+27 12 20.9

2932

"...

3 May

20

13 25.9

49.2

27 18 9.2

5 36.2

14 15.1

12 33.0

2933

Lalaude 23214,5 .

7

5 Mar.

30

13 41.3

42.4

26 46 19.4

4 44.5

12 14 23.7

+26 41 34.9

t2934

Lalande 23233 .

7

3 April

28

14 16.4

47.8

44 3 16.8

5 36.7

12 15 4.2

+43 57 40. 1

2935

Piazzi 75 . . .

6

3 May

16

14 21.0

49.2

25 7 51.0

5 34.9

12 15 10.2

+25 2 16.1

2936

"

6.7

5 April

10

14 27. 3

42.4

25 7 5.8

4 45.7

15 0.7

2 20.1

2937

Piazzi 77 . . .

.-

3 April

29

14 52.5

5H.0

5 24 2. 3

5 28. O

12 15 42.5

+ 5 18 34. 3

293,-

Lalaude 23252 .

7.8

3 April

14

14 57.9

50. 0

3 14 31.8

5 26.9

12 15 47.9

+ 3 9 4.9

2939

"

8

3 May

9

14 57.7

50. 1

3 14 33.4

5 28.1

15 47.8

9 5.3

2940

Piazzi 78 . - .

7

3 April

16

15 6.8

40.5

17 3 54. 7

5 29. 3

12 15 56. 3

+16 58 25.4

2941

<.

7

3 May

1

15 6.4

49.5

17 3 52.2

5 30.7

15 55.9

58 21.5

2942

"...

7

3 Ma'y

2

15 6.4

49.5

17 3 53. 9

5 30.9

15 55. 9

58 23. 0

2943

6 Canum Yen.

6

3 April

26

15 9.7

48.1

40 13 25.1

5 35.3

12 15 57. 8

+40 7 49.8

2944

"...

6

3 April 2

15 10.0

48.1

40 ] 3 2:'.. 7

5 35.5

15 58. 1

7 48.2

2945

15 Coma? c

3 April

28

16 8.6

48.8

20 2^ 26.2

5 33.1

12 16 57. 4

+29 22 53. 1

2946

16 Coma' a

3 May

31

16 9.0

49.1

28 1 39.9

5 37. 3

12 16 58. 1

+27 56 2.6

2947

"...

3 June

2

16 8. 8

49.1

28 1 42. 1

5 37.5

16 57.9

56 4.6

2948

it

6

5 Mar.

30

16 15.5

42. 2

28 0 49. 4

4 44.3

16 57.7

56 5. 1

2949

Lalande 23292 .

9.10

3 April

3

16 37. 7

49.6

13 17 57.5

5 34.3

12 17 27.3

+ 13 12 23.2

2950

Piazzi 00 . - -

6.7

3 April

28

16 44. 3

48.8

+29 18 40. 3

5 33.0

12 17 33.1

+29 13 7.3

2951*

510 Mayer .

6.8

5 April

10

16 51.9

43.5

— 3 25 36. 9

4 42. 0

12 17 35. 4

— 3 30 18.9

2952

Lalande 23311 .

7

3 May

13

16 50.2

50.7

—13 15 8.7

5 23.7

12 17 ill. 0

—13 20 32.4

2953

Groombridge 1894

7

3 April

30

16 54.7

47.7

+42 33 27. 5

5 36.4

12 17 42.4

+42 27 51.1

2954

511 Mayer

7

3 May

9

17 16.3

50.0

5 35 50. :;

5 28.3

12 18 6.3

+ 5 30 22. II

29.->r.

Bradley 1671 . .

6.7

3 May

16

17 55.2

4-.0

27 (6)

12 18 44. 1

+27 (1)

2956

17 Comae d

5

3 May

16

18 5. 4

48.9

27 6 511.3

5 34.7

12 1* 54.3

+27 1 15.6

2957

"...

6

5 Mar.

30

18 12.6

42. 2

27 6 3.7

4 51.6

18 54.8

1 12.1

2958

18 Comae . . .

3 May

20

18 36. 3

49.0

25 18 33.7

5 34.7

12 10 25.3

+25 12 .V.i. n

2959*

Piazzi 103

6.7

3 Feb.

26

18 51.(1

40. 8

15 50 54. 4

5 25. 8

12 19 40. 8

+15 45 28. 6

•J. lull

8.9

3 April

3

18 51.4

49.4

15 50 53. 0

5 27. 1

19 40. 8

45 25. 9

2961

"...

7

3 April

4

18 51.6

49.4

15 50 52.8

5 27.2

19 41.0

45 25.6

2962

(i

8

3 (April

14

18 51.7

49. 4

15 50 54. 9

5 28.1

19 41. 1

45 26. 8

2963

"...

6.7

3 April

29

18 51.6

49.4

15 50 58.0

5 29. 7

19 41.0

45 28. 3

21 II 14

"...

6

3 May

2

18 51.2

49.4

+15 50 59. 5

5 20.0

19 40.6

45 29. 6

2965

512 Mayer . .

7

3 May

13

18 56. 3

50.7

—12 11 38.0

5 23.7

12 19 47. 0

—12 17 1.7

2966

Taylor 6649 . .

7.8

3 April

16

19 34. !

49.6

+10 55 1 . 3

5 27.3

12 20 24. 0

+10 49 34.0

2967

L(

8

3 May

1

19 31.2

49.6

111 55 l.ll

5 28. 1

20 23.8

49 32.0

2968

Lalande 233;- '4,5 .

7.8

3 April 27

19 37.2

47.7

40 27 10.4

5 34. 7

12 20 24.9

+40 21 35.7

2969

"...

3 April 28

19 37.7

47.7

40 27 10.1

5 34.9

20 25. 4

21 35.2

2970

u

8

3 April

30

19 37. 4

47.7

40 27 20. 1

5 35.2

' 20 25. 1

21 44.9

2971

21 Comae g

3 May

16

20 11.4

48.9

25 40 3.0

5 34.0

12 21 0.3

+25 40 20.li

2072

(C

3 May

20

20 10.8

48. 0

25 46 3. 9

5 34.5

20 59.7

40 20. 4

2973

Lalande 23398 .

6

3 May

17

20 11.8

49.4

17 48 51.6

5 31.9

12 21 1.2

+17 43 19.7

207 1

Groombridge 1902

7

3 April 26

20 27. 8

47.6

40 46 56.8

5 34.4

12 21 15. 4

+40 41 22.4

2975*

"...

7

3 April

27

20 27. 9

47.6

40 46 56. 4

5 34.6

21 15.5

41 21.8

2076

<(

3 April

28

20 27.:.

47. 6

40 46 48.6

:. 34.8

21 15.1

41 13.8

2077

K

7

3 April

30

20 27. 6

47.6

40 47 1 . 5

5 35.2

21 15.2

41 26.3

2978

Lalande 23422 .

8

5 Mar.

30

20 53.6

42. 0

28 15 0.0

4 43.3

12 21 ■\:<a;

+28 10 35.7

2979

20 Virginis -

7

3 April

3

22 5. ]

10. 6

11 29 27.0

5 26. 1

12 22 54. 7

+11 24 0.0

2980*

" . .

6

3 April

4

22 5.1

49.0

11 29 31.9

5 26.3

22 54. 7

24 5.6

2981

"...

3 April

14

22 5.0

49.5

11 29 33.8

5 26.7

22 54. 5

24 7.1

20-2

"

3 May

17

22 6. 1

49.6

+11 29 29.5

5 29.7

22 55. 7

23 59. 8

2983

Lalande 23463 .

6

:; May

13

22 21.8

50. 8

—11 38 22. 3

5 23. 4

12 23 12.6

—11 43 45.7

2984*

Lalaude 23464 .

7

3 April

29

22 26.0

40. 7

+ 9 8 46. 2

5 27. 5

12 23 15.7

+ 9 3 18.7

t2985

3 May

2

22 31.0

40.5

1 1 52 27. 9

5 28.2

12 23 20.5

+11 46 59.7

2986

Piazzi 118 . .

6

3 April 2!

22 34.5

49.7

8 52 18.8

5 27. 1

12 23 21.2

+ 8 46 51.4

2987

"

7

3 May

1

22 34. 3

49.7

8 52 21.8

5 27. 5

23 24.0

46 54. 3

2988

Lalande 23469 -

7.8

3 Mav

0

22 35.5

40. 0

+ 5 25 2. 5

5 27. 3

12 23 25. 4

+ 5 19 35.2

2989

22 Virginia q

3 Feb.

19

22 37. 1

51.1

— 8 15 19.7

5 29. 9

12 23 28.2

— 8 2ii 49.6

2990

22 Coma' .

3 May

16

12 22 46. 1

+ 48.8

+25 28 52. 6

— 5 33. 4

12 23. 34.9

+2.'. 23 10.2

(211")

GOULD — CATALOGUE OP STARS OBSERVED BY D AGELET.

203

Mean equinox 1800.0

No.

Name

Mag.

Date

App't a

teduct'n

App't (S

l.V'luotii'ii

a

<!

It m s

s

O ' "

/ //

h m s

0 / "

2991

8 Canum Yen. .

5

3 April 26

12 23 27.2

-f 47. 1

f 12 32 15.8

- 5 34.2

12 21 14.3

f42 26 41.0

2992

"...

3 April 27

23 27. 1

47. 1

42 32 16.5

5 34.4

24 1 1.2

26 42. 1

2993

"...

3 April 28

23 26. 7

47.1

42 32 10.9

5 34.6

24 13.8

26 36.3

2994

ii

5

3 April 30

23 27. 1

47.1

42 32 18. 0

5 34.9

21 14.2

26 43. 1

2995

it

3 June 2

23 26.5

47..")

42 32 21.6

5 40.4

24 14.0

26 41.2

2996

Piazzi 127

6

3 April 29

23 30. 1

49.7

8 55 57. 4

5 27.2

12 24 19.8

+ 8 50 30.2

2997

"...

7

3 May 1

23 30.4

49.7

8 55 59. 5

5 27.4

24 20. 1

50 32. 1

2998

"...

3 May 2

23 30.5

49.7

8 56

5 27.5

24 'Jo. -j

50

2999

"...

6

3 May 17

23 30. 1

49.8

8 55 54. 8

5 28.8

' 24 19.9

50 26. 0

3000

23 Coma; k

3 Jane 3

24 2.8

49.0

23 49 30. 9

5 34.8

12 24 51.8

+23 43 56. 1

3001

Lalande 23520 .

7

3 May 9

21 5. 7

49.7

\

8 38 35.0

5 27.8

12 24 55.4

+ 8 33 7.2

3002

•,'1 Comae .

5

5 Mar. 30

24 22.7

42.4

+19 33 28.5

1 42. 1

12 25 5. 1

+19 28 46. 4

3003

Lalande 23545 -

7

3 May 13

' 24 41.0

50.7

—10 52 42. 4

5 23. 3

12 25 31.7

— 10 58 5.7

3004

Groojnbridge 1907

7.8

3 April 27

25 10.4

47. I

+40 52 50. 0

5 33.5

12 26 3.5

+40 47 16.5

3005

ii

8

3 April 28

25 16.7

47.1

40 52 53. 2

5 33.7

26 3. 8

47 19.5

3006

"

8 9

3 April 30

25 15.8

47.1

+40 52 56.0

r, 34. 1

26 2.9

47 21.9

3007

25 Virginis /

3 Feb. 19

25 38. 8

50.9

— 4 38 8.9

5 28.6

12 26 29.7

— 4 43 37. 5

3008

25 Comse .

3 May 16

26 6. 8

49.1

+18 17 7.3

5 30 7

12 20 55.9

+18 11 36.6

3009

23 Virginis .

6

3 April 4

26 10.4

49.6

9 59 23. 6

5 25.2

12 27 0.0

+ 9 53 58. 4

3010

"...

6.7

3 April 14

26 ll.o

49.5

9 59 26.4

5 25.8

27 0. 5

54 0.6

3011

it

6.7

3 May 1

26 9.3

49.6

9 59 25. 6

5 27.0

26 58.9

53 58. 6

3812

"...

6.7

3 May 9

26 9.7

49.6

9 59 23. 1

5 27.9

26 59. 3

53 55. 2

3013

"...

6

3 May 17

26 10.3

49. 6

9 59 20.8

5 28.4

26 59. 3

53 52. 4

3014

Lalande 23603 .

7

3 April 29

26 41. 1

49.4

11 46 37.3

5 27.5

12 27 30. 8

+11 41 9.8

3015

Lalande 23610 -

7

3 April 26

27 8. 5

47.1

39 53 1.1

5 32.6

12 27 55.6

+39 47 2-. :>

3016*

"...

7

3 April 27

27 8.3

47.1

39 53 1.4

5 32.8

27 55.4

47 28.6

3017

ii

8

3 April 28

27 8. 6

47. 1

39 53 0. 1

5 33. 1

27 55.7

47 27.0

3018

Lalande 23625,6 -

3 April 3

27 52.7

50. 1

+ 0 20 17.2

5 34.2

12 28 42 8

+ 0 14 43.0

3019

26 Virginis %

5

3 Mav 13

2 - 5. 5

50.6

— 6 48 13. 0

5 23.4

12 28 56. 1

— 0 53 36. 4

3020

9 Cauum Veil. .

3 April 27

(28)

+42 4 10.8

5 33.0

12(29)

+41 58 37.8

3021

ii

7

3 April 30

28 20. 6

46.7

42 4 13.9

5 33.6

29 7.3

58 40.3

3022

26 Comsc .

3 May 16

28 20.9

48.7

+22 15 22.9

5 31.2

12 29 9. 6

+22 9 51.7

3023

519 Mayer . .

3 May 1

2- 21.6

50.4

— 4 54 33.4

5 23.5

12 29 12.o

— 4 59 56.9

3024

Lalande 231360 -

7

3 April 28

29 35.6

47.4

+35 21 26. 3

5 31.4

12 30 23. 0

+:::> 15 54.9

3025

Lalande 23G73 .

7

3 April 14

29 57.2

49.5

10 1 15.6

5 24. 8

12 30 46.7

+ 9 55 50.8

3026

ii

7

3 May 9

29 55. 6

49.5

10 1 18.9

5 27. 0

30 45. 1

55 51.9

3027

it

3 May 17

29 57. 1

49.6

10 1 11.4

5 27.3

30 46.7

55 44. 1

3028

27 Virginis - .

3 April 1

30 40.8

49.4

1 1 36 55. 8

5 24.2

12 31 30.2

+11 31 31.6

3029"

it

6

3 April 29

30 39.9

49.4

11 36 57.4

5 26. 3

31 29.3

31 31.1

3030"

it

3 May 20

30 41.4

49.4

+11(36)

31 30.8

(31)

3031

29 Virginis y

3 Feb. 19

30 41.4

50.7

— 0 15 33.9

5 26.5

12 31 32. 1

— 0 21 0.4

3032

"...

3 Feb. 26

30 42. 1

50.6

0 15 33.9

5 25. 7

31 32.7

20 59.6

3033

it

3 April 3

30 42. 5

50.2

0 15 35. 0

5 23.6

31 32.7

20 58.6

3(134

"...

3 May 1

30 42. 0

50.1

0 15 34.9

5 23.8

31 32.1

20 58.7

3035

it

a May 2

30 42.9

50.1

0 15 31.0

5 23. 9

31 33.0

20 54.9

303(5

"...

3 May 31

30 42. 3

50.3

0 15 35.5

5 25.2

31 32.6

21 0.7

3037 «

"...

3 June 3

30 42. 2

50. 3

0 15 33. 6

5 25. 5

31 32.5

20 59. 1

3038

28 Virginis .

8

3 May 13

30 47. 0

50.6

— 6 18 38.3

5 22. 9

12 31 37.6

— 6 24 1.2

3039*

30 Virginis p

3 April 4

30 55.7

49.4

+11 25 51. 3

5 24. 2

12 31 45.1

+11 20 27.1

3040

"

3 April 29

30 55. 0

49.4

11 25 48.8

5 26. 1

31 44.4

20 22.7

3(141

it

3 May 20

30 56. 0

49. 5

11 25 49. 3

:, 28. 1

31 45.5

20 21.2

3042

Piazzi 162

6.7

3 April 30

31 49.3

47.4

34 53 9. 6

r, 30.9

12 32 30.7

+34 47 38.7

3043

"...

7.8

5 Mar. 30

31 54.9

41.0

34 52 26. 0

4 41.6

32 3.-,. 9

47 44.4

3044

Piazzi 164

7.8

3 April 26

32 1 . 9

45.6

47 4 9. 7

:. :;■„'. 7

12 32 47. 5

+46 58 37. 0

3045

"...

7.8

'3 April 27

32 2.4

45. 6

47 4 7. i

5 3:l.o

32 48.0

58 34. 4

3046

it

7

3 April 28

32 2.7

45. ('.

+47 4 4. 9

5 33.2

32 48. 3

58 31.7

3047

Fiazzi 170 . .

7

3 April 14

33 5. 5

50.2

— 1 39 12.5

5 22. 8

12 33 5.'.. 7

— 1 44 35. :!

3048

"...

7.8

3 May 13

33 5.9

50.3

1 39 19.2

33 50.2

44 42.7

3049

Lalande 23768 .

7

3 May 17

34 lo. 1

50.4

— 2 42 9. 8

5 23.2

12 :;:> 0.5

— 2 47 33. 0

3050

Lalande 23780 .

7

5 Mar. 30

12 34 32.6

+ 41.4

+28 34 13.7

— 4 40. 4

12 35 14. 0

+28 29 33. 3

(203)

204

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Maa

Date

App't a

Reduct'ri

App't cS

Reduction

a

<5

h m . s

s

c / //

/ //

h m s

o ' "

3051

32 Virginia <1-

3 Feb. 26

12 34 40.7

+ 49.9

+ 8 51 32.8

— 5 23. 2

12.35 30.6

+ 8 46 3,6

3052

"...

3 April 3

34 41.5

49. 5

8 51 31.4

5 22. 9

35 31.0

46 8. 5

3053

"...

3 April 4

34 41.4

49.5

8 51 3L3

5 22. 9

35 30. 9

46 8.4

3(154

"...

3 May 31

34 40.9

49.6

8 51 33. 1

5 27. 3

35 30.5

46 5. 8

3055

10 Canum Ven. .

3 May 16

34 44.4

46.5

40 27 34. 9

5 34. 5

12 35 30.9

+40 22 o. 1

3056

Groombridge 1922

6.5

3 April 28

34 57. 1

45.4

46 37 39.0

5 32.2

12 35 42.5

+46 32 6.8

3057

(<

6.5

3 Apiil 30.

34 57. 5

45.4

46 37 45. 5

5 32.7

35 42.9

32 12.8

3058

Lalande 23799-802

3 May 20

35 14.2

47.2

34 44 0.8

5 33.4

12 36 1 . 4

+34 38 27. 4

3059

33 Virginia . ->

3 April 29

35 22. 9

49.3

10 45 10.2

5 24. 9

12 30. 12.2

+10 39 45. 3

3060

" - . -

6.7

3 May 1

35 22. 8

4!). 3

10 45 7.7

5 24. 8

36 12.1

39 42.9

3061*

"...

3 May 9

35 23. 0

49.3

10 45 10.3

5 25. 7

36 12.3

39 44. 6

3002

27 Comae ...

:'. June 2

35 49.8

48. 9

17 45 47. 3

5 30. 1

12 36 38.7

+17 40 17.2.

3063*

"...

3 June 3

35 50.0

48. 9

17 45 48.6

5 30.0

36 38.9

40 18.6

3064

Piazzi 180 . .

6.7

3 April 26

36 2.6

49.6

7 8 22. &

5 23.7

12 36 52. 2

+ 72 59. 1

3065

Piazzi 181 . .

6.7

3 May 1

36 5.1

49.4

10 15 3.1

5 24.7

12 36 54.5

+10 9 38.4

3066

34 Virginia .

3 April 3

36 20.0

49.1

13 8 39. 1

5 22. 8

12 37 9. 1

+13 3 16.3

3067

"...

3 April 4

36 20. 0

49.1

13 8 41.4

5 22.9

37 9. 1

3 18.5

3068

Lalande 23838 .

6.7

3 April 27

36 21.2

48.8

16 46 41.1

5 25.5

12 37 10.0

+16 41 15.6

;;oo9

35 Virginia - .

6.7

3 April 14

36 51.2

49.8

4 45 29.5

5 22.5

12 37 41.0

+ 4 40 7.0

3070

"...

6

3 May 17

36 50. 8

49.8

4 45 24.9

5 24.4

37 40.6

40 0. 5

3071

Lalande 23875 .

3 May 1

37 24. 4

49.3

10 17 38.7

5 24.2

12 38 13.7

+10 12 14.5

3072

30 Virginia -

3 April 3

38 3. 5

48.9

15 18 24. 5

5 22.3

12 38 52. 4

+15 13 2.B

3073

14

3 April 4

38 3. 7

48.9

15 18 25.7

5 22. 4

38 52.6

13 3.3

3074

"...

3 May 31

38 3. 6

49. 0

15 18 27.6

5 28. 3

38 52. 6

12 59. 3

3075

n

6

5 Mar. 30

38 10.2

42.3

15 17 38.7

4 44.5

38 52. 5

12 54.2

3076

30 Comae .

6

3 April 28

38 44. 3

47. (',

28 44 1.8

5 27.3

12 39 31.9

+28 38 34.5

3077

" . .

7

3 April 30

38 44.2

47.6

28 44 6. 9

5 27. 7

39 31.8

38 39.2

307S

1 1

3 May 111

38 44.3

47.6

28 44 9. 3

5 30.2

39 31.9

38 39. 1

3079

Lalande 23926 '.

7

3 May 20

39 11.9

47.8

27 36 59. 0

5 30. 4

12 39 59.7

+27 31 28.6

3080

Piazzi 195

7

3 May 13

39 22.5

49. 6

+ 7 24 35.2

5 24.1

12 40 12.1

+ 7 19 11. 1

3081

524 Mayer . .

6.7

3 April 27

40 9. 0

50.8

— 99 29. 7

5 20.0

12 40 59.8

— 9 14 49.7

3082

Lalande 23954 .

7

3 May 1

40 24.5

49. 3

-f 9 23 26. 6

5 23.2

12 41 13.8

+ 9 18 3. 4

3083

37 Virginia -

6

3 Feb. 26

40 36.5

50.2

• 4 14 11.5

5 22. 2

12 41 26.7

+ 48 49.3

3084

" ...

3 April 3

40 36.8

49. 8

4 14 11.5

5 21. 1

41 20.6

8 50. 4

3085

"...

3 April 4

40 36.6

49.8

4 14 8.0

5 21.1

41 26.4

8 46.9

3086

"...

6

3 April 14

40 37. 1

49.8

4 14 12.3

5 21.3

41 26.9

8 51.0

3087

te

6

3 April 26

40 36.4

49.7

4 14 9.9

5 21.9

41 26.1

8 48.0

3088

it

6

3 May 17

40 36.5

49.8

4 14 5.6

5 23.2

41 2i;.:;

8 42. 4

3089

31 Comse .

3 May 9

41 8.8

47.5

28 43 23. 1

5 28.5

12 41 56.3

+28 37 54. 6

3000

"

.3 May 16

41 8.6

47.5

28 43 24. 0

5 29.4

41 56.1

37 54; 6

3091

"...

3 May 20

41 8. 3

47.5

28 43 25. 1

5 30.0

41 55.8

37 55. 1

3092

1 1

5.6

5 Mar. 30

41 15.7

41.0

+28 42 41.4

4 38.6

41 56.7

38 2.8

3093

38 Virginia .

:; Feb. 19

42 6. 7

51.0

— 2 22 24.8

5 23.8

12 42 57. 7

— 2 27 48. 6

3094

"...

3 April 3

42 7. (i

50.3

2 22 27. 3

5 20.4

42 57. 9

27 47.7

3095

39 Virginia -

7

3 April 29

42 23.2

50.7

7 53 4.0

5 19.7

12 43 13.9

— 7 58 23.7

3006*

Lalande 24015,6 .

6.7

3 May 13

42 29. 7

50.4

— 32 38. 9

5 20. 7

12 43 20. 1

— 37 59.6

3097

Lalande 24023 .

9

3 April 28

42 41.0

49.8

+ 5 25 0. 5

5 21.9

12 43 30.8

+ 5 19 38.6

3098

41 Virginia .

3 June 2

42 58.5

49. 0

+ 13 35 54.5

5 26. 0

12 43 47.5

+13 30 27.9

3099

40 Virginia i/'

3 April 27

43 7.4

50.8

— 8 21 40.8

5 19.:!

12 43 58. 2

— 8 27 o. 1

3100*

(i

3 April 29

43 7. 4

50.8

8 21 36. 0

5 19.2

43 58.2

26 55. 1

3101

"...

3 May 17

43 7.1

50.8

— 8 21 39. 9

5 19. 1

43 57. 9

26 59. 0

3102

Piazzi 217

7.8

5 Mar. 30

43 29. 8

41.0

+27 56 42. 6

4 37.8

12 44 10.8

+27 52 4. 8

31 03

Lalande 24058 .

7

3 May 1

44 10.9

49.7

4 13 26. 7

5 21.0

12 45 0. 6

+ 48 5. 7

3104

43 Virginis <5

3 Feb. 19

44 41.9

50.4

4 34 35.3

5 21.4

12 45 32. 3

+ 4 29 13.9

3105

"...

3 Feb. 26

44 42.0

50.2

4 34 36.5

5 20. 8

45 32.2

29 15.7

3106

"...

3 April 3

44 42.5

49. 7

4 34 34.0

5 19.8

45 32.2

29 14.2

3107

"...

3 April 4

44 43. 0

49.7

4 34 35.8

5 19.8

45 32. 7

29 16.0

3108

"...

3 April 14

44 42.2

49. 7

4 34 36.9

5 20.0

45 31.9

29 16.9

3109

"...

3 April 'JO

(44)

1 34 37.2

5 20. 6

(45)

29 16.6

31J0

. . .

3 April 27

12 44 43. 1

4- 49.7

+ I 34 36.6

— 5 20.6

12 45 32.8

+ 4 29 16. 0

(204)

OOKLl) CATALOGUE OF STARS OliSEKVED ]!Y 1) AGELET.

205

Mean equinox 18(111. 0

No.

Name

Map

Dale

App'i </

Reduct'i

App'i .i

IvViluetion

a

i

h id a

s

O ' II

/ //

h m s

o / "

311]

43 Virginia <!

3 April 28

12 44 42. 8

+ 49.7

— 4 34 30.8

— 5 20.7

12 45 32.5

+ 4 29 10. 1

3112

"

3 May 1

44 42. 1

49.7

4 34 37.4

5 20.8

45 31.8

29 16.6

3113

"...

3 May 2

44 42.9

49.7

4 34 41.4

5 20.8

45 32.6

29 20.6

3114

1 I

3 May 9

44 42. 0

49.7

+ 4 34 39. 4

5 21.4

45 31.7

29 18.0

3115

Bessel,W.831~2 '.

7

3 May 13

45 (i. 6

50.4

— 3 41 22. 1

5 19.7

12 45 57. 0

— 3 46 41. 8

3116

Lalande 24097 .

7

."> Mar. 311

45 27.3

4ii.r.

+33 9 56. 1

1 37.6

12 46 7.8

+33 5 18.8

311?

12 Can. Ven. foil.

3 June 3

45 51.5

46. 9

39 29 41.0

5 33.4

12 46 38. 1

+39 24 7.6

3118

12 Can. Ven. pr. .

3 June 2

45 51.9

46.9

+39 29 25. 5

5 33. 3

12 46 38.8

+39 23 52.2

311!)

Lalande 24119 -

3 May 1.".

46 5.4

50.8

— 7 44 10.0

5 18.5

12 46 56.2

— 7 49 28. 5

3120

"...

7

3 May 1?

46 4.8

50.8

— 7 44 13.7

5 18.4

46 55. 6

49 32. J

3121

Lalande 24126 .

8

:: April 4

46 25. 6

49.9

+ 2 36 9. 6

5 19.2

12 47 15.5

+ 2 30 50. 4

31 22

Groombridge 193S

7

5 Mar. 30

46

+44 42 51 '. 8

4 38.3

12 47

+44 38 12.5

3123

Lalande2 1133-5.

7

3 May 13

46 43.7

51.3

—13 48 46. 3

5 16.8

12 47 35. 0

—13 54 3. 1

3124

Lalande 24155 .

7.6

3 April 27

47 32.0

50. 2

1 43 49. 0

5 18.7

12 48 22.2

— 1 49 7.7

3125

"...

6

3 April 28

47 32. 3

50.2

— 1 43 53.0

5 18.8

48 22.5

49 11.8

3126

36 Comse. . .

:: May 20

48 13.1

48. 3

+18 34 50.7

5 24.8

12 49 1.4

+18 29 25. 9

312?

44 Virginis k

3 Feb. 19

48 31.6

51.0

— 2 38 25.2

5 21.7

12 49 22.0

- 2 43 46.9

3128*

tt

3 Feb. 26

48 31.6

oil. 9

2 38 26. 3

5 19.9

49 21.9

43 46.2

3129

"...

3 April 3

48 31. 8

50.4

2 38 28. 5

5 18.4

49 22. 2

43 46.9

3130

"...

3 April 4

48 32.0

50.4

2 38 26. 9

5 18.3

49 22.4

43 4.-.. 2

3131

"...

3 April 11

48 31. 6

50.3

2 38 26.7

:. 18.2

49 21.9

43 44.9

3132

11 . - .

3 April 26

48 31.7

50.3

2 33 29. 0

5 18.2

49 22. 0

43 47.2

3133

"...

3 May 9

48 31.3

50.3

— 2 "38 27.9

5 18.6

49 21.6

43 46.5

3134

Lalande 24186 .

3 May 12

48 36. 8

49.0

+11 50 19.4

5 22. 0

12 49 25.8

+ 11 44 57.4

3135

Lalande 24204 .

8

3 May 1

49 14.9

50. 8

— 7 55 44. 2

5 17.2

12 50 5.7

— 8 1 1.4

3136

it

8.9

3 May 17

49 15.8

50.8

7 55 40.7

5 17.3

50 6.6

0 58.0

3137

40 Virginis .

3 April 26

(49)

2 12 6.6

5 is. l

12(50)

— 2 17 24.7

3138

"...

3 April 27

49 28.3

r,n.::

2 12 5.0

5 18.1

50 18.6

1? 23. 1

3139*

tt

3 April 28

49 28.2

50. 3

— 2 12 12. 1

5 18.0

50 18.5

17 30. 1

3141)

37 Comic

3 May 31

49 55. 0

46.7

+31 57 26.8

5 29.3

12 50 41.7

+31 51 57.5

3141

"...

3 June 3

49 55. 0

40.7

31 57 30.7

5 29.8

50 41.7

52 0. 9

::i 12

Piazzi 244 . .

6.7

5 Mar. 30

50 11.5

40.1

32 50 15.9

4 36.0

12 50 51.6

+32 51 39.9

3143

Bessel, W.919 .

6.7

:: May 4

50 in. ii

49. 5

5 31 39.3

5 19.4

12 50 59. 5

+ 5 26 19.9

3144

38 Coma; .

6

3 May 2

50 27.7

4*. 3

18 17 42.7

5 21.6

12 51 16.0

+ 18 12 21. 1

3145

it

3 May 20

50 27. 6

48. 3

18 17 41.1

5 24. 0

51 15.9

12 17. 1

3146*

47 Virginis e

3 Feb. 26

51 24.5

49.4

12 7 26.6

5 17.1

12 52 13. 9

+12 2 9. 5

3147

"...

3 April 3

51 25.11

■ 48.9

12 7 29. 8

5 17.6

52 13.9

2 12.2

3148

"...

3 May 12

51 2.-..:.

48.9

+12 7 33.3

5 21.0

52 14.4

2 12.3

3149

48 Virginis .

3 April 4

52 46. 9

oil. 1

— 2 29 43. 6

5 16.9

12 53 37.3

— 2 35 0. 5

3150

6.7

3 April 14

52 46.7

50.3

2 29 35. 7

5 16.7

53 37.0

34 52. 4

3151

tt

3 April 26

52 46. 1

50.3

2 29 43. 5

5 16.7

53 36.4

35 0. 2

3152

"...

■ \ April 2?

52 46.7

50. 3

2 29 45. 0

5 16.8

53 37. 0

35 1.8

3153

it

3 April 28

52 46. 1

50.3

2 29 48. ::

5 16.9

53 36.4

35 5. 2

3154

48 Virginis .

6

3 May 9

52 45.9

50.3

2 29 39. 8

5 17.2

12 53 36.2

— 2 34 57.0

3155*

Lalande 24305 .

8

3 May 1

53 32. 3

50.8

- 7 24 20.6

5 16.0

12 54 23. 1

— 7 29 36.6

3156

Groombridge 1953

7.8

5 Mar. 30

54 5.4

38.0

+44 9 33.2

4 35. 4

12 54 43.4

+44 4 57.8

3157

Tiazzi 262

7

3 May H\

55 3.3

51.5

-13 45 17.5

5 14.1

12 55 54. 8

— 13 50 31.6

3158*

14 Cauum Ven. .

3 June 3

55 36.9

45.4

+16 57 46. 7

5 2-. 9

12 56 22. 3

+36 52 17. s

3159

39 Comas

6

3 May '2

55 4*.?

47. 5'

22 19 15.3

5 20.3

12 56 36.2

+22 13 .V.. o

3160

"...

3 May 4

55 -1-. .".

47.5

22 19 7.1

5 20.5

56 36.0

13 46. 6

3161

40 Comre

3 June 3

55 r.ii. ii

47. 5

23 46 56. 9

5 25. 1

12 56 37. 5

+23 41 31. 8

3162

Groombridge 1956

6

5 Mar. 30

56 12.7

37. 1

f46 25 0. 2

4 34.7

12 56 50. 1

+46 20 2.".. .".

3163

49 Virginis g

3 Feb. 19

56 34. 1

51.8 ■

- 9 ::4 43.8

5 20. 5

12 57 26.2

— 9 40 4.3

3164*

"...

3 Feb. 26

56 34.4

51.7

9 34 40. 3

5 19.5

57 26. 1

39 59.8

3165

K

3 April 4

56 35.5

51.2

9 34 47. 1

5 15.3

57 26. 7

40 2.4

3166

"...

3 April 14

56 35.0

51. 1

9 34 46. 2

5 14.8

57 26. 1

40 1.0

3167

"...

3 April 26

56 31.:.

51.1

9 34 47.6

5 14.5

57 25.6

40 2.1

3168*

"...

3 April 28

56 35.0

51. 1

9 34 53. 1

5 14.5

57 26. 1

40 7. 6

3169

"...

:; May 1.".

56 35. 1

51.1 -

- 9 :14 52.5

5 14.4

57 26.2

40 6.9

3170

41 Comse . .

3 May 20

12 56 47.0

■f- 46.6 +28 47 31.3 -

- 5 24. 2

12 57 33. 6

+28 42 7. 1

(305)

206

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't <i

Reduction

a

&

It m s

s

O ' "

/ //'

h m s

O ' ll

3171

292 Argelander .

6

3 April 27

12 57 17.2

+ 50.9

— 7 49 17. 0

-5 14.4

12 58 8. 1

— 7 54 31.4

3172

"...

6

3 May 12

57 17.9

50.9

— 7 49 20. 1

5 14.3

58 8.8

54 34. 4

3173-

1745 Bradley . .

7

3 May 20

57 31.4

46.6

+28(44)

12 58 18.0

+28(38)

t3174

0

3 May 17

58 15.8

51.7

—15 21 31.8

5 12.4

12 59 7.5

—15 26 44.2

3175

50 Virginia .

3 April 4

58 27. 3

51.1

9 10 14.4

5 14.7

12 59 18. 4

— 9 15 29. 1

317G

"...

3 April 20

(58)

9 10 14.4

(59)

15 28.2

3177

51 Virginis 6

3 Feb. 19

58 45.2

51.3

4 22 43.7

5 18.3

12 59 36. 5

— 4 28 2. O

3178

"...

3 April 25

58 45.8

50.5

4 22 45. 4

5 14.1

59 36.3

27 59.5

3179

it

3 May 1

58 46. 1

50.5

4 22 47. 4

5 14.2

59 36.6

28 1.6

3180

3 May 9

58 45.8

50.5

— 4 22 45. 0

5 14.4

59 36.3

27 59.4

3181

42 Coma; Ber. .

0

3 May 2

59 27. 9

47.8

+18 40 46.4

5 18.0

13 0 15.7

+18 35 28. 4

3182

"...

3 May 4

59 28.0

47.8

18 40 40.9

5 18.3

0 15.8

35 22. 6

3183

"...

3 May 20

59 26. 5

47.9

18 40 47. 6

5 20. 4

0 14.4

35 27. 2

3184

"...

3 June 2

59 27. 7

48.0

18 40 44. 1

5 21.9

0 15.7

35 22. 2

3185"

Piazzi 3 . . .

3 April 16

12 59 32. 6

51.0

8 56 43. 1

5 13.5

13 0 23. i;

— 9 1 56.6

3186

17 Caimm Ven. -

3 June 2

13 0 6. 3

44.7

39 39 23. 4

5 27.6

13 0 51.0

+39 33 55. 8

3187

"...

3 June 3

0 6.1

44.7

+39 39 23.5

5 27. 8

0 50.8

33 55.7

3188

Anonyma

8

3 May 15

0 3.0

51.1

— 9 21 38. 2

5 13.0

13 0 54.1

— 9 26 51.2

3189

Lalamle 24494 .

7.8

3 April 4

0 21.9

51.2

10 4 0.5

5 13.9

13 1 13.1

—10 9 14.4

3190

"...

7.8

3 April 26

0 21.0

51.2

10 3 59. 3

5 13.0

1 12.2

9 12.3

3191*

53 Virginis . -

5

3 April 27

0 34.4

51.7

15 1 34.3

5 12.2

13 1 26.1

—15 6 46.5

3192

"...

3 April 28

0 34.7

51. 7

15 1 40.5

5 12.3

1 20.4

6 52. 8

3193

"

0.5

3 May 17

0 34.6

51.7

15 1 41.7

5 11.6

1 26.3

6 53. 3

3194

54 Virginis .

3 April 14

1 54.8

52.1

17 40 21.9

5 12.4

13 2 46. 9

—17 45 34. 3

3195

55 Virginis .

3 May 4

2 38.0

52. 2

-18 47 24.8

5 10.6

13 3 30.2

—18 52 3.5.4

3196"

534 Mayer . .

0.7

:: May 17

2 56.8

49.8

+ 2 36 39.7

5 14.7

13 3 46. 6

+ 2 31 25.0

3197"

56 Virginis .

7.8

3 Feb. 26

3 25.5

51. S

— 9 12 59. 6

5 16.6

13 4 17.3

— 9 18 10.2

3198

"

7

3 April 4

3 26. 5

51.2

9 13 0.0

5 12.6

4 17.7

18 13.5

3199

"...

3 April 25

3 25. 4

51.1

9 13 5.5

5 11.8

4 16.5

18 17. 3

3200

"...

8.9

3 April 26

3 25. 1

51. 1

9 13 4.4

5 11.7

4 16.2

18 16.1

3201

it

7

3 April 27

3 25.8

51.1

9 13 1.9

5 11.7

4 16.9

18 13.6

3202

n

7

3 April 28

3 25.6

51.1

9 13 5.5

5 11.7

4 16.7

18 17.2

3203*

"...

3 May 1

3 20. 1

51.1

9 13 3.0

5 11.7

4 17.2

18 14.7

3204 »

"...

7.8

3 May 15

3 20.3

51.1

9 13 12.0

5 11.6

4 17.4

18 23. 6

3205*

Piazzi 25 .

7.8

3 May 12

3 38.8

51.2

10 12 7.6

5 11.3

13 4 30.0

—10 17 18.9

3206

57 Virginis -

3 April 10

4 18.9

52. 4

—18 47 9.7

5 11.2

13 5 11.3

—IS 52 20.9

32H7

"...

3 May 4

4 18.5

52. 3

18 47 14.8

5 9. 5

5 10.8

52 24. 3

3208

Lalamle 24626 .

7

3 April 29

5 30.4

49. 1

+ 7 39 20. 7

5 13.1

13 0 10.5

+ 7 34 7.6

3209

Lalamle 21050 -

7

3 May 12

6 1.5

51.3

—in 20 19.7

5 10.3

13 0 52.8

—10 25 3O.0

3210

58 Virginis .

0.7

3 April 4

6 8.4

51.3

9 24 0.2

5 11.5

13 6 59.7

— 9 29 16. 7

3211

ti

7

3 April 25

6 8.2

51.2

9 24 4. 4

5 10.6

6 59.4

29 15.0

3212*

"...

7

3 April 26

6 7.9

51.2

9 24 7. 1

5 10.6

6 59.1

29 17.7

3213

a

6.7

3 April 27

6 7.8

51.2

9 24 4. 4

5 10.5

0 59.0

29 14.9

3214*

a

6

3 April 28

6 7.8

51.2

9 24 9. 6

5 10.5

0 59.0

29 20. 1

3215

"...

7

:; May 15

6 8.7

51.2

— 9 24 11.2

5 10.5

o 59.9

29 21.7

3210

60 Virginis a

3 April 29

6 41.0

49.2

+ 6 36 50.9

5 12.4

13 7 30.2

+ 0 31 38.5

3217

01 Virginis .

6.5

3 May 17

7 7.0

52.1

—17 0 21.9

5 8.4

13 7 59.1

—17 11 30.3

32 IS

20 Canum Ven. .

3 May 31

7 50. 3

43.6

+41 43 6.8

5 24.2

13 8 33.9

+41 37 42.6

3219

02 Virginis .

3 April 7

8 59.7

51.4

—10 9 45.3

5 9. 9

13 9 51.1

—10 14 .v.. 2

3220

"...

3 April 25

8 59. 1

51.3

10 9 42.7

5 9.2

9 50.4

14 51.9

3221

"...

6.7

3 April 27

8 59.7

51.3

10 9 48.0

5 9.1

9 51.0

14 57. 1

3222

11

7

3 April 29

8 59.6

51.3

10 9 45.3

5 9.2

9 50.9

14 54.5

3223

a

3 May 15

8 59.6

51.3

—10 9 48.7

5 9.0

9 50.9

14 57.7

322 1

1768 Bradley 1 !

6

3 May 4

!i 38.6

49.2

+ 5 58 5. 5

5 11.3

13 10 27.8

+ 5 52 54,2

3225

Lalande 24747 .

6

3 April 4

9 43.5

49.6

4 4 57.9

5 9.6

13 10 33.1

+ 3 59 4*. 3

3226

"...

6.7

3 April 26

9 43. 3

49. 5

+ 4 4 55.5

5 10.4

10 32.8

59 45. 1

3227

Piazzi 58 - . .

8

3 Feb. 19

9 51.3

52.0

— 8 51 45. 9

5 14.0

13 10 43.3

— 8 57 0.5

3228

Piazzi 59 . . .

4

3 April 10

9 54. 3

52.4

—18 20 57. 1

5 8. 9

13 10 46.7

—18 20 0.0

3229

23 Canum Ven. .

3 May 20

10 36. 4

4::. 3

+41 17 30.9

5 20. 8

13 11 19.7

+41 12 10.1

3230

Lalande 24769 .

6

3 April 14

13 10 38. 4

+ 51.8

—13 16 39.2

— 5 8.8

13 11 30.2

—13 21 48.0

(206)

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

207

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Keduct'n

App't (5

Reduction

a

<1

*

h m s

s

O ' II

/

II

It in 8

o ' "

3233

Bessel, W.235 .

3 May

1

13 11 0.5

+ 50.5

— 3 31 35. 3

— 5

8.9

13 II 51.0

— 3 36 44.2

3233

64 Virginia -

3 April

4

11 15.9

49.3

+ 6 17 36.6

5

8.8

13 12 5.2

+ 6 12 27.8

3233

'• . . .

3 June

3

11 16.0

49.3

+ 6 17 39. 1

5

13.0

12 5. 3

12 26. 1

3234

63 Virginia -

3 April

28

11 27.6

52.2

—16 35 53. 7

5

7.6

13 12 19.8

—10 41 1.3

3235 -

65 Virginis -

3 April 27

12 7.6

50.5

3 47 13.5

5

8. 3

13 12 58. 1

— 3 52 21.8

3236

"...

:i May

1

12 7.2

50.5

3 47 15. 1

5

8.4

12 57.7

52 23.5

3237

Piazzi 72 . . .

8

3 April

25

12 34.5

51.3

9 44 10.3

5

7.6

1 3 1 3 25. 8

— 9 49 17.9

3238

"...

7.8

3 May

9

12 35. 2

51.3

9 43 55. 4

5

7.5

13 20.5

49 2.9

f3239

8

3 April

29

12 34.9

51.7

—13 16 9.8

5

7.2

13 13 20.6

—13 21 17.0

3240

Bessel, W.257 .

7.8

3 April

26

12 39.6

49.5

+ 3 50 47. 4

5

9. 1

13 13 29. 1

+ 3 45 38. 3

3241

66 Virginis .

6.5

3 April

27

13 18.6

50.5

— 4 1 40.2

5

7.7

13 14 9. 1

— 4 0 47.9

32 12

ii

3 June

2

13 18.8

50. 6

4 1 45.6

5

9.0

14 0.1

0 54.0

3243

Spiea Virginis .

3 Feb.

19

13 48.8

52. 2

10 1 33.8

5

13.1

13 14 41.0

—10 0 40. 9

3244

"...

3 Feb.

26

13 48.3

52.1

10 1 34.3

5

11.9

14 40.4

0 46.2

3245

"...

3 April

3

13 49.0

51.5

10 1 37.4

5

7.9

14 40.5

0 45.3

3246

"...

3 April

4

13 49.1

51.5

10 1 34.4

5

7.8

14 40.6

6 42. 2

3247

"...

3 April

7

13 48.9

51.4

10 1 35. 1

5

7. 7

14 40.3

6 42. 8

3248

"...

3 April

9

13 40. 3

51.4

10 1 36. 1

5

7.6

14 40.7

6 43.7

3249

"...

3 April

14

13 40.4

51.4

10 1 36.9

5

7.4

14 40.8

6 44.3

3250

"

3 April

16

13 49.2

51.4

10 1 33.2

5

7.2

14 40.6

6 40. 4

3251

"

3 April

18

13 49. 3

51.4

10 1 41.2

5

7. 1

14 40.7

6 48.3

3252

((

3 April

25

13 49. 1

51.3

10 1 33.8

5

7.0

14 40.4

6 40.8

3253

"...

3 April

28

13 49. ]

51.3

10 1 40.0

5

7.0

14 40.4

6 47.0

3254

"...

3 April

29

13 48. 9

51.3

10 1 36.8

5

7.0

14 40.2

6 43.8

3255

(I

:; May

4

13 49.2

51.3

10 1 41.0

5

6.7

14 40.5

6 47.7

3256

" - . -

3 May

9

13 48.9

51.3

10 1 37.0

5

6.7

14 40.2

6 43.7

3257

"...

3 May

12

13 50.0

51.3

10 1 41.3

5

6.7

14 41.3

6 48.0

3258

"...

3 May

15

13 49. 3

51.3

10 1 42.2

5

6.7

14 40.0

6 48.9

3259

[I

3 May

17

13 49.5

51.3

10 1 40.8

5

6.8

14 40.8

6 47.6

3200"

" ...

3 May

20

13 49.0

51.3

10 1 41.6

5

6.8

14 40.3

6 48.4

3261*

"...

3 May

31

13 48.8

51.4

10 1 41.4

5

6.9

14 40.2

6 48.3

3262

"...

3 June

•>

13 49.0

51.4

10 1 38.6

5

7.1

14 40.4

6 45.7

3203

"...

3 June

3

13 49.0

51.4

10 1 40.3

5

7.2

14 40.4

6 47.5

3264

"...

1

3 July

5

13 49.2

51.6

10 1 40.7

5

8.5

14 40.8

6 40. 2

3265

"...

1

3 July

10

13 40.0

51.7

10 1 40.8

5

8.6

14 40.7

6 40.4

3266

"...

1

3 July

26

13 48.8

51.8

10 1 36.8

5

9.5

14 40.6

6 46.3

3267

"...

1

3 July

29

13 49. 0

51.9

10 1 40.1

5

9.7

14 40.9

6 49. 8

3268

"...

1

5 Mar.

30

13 56.3

44.6

10 2 21.5

4

26.9

14 40.9

6 48.4

3269

09 Virginis .

3 May

4

(15)

14 50 49.6

5

5.0

13(16)

—14 55 54. 6

3270

3 May

9

(15)

14 50 42. 8

5

4.9

(16)

55 47.7

327 1

"...

3 May

12

15 57.3

52.0

—14 50 51. 5

5

4.7

10 49.3

55 56.2

3272

70 Virginis . .

6

3 Feb.

26

17 50. 1

48.5

+ 14 56 18.5

5

4.3

13 18 38.6

+14 51 14.2

3273

"...

3 April

3

17 51.2

47.9

14 56 19.7

5

5. 5

18 39. 1

51 14.2

3274

(i

3 April

18

17 51.4

47.8

14 56 22.7

5

6.8

18 39.2

51 15.9

3275

"...

6.5

3 April

29

17 51.7

47.8

+14 56 23.2

5

8.0

18 39. 5

51 15.2

3276

542 Mayer

7

3 May

31

18 9.5

50. 1

— 0 14 9.8

5

7.4

13 18 59. 6

— 0 19 17.2

3277

"...

7

3 June

2

18 9.5

50.1

— 0 14 8.6

5

7.0

18 59.6

19 16.2

3278

71 Virginis .

3 April

7

(18)

+11 56 42.9

5

5.1

13(19)

+11 51 37.8

3279

"...

3 April

14

18 31.0

48. 3

+11 56 44. 6

5

4.8

19 19.3

51 39.8

3280

72 Virginis ll

3 April

4

19 10.2

50.9

— 5 20 51. 8

5

5.0

13 20 1.1

— 5 25 56. 8

328]

"...

3 April

16

19 9.8

50.8

5 20 59. <i

5

4.6

20 0. 6

26 4.4

3282

Piazzi 106 . .

6

3 April

9

10 42.4

50.4

1 55 49. 4

5

4.5

13 20 32.8

— 20 53. 9

3283

"...

7.8

3 May

4

19 42.5

50.3

1 55 4S. 3

5

4.9

20 32.8

0 53. 2

3284

71! Virginis .

3 April

25

20 24.2

52.6

17 36 23.5

5

3.1

13 21 16.8

—17 41 26.6

3285

Bessel, W.391 .

9

3 April

27

20 27.il

51.3

9 8 14.5

5

3.6

13 21 18.3

— 9 13 is. 1

3286

74 Virginis l-

3 Feb.

26

20 43.6

51.5

5 7 56. 3

5

7.2

13 21 35. 1

— 5 13 3.5

3287

"...

3 April

16

20 43.5

50.8

5 7 56. 1

5

3.8

21 34.3

12 50.0

3288

75 Virginis .

3 April

7

21 20.1

52.2

14 14 37.2

5

3.9

13 22 12.3

—14 19 41.1

3289

76 Virginis /i

3 April

9

(21)

9 2 41.0

5

3.6

13(22)

— 97 44.6

3290

"...

3 April

27

13 21 35.7

+ 51. 3

— 9 2 40.7

3.0

13 22 27.0

— 97 43.7

(207)

208

GOULD — CATALOGUE OF STARS OBSERVED BY D'AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't J

Reduction

a

-5

h vi s

s

O ' //

i ,,

h m s

o / //

3291

76 Virginia //

3

May

9

13 21 35. 4

+ 51.3

— 9 2 38. 8

— 5 2. 9

13 22 26. 7

— 97 41.7

3-292

"...

3

May

12

21 36.9

51.3

9 2 42. 7

5 3.0

22 28. 2

7 45. 7

3293

Piazzi 119 . .

8

3

April

29

21 49.8

50.2

1 18 20.3

5 3.6

13 22 40.0

— 1 23 23. 9

3294

Bessel, W.421 .

7.8

3

April

18

21 55.6

51.1

— 7 19 41.9

5 3.2

13 22 46.7

— 7 24 45. 1

3295

Flamsteed, B.1862

6.7

3

May

20

22 32.9

45.9

+25 28 41.2

5 10.5

13 23 18.8

+25 23 30. 7

3296

"...

6

3

May

31

22 32. 8

46.0

+25 28 36. 8

5 12.1

23 18.8

23 24. 7

3297

Bessel, W.438 .

7

3

April

25

22 58. 6

51.1

— 7 30 3.3

5 2.5

13 23 49.7

— 7 35 5.8

3298

"...

8

3

May

4

22 58. 8

51.1

— 7 30 11.7

5 2.3

23 49.9

35 14.0

3299

78 Virginia . .

3

April

7

(23)

+ 4 46 34.6

5 2.7

13(24)

+ 4 41 31.9

3300

it

3

April

14

23 11.1

49.3

4 46 34. 6

5 2.7

24 0. 4

41 31.9

330]

1 1

6

3

May

15

23 10.9

49.3

4 46"30. 8

5 4.9

24 0.2

41 25.9

3302

Piazzi 127 . .

7.8

3

June

2

23 15.3

49.9

0 48 " 0. 3

5 5.0

13 24 5.2

+ 0 42 55. ::

3303

79 Virginis f

3

Feb.

26

23 40.4

50.7

0 31 0.8

5 3.1

13 24 31.1

+ 0 25 57.7

3304

"...

3

April

3

23 40.9

50.1

0 30 54.2

5 2.3

24 31.0

25 51.9

3305

"...

3

April

4

23 41.4

50.1

0 30 59.6

5 2.3

24 31.5

25 57. 3

3306

"...

3

May

17

23 41.2

49.9

0 30 56.3

5 3.8

24 31.1

25 52. 5

3307*

" . . ;

4

May

25

23 44. 3

46.5

+ 0 30 36.2

4 43.8

24 30.8

25 52. 4

3308

80 Virginis P

3

April

9

24 16.'8

50. 7

— 4 17 17.4

5 2.0

13 25 7. 5

— 4 22 19.4

3309

"...

3

April

16

24 16.5

50.7

— 4 17 13.4

5 1.9

25 7.2

22 15.3

3310

Lalande 25146 .

6.7

3

April

27

25 12.6

50.0

+ 0 11 0.9

5 1.9

13 26 2.6

+ 0 5 59. 0

331 1

"...

7.8

3

June

o

25 12.7

50.0

0 10 59. 3

5 4.0

26 2.7

5 55.3

3312

Bessel, W.583 '.

9.10

5

April

9

25 57. 9

39.7

+25 1 56.8

4 21.2

13 26 37. 6

+24 57 35.6

3313

81 Virginia .

6.7

3

Feb.

26

26 15.9

51.8

— 6 45 37. 8

5 4.5

13 27 7.7

— 6 50 42. 3

3314

"...

O
O

April

::

26 16.5

51.2

6 45 45. 4

5 1.1

27 7. 7

50 46.5

3315*

"...

O

April

4

26 16. 1

51.2

6 45 41.8

5 1. 1

27 7.3

50 42.9

3316

"...

3

April

7

.26 15.8

51.2

6 45 42. 3

5 1.0

27 7. 0

50 43. 3

3317*

u

3

April

21

26 16.4

51. 1

— 6 45 47.8

5 0.6

27 7.5

50 48. 4

3318

Lalande 25176 .

6.5

3

May

20

20 48. 1

45.6

+25 43 24.7

5 8.0

13 27 33.7

+25 38 16.7

3319

'•' ...

6

3

May

31

26 48.5

45.7

25 43 23.5

5 9.7

27 34.2

38 13.8

3320

"...

6.7

5

April

9

26 53.2

39.5

25 42 38. 0

4 20.9

27 32.7

38 17.1

3321

Lalande 25177

6.7

3

April

9

26 45. 6

49.5

3 29 30. 9

5 0.6

13 27 35. 1

+ 3 24 30. 3

3322

"...

7

3

April

25

26 45. 6

49.4

3 29 35. 7

5 1.2

27 35.0

24 34.5

3323

1 1

7

3

April

29

26 45.7

49.4

3 29 32.4

5 0.8

27 35. 1

24 31.6

3324

Lalande 25190 .

6

3

May

9

27 32.7

47. 5

15 24 40. 6

5 3.8

13 28 20.2

+15 19 36.8

3325

"...

6

3

May

12

27 34.4

47.5

+15 24

28 21.9

19

3326

Lalande 25233 .

6

3

April

7

(28)

—15 20 25.3

5 0.2

13(29)

—15 25 2.".. :.

3327

"...

6.7

3

April

16

28 21.4

52.4

15 20 20.4

4 59.4

29 13.8

25 19.8

3328

"...

6.7

3

April

18

28 21.0

52. 4

—15 20 28.5

4 59.4

29 13.4

25 27. 9

3329

Piazzi 155

7

3

April

27

28 38. 3

46.7

+19 22 18.5

5 2.0

13 29 25. 0

+19 17 16.5

3330

"...

6.7

3

May

15

28 37.7

46.7

19 22 16.4

5 4.7

29 24.4

17 11.7

3331

Lalande 25222 .

7

3

May

20

28 45. 3

45.6

•25 14 22. 8

5 6.7

13 29 30.9

+25 9 16. 1

3332

1 1

8.9

3

May

31

28 4.".. 1

45.7

25 14 19.1

5 8.5

29 31. 1

9 10.6

3333

K

9.10

5

April

9

28 50.6

39.5

25 13 30.0

4 19.8

29 30. 1

9 10.2

3334

Lalande 25236 .

8

3

April

9

29 26. 9

49.6

3 16 17.2

4 58.9

13 30 10.5

+ 3 11 18.3

3335

Lalande 25255

7.8

3

May

9

30 19.4

46.5

+20 18 21.9

5 3.0

13 31 5.9

+20 13 18.9

3336

82 Virginis m

3

Feb.

26

30 16. 1

51.3

— 7 36 13.7

5 2.3

13 31 7.4

— 7 41 10.0

3337

"...

3

April

3

30 16.8

50.7

7 36 19 8

4 58.8

31 7.5

41 17.6

3338

"...

3

April

4

30 17.0

50.7

7 36 16.7

4 58.9

31 7.7

41 15.6

3339

"...

3

April 21

30 17.0

50.6

— 7 36 20.7

4 58.3

31 7. 6

41 19.0

3340

1 Boot is .

6.7

3

April

27

30 20. 8

46.4

+21 3 23. 3

5 1.3

13 31 7. 2

+20 58 22. 0

3341*

2 Bootis . . .

6

3

May

15

30 48.5

45.9

23 35 52.2

5 4.2

13 31 34. 4

+23 30 4S. 0

3342

it

3

May

20

30 48. 4

45. 9

23 35 57.9

5 5.1

31 34.3

30 52. 8

3343

"...

8

3

May

31

30 48.0

45. 9

23 35 54.5

5 6.8

31 33.9

30 47.7

3344

"...

6

5

April

9

30 53.2

39.7

23 35 9. 1

4 18.5

31 32.9

30 50.6

3345

Lalande 25271 .

9

3

May

4

30 52. 7

49.0

5 52 22. 3

4 59.6

13 31 41.7

+ 5 47 22. 7

3346

Lalande 25286

7.8

3

June

2

31 37.0

39. 6

47 23 5.6

5 12.4

13 32 16.6

+47 17 53.2

3347

"...

7

4

May

25

31 39.6

36.8

47 22 41.2

4 50.4

32 16.4

17 50.8

3348*

84 Virginis o

3

April

7

32 12. 1

49.4

4 38

13 33 1.5

+ 4 33

3349

"...

3

April

9

32 12.2

49. 3

4 38 21.9

4 57.2

33 1.5

33 24. 7

3350*

"...

3

April

14

13 32 12.2

+ 49.3

+ 4 38 20. 6

— 4 57.5

13 33 1.5

+ 4 33 23. 1

(208)

GOULD— CATALOGUE OF STARS OBSERVED BY D AGELET.

209

Mean equinox 1800. 0

No.

Name

Mag.

Date

\|i|i'l a

Reduct'u

App'l 6

Reduction

a

<>

ll III S

s

O 1 "

/ //

/l III s

0 1 n

335 J

si Virginia o

3 April 25

13 32 12.3

+ 49.2

+ 4 38 24. 6

— 4 58. 1

1 3 33 1 . 5

+ 4 33 2li. 5

3352

549 Mayer . .

6.7

3 April :l

32 40.0

50.9

— 4 24 8. 9

4 57.2

13 33 30.9

— I 29 G. 1

3353

Lalande253]9 -

3 Max 17

32 4G. 9

13 39 57. 6

4 55.8

1:1 :i:; 39. 1

— Ml 44 53.4

3354

83 Virginis -

:; April 16

32 51.8

52. 5

— 15 4 59.2

4 56.8

13 :'.:; 44.3

15 :i 56.0

3355

3 April 21

32 51.5

15 5 1.8

1 56.6

:!:! 44.0

9 58.4

3356

310 Argelander -

:; April 27

33 31.9

45. 7

+23 47 51.8

1 59.5

13 34 17. G

+2:; 42 5::. ::

3357

it

6.7

3 May 9

33 31.6

45. 7

23 17 54. 1

5 1.7

34 17.3

42 52. 1

3358

"...

6.7

3 Mav l.">

33 31.8

45. 7

23 47 49. -

5 2.G

:i4 17.5

42 47.2

3359

"...

6

3 Max 20

33 31.5

45. 7

23 47 55. 1

5 3. 3

34 17.2

42 51.8

3360

" . . .

6

3 May 31

33 32.0

45. -

+23 47 50.7

5 5.0

34 17.8

42 45.7

3361

85 Virginis .

3 April 7

(34)

—14 4li 24.(1

4 56.9

13(35)

— 11 15 20.9

3362

86 Virginis .

3 Feb. 26

34 25. 6

52. 7

— 11 211 5.3

5 0.9

13 35 18.3

—11 25 0.2

3363

Johnson 3079

7

3 June 2

34 28.5

39.6

+4G 37 2. 1

5 10.3

13 35 8. 1

+ 1G :u 51.8

3364

Lalande 25363

7

5 April 9

34 38.7

41.6

+ 11 24 27.4

4 IG. 1

1:; 35 211.::

+ 11 20 11.3

3365

Piazzi 190 . .

7

:: April 18

35 27.5

53. 1

— is in ii. 1

4 5H.4

13 36 20. G

— 18 14 50.5

3366

87 Virginis .

5.6

:: April 4

35 41.2

53.0

16 46 12.9

4 5G.2

13 3G 34.2

—16 51 9. 1

3367

"...

:: April 14

35 40.9

52.9

16 46 7.2

4 55.4

36 33.8

51 2.(1

336S

Flamsteed, B.459I

7

3 April 25

35 48.6

51.4

8 37 3.5

4 54.9

i:t 36 40.0

— s 41 58.4

3369

Piazzi 192 . .

6.7

:: April 9

36 7.;i

51.(1

5 36 51.1

1 55. 1

13 3G 58.9

— 5 41 46.2

3370

11

6.7

3 May 4

3G B.2

50.9

5 36 58.0

4 55.0

36 59. 1

41 5:;. 11

3371

It

3 May 15

36 8.4

50.9

5 37 4.9

4 55.2

36 59. 3

12 11. 1

3372

"...

7

3 Mav 31

36 8.3

50. 9

— 5 37 4.H

4 55.9

36 5H.2

41 59.9

3373

3 Bootis . . .

6

3 May 20

36 40.6

44.9

+2G 47 41.5

5 2.0

13 37 25.5

+26 42 39.5

3374

"...

6

5 April 9

36 45.7

38.9

26 4G 54. 8

4 15.3

37 24. G

42 39.5

3375

Groombridge 204 |

6

:; June 2

37 2.6

40. 9

42 111 54.4

5 7.7

13 37 43.5

+ 42 5 46.7

3376

4 Bootis r

3 April 27

36 59. -J

4G.6

18 32 28. 6

4 56.8

I:! :',7 45.8

+18 27 31. S

3377

"...

4 May 25

37 2. 7

43.4

+18 32 (i. 1

4 in. G

37 46. 1

27 25. 5

3378*

88 Virginis -

3 April 7

37 0.0

51. I

— 5 45 0. 4

4 54.5

13 37 51.1

— 5 49 51.9

3379

a

3 Mav 1

37 0.2

50.9

.". 15 4.0

4 51.4

37 51. 1

49 5-. 1

33o0

(<

G

3 May 9

37 0. 1

50.9

5 45 2.2

4 54.5

37 51.(1

49 5G.7

3381

"...

6.7

3 May 31

37 0. II

51.11

5 45 7.2

4 55.2

37 51.0

50 2. 1

3382

B9 Virginis -

3 April 4

38 9. 2

53.1

17 2 55.9

4 54.9

13 39 2. 3

—17 7 50.8

3383

"...

3 April 7

(38)

17 2 52.0

4 54.6

(39)

7 4G. G

3384

u

3 April 16

38 8. 5

53.0

17 2 53.3

4 511.7

39 1.5

7 47.0

3385*

If

5.6

:: April 18

38 9. 2

53.0

17 2 56. 1

4 53.6

39 2.2

7 49.7

3386

"...

3 April 21

38 9. 1

53.0

—17 2 56. 3

4 5::.:;

39 2. 1

7 49. ti

3387

85 Ursa- Maj. >/

3 July in

39 0.3

38. 1

+50 24 12. 1

5 12. G

1:*. :;:i 38.7

+50 18 5:i.5

:■,:;--■

i (

2

3 July 19

39 0.5

38.6

50 21 L3.7

5 12.7

39 39. 1

19 1.0

3389*

(i

3 July 29

38 59. 9

38. 8

50 24 4.G

5 12.4

39 38.7

IS 52.2

3390

"...

4 May 25

(39)

50 23 39. G

4 4G. 5

(39)

18 53. 1

3391

tc

4 June 16

39 3.3

35.2

50 23 46. 3

4 50.5

39 38. 5

18 55.8

3392

Groombridge 2051

7

3 June 2

38 58.6

4(1.4

43 8 21.8

5 G. 5

13 39 39.0

+43 :: 15.:;

3393

5 Bootis v

3 May 12

39 4. 1

40. 9

16 52 37.4

4 57.1

13 39 51.0

+16 47 40.3

3394

"...

3 .May 17

39 :;. 3

41 i. 9

16 52 35.3

4 57.8

39 50.2

47 37.5

3395

Lalande 25475

7

3 May 31

39 13.4

44. G

28 4 8. 5

5 2. 5

13 39 58.0

+27 59 G. 11

3396

6 Bootis .

5.6

3 May 20

39 29. 3

45. 8

22 20 44.9

4 59.2

13 40 15. 1

+22 15 45.7

3397

"...

6

5 April 9

39 34. 6.

39. 7

22 19 58.6

4 13.5

40 14.3

15 45. 1

3398

Johnson 3100 -

7.6

3 June 2

39 38. 4

40.3

4:'. 25 39. 1

5 6.3

13 40 18.7

+4:1 20 33.1

3399*

Lalande 25485

0.7

3 April -J.".

39 33.9

48.8

6 34 40.4

4 5:1. G

13 40 22.7

+ G 29 40. s

3400

"...

6

3 May 15

39 33.7

48.8

6 34 36. 1

4 55.::

40 22. 5

29 40. 8

3401

Piazzi 220 . .

7

5 April 9

40 16.3

39.7

+22 20 31.6

4 13.1

13 40 5G. 11

+22 IG 18.5

3402

Bessel, W.766 .

7.8

3 May 9

41 26.0

51.6

— 9 36 19.0

4 51.2

13 42 17. G

— 9 41 10.2

3403

"...

7.8

3 May 16

41 26.8

51.6

— 9 36 25. 0

4 51.8

42 18.4

41 16.8

3404

Lalaii'k- 2552-

7.8

3 May 4

41 37.5

49. 6

+ 1 53 54. 9

4 52.3

13 42 27. 1

+ 1 49 2.i;

3405

Flamsteed, B.1906

6

3 April 9

42 8. 6

46. 8

17 18 20.0

4 51.8

13 42 55.4

+ 17 43 28.2

34 OG

it

G

3 May 12

42 10.0

46.6

17 48 18.4

4 55. 1

42 56.6

43 2:;. ::

3407

7 Bootis . . .

3 April 27

42 53.2

4G. 4

19 o 19.9

4 52.7

13 43 39.6

+ 18 55 27.2

3408

"...

7

:; May 17

42 53. 2

4G. 3

19 U 18.8

4 55. G

43 39.5

55 2:5.2

3409

"...

7

3 Mav 20

42 53. 1

4G.4

19 0 22.8

4 5G. 2

43 39. 5

55 2G. G

34 1U

"...

1 Ma 25

13 42 56.1

+ 43.2

+18 59 58.3

— 4 37.0

13 43 39.3

+18 55 21.3

27

(209)

210

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800.0

No.

Name

Mag.

Date

App't a

Reduct'n

App't 6

Reduction

a

6

h m s

s

o i n

/ //

h m s

o ' "

3411

Lai ande 25570 .

9. Hi

3

April

16

13 43 14.3

+ 49.3

+ 4 13 45.7

— 4 50. 4

13 44 3.6

+ 4 8 55. 3

341 2

Flamsteed, B.1911

6

3

May

31

43 22. 0

44.0

29 43 14.4

5 0.0

13 44 6. 0

+29 38 14 4

3413

"...

6.7

5

April

9

43 27. 0

38.0

29 42 29. 0

4 11.4

44 5.0

38 17.6

3414

Lalande 25580 .

7.8

3

April

25

43 30. 9

47.1

+ 14 54 24.6

4 51.6

13 44 16.0

+14 49 33.0

3415

90 Virginia j>

3

Feb.

26

43 36.0

50.9

— 0 25 53. 1

4 52. 0

13 44 26.9

— 0 30 45. 1

3416

"...

o

April

3

43 36.4

50.2

0 25 55. 4

4 50.0

44 26.6

30 45. 4

3417**

"...

3

April

4

43 36.7

50.2

II 2.", 5 1.5

4 50.0

44 26. 9

30 44.5

3418

"...

3

April

7

(43)

— 1) 25 51.9

4 49.9

(44)

30 41.8

3419

Bessel, W.1040 .

7.8

3

May

32

44 l-.l

46. 8

+ 16 211 55.5

4 53.4

13 45 4.9

+ 10 16 2. 1

3420

8 Bootis >i

3

April

27

44 23.4

46.2

19 29 16. 1

4 51.6

13 45 9. 6

+19 24 24.5

3421

"

3

May

17

44 23. 1

46.2

19 29 1 -. 8

4 54.7

45 9.3

24 24. 1

3422

"...

3

May

20

44 23.7

46.2

19 29 2H.5

4 55.2

45 9. 9

24 25. 3

3423

" ...

4

June

16

44 26,. 6

43. 2

+19 29 3. 8

4 39.2

45 9.8

24 24.6

3424

Bessel, W.826 .

7

3

May

• 9

44 26.2

51.5

— 8 40 19.3

4 49.3

13 45 17.7

— 8 46 8. 6

3425

92 Virginia .

3

April

7

45 27. 4

49.7

+ 26 54.4

4 47.8

13 46 17. 1

+ 2 2 6.6

3420

"...

Q
O

April

14

45 27.3

49.7

2 7 0. 1

4 48.9

46 17.il

2 11.2

3427

"...

3

April

16

45 27. 2

49.6

2 6 55. 3

4 48.9

46 16.8

2 6.4

3428

1 ,

3

April

18

45 27.6

49.6

2 6 55.5

4 48.9

46 17.2

2 6.6

3429

" . .

3

April 2

45 27. 9

49.6

2 6 56. 1

4 49.0

46 17.5

2 7.1

3430

3

May

4

45 28. 1

49.5

2 6 57.5

4 49. 8

46 17.6

2 7.7

3431

"...

7

3

May

15

45 27.7

49.5

2 6 56. 1

4 50.5

46 17.2

2 5.6

3432

Lalande 25646

7

3

May

31

46 16.2

43.8

29 44 19.8

4 57. 9

13 47 0. 11

+29 39 21.9

3433

LC

6.7

3

June

2

46 16.3

43.8

29 44 20.5

4 58.2

47 0. 1

39 22. 3

3434

Piazzi 251

7

3

April

9

40 12.8

46.8

16 57 9.7

4 47.9

13 46 59.6

+16 52 2 1 . 8

3435*

"...

8

3

April

25

46 13.0

46.7

16 57 4.2

4 49.9

46 59.7

52 14.3

3436

"...

7

3

M;i\

12

46 14.1

46.6

16 57 7. 9

4 52. 1

47 0. 7

52 15.8

3437

9 Bootis . - -

3

A pri 1

27

46 41.8

44.0

28 33 37.2

4 51. 1

13 47 25. 8

+28 26 46. 1

3438

"...

3

May

J7

4<» 41.8

44.li

28 33 33. 1

4 54.8

47 25.8

28 38.6

3439

"...

5.6

5

April

9

46 47. 3

38.2

28 32 52. 0

4 9.2

47 25.5

28 42.8

3440

Piazzi 259

7.8

3

May

20

47 28.6

46.6

17 16 3.7

4 52.6

13 48 15.2

+17 11 11.1

3441*

Piazzi 260

7.8

3

May

15

47 42.7

46.5

17 27 52.7

4 51.5

13 48 29.2

+ 17 23 1.2

3442

"...

3

May

20

47 43.2

46.5

17 27 55.2

4 52. 5

48 29. 7

23 2.7

3443

10 Bootis c

7

3

April

27

48 31.1

45.3

22 45 3,1.2

4 49. 1

13 49 16.4

+22 40 42. 1

3444

"...

3

May

9

48 3.11.6

45. 3

+22 45 35. 3

4 51.1

49 15.9

40 44.2

34 r.

Piazzi 269 . -

7

3

April

3

48 37.2

50.6

— 2 29 21.4

4 46.7

13, 49 27.-

— 2 34 8. 1

3446

"...

6.7

3

April

4

48 37. 9

50. 6

2 29 18.5

4 46.8

49 2-. 5

34 5.3

3447

"...

6.7

3

April

16

48 37.9

50. 5

— 2 29 15.7

4 46.6

49 28. 4

34 2. 3

3448

Lalande 25713

7

3,

June

2

49 9.2

44.4

+26 52 30.9

4 56. 1

13 49 53.6

+26 47 34. 8

3449

Lalande 25723

6.7

3

April

7

49 23. 8

49.4

3 43 58.0

4 45.7

13 50 13.2

+ 3 39 12.3

3450

7.8

3

April

14

49 23.7

49.3

3 43 59. 4

4 46.1

50 13.0

39 13.3

3451

"...

7

3.

April 21

49 21.2

49.3

3 43 56. 1

4 46. 3

50 13.5

39 9.8

3452*

"

7.8

3

May

16

49 24.2

49.2

3 43 54. 2

4 48. 1

50 13.4

39 6. 1

3453

93 Virginis r

3

April

7

(50)

2 35 55.9

4 44.9

13(51)

+ 2 31 11.0

3454

"...

3

April

16

50 39. 3,

49.5

2 35 57. 7

4 45.1

51 28. 8

31 12.6

3455*

" . .

3

April

18

50 3,3.2

49.5

2 35 55. 9

4 45.2

51 28.7

31 10.7

3456*

"...

3

May

4

50 38.9

49.4

2 35 52.2

4 45.1

51 28.3

31 7. 1

3457

"...

3

May

16

50 39.2

49.4

2 35 55. 3,

4 46.9

51 28.6

31 8.4

345-

Lalande 25758,9

7

3

May

9

50 56. 8

45.2

23 1 59.7

4 49. 3

13 51 42.0

+22 57 10.4

3459

1 1

6.7

3

May

12

511 58.7

45.2

23 1 55.5

4 49.8

51 43.9

57 5. 7

3460

Piazzi 261 . .

7

3

May

31

51 18.9

46.2

18 43 33. 4

4 51.6

13 52 5.1

+18 38 41.8

3461

11 Bootis . - .

3

April

27

51 22.4

43.8

28 26 17. 9

4 47.6

13 52 6.2

+28 21 30. 3

3462*

"...

6

5

April

9

51 27.2

38. 0

+28 25 37.4

4 6.2

52 5.2

21 3J.2

3463

557 Mayer

6.7

3

April

4

52 55. 7

51.8

— 8 12 411.0

4 44. 1

13 53 47.5

— 8 17 21. 1

3164

Lalande 25835 .

7

3

May

20

53 18.6

45.0

+23 32 4l.ll

4 49.7

13 54 3.6

+23 27 51.3

3465

"...

7

5

April

9

53 23. 8

33.11

23 31 59. 1

4 4.9

54 2. 8

27 51.2

3466

Lalande 258 14,5

8

3

April

27

53 40.7

43,. 7

28 33 29. 1

4 45.9

13 54 24.4

+28 28 43. •>

3467

n

7.8

3

May

12

53 41.4

43.7

+28 33 26. 4

4 48.8

54 25. 1

28 37.6

340-

5 Centauri f)

3

June,

2

54 0.5

57.5

—35 17 59. 1

I 3,7.7

13 54 58.0

- 35 22 37. ]

3469

"

4

May

25

54 4.9

+ 53.5

35 18 27.4

4 19.2

54 58.4

22 40.6

3,470

-

1

June

16

13, 54

—35 18 34. 1

— 4 17. 4

13 54

-35 22' 51.5

(210)

GOULD-

— CATALOGUE OF STARS OI5.SERVKD BY D AGELET.

211

Mean equinox 1800. 0

No.

\.l!! |

Mag.

Date

App't a

Reduet'n

App't ii

Redaction

o

(S

U m s

s

O / /'

/ //

h m s

o / "

347]

Lalande 25873,4

7

3 April

18

13, 54 ■>■: . 1

+ 44.1

+26 52 11.6

— 4 43.. 1

13 55 37.2

+26 47 28. 5

3472

"

7

3 June

3

:.l 53.0

44. 1

4 -JO 52 8.7

4 51.5

55 37. 1

47 17.2

3473

94 Virginia .

3 April

3

54 50.9

31.7

— 7 51 10.6

I 1-2. 7

13 55 42.6

— 7 55 53. 3

3474

"...

G

3 April

7

54 52.0

51.7

7 51 2.2

4 42.6

55 43.7

55 44.8

3475

"...

7

3 April

16

:,i 51.6

51.6

7 51 2.5

4 42.2

55 43.2

55 44.7

3476

"...

7

3 May

9

51 51.6

51.4

7 51 5.3

4 42. 1

.V, 43.0

55 47.4

3471

95 Virginis .

3 April

3

. 55 17.9

51.8

8 16 27.4

1 42.4

13, .Mi 9.7

— 8 21 9.8

3478

"...

3 April

4

55 17.3

51.8

8 16 26.6

■1 43.4

50 9.3

21 9. 0

3479'

"...

3 April

19

55 18. 1

51.6

8 16 30. 1

4 42.0

56 9.7

21 12. 1

3480

tt

3 May

16

55 16.5

51.5

8 16 24.6

4 41.7

56 8.1

21 6.3

3481

i: Bl, W.1052 .

9

3 May

4

56 0.2

51.7

— 9 17 3. 7

4 41.2

13 50 51.9

—9 21 44. 9

3482

l'iazzi 3(13 . .

0

3 April

'.'!

56 11.5

40.2

+18 0 32. 3

4 42.0

13 :,0 57.7

17 55 50.3

3483

"...

7

3. April

25

50 11.4

40.2

18 0 28. 8

1 42.5

.-,0 57.0

.-,:, 40.3,

3484

Piazzi 309 . .

7

3 May

•jii

57 14.0

43.3

29 28 37.7

4 47.8

13 57 57.3

+29 23 49.9

3485

Lalande 25926 .

7.8

3 April 27

57 21.8

41.4

35 48 58. 3

1 43.7

13 58 3,. 2

+35 44 14.6

3486

it

7.8

3 .May

12

57 22.3

41.3

35 49 3.5

4 47.1

58 3. 6

44 16.4

3483

"

7

5 April

9

57 25. :

35. 9

+35 48 19.9

4 2. 5

58 1.6

44 17.4

3488*

96 Virginis .

3 April

3

57 3,1.3,

52.0

— 9 17 58.6

4 41.0

13 58 23.3

— 9 22 39. 6

3489*

"...

3 April

4

57 31.3

52. 0

9 17 57.6

4 40.8

58 23. 3,

22 38.4

3490

"...

3, Apiil

7

57 3H.7

52.0

9 18 2.7

4 40.7

58 22.7

22 13. 1

3491

«

5

3 April

16

57 3,n. 1

51.9

9 18 4.1

4 40.3

58 22. 3

22 44. 4

3492

"...

6

3 May

4

57 311.5

51.8

— 9 18 8.3

4 40. 1

58 22. 3

22 4-^. 4

3493

Lalande 25943 .

7

3 April

18

58 21.3,

44.4

+23 20 23.3

4 41.0

13, 59 5.7

+25 15 42.3

34! M

562 Mayer .

6

3 June

2

59 3. 6

53.0

— 15 16 19.7

4 38. 1

13, 59 56.6

-15 20 57.8

3495

Piazzi 3 - - -

8

3 April

16

59 39. 2

51.0

4 56 35.7

4 38.3

14 0 30.'.'

— 5 1 14.2

3496*

"

8

3 A plil

25

59 39. 1

51.0

4 56 40. 9

4 38.7

II 3,0. 1

1 19.6

3497

"

8

3 May

1(1

13 59 3-. 9

50. 9

— 4 56 41.4

4 39. 1

0 29. 8

1 20.5

3498

12 Bootis d

3 April

21

14 0 33.0

44.2

+26 7 20. 8

4 39. 1

14 1 17.2

+26 2 41.7

3499

"...

3 April

27

ii 32.8

44.1

26 7 22. 2

4 40. 1

1 10.9

2 42. 1

3500

"

3. May

20

0 32.0

44.2

26 7 27.5

4 44.5

1 10.2

2 43.0

3501

<.

6:5

5 April

9

0 37.7

38. 2

+26 6 45.7

3 59.9

1 15.9

2 45.8

3502

Piazzi 10 .

8

3 April

25

0 33.5

51.0

— 55 59. 5

4 32.2

14 1 24.5

— 5 10 31.7

3503

tt

8

3 May

16

0 33.7

50.9

— 5 6 8.7

4 38.5

1 24.0

10 47.2

3504

ISess.-l, W.72

7

3 May

12

1 9.1

3,-. 9

+41 48 24.9

4 45.0

14 1 48.0

+41 43 39. 9

3505*

97 Virginis .

3 April

3

1 3.'.'

52.0

— 8 52 30. 6

4 38.3

14 1 55.2

— 8 57 3. 9

3506

CI

8

3 April

4

1 3.7

52.0

8 52 29. 1

4 3-. 1

1 55.7

57 7. 2

3507

98 Virginis k

3 Apiil

3

1 22.1

52. I

9 15 32.7

4 38. 1

14 2 14.2

— 9 20 10.8

3508

"...

3. April

7

1 22.8

52. 0

9 15 27. 9

4 37.7

2 14.8

20 5. 6

3509

"...

5

3 April

16

1 23.2

51.9

9 15 29. 3

4 37.4

2 1 :,. 1

20 6. 7

3510*

"

3 April

19

1 22.9

51.9

9 15 21.3

4 37.4

2 14.8

19 58.7

3511"

"...

3 May

4

1 23.1

51.8

— 9 15 34. 3

4 37.3

2 14.9

20 11.0

3512

Lalande 26046 .

7

3 May

31

•.' 6.3

45. 1

+21 40 4. 1

4 44.1

14 2 51.4

+21 35 -Jii. 0

3513

G inbridge2083

7

3 May

12

2 .-,(',.2

38.2

43 21 54.6

4 43. S

14 3 34.4

+43 17 10.8

3514

"

7.8

.', A] nil

9

2 59. 3

33. 1

+43 21 6. 2

3, 58. 7

3 32. 1

17 7.5

3515

.-,01 Mayer

7

3, April

3

3 (3.0

51.2

— 4 56 5. 3

1 36.3

14 3 57.2

— 50 41.0

3516*

" .

8

3 April

25

3 5.2

r.l.ii

4 56 1.3

4 30.3

3 50.2

0 37.6

3.", IT

"...

6.7

3, May

9

3 0. 4

50. 9

4 55 54.2

4 36.3

3 57.3

0 30.5

3518

"...

7

3 May

16

3 (',. 1

.MI.9

— 4 56 0.2

4 36.5

3 57. n

0 30.7

3519

14 Bootis . .

6

3 April

18

3 41.1

47.0

+ 13 58 51.7

4 35.5

14 4 28. 1

+ 13 54 10.2

3520

"...

6

3 April

21

3 41.9

47.0

13 58 48. 2

4 35.9

4 28.9

54 12.3

3521

"...

3 April

27

3 41.4

46.9

13 58 50. 1

4 36.6

4 28.3

54 13.5

3522

Piazzi 26 . '. .

7

3 June

2

4 39.0

44.7

+22 53, 29. 3

4 42.7

14 5 24.3

+22 48 46. 6

3523

99 Virginis <

3 April

3

4 41.2

51.2

— 4 57 40. 3

4 35.0

14 5 32. 4

— 52 15.3

3524

"...

3. April

4

4 41.7

51.2

4 57 41.1

4 35.0

:, 32.9

2 10. 1

3525

"...

3 April

7

4 41.8

51.2

4 57 34.9

1 3,1.3

5 33.0

2 9.8

3526

"...

3 April

16

4 41.8

51.1

4 57 30.2

4 34.7

., 32.9

2 10.9

3527

IL

3. Apiil

19

4 41.5

51.0

4 57 42. 3

4 34.7

.", 32.5

2 17.0

3528

"...

3. April

25

4 41.4

51.0

4 57 :;-.:,

4 34.7

5 32.4

2 13.2

3529*

"...

3 May

4

4 41.9

50.9

4 57 37.2

4 3,5.0

r, 32.8

2 12.8

3530

"...

3 May

9

11 4 41.2

+ 50.9

— 4 57 36. 9

— 4 3,:,. 1

14 5 32. 1

— 52 12. 0

(211)

212

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Moan equ

uox

18110. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't (5

Reduction

a

<S

h in s

s

O 1 "

/ //

/

m s

o / "

:'.r>:;i

99 Virginis ;

3 May

16

14 4 41.9

+ 50.9

— 4 57 39.9

— 4 35. 2

14

5 32.8

— 5

2 15. 1

3532

Lalande 26118,9

7

4 June

5

4 59.4

42. 1

+20 54 45. 5

4 24.3

14

5 41.5

+20

r.o 21.2

3533

"

7

4 June

8

5 11. 3

42. 1

20 54 52. 4

4 24.8

5 42. 1

50 -.'7.11

3534

Anonyma .

8

:; May

12

5 37.7

::o. o

40 26 40.2

4 42.0

14

6 14.3

+46

21 58.2

3535

Groombridge 2089

7

5 April

9

:. 44.7

33. 2

42 31 41.9

:: 58.6

14

6 17.9

+42

27 43.3

3536*

Arcturus .

3 April

18

5 48.5

45.4

20 in 54.2

4 34. 1

14

o 33.9

+20

14 20. 1

:;.7.17

" . .

:! April

21

5 48. 1

45. 4

20 18 53. 1

4 34.5

6 33. 5

14 18.6

3538

" _ _

3 April

27

5 48.6

45. :;

20 is 54.8

4 35. 4

6 33.9

14 19.4

3539

" _ .

3 May

20

5 48. 8

45. :i

20 ]s 59.8

4 39. 1

6 34.1

14 20.7

3540

"...

1

3 May

"31

."> 48.7

45.2

20 18 55.6

4 40. 8

6 33.9

14 14.8

3541

(i

3 June

2

5 I-. 1

45. 3

•JO 19 0.9

4 41.2

6 33.7

14 19.7

3542

''

:: June

3

5 48. 1

45. ::

20 19 0.3

4 41.4

0 33.7

14 18.9

3543

"...

3 July

5

5 48. 5

45. 0

20 19 1.5

4 45. 3

0 34. 1

14 10.2

3544

"...

1

3 July

8

.". I-. 7

45.0

20 19 1.3

4 45.4

6 34.3

14 15.9

3545

" -

i

5 July

ID

5 48.3

45.0

20 19 2.7

4 45.6

6 33.9

14 17. 1

3546

"...

1

:; July

19

5 48.2

45.7

'.'o HI 1.6

4 46.2

0 33. 9

14 15.4

3547

"...

3 July

26

5 48.2

45. 8

20 19 2.7

4 46. 4

0 34. 0

14 10.3

3548

"...

:: July

29

5 47.8

45. 8

20 19 -.'.'J

4 41'.. 5

0 33.6

11 15.7

3549

"...

4 May

25

5 51.8

42.2

20 18 37.3

4 21.3

0 34.0

14 10.0

3550

"...

4 Juno

5

(5)

20 18 41.0

4 22.9

(«)

14 18.1

355 1 *

"...

1 June

8

5 51.8

42.2

20 18 39.5

4 23.4

0 34.0

14 10.1

3552

"...

4 June

10

5 51.3

42. 3

+20 18 42.2

4 24.5

0 33.6

14 17.7

3553

Lalande 26149 .

8

3 May

4

0 37.9

511.9

— 4 57 48. 0

4 :;:!. 4

14

7 28.8

— 5

2 21.4

3554

Brisbane 4852

6

3 April

25

6 42. 1

53.8

—17 42 16.7

4 32.9

14

7 35.9

—17

46 19.0

3555

Flamsteed, B 1955

7

5 April

9

7 41. 1

33.7

+40 44 33.0

:; 55.2

14

8 14.8

+40

4o 37.8

3556

ion Virginis a

3 April

3

7 •„'.-,. 1

52. 9

— 12 22 0.7

4 :::;. 7

14

8 18.3

— 12

26 34. 4

3557

"...

3 April

4

7 20. 3

52.9

12 22 1.3

4 33.6

8 19.2

■JO 34.9

3558

"...

:: May

9

7 25.4

52. 8

—12 2) 55.0

1 ::-.'. ::

8 18.2

26 '-'7.9

3559

Johnson 3174

0.7

3 May

12

7 44.3

36. ::

+40 34 27.2

4 10.2

14

8 20.0

+40

29 17.o

3500

"...

3 May

31

7 44.6

30.4

40 34 25.0

4 44.0

8 21.0

29 41.0

356]

19 Bootis a

3 May

20

8 10.9

36. 1

+47 5 -jr.. 8

4 42. 0

14

8 47.0

+47

0 43.8

3562

102 Virginis vl

6

:; Ma'\

16

8 24.7

5ll. 1

-115 -.'-.li

4 32.9

14

9 14. 8

— 1

20 1.5

3563

18 Bootis .

6

3 April

21

8 4S.7

46.8

+14 0 34.8

4 31.7

14

9 35.5

+13

50 3. 1

3564

"...

3 April

27

8 48.8

40. 8

14 o 36.3

4 32.5

9 35. (i

56 3. 8

3565

Piazzi 52 .

7

3 May

12

9 40.9

34.5

+49 0 41.6

I 38. 1

14

10 21.4

+4S

50 3. 5

3566

Lalande 26242 .

7

:i May

31

10 37.3

51.4

— 75 39. 6

4 30.8

It

II 28.7

— 7

10 10.1

3567

Groombridge 2100

7

5 April

9

10 59.9

33. 9

+39 47 1.3

:; 52.6

14

11 33.8

+39

4:; 8.7

3568

103 Virginis v-

3 April

3

ill 511.6

50.4

— 0 59 -.'9.2

4 29.0

14

11 41.0

— 1

:; 58. -■

3569*

"...

:: April

4

10 M.n

50.4

0 59 -JO. 4

4 29.0

II 11.4

3 50. 0

3570

" "

3 April

7

10 51.8

511.4

0 59 27.0

4 29.6

11 42.2

3 57.2

357 1

"...

7

3 May

9

10 511. 1

■ 50. 1

0 59 23.7

4 30.6

11 40.2

3 54. 3

3572

"...

ti

3 May

10

10 50.3

511.11

(I 59 ^4.7

4 31.0

11 40.3

3 55.7

3573

"...

7.8

4 June

5

in .".::. 4

40. 0

0 ,V.I 51.1

4 14.0

11 40.0

1 5. 1

3574

569 Mayer . .

7

3 June

2

11 13.3

51.3

0 45 50.:'.

4 30.8

14

12 4.0

0

50 '.'7. 1

I!.") 7 5

2 Libra . . .

3 April

10

11 49.0

5'.'. 4

10 42 59.7

4 29. 2

14

12 41.4

— 10

47 28.9

3576

"...

7.8

3 April 25

11 48.9

52. 3

in 43 2.8

4 29.0

12 41.2

47 31.8

3577

Lalande 26287,8 .

7

3 April

is

12

15 0 32.4

4 29.3

14

13

— 15

11 1.7

3578*

Laeaille5929 . .

4

3 May

15

12 31.0

55. 3

—23 48 55.2

4 26.9

14

13 '-'0.::

—23

53 22. I

3579

Lalande 26300 .

7.8

3 April

■a

12 44.7

4-.'. :;

+30 21 56. 1

4 30.3

14

13 27.0

+30

17 25.8

3580

571 Mayer . .

7.8

3 April

25

13 4.6

52. 3

—10 40 44.0

4 28. 1

14

13 50.9

—10

45 12.1

3581

"...

6.7

3 May

13

13 5.2

52.2

— 10 40 51.0

4 28.0

13 57.4

45 19.0

3582

Lalande 26310 .

7.8

3 May

12

13 22. 8

41.'.'

+:;:'. MO 10.4

4 33.2

14

14 4.0

+33

25 37.2

3583*

Lalande 2631 1

6.7

3 April

21

13 25. 3

4:;.:.

26 19 30.6

4 29.2

14

14 8.8

+20

15 1.4

3584

"...

7.0

3 May

9

13 24.4

43.4

20 19 37. 1

4 31.7

11 7. 8

15 5.4

3585

"...

6

3 May

:;i

13 24.9

43.4

20 19 :::.. 7

4 35. s

14 8.3

14 59.9

3586

Lalande 26341 .

6

:! May

12

14 25.3

42.7

28 24 8. 5

4 31.0

14

15 8.0

+28

I'.i 36.9

3587

"...

1 June

5

14 27.5

39. 7

28 23 55.0

4 16.7

15 7.2

19 38.9

3588

"

7

5 April

9

14 30.9

37. 1

+28 ■.■:'. 29. 3

3 49. 6

15 8.0

19 39.7

3589

104 Virginis .

:! April

3

10 4.3

51.4

— 5 s [0.8

1 •_':.. 7

14

10 55.7

— 5

12 36.5

3590

"...

:; April

4

II 10 4.4

+ 51. 4

5 8 15. 9

— 4 25.6

14

10 55.8

— 5

12 41.5

(212)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGKUCT.

218

Mean equinox

sim. ii

No.

Name

Ma,,-.

Date

App'l n

Reduct'n

App'l 6

Redaction

a

J

h in s

s

C / "

/ //

ll III s

<

_, / //

359]

104 Virginis . .

3

April 16

II 16 4. 1

+ 51.2

— 58 9. 1

— 4 25. 4

1 1 io ;»:,.::

— 5

12 34.5

3592

" .

3

May 1

16 4.6

51.0

— 58

Hi 55.6

12

3593

Lalande 26389 -

0.7

:;

Max '.".•

16 8.9

47.4

+ 9 21 42. 1

4 29.5

11 10 56.3

+ 9

17 12.0

3594

'.".' Bootis /

5

3

April '-'I

16 24.6

45.1

20 12 26.3

4 25.4

14 17 9.7

+20

8 ll.il

3595

"...

3

April 27

16 24.3

4.-,. (I

20 12 25.6

4 -jo.:;

17 9. ::

7 .v.i.:;

3596

"...

::

May '.I

16 23.0

45.0

20 12 28.0

I 28.3

17 S.ll

7 .V.I. 7

3597

"...

::

Max ::i

16 24.1

45.0

20 12 22.7

4 31.8

17 0.1

7 50.9

3598

"...

4

.Tune 8

16 28.0

41.9

20 12 9. 1

4 15.1

17 9.9

7 54. 0

3599

Flamsteed, B.1980

6

::

May 1'.'

16 41.0

38.8

39 22 43. 1

4 31.3

14 17 19.8

+39

IS 11.8

3600

"

6.7

5

April 9

Hi 44.7

33.7

+39 21 57. 7

3 51. 1

17 18.4

18 0.0

3601

~u 1 Mayer

7

3

Mav 13

17 0.4

51.9

— 9 1 38.2

4 24. 8

14 17 52.3

— 9

0 3.0

3602

[05 Virginis <j>

3

April 3

17 4.8

50. 5

1 15 0.0

4 24.:!

14 17 55.3

— 1

19 24.3

3603

"...

3

April 4

17 4.4

50.5

1 15 1.2

4 24.3

17 54.9

19 25.5

3604

" . . .

3

April 7

17 4.1

50.5

1 14 57.2

1 24.3

17 54.0

19 21.5

3605

it

3

May 16

17 5. 1

50. 1

— 1 14 59.2

4 25.7

17 55.2

10 J4.9

3606

Lalande 26417 -

7.8

3

April 19

17 11.7

46.3

+15 43 55. 2

4 24.4

14 17 58.0

+15

39 30.8

3607

106 Virginis .

3

May 4

IT 18.6

51.2

— 5 55 15.2

4 24.5

14 18 9.8

— 5

59 39. 7

3608

Bessel, \Y.400 .

6.7

3

May 12

18 55.3

37.5

+42 o 13.5

4 29.6

11 19 32.8

+41

55 43.9

3609

"...

7

3

May 31

is 54.7

37.6

42 0 1...0

4 34. 1

19 32.3

55 41.5

3610

14

7.8

5

April 9

18 58.9

32.6

41 59 29. 9

3 46. 3

19 31.5

55 43.0

3011*

Piazzi 97 . . .

7

3

April 27

19 5.5

43.1

26 49 35. 8

4 24.4

14 19 48.6

+26

45 11.1

3612*

"...

7

4

June 5

19 .-.4

40.1

26 49 27.7

4 14.0

19 48.5

45 13.7

3613

"...

4

June 16

19 9. 1

40. 1

26 49 33. 3

4 15.7

19 40.2

45 17.6

3614

Groombridge 2116

6.7

3

May 1-.'

21 6. 0

37.0

42 40 47.8

4 27. 0

14 21 43.0

+42

42 20.2

3615

t<

(17

3

May 31

21 6.3

37. 1

+42 46 50.2

4 32. 3

21 43.4

42 17.9

3616

Lalande 'JOr.17,8

7

3

April 18

20 50.4

55.0

—23 3 11.9

4 22.6

14 21 40.li

—23

7 34.5

3617

Lalande 26525 .

8

3

April 19

21 26.5

45.4

+18 36 33.0

4 20.4

14 22 11.9

+ 18

32 12.6

3618"

Piazzi 111 . .

7

3

May 4

22 16.6

51.2

- 5 54 34. 0

4 20.2

14 23 7.8

— 5

58 54. 2

3619

25 Jiootis p

3

April Hi

22 31.1

41.6

+31 19 41.8

4 19.3

II 23 12.7

+31

1.". 22.5

3620

a

3

April 21

22 31.2

41.5

31 19 41.3

4 20.4

23 12.7

15 20.9

3621

"...

3

April 'J.'.

22 31.5

41.5

31 19 41.2

4 21.2

23 13.0

15 20. 0

3622

"...

3

May JO

22 31.0

41.4

31 19 47. 6

4 28. 3

23 12. 1

15 19.3

3623

"...

4

June 8

22 in.;)

38. 0

31 19 30. 9

4 12.0

23 12.5

15 18.3

3624*

26 Bootis. . .

3

April 27

22 43.(1

44.0

23 13 13.9

4 20.9

11 'j:i 27.0

+23

s :,::. ii

3625

"...

3

May 13

22 4:!. 3

43.9

23 13 11.6

4 23.7

23 27.2

S 17. 0

3626

Lalande 26560 .

8.7

3

April 25

22 58.7

41.5

31 13 7.4

4 20. 8

14 23 40.2

+31

s 46.6

3627

Bessel, W.550 .

7

3

May 12

23 5.0

30.1

44 20 51.2

4 20. 1

14 23 41.1

+44

10 J.",. 1

3628

41

8

3

.May :;i

23 4.4

36.2

44 20 50.2

1 30.8

23 4H.0

io 19.4

3629

•J7 Bootis y

3

April 3

23 22. 7

38.7

39 15 35.0

4 10.2

14 24 1.4

+39

11 18.8

3630

it

3

April 4

23 22. 7

38.7

39 15 37.7

4 16.4

24 1.4

11 21.3

3631

" ...

3

July 8

23 22.3

' 38.9

39 15 57.9

4 35.8

24 1.2

11 22.1

3632

"...

3

July 10

23 22. 1

38.8

39 15 58.5

4 35.9

•Jl 1.2

11 22.6

3633

" . . .

3

July 26

23 21.7

39. 2

39 16 0.0

4 30.11

24 0. 9

1 1 23. 1

3634

Piazzi 120 . .

9

3

May 16

24 45.4

48.8

4 25 24.7

4 20.7

14 25 34. J

+ -4 2:

3635

2tf Bootis g

3

April 16

25 16.3

41.7

30 41 33.4

4 16.7

14 25 58.0

+30

37 10.7

3636

"...

3

April 21

25 15.6

41.6

30 41 31.7

4 18.5

25 57.2

37 13.2

3637

"...

3

April 25

25 16.5

41.6

30 41 34. 8

4 17.0

25 5.-'. 1

37 17.2

3638*

"...

3

May 29

25 16.5

41.5

30 41 37.8

4 2... 7

jr. 58.0

37 12.1

3639

"...

5

5

April 9

25 21.1

36.1

30 40 53. 1

3 41.1

25 57. 2

37 12.0

3640

Lalande 2C645 .

7

3

April 27

20 21.2

43.6

24 11 56.3

4 17.4

14 27 4.8

+24

7 38.9

3641

"...

7

3

May 12

26 21 . 7

43.5

24 11 56.9

4 20.2

27 5.2

7 36.7

3642

"...

6.7

3

May 13

•JO 20.8

43.5

24 11 56.9

4 20. 5

27 4. 3

7 36.4

3643

"...

6

3

May 31

26 20.0

43. 5

24 12 0.6

4 23.8

27 4. 1

7 36.8

3644

"...

5.6

4

Juue 16

26 23.7

40.6

+24 11 48.3

4 9.0

27 4.3

7 39.3

3645

Piazzi 133 . .

6.7

3

May 4

26 32. 9

51.0

- 4 35 58. 3

4 17.2

14 -J7 23.9

— 4

40 15.5

3646

Lalande 26667,8

7.8

3

April 3

20 54. 0

42.5

+28 26 0. 7

4 13.0

14 27 36.5

+28

21 47.7

3b47

"...

7.8

3

April 4

26 54.8

42.5

28 25 58.8

4 13.3

27 37.3

21 45.5

3648

ii

7

3

May 9

26 55. 2

42. 2

+28 -JO 8.7

4 19.7

27 37.4

21 49.0

3649

:s Librae -

6

3

April 18

26 55.9

56. 1

—24 4 55. J

4 17.4

1 1 27 52.0

—24

0 12.5

3650*

Piazzi 140 . .

6.7

3

April 21

11 28 11.4

+ 45.0

+19 14 51.0

4 14. (i

14 28 56.4

+ 19

10 36.4

(213)

214

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't f!

Reduction

a

el

h 77! S

s

o ' "

/ //

h m s

O / II

365)

Piazzi 140

6.7

3 April 25

14 28 10.6

+ 45.0

+19 14 48.7

— 4 15.2

14 28 55.6

+ 19 10 33.5

3652

"...

6

3 April 27

28 11.2

45.0

10 14 48.6

4 15.4

28 56.2

10 33.2

3653

"...

6

3 May 12

28 12.0

44.9

19 14 46.5

4 18.0

28 50.9

10 28.5

3654

"...

6

3 May 13

28 10.il

44.9

19 14 47.0

4 is. (i

28 55. s

10 -JO. 0

3655

u

6.7

5 April 9

28 16.1

39. 1

19 14 9.3

3 3,0. 1

28 55. 2

10 30.2

3656

Lalande 26735 -

7

3 May 29

311 4.3

47.3

9 54 57.4

4 17.1

14 30 51.0

+ 9 50 40.3

3657

Piazzi 145

6

3 April 3

30 22. 5

46.5

14 28 11.6

4 10. S

1 1 31 9.0

+14 24 0.8

3658

"...

(i

3 April 4

30 22. 8

46.5

14 28 16.7

4 10.7

31 9. 3

24 6.0

3659

"...

6

3 April 27

30 23. 5

46. 2

14 28 13.7

4 13.2

31 9. 7

24 0. 5

366U

Lalande 26747,8 .

6

3 May 12

30 33.8

43.8

22 54 36. 5

4 16.1

14 31 17.6

+22 50 20.4

3661

.<

6

3 May 13

30 33. 3

43.8

22 54 35. 6

4 16.4

31 17. 1

50 19.2

3662

29 Bootis ir

3 April 16

30 34.6

45.6

17 21 13.1

4 11.8

11 31 20.3

+17 17 1.3

3663

"...

3 April 19

30 34.li

45.5

17 21 7.8

4 12.2

31 10.5

16 55.6

3664

"...

3 April 21

30 3,4.7

45.5

17 21 14.3

4 12.5

31 2n.2

17 1.8

3665

"...

3 April 25

30 34.5

45. 5

17 21 9.3

4 12.9

31 20.0

16 56.4

3666

"...

4 June 8

30 37. li

42. 1

17 21

31 19.7

17

3667

30 Bootis J

3 April 3

30 48.9

46. 5

14 39 43. 1

4 10.2

14 31 35.4

+ 14 35 32.9

3668

(c

3 April 4

30 49. 4

46.5

14 39 45. 1

4 111. 1

31 35.0

35 34.7

3669

"...

3 April 27

30 49. 8

46.2

14 39 51.7

4 12. S

31 36.0

35 38.9

3670

"...

3 April 28

30 49.8

46.2

14 39 48.7

4 13.1

31 36.0

35 35.6

3671

"...

3 Jnly 8

30 49.8

46.3

14 39 57. 7

4 22.2

31 36. 1

35 35.5

3672

" . . .

3 July 10

30 50. 0

46.3

14 39 55.9

1 22.5

31 36.3

35 33.4

3673

"...

3 July 19

30 49.9

46.3

14 39 55.2

4 23.2

31 36.2

35 32. 0

3674*

It

3 July 26

30 5H.3

46. 4

1 ! to 0.2

1 '.'3.5

31 36.7

35 36.7

3675

if

3 July 29

30 40.7

46.5

+ 14 39 57.1

4 23.7

31 36.2

35 33. 4

3676

4 Librae .

6

3 April IS

30 46.2

56. 2

—24 3 51.7

4 13.0

14 31 42.4

—24 8 5.6

3677

"...

3 May 4

30 45. 9

56.0

24 3 53. 8

4 12.1

31 41.9

8 6. 2

3678*

"...

6

3 May 16

30 45.5

55.8

—24 3 53. 3

4 11.5

31 41.3

8 4.8

3679

Lalande 26765

7

3 May 31

31 2. 6

41.0

+31 23 1.2

4 20.8

14 31 43.6

+31 18 40.4

3660

"

7.8

4 June 16

31 4.5

38.3

31 22 53.9

4 4.8

31 42.8

18 49. 1

3681

31 Bootis .

3 May 29

31 2.3

47.2

9 5 41.7

4 16.2

14 31 49.5

+ 9 1 25.5

S682

Lalande 26769 -

7

3 May ill

31 12.8

41.0

+31 27 35.2

4 20.7

14 31 53. s

+31 23 14.5

3683

107 Virginia ft

3 April 7

31 4H.7

51.3

- 4 42 28. 1

1 11.7

14 32 32. 0

— 4 46 30. s

3684

Lalande 26793,4

8. 9

5 April 9

31 54. S

39.0

+ 10 25 12.9

3 36.0

14 32 33.8

+ 10 21 36.9

3685

Piazzi 160 - -

7

3 May 9

32 2.3

44. 0

22 3 38.0

4 14.1

14 32 46.3

+2 1 50 23. 9

3686

Lalande 26815 .

7.6

:; May 12

32 20. 3

45. S

15 38 18.2

4 13.4

1 1 33 15. 1

+ 15 34 4.8

3687

34 Bootis . . .

6

3 April 16

33 55. 1

42.4

27 -.'7 17.8

4 8.3

14 34 37.5

+27 23 0.5

1688

"...

6

3 April 19

33 55. 8

42.4

27 27 13.3

4 8.9

34 38.2

23 4.4

3689

it

6

3 April 21

33 56. 0

42.3

27 27 17.0

4 9.3

34 38.3

23 7.7

3690

"

6

3 April 25

33 56. 0

42.3

27 27 16.3

4 10.1

34 38.3

23 6.2

3691

, .

3 Mav 13

33 56. 0

42.2

27 27 18.8

4 13.8

34 38.2

23 5.0

3692

"...

3 May 31

33 55. 6

42. 2

+27 27 19.7

4 17.3

34 37.8

23, 2.4

3693

Lalande 26855

6

3 April 18

33 44. 4

56.1

—22 13 35.9

4 11.0

14 34 40.5

—22 17 46.0

3694*

"...

6

3 May 16

33 44. 2

55. S

—22 13 37.7

4 9. 0

34 40.0

17 46.7

3695*

Lalande 26870,1

9

5 April 9

34 17.2

38.9

+19 23 7. 7

3 34. 1

11 34 56.1

+ 19 19 33.6

3696

5 Librae .

3 May 4

34 4.2

53. 5

—14 32 18. 1

4 9. 5

14 34 57.7

—14 36 27.6

3697

Lalande 26872,4

9

3 April 4

34 10.3

4s. 0

+ 8 37 23. 1

4 7.8

14 34 58. 3

+ 8 33 15.3

3698

"...

3 May 29

34 10.8

47.6

8 37 28. 1

4 12.7

34 58.4

32 15.4

3699*

108 Virginia . .

3 April 7

34 30. 1

49.8

1 38 23. 6

4 8.3

14 35 10.0

+ 1 34 15.3

3700

35 Bootis o

3 April 27

35 9. 8

45.2

17 53 17. 4

4 8.4

14 35 55. 0

+17 49 9. 0

3701

"...

4

3 .May 9

35 9.3

45.1

IT 5:; 18.9

4 10.7

35 54. 4

49 8.2

3702

"...

3 May 12

35 10.2

45. 1

17 53 16.7

4 11.1

35 55. 3

49 5.6

3703

Lalande 26901 .

7

5 April 9

35 26. 3

38.8

19 47 38. 9

3 33.0

14 36 5. 1

+ 19 44 5.9

3704

Jon Virginia .

4.5

3 April 3

39 19.6

49.5

2 is 46.0

4 7.3

14 36 9. 1

+ 2 44 36.7

3705

36 Bootis c

3 April 28

35 33. 3

42. 0

27 50 35.6

4 9.2

14 36 15.3

+27 55 26.4

3706

"...

3 May 13

35 33.0

42.0

•,'7 50 40. S

4 12.3

36 15.0

55 28. 5

37117

"...

3 July 8

35 32.6

42.2

27 50 49.6

4 21.7

36 14. s

55 27.9

3708

"...

3 July 10

35 32.6

42. 3

27 50 49.8

4 22.0

36 14.9

55 27. 8

3709

"...

3 Jnh 19

35 3'.'. 6

42. 1

27 50 50.5

1 2'.'. 7

36 15.0

55 27. 8

3710

"...

3 July 26

14 35 32. 8

+ 42.5

+27 50 51.6

— 4 23.2

14 36 15.3

+27 55 28. 4

(211:

GOULD — CATALOGUE OF STARS OISSERVED BY D AGELET.

215

Mean equinox 1800. 0

No.

Name

Mag.

1 late

App't a

Reduct'n

App't <i

Reduction

a

d

— * —

li m s

s

O 1 II

/ //

h m s

o / II

3711

36 Bootis e

4

June 16

14 35 36.3

+ 39. 1

4-27 59 29.6

— 4 1.8

14 36 L5.4

4-27 55 27. 8

3712

Bessel, W.728 .

8

3

April 4

35 44. 1

47. 1

10 34 46.0

4 6.5

1 1 36 32.5

4-10 311 30.5

3! L3

Piazzi J77

7

3

April 27

35 48.3

45.2

17 43 1.3

1 8. 1

14 36 33.5

4-17 38 53.2

37 1 1

"...

7.8

3

May 9

35 47. 3

45. 1

17 43 5.6

4 lo.o

3(i 32. I

38 55.6

3715

"...

7

3

May 12

35 48.9

45. 1

17 42 58. 5

4 10. 4

36 34.0

38 4^. 1

3716

Flamsteed, B.'2018

7

3

April 3

36 28. 9

49. 2

2 57 4. 8

4 6. 0

14 37 is. |

4- 2 52 58.8

3717*

"...

3

April 7

(36)

2 57 12. 3

4 6.0

(37)

53 (i. 3

3718*

Lalau.le 26963 .

7

3

April 16

37 33.9

44.6'

19 57 36.2

4 4.8

14 38 18.5

4-19 53 31.4

3719

"...

8

3

April J 11

37 34.6

44. (i

19 57 39.3

4 5.6

38 19.2

53 33.7

3720

"...

7.8

3

April 25

37 33.5

44.6

19 57 43. 8

4 6.3

38 1-. 1

53 37.5

3721

«

7

3

April 28

37 33.9

44. li

19 57 33. 8

1 6.7

38 18.5

53 27. 1

3722"

"...

7.8

3

.Max 9

37 34.0

44.5

+ ".) 57 40.2

1 8. 5

38 18.5

.".3 31.7

3723

7 Libra? /;

5

3

)l;o 16

37 29.8

53. 2

—13 14 16.3

4 6.3

14 38 23.0

—13 18 22.6

3724*

6 Libra .

5

3

May 1

37 38. 1

57.2

-■27 3 4.2

4 6.2

J4 38 35.3

—27 7 10.4

3725

Lalande 26992 .

6

3

May 12

38 48. 9

42. 7

+25 16 20.2

4 8. 1

14 39 31.6

4-25 12 11.8

3726

"...

(i

3

May '.".i

38 48. 3

42.7

'.'.", 16 25.7

4 11.7

39 3l.o

12 14.0

3727

"

6.7

4

June 16

38 51.2

39.8

25 16 11.0

3 58. 3

39 31.0

12 12.7

3728

" . . .

6.7

5

April 9

38 53.0

37.2

4-25 15 46.8

3 -jo. 9

39 30.2

12 16.9

3729

9 Libra? a-

3

April 3

38 56.8

54. 2

—15 7 59.1

4 6.6

14 30 51.0

—15 12 5.7

3730

"...

3

April 18

(38)

15 7 57.3

4 5.6

(39)

12 2.9

3731

»

3

July 10

38 56.8

53.8

15 8 0.5

4 5. 3

39 50.6

12 5.8

3732

"...

3

July 19

38 56. 9

53.8

15 8 3.6

4 5.6

39 50.7

12 0. 2

3733

"...

3

July 26

38 56.7

53.9

15 8 1.8

4 5.9

39 50.6

12 8.7

3734

"...

3

July 29

38 56.8

54.0

—15 8 2.7

4 6.0

39 50. 8

12 8.7

3735

Lalande 27024 .

7

3

April 16

39 34.2

44.5

4-20 25 0.9

4 2.7

14 40 18.7

4-20 20 ;,-.2

3736

"

7

3

Maj 13

39 34.5

44.2

4-21 1 24 59. 2

4 7.3

40 1S.7

20 51.9

:',7:i7

10 Libra? . . .

3

May 16

39 44.0

54.3

-17 27 9. 7

4 3.7

14 40 39.2

—17 31 13.4

(:;;:>

Lalande27036 .

8

3

May 9

39 58. 1

44.2

4-20 25 4.3

4 6.2

11 40 42.6

4-20 20 58. 1

3739*

Lalande 27038 .

7.8

3

April I

40 0.8

43.5

23 56 11.6

4 0. 7

14 40 44.3

4-23 52 10. 9

3740

32 (Hev.) Bootis

6.7

3

April 25

40 40.5

41.3

29 31 6.7

4 3.5

14 41 21.8

4-29 27 3. 2

3741

u

4

June 16

(40)

29 31 5.7

3 57.6

(41)

27 8.1

3742

Lalande 27 1 155 -

7

5

April 9

40

24 48 9.5

3 22.9

14 41

4-24 44 46.6

3743*

Lalande 27069 .

8.9

3

April 4

41 5.2

43.5

23 4S 46. 1

3 59.6

14 41 48.7

4-23 44 46.5

3744

"...

8

3

May 12

41 7.0

4:;. 1

23 48 48.2

4 5.8

41 50.1

44 42. 4

3745*

K

9.

3

May 29

41 6.2

43.1

23 48 55.2

4 9. 1

41 49.3

44 46. 1

3746

37 Bootis f

3

April 16

41 25.8

44. 5

20 o 21.*

4 1.0

14 12 10.3

4-19 56 20. 8

3747

"...

3

April 19

41 25.5

44.5

20 0 17. 1

4 1.5

42 10.0

56 15.6

3748*

"...

3

April 21

41 25.4

44.5

20 0 19.4

4 1.8

42 9.9

56 17.6

37 19

"...

5

3

April 28

41 25.5

44.4

20 0 17.5

4 2.9

42 9.9

56 14.6

3750

"...

3

May 20

41 24.9

44.3

4-20 0 23. 2

4 6.7

42 9.2

56 16.5

3751*

12 Libra . . .

3

May 4

41 48.-7

56. 3

—23 44 47.5

4 2.2

14 42 45. 0

—23 48 49. 7

3752

Piazzi 201 . .

8

3

May 9

42 15.8

43. 9

4-21 11 19.8

4 4.1

14 42 59.7

4-21 7 15.7

3753*

"...

7.8

3

May 13

42 16. 3

43.9

4-21 11 13.5

4 4.7

43 0.2

7 8. 8

3754*

13 Libra? ?'

3

April 3

42 39.6

53.2

—11 0 21.9

4 2. 3

14 43 32.8

— 11 4 21.2

:',7.")."i

Aiionvma .

7

3

May 20

43 15.3

45.2

4-16 35 19.2

4 4.4

14 44 0.5

4-16 31 44.8

3756

'"

3

May 29

43 15.6

45. 2

16 35 47.2

4 5.7

44 0.8

31 41.5

3757

Lalande 27131

8.9

4

June 16

43 29. 1

38. 7

28 23 22.6

3 48.7

14 44 7.8

4-28 19 33.9

3758

Lalande 27 1 37

7

3

April Hi

43 34.9

44.5

20 1 55.4

3 58.4

14 44 19.4

4-19 57 57.0

3759

"...

7

3

April 19

4:; 33.4

44.4

20 1 51.7

3 59. 4

44 17.8

57 52. 3

3760

tt

6.7

3

April 27

43 35. 3

44.3

20 1 54.3

4 0.9

44 19.6

57 53.4

3761

<■

6

::

April 28

43 35. 3

44.3

20 1 50.2

4 0.7

44 10. (i

57 49.5

3762

"...

7.6

3

May 12

43 35.8

44.2

20 1 54.9

4 3.0

44 20.0

57 51.9

3763

"...

7

:;

Ma\ 13

43 34.9

44.2

20 1 53.7

4 3.3

44 10. 1

57 50. 4

3764*

Lalande 27140 .

6.7

5

April 9

43 47.4

34. 7

32 48 36.2

3 25. 2

14 44 22. 1

4-32 45 1 1 . 0

3765

Lalande 27138 .

7

3

April 25

43 38. 9

44. 1

4-20 46 58.7

4 0.0

14 44 23.0

4-20 42 58.7

3766

14. Libra?

3

April 18

44 55.4

56.8

—24 33 '22. 9

4 0. 9

14 45 52.2

—24 37 23. 8

3767*

"...

:;

May 4

44 56.0

:,i\.c,

24 33 30.7

3 59. 3

45 52.6

37 30.0

3768

"...

6.7

:;

May 16

44 55.4

56.5

24 33 34. 3

3 58. 5

45 51.9

37 32.8

3769

]."> Libra- $-'

:;

April 3

45 3.0

53. 1

—10 31 34.5

4 0. 0

14 45 56.1

—10 35 34.5

3770

Piazzi 215

6

3

May 29

14 45 19.8

+ 39.7

4-32 54 17. 3

— 4 6.3

14 45 50.:,

4-32 50 11.0

(215)

216

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

1

Mean equinox 1800. 0

No.

Name

Mag

Date

App't a

Reduct'i

App't (5

Reduction

a

cS

// m s

s

O ' II

*
/ //

h 711 s

o / '/

377]

Piazzi 215

7

5 April 9

14 45 24.6

+ 34. 6

+32 53 35. 2

— 3 23. 7

14 45 59.2

+32 50 11.5

3772

Lalande 27195 .

7

3 April 21

45 27. 9

40.6

30 56 5-. li

3 57.8

14 46 8.5

+30 53 0.8

3773

"...

7

4 June 16

45 30.0

37.7

30 51 i 53.0

3 53,. 4

46 7.7

52 59. ii

3774

Piazzi 221

7

3 April 19

46 1.6

45.8

15 19 42.*

3 56. 9

14 46 47. 4

+15 15 45.9

3775

tt

6.7

3 .May 9

46 1.4

45.6

15 19 48. 1

4 0.2

46 47.0

15 47.9

3776

"...

6

3 May 13

46 1.7

45. 6

15 19 41.0

4 0.4

46 47.3

15 43. 8

3777

Lalande --'7227 .

9

3 April 4

46 28.0

45.2

17 59 11.9

3 52.7

14 47 13.2

+ 17 55 19.2

3778*

9

3 May 1-2

46 29.4

44.8

17 59 16.7

3 59. 8

47 14.2

55 10.9

3779

1 Serpeutis . .

6

3 April 27

46 28. 8

48.0

o 42 51.0

3 57.5

14 47 16.8

+ 0 38 53.5

3780

3 April 28

46 29. 3

48.0

0 42 48.0

3 57. 6

47 17.3

38 50.4

3781

Lalande 27241,2

7

5 April 9

47 5.8

34. 5

33 10 19.7

3 22.3

14 47 40.3

+33 6 57.4

3782

Piazzi 226 - .

6.7

:: April 16

47 6.6

45. 2

17 16 3. 1

3 55.4

14 47 51.8

+ 17 12 7.7

3783

tf

6

;; April 25

47 6.9

45. 1

17 15 58. *

3 55.5

47 52.0

12 3. 3

3784

"...

3 May 20

47 7.4

44.9

17 16 3.9

4 0.6

47 52. 3

12 3,. 3

3785

Piazzi y27

6.7

3 May 12

47 20. 1

43.4

22 26 1-2.9

3 59. 4

14 48 3.5

+22 22 13.5

3786*

K

7

3 May 15

47 19.5

43.4

+22 26 13.9

4 0. 1

48 2. 9

22 13.8

3787*

18 Libra . . .

3 April 3

47 12.4

53.0

— 10 15 53.5

3 57.7

14 48 5.4

—10 19 51.2

3788

Lalande 27277,8

8

3 April 21

47 56.4

42. 3

+26 11 51.7

3 55. 1

14 48 38.7

+26 7 59.0

3789

Piazzi 231 . .

7

3 May 13

48 3. 9

45. 6

14 54 43.6

3 58.2

14 48 49.5

+ 14 50 45.4

3790

Piazzi 232 . .

7

3 May 29

48 11.2

42.3

25 33 1.6

4 2. 3

14 48 53.5

+25 28 59. 3

3791

"...

7.8

4 June 16

48 1 1.2

39.4

25 32 50.2

3 49. 6

48 53. 6

29 0.6

3792*

Lalande '27311

7.8

3 April Hi

49 15.4

42. 7

+25 2 45. 2

3 52.7

14 49 58. 1

+24 58 52.5

3793

Piazzi 233 . .

7.8

3 April 3

(49)

— 10 3 20.3

3 56.8

14(30)

— 10 7 17. 1

3794

Piazzi 236 . .

7.8

3 April 21

49 21.3

42. 3

+25 55 14.4

3, 52.0

14 50 3.6

+25 51 21.8

3795

"...

7.8

3 May 12

49 21.0

42.1

+25 55 13.9

3 57.7

50 3. 1

51 16.2

379S

19 Librae 6

3 April 18

49 26.5

52. 1

- 7 38 59. 3

3 54. 9

14 50 18.6

— 7 42 54.2

3797*

"...

3 May 4

49 26.8

51.9

7 39 3.2

3 54.6

50 18.7

42 57. 8

3798

it

3 May 16

49 26.7

51.8

— 7 39 1.8

3 55. 2

50 18.5

12 57.0

3799*

Lalande -27325 .

7.8

3 April 19

49 48.2

45.6

+15 42 2.5

3 54. 0

14 50 33. s

+15 38 8.5

3800

"

8.9

3 .May 9

49 48.2

45.4

15 42 13.0

3 55.9

50 33.6

38 17. 1

3801"

"...

8

3 May 13

49 48.6

45. 3

15 42 5.4

3 511.4

50 33.9

38 9. 0

3802

"...

4 June 16

(49)

+ 15 41 57.9

3 45. 8

(50)

38 12.1

3803

Lalande 27347

7.8

3 April 3

50 32.0

52. :;

— 7 28 55. 9

3 53.9

14 51 24.3

— 7 32 49. 8

:;-nl

"...

3 May 4

50 32.7

51.9

— 7 2- 53.6

3 53. 6

51 24.6

32 47. 2

3805

2 Serpentis .

6.7

3 April -27

50 45.5

49.7

+ 0 43 29. 3

3 53. 1

14 51 35.2

+ 0 39 30.2

3806

"...

6

3 April 28

50 44.8

49. 7

0 43 27. 2

3 53.3

51 34.5

39 33.9

3807

Piazzi 247 . .

6

3 April 4

51 11.3

43. 5

22 5 1 32.6

3 49. 1

14 51 54.8

+22 5o 43.5

3808

"...

7

3 April 16

51 10.9

43.4

■22 54 36. 1

3 50. 9

51 54.3

50 45.2

3809*

"...

6.7

3 April 25

51 11.2

43. 2

22 54 36.2

3 52.3

51 54.4

50 43. 9

3810

"

7

3 May 12

51 12.0

43.1

22 54 40.8

3 55.4

51 55.1

50 45. 4

3811*

"...

8

3 May 20

51 11.4

43.1

22 51 34. 0

3 57.0

51 54.5

50 37. 0

3812

Bessel, YV.1189 '.

7.6

4 Juue 16

50

+40 7 48.4

3 50.0

14 51

+40 3 58. 4

3813

20 Librae . . .

3 April 18

(51)

—24 25 12. 1

3 54.5

14(52)

—24 29 6.6

3814*

"...

3 July 8

51 26.5

56. 7

24 25 15.4

3 50.4

52 23. 2

29 5. 8

3815

"...

3 July 111

51 26.4

56. 7

■24 25 20.5

3 50. 4

52 23. 1

29 10.9

3816

". - - .

3 July 26

51 -26.4

56. 9

—21 25 15.6

3 50.7

52 23,. 3

29 6.3

3817

1 10 Virginis .

3 April 7

(51)

49. 4

+ 2 56 55. 7

3 50.7

14(52)

+ 2 53 5. 7

3818

"...

6

3 April 28

51 59.6

49. 1

2 57 1.0

3 51.9

52 48. 7

53 9. 1

3819

"...

4.5

5 April 9

52 5.3

42.7

2 56 26.6

3 19.9

52 48.0

53 6.7

3820

Lalande 27406,7

7

3 April 19

52 31.3

45. -2

16 54 27. 0

3 50. 1

14 53 16.5

+16 50 30.9

3821

<(

7.8

3 May 9

52 32.0

43.8

10 5 1 311.;.

3 53.1

53 15.8

50 37. 4

3822

41 Bootis u

3 April 25

52 38.6

42. -2

•25 52 13.3

3 50. 8

14 53 20. 8

4-25 48 22. 5

3823

"...

3 May 13

52 38.6

42.0

25 52 20.3

3 54. 5

53 20.6

48 25.8

3824

"...

3 May 15

52 39.0

42.0

25 52 17.9

3 55. 0

53 21.0

48 22. 9

3825

Lalande 27422 -

8

:; April 16

53 16.2

14.6

18 49 55. 1

3 58. 4

14 54 0.8

■f is 45 5(1.7

3826

42 Bootis j3

3 April 28

53 49. 5

35. 6

41 15 0.4

3, 50.9

14 54 25. 1

+11 11 9.5

3827

"...

3 May 20

53 49.2

35.:,

41 15 10.3

3 56.6

54 24.7

11 13.7

3828

"...

3 July 8

53 48. -

35.9

41 15 17.8

4 6.5

51 24.7

11 11.3

3829

"...

3 July 26

53 48.2

36. 3

11 15 20.3

4 8.4

54 21.5

II 11.9

3830

Lalande 27442

8.9

3 April 3

14 53 39. 0 -

4- 47. 1

■fll 35 12. 1 -

- 3. 47.6

14 54 26. 1

fll 31 24.5

(216)

GOULD — CATALOG UK OK STARS OBSERVED BY D AGELET.

217

Menu equinox 1800. (1

No.

Name

Mag.

Date

App'l a

Reduct'n

App't <!

Reduction

a

6

h m s

6

O ' "

i a

/( in 8

o / "

3831

Piazzi 265

8.9

3 May 13

14 54 31.5

+ 41.2

+27 50 10.8

— 3 52. 7

14

55 12.7

+27 52 18.1

3833

u

7

:. April 2]

54 32.4

41.4

•27 50 2.3

3 48. 1

55 13.8

52 14. -J

3833

ii

4 June 16

54 34.3

38.4

27 50 1.5

3 43. 9

55 12.7

52 17.6

3834

Lalande 27470 .

7.8

3 April 27

54 411. 7

43.8

20 41 36. 9

3 49.0

14

55 24. 5

+20 37 47.9

3835

. .

9

3 May 29

54 41.0

43.7

+20 41 37.7

3 54. 7

55 24.7

37 43.0

3836

21 Librae vi

3 May 4

54 35.7

54. 2

—15 24 23. 5

3 49.7

14

55 29. 9

—15 28 13.2

3837

"...

3 May 16

54 35.9

54.0

15 24 26. 8

3 49. 3

55 29. 11

28 16.1

3838

22 Librae >■-

3 May 4

54 47.(i

54.2

15 38

14

55 41.2

—15 42

3839

it

3 May 16

54 16.5

54.1

—15 38 11.4

3 51.9

55 40.6

42 3. 3

3840

13 I'.nOtis ijl

4

3 April 4

55 10.8

41.7

+27 47 54.0

3 44. 5

14

55 52.5

+27 44 9.5

3841

"...

3 April 21

55 11.6

41.5

27 47 54.2

3 47.3

55 53. 1

44 6. 9

38 1-.'

"...

3 Apnl 25

55 11.4

41.4

27 47 57. 4

3 48.3

55 52. s

44 9. 1

3843

"...

3 May 12

55 12. 1

41.3

27 47 54.0

3 51.7

55 53. 4

44 2. 3

3844*

"...

3 May 13

55 11.6

11.3

27 47 56. 5

3 52. 0

55 52.9

44 4.5

3845

"...

3 May 15

55 11.3

41.2

-'7 47 59.8

3 52. 3

44 7.5

3846

It

1 June 16

55 14.1

38. 4

27 47 51.3

3 43.3

44 8.0

3847

[1

5

5 April 9

55 15.9

30.0

27 47 21.0

3 14.8

55 51.9

44 0.2

3848

1 1 Bootis . . .

3 April 28

50 41.2

31.2

46 30 1.0

3 48. :;

14

57 12.4

+48 26 12.7

3849

Piazzi 261

5.6

3 April 3

57 25.4

44.6

19 17 5.6

3 42. 7

14

58 10.0

+19 13 22.9

"

6

3 April 4

57 25.4

44.6

19 17 2.3

3 42.9

58 10.0

13 19.4

3851

"...

6

3 May 9

57 26. 1

44.1

+19 17 9.7

3 53. 4

58 10.2

13 16.3

3852

Piazzi 2a2 '. '.

6.7

:: April 18

57 16.9

56.6

—23 8 44. 4

3 48.5

14

58 13.7

—23 12 32. 9

3853

45 Bootis c

3 April 16

57 48.8

4-.'. -'

+25 43 9. 8

3 43.7

14

58 31.0

+25 39 20. 1

3854

"...

3 April 19

57 48.9

42. 2

25 43 8.5

3 44. 3

58 31. I

39 24.2

3855

"...

3 April 25

57 48.5

42.1

25 43 8. 5

3 45. 3

58 30.6

39 23.2

3856

"...

3 April 27

57 48.8

42. 0

25 43 9.2

3 45.0

58 30.8

39 23.fi

3857

"...

3 May 12

57 49.4

42.0

25 43 8.5

3 48.7

58 31.4

39 19.8

3858

"...

3 May 20

57 48.7

41.9

25 43 13.8

3 50.4

58 30.6

39 23.4

3859

"...

3 May 29

57 48.8

41.9

25 43 13.6

3 52.2

58 30.7

39 21.4

3860

it

5.6

5 April 9

57 53.7

36.6

25 42 35. 3

3 12.0

58 30. 3

39 22.7

3861

Lalande 2575

7

3 May 13

56 8.1

37.2

37 17 43.1

3 49.7

14 58 45. 3

+37 13 53.4

3862

Lalande 27602 .

8

4 June 16

58 54.4

37.7

29 21 18.2

3 39.9

14 59 32. 1

+29 17 38.3

3863'

40 Bootis b

3 April 21

59 4. 6

41.1

27 8 16.1

3 43.2

14

59 45.7

+27 4 32.9

3864

Piazzi 291 . .

0.7

3 April 16

59 10.9

42.1

25 56 38. 1

3 42.4

14 59 53.0

+25 52 55. 7

3865

"...

0

3 April 19

59 11.0

42.0

25 56 35. 9

3 42.9

59 53.0

52 53.0

3866

"...

7

3 April 25

59 10.8

41.9

25 50 38.7

3 43. S

59 52. 7

52 54. 9

3867

ti

3 April 27

59 1 1 . 1

41.9

25 56 37.9

3 44.2

59 53.0

52 53. 7

3868

"...

6

3 May 12

59 11.5

41.8

25 50 38. 7

3 47. 1

59 53. 3

52 51.6

3869

ii

6

3 May 29

14 59 10.8

41.7

25 56 4-.'. (i

3 50.6

59 52.5

52 52.0

3870

Lalande 27046,7 .

8.9

3 April 4

15 0 2.9

42.5

25 30 17.7

3 39.4

15

0 45.4

+25 20 38. 3

387 1

"...

7.8

3 April 28

0 2.9

42.(1

25 30 22. 2

3 43. 5

(i 44.9

26 38.7

3872

Lalande 27644 -

7.8

3 May 15

15 0 1 '. 2

38. 5

+34 5 48.5

3 47.6

15

ii 51.7

+34 2 0. 9

3873

24 Libra i1

3 May 4

14 59 56. 1

55.3

—18 57 42. 9

3 44.3

15

(i 51.4

-19 1 27.2

387 1

"...

3 May 16

59 55.5

55.2

18 57 41.8

3 43. 8

(I 50.7

1 25.6

3875*

ii

3 July 8

14 59 55.0

55. 2

18 57 44.9

3 43. 4

ii 50.2

1 28.3

3876

Lacaille 6271

7

3 April 18

15 (i 41.5

56.9

23 10 54.0

3 45. 0

15

l 38. 1

—23 14 39.6

3877

25 Librae i-

3 May 4

1 1.0

55.3

—18 49 17.4

3 43. 1

15

1 56.9

—18 53 0.5

3878

Lalande 27705 .

8

3 April 25

1 47.7

43.6

+20 52 12.0

3 40.9

15

2 31.3

+2(1 4* 31. 1

3879

ii

7.8

3 May 20

1 48. 1

43.4

20 52 12. 5

3 45. 4

2 31.5

4* 27. 1

3880

Flamsteed,B.2072

8

3 May 13

1 54.5

38.6

33 54 20. 3

3 45.2

15

2 33. 1

+33 50 35. 1

3881

"...

7.8

3 May 15

1 54.1

38.6

33 54 23. 1

3 45.7

2 32.7

50 37. 4

3882

((

7

4 June 16

1 50.8

35.9

33 54 17. 9

3 37.8

2 32.7

50 40. 1

3883

Lalande 27718 .

6

3 April 10

'.' 14.6

44.1

19 47 52. 9

3 39.0

15

2 58.7

+19 44 13.9

3884

"...

6.7

3 May 9

2 13.9

43.8

19 47 54.6

3 42. 8

2 57.7

44 11.8

3885

"...

0

3 Ma'y 12

2 15.6

43.8

19 47 55. 2

3 43. 3

2 59.4

44 11.9

3886

Piazzi 13 . . .

8

3 April 19

2 28. 4

43. 0

23 8 12.6

3 39. 2

15

3 11.4

+23 4 33.4

3887

"...

6.7

3 Mm 29

2 ■-'-. ii

42.6

+23 6 18.7

3 47. 2

3 11.2

4 31.5

3888*

26 Librae . .

3 May 16

2 23.0

54.6

—16 56 56.2

3 41.4

15

3 17.0

—17 0 37.6

3889

Lalande 27742 .

7

3 April 4

3 3. 6

14.2

+20 5 10.5

3 30.6

15

3 47.*

+20 1 33.9

3890

.

7

3 May 9

15 3 4JI

4- 43.7

+20 5 19.5

— 3 42.0

15

3 17.7

+20 1 37.5

28

(217)

218

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mian equinox 1800.0

No.

Name

Mag.

Dati

App't a

Reduct'i

App't 6

Reduction

0

<5

h m s

s

O ' //

/ //

It m s

0 1 n

3891

Piazzi 18 . . .

6.7

3

Apr!

3

15 3 57. 7

4- 42.9

+23 47 34. 2

— 3 35. 1

15 4 4(1.0

+23 43 59. 1

3892*

"

3

May

20

3 58. 1

42. 1

2:: 17 44.3

3 4:',. 4

4 Id. 5

4 4 11.11

3893

i<

0.7

:;

May

29

:\ 58.3

42. :;

+23 47 43. 4

3 45. 1

4 4(1.6

43 58. 3

3894

595 Mayer ! !

7. 8

3

Apri

18

:; r,2. i;

56. 5

—21 35 8. 1

3 41.3

15 4 49. 1

—21 38 411.4

3895

4 Serpentis .

6

4

June

5

4 52.0

4.",. !l

+ 1 1(1 40.0

3 20. 7

15 5 37.9

+ 1 7 13.9

3896

Piazzi 24 .

0.7

3

May

13

5 16.2

39.0

32 :',(! 1(1.9

3 41.3

15 5 55.2

+32 32 29.0

3897

"...

li. 7

:;

May

15

5 Hi. 4

39.0

32 :«i 13.3

3 41.9

5 55. 4

32 31.4

3898

48 Bootis x

6

:i

April 25

5 27.2

40.2

29 58 31. s

3 30. 9

15 6 7.4

+29 54 54.9

3899

"...

3

May

12

5 27.0,

40.0

29 58 31.4

3 411.0

0 7.6

54 50. 8

3900

"

li. 7

1

June

If,

5 311.5

37.3

+29 58 23. II

3 32.0

0 7.8

54 51.0

390]

27 Librsg /3

3

April

21

5 24.0

52. 5

— 8 34 30.6

:; 38.2

15 6 10.5

— 8 38 8. 8

3903

" . . .

:s

May

4

5 23.5

52. 3

8 31 27.2

:: 38.3

(i 15.8

38 5. 5

3903

"...

:'.

May

16

5 23.0

8 34 23.5

:; 38.6

6 15.8

38 2. 1

3904

"...

3

July

8

5 24. 1

52. 2

8 34 28.2

:; 40.8

0 16.3

38 9. 11

3905

"

2

::

J«i>

9

5 23. 9

.-•2. 2

8 34 29. 8

3 40. 8

0 10.1

38 10.6

:;;hii;

"

3

July

10

5 23. 11

52. 2

8 ::4 27.(i

3 4(1.9

(1 Hi. 1

38 7. 9

3907

"...

3

July

26

5 23. 5

52. 3

— 8 34 25. 5

3 41.6

6 15.8

38 7.1

3908

Groombridge 2205

0.7

3

April

27

0 211.(1

38.5

+4:1 51 16.0

:; 36. 8

15 0 :',:: 5

+43 47 39.8

3909

a

0.7

3

April 2i

0 19.9

:;::. 1

43 51 23. 4

3 37.2

6 53. 3

47 40.2

3910

Lalande 27845,7

7

3

April

19

6 21.7

41.0

26 26 58.6

3 34.8

15 7 3. 3

+26 23 23. 8

3911

49 Bootis (5

::

April

16

6 47. 8

38. 5

34 7 42.3

3 33.5

15 7 20. 3

+34 4 8. 8

3912

< ,

:\

May

12

C ].-. 1

38. 2

34 7 48.6

3 39.5

7 26.6

4 9.1

3913

"...

::

May

13

6 18.4

38.2

34 7 45.2

3 39.7

7 26.6

4 5.5

3914

"...

::

May

15

6 48. 3

38. 2

31 7 1(1. H

:: in. 1

7 20.5

4 (1.8

3915

"

3

July

8

6 47. 8

38.5

34 7 58.2

3 51.1

7 26.3

4 7.1

3916

5 Serpentis .

I

June

5

8 20.2

45.5

2 35 25. 2

3 23. 5

15 9 5.7

+ 2 32 1.7

3917

44 (Hov.) Bootis

6

:;

April

3

8 42. (J

44.(1

21 22 11.8

3 30. 3

15 9 26.6

+21 18 41.5

3918

"...

0

3

May

9

8 43. 0

43. 5

21 22 19.6

:; 35.0

9 2C 5

18 44.0

3919*

"...

3

May

20

8 42. 1

43.1

+21 22 23.6

3 37.8

9 25.2

18 45. 8

3920

28 Libras . . .

3

May

16

8 39.1

54.9

—17 21 37.4

3 34. 8

15 9 34.0

—17 25 12.2

3921

Lalande 27942 .

7.8

3

April

19

9 6. 9

39.5

+31 38 8.1

3 31.5

15 9 4li. 4

+31 34 36.6

3922

ti

7

:',

May

29

9 7. 2

39.2

ill lis 14.4

3 411.5

11 4(1. 1

34 33.9

3923

"...

8

4

Juno

10

9 9. 4

36.5

+31 38 5.(1

3 311.(1

9 45.11

34 35.(1

3924

29 Libra? o>

3

May

4

8 58.0

54.2

—14 45 21.4

:; :;:,. 1

15 11 52.2

—14 48 56. J

3925

Lalande 27947

8

3

May

12

9 10.0

38.0

+34 23 34. 1

3 37.0

15 9 54.i;

+34 19 57. 1

3920

"...

6.7

3

May

13

9 15.1

38.0

:;i 23 33.6

3 37. 1

9 :,::. 1

Hi 50.5

3927

"...

7

3

May

15

9 15. 4

38.0

34 23 33. 3

3 37.3

9 53. 4

19 50.(1

3928

0 Serpentis

6

3

April

25

1(1 2.2

49. 5

1 iill 45.0

3 33. 2

15 10 51.7

+ 1 27 1 1 . 8

3929

Lalande 27990 .

6.7

3

May

13

HI 47.6

38.4

:::: 18 23.8

3 35.1

15 11 2li. 11

+33 14 I-.7

3930

Lalande 27992 .

7

3

April

27

10 57.4

31.6

40 24 4(1.5

3 31.5

15 11 29.0

+46 21 9. 0

3931

"...

7

3

April

28

10 57.5

31.2

46 24 42. 9

3 32.0

11 29.1

21 10.9

3932

1 Corona1 o

3

April

10

11 12.2

40.0

lid 24 30.0

3 28.6

15 11 52.2

+30 21 1.4

3933

"...

3

April

19

11 12.7

39. 9

3d 24 29.3

3 29. 2

11 52.(1

21 II. 1

3934

"...

3

May

15

1] 13.3

39. 6

3(1 24 32.7

3 34. 8

11 52.9

211 57.9

3935

"...

3

May

20

11 12.7

39. 0

+3(1 24 38. 2

3 36. 1

11 52.3

21 2. 1

3936

30 Libras o-

3

May

16

Id 59. I

54. 0

— 14 21 2.2

:: 32. :,

15 11 53.1

—14 24 34.7

3937*

Piazzi 53 . . .

6.7

3

April

3

11 46.6

42.0

+25 44 :i4.7

3 26.2

15 12 28.6

+25 41 8.5

3938

"...

7

4

June

10

11 49.0

4(1. 1

+25 44 39.9

3 30. 0

12 29. 7

41 9.3

3939

31 Libras e

3

May

4

12 29. 9

52.7

— 9 31 51). li

3 3(1.7

15 13 22.0

— 9 35 30. 3

3940

"

3

July

8

(12)

9 32 0.8

3 32. 9

(13)

35 33.7

3941

.<

3

July

9

12 30.4

52.5

9 32 0. 8

3 33. 1

13 22.9

35 33.9

3942

8 Serpentis

4

June

5

12 38.7

46.3

- (1 14 311. li

:: 18.6

15 13 25.11

— 0 17 58. 2

3943

Lalande 28001 .

7.8

3

May

9

13 2.8

43.6

+19 41 45.7

3 30.8

15 13 46.4

+ 19 38 14.9

3944

Bessel, W.350,1 .

7

3

May

12

13 10.5

32. 1

45 13 33.3

3 32.9

15 13 48.6

+45 111 (1.4

3945*

Lalande 28074 .

8

3

April

27

13 30. S

31.4

46 20 54.2

:; 28. 1

15 14 8.2

+ 111 23 25.8

3946

2 Coronas v

3

April

10

14 17.2

39. 6

31 4 :;i;. 1

3 24. 9

15 14 56.8

+31 1 11.2

3947

"...

3

April

19

14 17. 1

39. 5

31 4 36.7

3 25. 6

14 511.0

1 11.1

3948

"...

5. 0

3

May

13

14 17. 1

311. 3

31 4 38.6

3 31.(1

14 50.4

1 7.6

3949

"...

3

May

15

14 17.1

39. 3

31 4 36.4

3 31.3

14 50.7

1 5.1

3950

< iroombridge 2221

6

3

April

28

15 14 37.8

4- 35.0

+4(1 21 35. 5

- 3 27.4

15 15 12.8

+40 18 8. I

(218)

GOULD — CATALOGUE OF STARS OBSERVED HY D AGELET.

2 1 9

Mean equinox 1800. 0

No.

Name

Mag.

Pate

App't a

Reduct'n

App't d

Reduction

a

6

h m s

s

o ' n

/ ;/

It m s

O 1 II

3951

Gr bridge 2221

o

3 May '-".i

l r> 14 38.9

+ 34.8

+40 21 42. 1

— 3 :;:>. :.

15 15 13.7

+40 18 6.0

13952

Bessel, W.329 -

8

:; v j.i il 2.-)

11 28.9

46.3

1 1 46 53. 1

3 26. 0

15 15 15.2

+ 11 43 26.2

3953

9 Serpen tis .
Piazzi 72 .

7.6

:; April 2.".

15 Hi. i

44.9

16 11 52.4

3 25. 3

15 16 31.3

+ 16 8 27.1

395 1

<;

3 Mar !>

16 1U.2

43.4

20 14 59. 3

3 27. 1

15 16 53.6

+20 11 32.2

3955

3 May 29

16 10.6

43.2

20 14 59.5

:; 30.8

16 53.8

11 28.7

3956

51 Bootis ji

:'. April 28

16 2H.7

36.0

38 8 30.3

3 25. 1

15 16 56.7

+38 5 5.2

3957

(i

:> May 13

16 20.8

:;:..'.i

38 8 35.7

3 29. 0

16 56.7

5 6.7

3958

it

3 May L5

16 20.8

35.9

+38 8 34. 3

3 29. 4

16 56.7

5 4.9

3959

32 Librae ;'

3 May 4

16 5.5

54. 7

—15 56 57.5

3 26. 8

15 17 0.2

—16 0 24. 3

3960

Lalande 28164 .

7

3 May 12

16 Ml. 3

31.3

+46 2 31.8

3 28.7

15 17 21.6

+45 59 3. 1

3961

33 Librae fa

7

3 April IS

17 22.4

55.2

—16 40 53.6

3 26.2

15 18 17.6

—16 44 19.8

3962

0.7

3 May Mi

17 22.7

54.8

—16 40 56.6

3 25.2

18 17.5

44 21. s

3963

Piazzi 81 . . .

4. .".

:; April 3

17 49.6

37.9

+35 5 40.7

3 18.3

15 is 27.5

+35 2 22. 4

3964

In Serpentis .

4 June 5

17 46.5

45.5

+ 2 36 2.6

3 13.6

15 18 32.0

+ 2 32 49. 0

3965

34 Librae f3

6.7

3 Mav 16

18 30.4

54. 6

—15 51 10.5

:; 21. i

15 111 2:.. o

— 15 54 40.0

3966

Johnson 3387

8

:! April 27

i;i ii.:;

32. 1

+44 46 4.7

3 21.9

15 111 32. 1

+44 42 42.8

3967

"...

7

.; v.nil 28

19 11.4

32. 1

44 46 2.0

3 22.2

Hi 32.5

42 39.8

3963

"

9

3 May 13

19 (1. II

32. (I

44 46 15.3

:; 26.5

111 32.0

42 4s. s

3969*

"

8.9

:; May 15

III 0.7

32. 0

44 46 11.7

3 26. 8

Hi 32.7

42 44.9

3970

3 Corona; Bur. /i

:i April Hi

18 55.7

39.9

29 51 30. 0

3 19.6

15 111 35.6

+211 48 10.4

3971

u

3 April 19

18 55.9

39.9

29 51 29. 9

:i 20.2

19 :;.".. 8

48 9. 7

3972*

"...

:; July 9

18 56.2

39.7

29 51 44.7

3 36.7

19 35.1)

48 s. o

3973

"...

3 July in

18 57.0

39.7

29 51 44.7

:; 36. 9

111 36. 7

48 7.8

3974

"...

3 July 29

18 55. 5

39.3

29 51 45. 0

:; 38. 8

19 34.8

48 6. 2

3975

Piazzi 89 . . .

7

3 April 2.".

19 15.9

44.5

17 8 37.8

3 21.2

15 20 0.4

+17 5 16.6

3976*

"

6.7

3 .May 9

19 15.7

44.4

17 8 46.11

3 24. 2

20 0. 1

5 21.8

3977

Groombridge .237

6.7

:: April 3

211 29. 1

35.6

39 28 38. 6

3 14.11

15 21 5.11

+39 25 23. 7

3978

' "

7.8

3 April 28

211 Mil.:;

35. 1

39 28 39. 1

3 20.3

2 1 5. 4

25 IS. s

3979

"...

8

3 May 12

2(1 31.il

35.0

+39 28 43.9

:; 23. ii

21 6.0

25 20.0

3980*

006 Mayer

:: April 18

20 13.(1

56.0

—18 55 12.4

3 23.4

15 21 9.0

—18 58 35.8

3981

35 Libra; f4

3 May 4

20 43.9

54.8

16 6 24.5

3 21.7

15 21 38.7

—16 9 46.2

3982

"...

3 May 16

2(1 44.0

54.7

—16 6 24. 8

:s 21.5

21 38.7

9 46.3

3983

Piazzi 100 . .

6

3 May 29

21 39.5

38. 5

+32 2 10.9

3 26.0

15 22 18.0

+31 58 44.9

3984

Arg. Z. Oelt.15405

7

:i May 13

21 49.7

29. 7

47 57 7. 1

3 23. 3

15 22 1H.4

+47 53 43. 8

3985

"...

7

:; May 15

21 49.6

29.7

+47 57 6.8

3 23. 8

22 19.3

53 43.0

3986

11 Serpentis .

4 June 5

21 53.6

47.4

— 0 26 42. 7

:: 8.9

15 22 41.0

— 0 29 51.6

3987

12 Serpentis r1

5.6

3 April 3

22 12.4

45.0

+16 47 49. 3

3 15.2

15 22 57.4

+ 16 44 34.1

3988

"...

3 April 19

22 I2..I

44.7

16 47 53.2

:i l7.o

22 57 . 1 1

44 36.2

3989

"...

7

3 April 25

22 1'.'. 1

44.6

16 47 51. 8

3 17.8

22 57.0

44 31.0

3990*

CI

6

3 May 9

22 12.3

44.4

+16 47 59.3

3 20.0

22 56.7

44 311.3

3991

Lalande -28345 .

7

3 May 16

22 46. 8

54.8

—16 23 59.5

3 13.4

15 23 41.0

-16 27 12.9

3992

Lalande 28347 .

6

3 April 27

23 KI.2

36.1

+37 21 37.8

3 16.7

15 2:: 46.3

+37 18 21. 1

3993"

"...

6

3 April •_>-

2:; 10.4

36.1

37 21 36.3

3 17.1

23 46.5

18 111.2

3994

Piazzi 109 . .

6

3 April 3

23 6.5

45.0

16 45 2.2

3 14.0

15 23 51.5

+16 41 48.2

3995

"...

6.7

3 April 25

23 7.6

44.6

+ 16 45 7.8

3 16.7

2:; 52. 2

41 51.1

3996*

38 Librae y

3 April 16

2:; 26.8

54.5

—14 '3 20.9

3 19.0

15 24 21.3

—14 6 39.9

3997

"...

3 April 18

23 27.5

54. 5

14 3 16.7

3 19.0

24 22.0

6 35.7

3998

"...

6

3 May 4

23 27.2

51.2

—14 3 21.8

3 18.5

21 21.4

6 40.3

3999

53 Bootis i'-

3 May 13

24 3. 8

33. 6

+41 38 24. 0

3 20. 1

15 24 37. 4

+41 35 3.9

4000

" .

6

3 May 15

24 3.8

33.6

41 38 20.7

3 20.5

24 37.4

35 0. 2

40111

1 Coronas 6

4 June 5

24 15.4

35.7

+32 5 44. 5

3 11.2

15 24 51.1

+32 2 33. 3

4002

Lalande 28389 .

7.8

3 May 16

24 24. :i

54.8

—16 16 50.5

3 12.0

15 25 19. 1

—16 20 2.5

4003

5 Coronas a

3 April 27

25 32.9

40. 5

+27 26 59. 7

3 13.8

15 26 13. 4 '

+27 23 45.9

4004

"...

3 .May 12

25 32.9

40.4

27 27 5.0

3 17.11

26 13.3

23 48.0

4005

"...

3 May 29

25 32. 8

40.3

27 27 6.7

3 20. 7

26 13. 1

23 46. 0

1006

"...

2.3

3 July 8

25 32.8

40.4

27 27 13.0

:! 28. 4

26 13.2

23 44. 6

4007

"...

3 July 11

25 33. 1

40.4

27 27 13.2

:: 28. :.

26 13.5

23 44.7

4008

"...

3 July Id

2.". 32. 8

40.4

27 27 13.7

3 28. 6

26 13.2

23 45. 1

4009

"...

■J. ::

3 July 14

25 32.8

40.5

27 27 14. :S

:; 2'.i. 1

26 13.3

23 45.2

4010

"...

3 July 19

15 25 32.7

+ 40.4

+27 27 14.1

— 3 29.8

15 26 13.1

+27 23 44. 3

(219)

220

GOULD CATALOGUE OF STARS OBSERVED ]!Y D AGELET.

Mean equinox 1800. 0

No.

Name

Mag

Date

App't a

Reduct'n

App't <!

Reduction

a

6

h in s

s

c / //

,

n

h in s

o ' II

4111]

5 Corona?

3 July

29

15 25 32. 8

+ 40.7

+27 27 13.0

— 3

30.7

15 26 13.5

+27 23 42. 3

4012

15 Serpentis -

3 April

3

25 44.4

44.4

18 22 59.7

3

10.7

15 20 28.8

+ 18 19 49.0

4013

18 Serpentis ■-'-

3 April

28

26 32. 1

44. 5

+16 50 38.9

3 13.2

15 27 10.0

+ 16 47 25.7

4014

614 Mayer

3 April

10

26 26. 7

54.4

—13 47 -J.",. 3

3

15.4

15 27 21.1

—13 50 40.7

4lllu

41 Librae .

3 May

4

26 29. 1

18 34 34.6

3

15.1

15 27 24.0

—IS 37 49.7

4016

Lalande 28466 .

7.6

3 May

16

26 39. :t

50.0

—22 25 45. 9

3

15.0

15 27 36.2

—22 29 0. 9

ion

6 Corona; Bor. fi

6

:; May

13

27 20.5

34.5

+39 44 9. 0

3

16.0

15 27 55. 0

+39 40 53. 0

4018

" ...

3 May

15

27 2i'.;;

34.5

39 44 7. 5

3

16.4

27 54. 8

40 51.1

4019

Lalande 28505,6 -

7.8

3 April

25

28 ::. 2

39.1

30 42 58.6

3

10.5

15 28 42. 3

+30 39 48.1

4020

Lalande 28572,3 .

6.7

3 Apiil

28

29 57. 4

45.8

+12 45 48.0

3

0.7

15 30 43.2

+12 42 47. 3

4021

43 Librae k

3 May

4

29 30. 6

56.0

—18 57 51. 1

3

12. 0

15 30 26.6

—19 1 3.1

41 1-2-2

l'iazzi 146

7

3 May

12

29 46. 6

44.2

+17 1 21.2

3

11.4

15 30 30.8

+16 58 9.8

4023*

"...

7

:'. May

20

29 46.8

44.1

17 1 23.6

3

14.5

30 30. 9

58 9.1

41124

l'iazzi 148 - -

6.7

3 April

25

30 28. 7

36.8

35 23 18.2

3

7.4

15 31 5.5

+35 20 10.8

4025

"

6

:; May

13

30 28.5

36. 6

35 23 16.3

3

11.7

31 5. 1

20 4.6

1026

"

7

3 May

15

30 28. 9

36.6

35 23 14.6

3

12. 3

31 5.5

20 2.3

4027

19 Serpentis t3

3 May

12

31 4.4

44. 3

16 43 53. 4

3

9.9

15 31 48.7

+16 40 43.5

1028

it

3 May

29

31 3. 6

44.1

Hi 43 58.0

3

12.9

31 47.7

40 45.1

4029

7 Coronae Bor. f

4

3 Apiil

3

31 14.:;

36.2

37 20 33.6

3

2.0

15 31 50.5

+37 17 31.6

4030

20 Serpentis x

3 April

28

31 37.5

45.6

13 33 5. 0

3

7.1

15 32 23.1

+13 29 57.9

4031

Lalande 28612 .

8

3 April

27

31 42.9

47.2

8 31 13.0

3

7.1

15 32 30. 1

+ 8 28 5.9

4032

"...

8.9

:; M.n

9

31 43. 1

47.1

8 31 16.7

3

8.5

32 30.2

28 8.2

4033*

21 Serpentis -

4 June

5

31 58.3

39. 8

+20 22 21.1

3

0.8

15 32 38. 1

+20 19 20.3

4034

44 Libra' 7/

3 July

8

31 56.2

54.4

—14 58 17.7

3

17.8

15 32 50.6

—15 1 35.5

4035*

Lacaille 6509 . .

6

3 May

16.

32 28.8

59.7

29 20 57. 0

3

^.4

15 33 28.5

—20 24 5.4

4036

Lalande 28668

7.8

3 M ay

4

32 58. 5

55.7

18 24 45.2

3

8.0

15 33 54.2

—18 27 53.2

4037

Lacaille 6516.

6

3 May

31

33 5.5

58. 8

—27 22 12. 0

3

6.7

15 34 4.3

—27 25 18.7

4038

8 Coronae y

3 April

25

33 40. 1

4H.5

+20 59 20.7

3

3.5

15 34 20.6

+20, 50 17.2

4039

. .

3 May

13

33 40. 7

40.4

20 59 18.5

3

7.4

34 21.1

56 11. 1

4040

k

3 May

15

33 40. -

40.3

26 59 18. 1

3

7. 7

34 21.1

56 10.4

4041

"...

4 June

5

33 42.0,

37.4

26 59 13.9

2 59.8

34 20.0

56 14.1

41142

24 Serpentis a

3 April

27

33 37. 3

47.7

7 6 54.0

3

4.8

15 34 25. 0

+ 7 3 49. 2

4H43

"...

3 April

28

33 37. 0,

47.7

7 6 57. 3

3

5.0

34 25. 3

3 52. 3

4044

"

3 May

29

33 38. 5

47.3

7 6 58. 3

3

8.8

34 25.8

3 49.5

4045

"...

3 July

8

33 38.2

47.3

7 7 3. 0

3

13.0

34 25.5

3 49. 4

404(5

"...

3 July

9

33 38. 4

47.3

7 7 0. 7

3

13.7

34 25.7

3 47.0

4047

i i

3 July

10

33 37.9

47.4

7 7 2. 9

3

L3.8

34 25.3

3 49.1

4048

"...

3 July

19

33 38. 1

47.4

7 7 2.1

3

14.0

34 25.5

3 47.5

4049

"...

3 July

26

33 38. 1

47.5

7 7 5. 0

3

15.3

34 25.0

3 49.7

4050

Bessel, W.722 .

7.8

3 May

9

34 17.6

45.9

11 57 35.4

3

5.5

15 35 3.5

+11 54 29. 9

4051

26 Serpentis .

6

3 April

3

34 53.2

44. 4

17 57 3. 9

3

2.7

15 35 37.6

+17 54 1.2

4052

9 Coronae Bor. tt

3 May

12

35 20. 8

37.5

+33 12 23.3

3

5.0

15 36 7.3

+33 9 18.3

4053*

Lacaille 6531 . .

6

3 April

19

35 9.4

59.8

—28 6 13.9

3

7.7

15 36 9.2

—28 9 21.6

4054

Lalande 28746 .

7

:; May

4

35 56.2

52. 7

— 8 47 53. 3

3

3.7

15 36 4H.9

— 8 50 57. 0

4055

28 Serpentis jl

3 April

25

36 12.7

44.6

+ 10 6 29.4

3

1.0

1 . , 36 57. 3

+16 3 28.4

4056

"...

3 April

27

36 12.9

44.6

16 0 28. 1

3

1.2

36 57. 5

3 26.9

4057

"...

3 April

28

36 13.2

44.6

16 6 27. 3

3

1.4

- 36 57. 8

3 25. 9

4058

"...

4.5

3 May

9

36 13.2

44.4

16 6 33.0

3

3.1

36 57. 6

3 29. 9

I05K-

"...

3 May

13

36 13.9

44.4

16 6 26.0

3

4.4

36 58. 3

3 21.6

4060

"

3 May

15

36 13.4

44.3

16 0 26.7

3

4.1

36 57.7

3 22. 6

4061*

it

3 May

29

36 14. 1

44.3

16 6 31.3

3

6.7

36 58.4

3 24.6

4002*

"...

3 Julv

8

(36)

16 6 39.3

3

8.7

(36)

3 30. 6

4063

"•

3 July

9

36 13.9

44.3

16 6 37. 0

3

13.0

36 5-. 2

3 24. 0

4064

"

3 July

26

36 13.4

44.5

16 6 40.4

3

1 1.0

36 57. 9

3 25.5

4065

29 Serpentis .

3 May

13

36 2~.ii

44.4

16 12 23.8

3

3.6

15 37 12.4

+16 9 20. 2

4066

"...

:! May

15

36 28. 1

44.3

+16 12 32.6

3

3.9

37 12.4

9 28.7

4067

5 Lupi /

3

3 May

16

37 10. 1

61.4

—32 57 12.(1

3

3.0

15 38 17.5

—33 0 15.6

4068

Piazzi 176

6

3 May

12

38 10.5

45.0

+ 14 28 9.7

3

1.2

15 38 55. 5

+ 14 25 8.5

4069

1 Scorpii ji

4

3 April

10

38 0. 0

58. 7

—25 4 49.0

3

3.9

15 38 58.7

—25 7 52.9

4070

32 Serpentis ft

3 July

9

15 38 21.5

+ 50.4

— 2 45 24. 8

— 3

5.5

15 39 11.9

— 2 48 30.3

(320)

GOULD—

-CATALOGUE OP STARS OBSERVED BY D AC.ELET.

n i

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

'educt'n

App't (!

Seduction

a

d

h m s

s

o ' "

/ //

h m s

O ' "

4H71

::■_' Scrpoiitis fi

3 Julv 19

15 38 21.9

-f 50.5

- 2 45 25. 4

- 3 6.2

15 39 12.4 -

2 48 31.6

IH7-.'

;;;> Serpentis k

5. 6

3 April 25

39 H.3

43.6

-1-18 49 7.0

2 57. 1

If. 39 43.9 +18 46 9.6

4073

"...

:: April 28

39 0.9

43.6

18 49 6.9

2 57. 9

39 44.5

46 9.0

107 1

tt

5

3 May 9

39 1.0

43.4

18 49 8. 8

2 59. 9

39 44.4

46 8.9

1075

"

3 May 15

39 1 . 2

43.4

18 49 5.7

3 0.9

39 44.6

46 4. 8

1076

"...

3 May 29

39 1 . 1

43. 2

18 49 10.7

3 3. 1

39 44.3

46 7. 3

4077

:!4 Serpentis u

4 June 5

39 26. 1

45.3

2 51 51.9

2 50.2

15 40 11.4

-1- 2 49 1.7

1078

Lalande 28849 .

8.9

3 April 3

39 52.0

45.5

14 43 50.5

2 54.0

15 40 37.5

■f 14 40 56.5

1079

37 Serpeutis e

3 Julv 9

40 3. 6

47.9

5 8 26. 3

3 5.6

15 40 51.5

+ 55 20.7 .

1080

"...

3 July 10

40 3. 5

47.9

5 8 26. 7

3 5.7

40 51.4

5 21.0

4081

i<

3 July 19

40 3. 3

48.0

5 8 26. 1

3 6.5

40 51.3

5 19.6

1082

"...

3 Julv 26

40 3.2

48.0

5 8 28. 5

3 7. o

40 51.2

5 21.5

4083

Ill Con ina- 6

:; May 12

40 32.5

40.2

26 44 20. 2

2 58. 6

15 41 12.7

+26 41 21.6

4084

Serpentis R

7

:; April 27

40 44. 1

44.6

15 47 57. 8

2 55. 6

15 41 28.7

+ 15 45 2,2

in-:,

"...

6.7

3 April 28

40 44.3

44.9

+15 47 57.1

2 5... 8

41 29.2

45 1.3

4086*

2 Scorpii A1

3 April 19

40 38.8

58.6

—24 40 3.2

3 0.7

15 41 37.4

-24 43 3.9

4087

" . . .

4.5

3 Mav 16

40 40.2

53.1

24 40 2.6

2 58.8

41 38.3

43 1.4

4088

45 Libra

3 Mav 4

40 48.2

56. 4

19 30 22. 7

2 58.6

15 41 44.6

—19 33 21.3

4089*

46 Libra- 0

3 July 8

41 32.7

54. -

—16 4 55. 0

2 58.0

15 42 '-'7.5

—16 7 53.0

ln'.'ii

:.- Serpentis p

o May 13

41 46.9

42.2

+21 33 11.9

2 57. 2

15 42 29. 1

+21 35 14.7

4091

"...

3 Mav 15

41 46.8

42.2

21 38 13.8

2 57.5

42 29.0

35 10.3

4092

"...

3 Mav 29

41 47.0

4'7. 1

21 38 15.0

3 0.3

42 29. 1

35 14.7

1093

Lalande 28910 .

8

3 April 3

42 4. 5

45.0

15 53 59. 9

2 50.8

15 42 49. 5

+15 51 9. 1

4094

" ...

7.8

3 May 9

42 4. 3

44.4

+15 54 6.0

2 55. 9

42 48.7

51 10. 1

4095

4 Scorpii .

6

3 Ma\ 16

42 r, . e

58.5

-25 36 49.5

2 56.5

15 43 26.3

—25 39 46. 0

4096

1 1 Corona; t

:; May 12

43 7.0

35.7

+36 20 9.2

2 55.8

15 43 42.7

+36 17 13.4

4097

"...

3 July 5

43 6. 3

35. 7

36 20 22. 4

3 8. 5

43 42.0

17 13.9

4098

14

4 June 5

43 8. 9

33. 1

36 20 8. 0

2 50. 0

43 42.0

17 18.0

1099

39 Serpentis .

6.7

3 Apiil 25

43 8.5

45.3

13 53 0.2

2 52. :.

15 43 53.8

+13 50 7.7

41110

Piazzi 203

7

3 April 27

43 10.3

43.8

18 3 21. 3

2 52.4

15 43 54.1

+18 0 28. 9

4101

><

6.7

3 Auril 28

43 10.0

43.8

18 3 26. 8

2 52.7

43 53.8

0 34.1

1102

"...

7

3 May 13

43 10.0

43.6

+18 3 25.7

2 55. 3

43 53. 6

o 30.4

4103

5 Scorpii p

3 July 8

(43)

—28 34 12.4

2 52. 4

15(14)

—28 37 4. 8

41i'4

"...

3 July 9

43 34. 6

59.5

—28 34 17.7

2 52. 3

44 34. 1

37 10.0

4105

49 Serpeutis .

3 May 29

44 14.2

46.5

+ 9 13 41.6

2 55. 0

15 45 0.7

+ 9 10 46.0

4106

Lalande 28980 -

6.7

3 April 19

44 24.2

54. 9

—14 11 1.7

2 54. 3

15 45 19. 1

—14 13 56. o

41H7

"...

6

3 May 4

44 24.6

54. 6

—14 11 0:2

2 53. 9

45 19.2

13 54.1

til -

Piazzi 215

6

3 April 3

45 58.6

43.8

+19 15 41.4

2 45.6

15 46 42. 4

+19 12 55.8

41(19

"...

6

3 April 27

45 59.8

43.3

19 15 49.3

2 48.8

46 4::. 1

13 0.5

4110

"...

6

3 April 28

45 59.5

43.3

19 15 44.8

2 49. 1

46 42.8

12 55.7

4111

»i

7

3 May 9

45 59. 3

43.1

+19 15 47.0

2 51.1

46 42. 4

12 55. 9

4112

6 Scorpii tt

3 Mav 31

45 48. 8

58. 1

—25 28 32. 4

2 51.8

15 46 47.2

—25 31 24.2

4113

"...

3 July 8

45 48. 1

58. 3

25 28 41.8

2 50. 6

46 46.4

31 32.4

4114

"...

3 July 9

45 48.3

58.3

25 28 45. 8

2 50.5

46 46.6

31 36.3

4115

it

3 July 26

45 47.9

58.4

—25 23 40.9

2 50.6

46 46.3

31 31.5

4116

41 Serpentis y

3 April 25

46. 28.4

44.4

+16 22 36. 9

2 48.2

15 47 12.8

+16 19 48.7

4117

"...

3 Mav 13

46 29. 3

44.1

16 22 37.4

2 51.2

47 13.4

19 46. 2

4118

(i

3 May 15

46 28. 9

44.1

16 22 33.1

2 51.5

47 13.0

19 41.6

4119

tt

3 July 5

46 29.4

44.0

16 22 43. 2

2 59. 3

47 13.4

19 43.9

4120

"...

3 July 14

46 29. 2

44.0

16 22 48. 4

3 1.2

47 13.2

19 47.2

4121

2 Herculis

4 June 5

47 28.5

28.8

43 46 24. 6

2 45.4

15 47 57. 3

+43 43 39.2

4122

12 Corona; Bor. X

3 July 5

47 56.8

34.3

+38 34 57. 1

3 2.9

15 48 3L 1

+38 31 54.2

412:!

7 Scorpii 6

3 April 19

47 33.9

57.7

—21 59 33.5

2 51.7

15 18 31.6

—22 2 25.2

4124*

"

3 Julv 19

47 34.5

57.1

—21 59.26.4

3 1.7

48 31.6

2 28.1

412.'.

4 Herculis . .

3 May 29

43 15. 1

31.3

+43 12 9.3

2 54.1

15 48 46.4

+43 9 15.2

4126

49 Libra; - -

3 Mav 4

48 13.1

55. 1

—15 52 58.8

2 49.4

15 49 8.2

—15 55 4^.2

4127

13 Corona; Bor. e

3 April 3

18 38. 1

40.4

+27 30 38.0

2 41. 1

15 49 18.5

+27 27 56.9

4I2S

"...

3 April 27

48 39.0

39.9

27 30 42.8

2 13.5

49 18.9

27 59. 3

4129

ti

:; April 28

48 38.7

39.9

27 30 42.7

2 45.4

49 18.6

27 57.3

4130

"...

3 Mav 9

15 48 38.9

+ 39.7

+27 30 45.6

— 2 47. 7

15 49 18.6

+27 27 57.9

(2*1)

222

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

May.

Date

App't a

Reduct'n

App't ti

Seduction

a

S

It VI s

s

o 1 //

/ //

h m s

O 1 II

4131

13 Coronas Bor. f

5

3 May

13

15 48 38.6

+ 39.7

+27 30 43. 8

— 2 49. 9

15 49 18. 3

+27 27 53. 9

4132

"...

3 May

15

48 38.5

39.7

27 30 41.0

2 49. 9

49 18.2

27 51.1

4133

Piazzi 239 . .

6.7

:; April

25

50 59.0

35.1

3.7 15 47.7

2 41.3

15 51 34. 7

+37 13 6.4

4134

"...

0.7

3 May

13

50 59. 6

34.9

37 15 54.9

2 45.8

51 34.5

13 9. 1

4135

"...

6

3 May

15

51 0. 1

34.8

37 15 52.3

2 46. 3

51 34.9

13 0. o

4136

Lalande 29160 .

7. 8

3 May

12

50 50.9

45.0

13 53 28.3

2 45.3

15 51 35. 9

+13 50 43.0

4137

"...

7

3 July

5

50 51. 1

44.8

+13 53 40.8

2 54. 0

51 35.9

50 46.8

4138

Lacaille G0G3

G

3 April

19

50 50.9

58. 0

—24 6 52.9

2 48. 0

15 51 55.5

—24 9 40.9

. 4139

."> Herculis r

3 Mav

29

51 B2.7

43. 2

+18 25 42. 0

2 47.6

15 52 15.9

+18 22 54. 4

4J 40

...

3 July

10

51 32.5

43.2

18 25 38. 1

2 55.0

52 15.7

22 43. 1

4141

Lalande 29196 -

7.8

3 May

12

51 49.6

44.8

14 5 3.7

2 43.9

15 52 34. 4

+14 2 19.8

4142

"...

7

3 July

8

51 50.2

44.8

14 (5)

52 35. 0

(2)

414::*

Besscl, W.1390,1

7

3 April

27

52 12.3

37.6

32 11 7.9

2 40.2

15 52 49. 9

+32 8 27. 7

4144

"...

3 April

28

52 11.9

37.6

+32 11 13.8

2 40.7

52 49.5

8 33.1

4145

51 Libra? i

:'. Mav

4

52 29.0

53. 5

— 10 45 54.7

2 43.8

15 53 23. 1

—10 48 38.5

4146*

15 Corona; Bor. p

3 April

27

52 48. 1

3G. s

+33 57 4S. G

2 4:;. 1

15 53 24.9

+33 55 5.2

4147

14 Coronas Bor. i

3 May

9

52 47. 9

38.3

30 27 .".'J. 9

2 42. 3

15 53 2G.2

+30 25 10. 6

4148

44 Serpentis -

4 June

5

53 2. 0

38.3

23 24 40.9

2 36.7

i:> 53 40.3

+23 22 4. 2

4149

Johnson 3482

0.7

3 May

13

53 1G.6

33.3

39 47 25. 1

2 43. 1

15 53 49. 9

+39 44 42.0

4150

"...

9

3 May

15

53 16. 1

33.3

+39 47 20.0

2 43.0

53 49.4

44 43.6

4151

j3 Scorpii .

3 April

19

52 52.2

57.8

— 19 11 57.7

• 2 44. 8

15 53 50. 0

—19 14 42.5

4152

"...

3 May

31

52 53. 6

56.2

19 11 57.2

2 43. 6

53 49. 8

14 40.8

4133"

"...

2

3 July

9

52 53. 9

50. 1

19 12 4.9

2 43.6

53 50. 0

14 48.5

4154

"...

3 July

14

52 53. 6

56.1

19 12 3.3

2 43.0

53 49.7

14 46.9

4155

"...

3 July

19

52 53. 5

50. 1

19 12 0. 1

2 43.8

53 49. 6

14 43.9

4156*

"...

3 July

•JO

52 53. ~

56.2

— 19 11 59.2

2 43.5

53 49. 9

14 42.7

4157

Piazzi 258 . .

0.7

3 April

3

54 7. 0

44.0

+18 24 14.6

•J 35.5

15 54 51.0

+18 21 39. 1

4158

"...

7.8

3 April 25

54 7. 3

43. 5

18 24 24.9

2 38.3

54 50.8

21 46.6

4159

"...

6

3 July

5

54 S. 1

43.1

IS 24 3,0.8

2 50.9

54 51.2

21 39.9

4160

"

G

3 July

8

54 8.3

43.1

18 24 32.6

2 51. 3

54 51.4

21 41.3

4101

Groombridge 2299

8

3 May

13

54 31.3

32.8

40 37 42.5

2 41.4

15 55 4. 1

+40 35 1.1

4162

it

9

3 May

15

54 31.3

32.8

+40 37 39.5

2 41.9

55 4.1

34 57.6

4163

10 Scorpii u-

3 July

9

(54)

-20 10 19.3

2 41.1

15(55)

—20 19 0.4

4 llil

Piazzi 206

7

3 April

27

55 23. 4

31. 9

+37 14 3.7

2 35. 9

15 55 58. 3

+37 11 27.8

4165

"...

6

3 Apiil

28

55 23. G

34. 9

37 14 1.1

2 36.2

55 58.5

11 24.9

4166

6 Herculis v

:; May

12

56 7.0

28.6

46 38 31.2

2 40. 1

15 56 35. 6

+46 35 51.1

4107

"...

7

3 May

13

56 G.4

28.6

46 3« 32. 9

2 39.7

56 35.0

35 53.2

4 JOS

"

G.7

3 May

15

56 5. 4

28.6

46 38 29. 7

2 40.2

56 34. 0

35 49. 5

4169

"

3 May

29

56 0. 1

28. 5

+ 10 38 35.9

2 44.2

56 34.6

35 51.7

4170

Lacaille 6710

6

3 April

19

55 50.4

58.4

—23 5 37.8

2 41.8

15 50 48.8

—23 8 19.6

4171

Piazzi 275

7.8

3 May

16

56 -is. 7

56.3

—18 52 3. 9

2 58.9

15 57 45.0

—18 55 2. 8

4172

Lalande 29378 .

7

3 April

25

57 21.9

37.2

+32 50 28. 1

2 33.1

15 .",7 59.1

+32 47 55.0

4173

Groombridge 2305

0.7

3 July

5

57 30.8

33. 2

39 45 4. 3

2 50.8

15 58 4.0

+39 42 1 3. 5

4174

"...

G.7

3 July

8

57 31.1

33. 1

39 45 6. 3

2 51.4

58 4. 2

42 14.9

4175

45 Serpentis .

3 July

10

57 1 8. 7

45. 9

10 28 51.7

2 45.7

15 58 4.6

+10 26 G. 0

4170*

"...

4 June

5

57 21.8

42.8

10 29 2.6

2 30. 0

58 4. 6

26 32.6

4177

Lalande 29386

7.8

3 April

3

57 2::. o

45.6

13 55 18.2

2 32.5

15 58 9.2

+13 52 45.7

4178*

40 Serpentis .

4 June

5

57 51. 1

42.7

10 39 55. 7

2 20.:,

15 58 33.8

+ 10 37 20,. 2

4179*

Lalande 29410 .

6.7

3 April

27

58 0.4

41.8

22 24 46. 0

2 33. 2

15 58 42.2

+22 22 12. 8

4180

"...

6

3 April

28

58 0. 7

41. 8

22 24 44. 7

2 33. 3

58 42. 5

22 11.4

4181

Lalande 29424 .

5

3 May

4

58 11.5

48.5

4 2 14.8

2 35.9

15 59 0. 0

+ 3 59 38.0

4182*

7 Herculis k

G.7

3 May

15

58 20.0

43.5

17 37 53,. 9

2 30.9

15 59 3. 5

+ 17 35 17.0

4183

"...

3 May

29

58 19.9

43. 3

17 37 59. 9

2 38.9

59 3. 2

35 21.0

4184

8 Herculis <j

7

:; May

15

59 2. G

43.4

+ 17 47 18.0

2 3:,. 2

15 59 40.0

+ 17 44 42.-

4185

12 Scorpii c'

3 July

9

58 50. 3

59.5

—27 50 30.4

2 34.0

15 59 55. 8

—27 53 4.4

4186

13 Scorpii c'1

3 May

31

59 1 . s

59. 4

27 20 57.8

2 35.8

16 0 1.2

—27 23 33.0,

4187

"

3 July

9

59 0. s

59. 3

27 21 10. -j

2 34. 1

0 0. 1

23 44.3

4188

11 Scorpii v

3 May

16

59 27. 3

56.3

18 53 4.2

2 35.7

16 0 23. 6

—18 55 39. 9

4189

u

4

3 July

23

59 27. 4

56. 1

18 53 8.1

2 35.7

0 23. 5

55 43. 8

4190

"...

3 July

26

15 59 27.3

+ 56.1

—18 53 5. 6

- 2 35.9

16 0 23. 4

— 18 55 41.5

(222)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

22?,

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'rj

App't t!

Reduction

a

e

It m s

s

0 / /'

/ „

/

III s

0 1 a

4191

Lalande 29489 .

7.8

3 April 25

Hi ii 36.7

+ 32.4

+41 12 9.0

— 2 28. 5

16

1 9. 1

| 11 0 40.5

4192

Lacaille 6745

6

3 April 19

0 34.2

62. I

—32 26 36. 5

2 37.0

16

1 36.6

—32 20 11.4

4193

16 * '"injur T

3 July 19

1 1. 8

34. 7

+37 3 8. 0

2 48.2

1^>

1 39.5

+ 37 O 19.8

4194

Lalande 29506 .

7

:i July 5

1 15.8

2:1.0

15 57 43.9

2 46.8

16

1 44.8

+45 54 57. 1

H95

it

7.8

3 July 8

1 15.9

20.0

45 57 43.6

2 17.4

1 44.9

51 56.2

1196

48 Serpentis .

:; April 27

1 41.9

43. 8

17 11 ;;.-.'

2 28. 5

16

2 25. 7

+ 17 II 34.7

4197

"...

6

:: April 28

1 42.2

43.8

17 14 4.4

2 32.6

2 26.0

II 31.8

1 i 98

"...

:; Slav 12

1 42.!)

4:1.6

17 14 0.0

2 31.4

2 21 1. 5

11 20.5

4199

"...

0

3 May 13

1 42.5

4;i. 6

17 14 2.3

2 31.5

2 26. 1

11 30.8

4200

"...

7

3 May 15

1 42.3

43. 6

17 14 3.2

2 31.8

2 25.9

11 31.4

4201

"...

:: May 29

1 42.4

4:i. 4

17 14 7.9

2 34.2

2 25.8

11 33.7

4202

Arg.Z., Oel. 15942

8

3 July 5

2 11.4

28.9

45 55 44.8

2 15.6

16

2 40.:;

+45 52 50. 2

4203*

"...

9.10

:: July 8

2 11.2

2:1.11

+ 45 55 46.5

2 46.8

2 40.2

52 50. 7

4204*

640 Mayer . .

3 July 9

1 49. 1

58. 4

-24 54 52.4

2 31.2

16

2 47.5

—24 57 2:;. 6

1205

9 lliriulis

3 Julj 23

2 34.9

47.2

+ 5 35 1 1 . 0

2 39.0

16

3 22. i

+ 5 52 52.0

4206

Lalande 29566 .

7

1 .luue 5

41.7

+ 13 21 34.7

2 2:;. 6

16

3 36.9

+ 13 10 II. 1

4207

1 Ophiucbi ft

:: May 4

3 2. 0

51.0

— :i 7 36.3

2 20.7

16

3 53. 0

— 3 10 6.0

1208

" - . .

3 May 16

3 1.7

50.8

3 7 27. 1

2 30. 6

3 52. 5

9 57.7

4209

"...

3 July 10

3 2.5

50.5

3 7 29.0

2 35. 1

:; 53.0

10 4.1

4210

"

3 July 26

:; -.'. I

50. 1;

3 7 26.4

2 35. :;

3 53.0

10 1.7

4211

1 1

4 Sept. 17

3 5. 0

17. :•

— 37 39. 2

2 28.0

:; 52.9

10 7.2

4212

49 Serpentis .

4 Juue 5

:; 17.2

41.5

+ 14 6 44.0

2 2:;. 1

16

:; 58. 7

+ 14 4 2O.0

4213

Piazzi 25 -

6

3 April 25

3 54.6

34.8

36 59 22.5

2 21. 1

16

4 20 1

+36 ."6 58.4

4214*

it

6

3 July '19

3 55.1

34.4

36 59 44. 0

2 45.5

4 20.5

56 5.-. 5

4215

Bessel, W.203 .

7

3 April 3

3 49. 5

40. 2

27 13 59.6

2 21.4

16

4 20.7

+27 11 38.2

4216

" . .

7

3 April 28

:: 5ii.:;

39.7

27 1! 1.3

2 25. 5

4 30.0

11 35.8

4217

"...

6. 7

:i May 13

:; 19.9

39.4

27 14 1.4

2 2-. 8

4 20.:;

11 32.6

4218

K

7

3 .May 15

:; 5ii.:;

39. 1

27 1 4 1.1

2 ■■'.>. :;

4 20.7

11 31.8

4219

12 Herculis .

3 May 29

4 11. ii

46.6

8 24 54.6

2 30.6

16

5 1.2

+ 8 22 21.0

4220

Groombridge 2318

6.7

3 July 5

4 30.6

30.5

42 56 22. 0

2 37.2

16

5 10.1

+42 55 15. 7

4221

"...

6

3 July 8

4 39.7

30.6

+42 56 23. 1

2 38. 4

5 10.::

53 44.7

4222

Flamsteedj B.2227

3 May 31

4 56. 1

59. 9

-28 :; :;•".. !

2 28. 1

16

5 56.0

—28 6 3.8

422:;

Lacaille 6781

:: April 19

5 10.8

63.8

—34 56 27.:;

2 32.6

16

6 14.6

- ::i 58 50.0

4224

15 Herculis .

:: July 10

5 r.n. n

45. 1

+11 58 24.6

2 34.6

16

6 35. 1

+ 11 55 50.0

4225

"...

7

4 June 5

5 52. 1

42. 1

11 58 6.5

2 10.2

6 34.5

55 17.5

4226*

16 Herculis .

6

3 April 27

5 54.3

43.0

10 21 48.4

2 23.0

16

6 37. 3

+ 10 10 25.4

4227

"...

3 April 28

5 54.0

42.9

10 21 40.0

2 23. 1

6 36.9

10 26. s

1226

"...

6.7

3 July 19

5 55.0

42. 6

10 22 0.7

2 38.0

6 37.6

10 22.7

4229

17 Corona? a

3 April 25

6 35.2

36.2

:;4 24 47.2

2 20.8

16

7 11.4

+34 22 26. 4

1230

"...

3 May 13

6 56. 0

35.9

::i 21 50.6

2 25.2

7 11.0

22 25. 4

4231 *

.i

7.6

3 May 15

6 35.9

:;5. 8

::i 21 49.7

2 25. 5

7 11.7

22 21.2

4232*

17 Herculis .

7

4 June 5

7 6.2

:;7.:i

+2:; 40 7.4

2 20.2

16

7 44. 1

+23 37 47.2

4233

2 Ophiucbi e

:; July 23

6 54.3

511.0

— 4 1) 6. 4

2 30.7

16

7 45.2

— 4 11 37. 1

4234*

"...

:; July 26

6 54. :i

51.0

4 9 5. 4

2 30.9

7 45.3

11 36.3

4235

"...

3 July 29

6 54.2

5 1.11

4 9 0.0

2 31. 1

7 45.2

11 40. 1

4236

"...

4 Sept. 17

6 57.il

47. 3

-4 9 1 3. 8

2 23. 1

7 44.:;

II 36.9

4237

Piazzi 4:! .

7.8

:: April 27

7 21.9

42. 9

+ 10 2:1 23.0

2 20.0

16

8 4.8

+ 10 21 2. 1

1238

"...

7.8

3 April 28

7 22. 1 1

42. 9

19 23 22.7

2 21.2

8 4. 0

21 1.5

4239*

Lalande 29708,10

-

3 July 5

8 0.4

34.3

37 6 11.1

2 36.5

16

8 31.7

+37 3 34.6

4240

"

7.8

3 July 8

8 n.7

34. 3

37 6 10.8

2 37.1

8 35. 0

3 33.7

4241

18 Cbronae Bor. v

3 May 29

8 6.2

38.0

+20 41 43.9

2 27. 0

16

8 44.2

+29 39 16.9

4212"

20 Scorpii a

3 May 16

8 4.5

58.9

—25 3 31.2

2 25. 2

16

0 :;. 4

—25 5 56. 4

4243

"...

3 May 31

8 4. 8

58. 7

25 3 25. 6

2 24. 6

9 3.5

5 50. 2

1214

"...

3 July 9

8 4.3

58. 5

—25 3 37.9

2 23. 3

9 2.8

6 1.2

4245

Lalande 29762 .

9.10

3 July 8

8 54.6

34.3

+:;7 3 30.0

2 35.8

16

0 28.9

+37 0 54. 2

4246

Lalande "-':»7.5-2

7

3 April 25

'.I 21.2

37. 2

32 10 21. 1

2 17.0

16

0 58. 4

+32 17 7.4

4247

19 Herculis . .

6

:: Slay 13

o 26.7

39.7

26 25 53.9

2 21.2

16

10 6.4

+26 2:; 32.7

4248

"...

6

3 May 15

9 27.0

39. 6

26 25 52. 1

2 21.6

10 6.6

23 30.5

42411

Flamsteed, B.2244

6.7

3 April 27

Hi 42.3

42. 0

21 30 48.3

2 16.2

16

11 21.:i

+21 37 32. 1

4250

6

:: April 28

16 10 42.0

+ 11.0

+21 39 52. 1

- 2 16.5

16

11 23.0

+21 37 55. 6

(223)

224

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

ieduct'u

App't 6

Reduction

a

(1

h m s

s

o / "

/ n

h m s

o ' "

4251

Flamsteed, B.2244

6

3 July 5

16 10 42.4

4- 41.5

4-21 39 56. 4

— 2 30. 3

16 11 23.9

+21 37 26. 1

4252

n

5.6

:; July • 8

(10)

21 39 59. 3

2 30.6

(11)

57 28.7

4253

50 Serpeutis a

3 July 10

11 8. 3

48.9

4- 1 33 1.9

2 25.8

16 11 57.2

+ 1 30 36. 1

4254

644 Mayer

3 April 19

1 1 6. li

61.3

—29 10 56.2

2 23. 8

16 12 7.9

-29 13 20.0

4255

4 Ophiuchi ip

3 July 9

11 28.9

56.4

-19 31 6.0

2 20. 3

16 12 25.3

-19 33 26. 3

4256

Groourbridge 2328

6.7

3 May 13

12 32. 3

32.3

+4ii li! 55.8

2 17.1

16 13 4.6

+40 11 38.7

4257

"...

6

3 May 15

12 32. 1

32.4

40 13 55.0

2 17.7

13 4.5

11 :;7.::

4258

20 HerciUis y

3 April 25

12 23. 1

42.8

19 40 13.9

2 14.0

16 13 5.9

+19 37 59.9

4259

"...

3 May 16

12 23.6

42. .".

19 40 15.7

2 17.8

13 6. 1

37 57.9

4260

"...

3 July 8

12 22.9

42.3

19 40 21.7

2 28. 0

13 5.2

37 53.7

4261

"...

3 July 26

12 2::. 6

42.4

19 40 24.6

2 30.5

13 6.0

37 54.1

4262

"...

4 Juue 5

12 26.6

39.3

+19 40 6.4

2 12.4

13 5.9

37 54. 0

4263

5 Ophiuchi p

6

3 May 31

12 38. S

57.9

-22 :»:. 57. 1

2 18.6

16 13 36.7

-22 5- 15.7

4264

"...

3.4

'.'> July 5

12 ::-.:

57. 7

—22 55 59. 1

2 18. 1

13 36. 4

58 17.2

4265

22 Herculis r

:: May 29

13 17.2

27.5

+46 50 4.1

2 21.0

16 13 44.7

+40 47 43. 1

4266

20 Corona- Bor. v1

:: May 15

14 15.0

:::..7

+:!! 18 56.7

2 14.6

16 14 50.7

+34 16 42.1

4267

7 Ophiuchi x

3 July 9

14 31.4

55.8

— 17 57 9.7

2 16.8

16 15 27.2

—17 59 26.5

4268

"...

3 July 23

14 31.4

55. 9 •

—17 57 5.:;

2 16.9

15 27. 3

59 22. 2

4269

51 Serpeutis a

3 April 25

15 26. 4

44. 8

+14 32 30.4

2 10.4

16 16 11.2

+14 30 20. 0

427U

"...

3 April 27

15 26.8

44.7

14 32 23. 5

2 10.7

16 11.5

30 12.8

4271

it -

3 April 28

15 27. o

44.7

+14 32 25.0

2 10.9

16 11.7

30 14.1

4272

3 Ophiuchi v

5

3 July 10

16 8. 0

50.5

— 7 52 58. 1

2 17.1

16 16 58.5

— 7 54 45. ■:

4273

Antares

3 April 19

16 10.7

60.0

25 56 15, (J

2 16.5

16 17 lu.7

—25 58 32. 1

4274

"

1

:; May 16

16 10.8

59. 4

25 56 13.0

2 14.6

17 10.2

58 27.6

4275*

"...

3 May 31

16 11.3

59. 2

25 51 i 16. 1

2 15.5

17 1U.5

58 31.6

4276

"...

3 July 5

Hi 1 1.::

59.0

25 56 14.5

2 12.9

17 10.3

58 27. 4

4277

(t

:! July 8

16 10.8

59. 0

25 56 18. 4

2 12.8

17 9. 8

58 31.2

4278

"...

3 July 9

16 10.9

59. 0

25 56 17.9

2 12.7

17 :\.i)

58 30. li

4279

"...

3 July 19

16 1U.9

59.1

25 ..ii 15.6

2 12.4

17 Id. li

58 2-. ii

4280

" .

3 July 23

16 10.8

59.1

25 56 14.2

2 12.4

17 9. 9

58 26.6

4281

(i

3 July 20

16 10.5

59. 1

25 56 16. 0

2 12.4

17 9.6

58 28. 4

4282

1 1

3 July -.".1

16 1H.9

59. 1

25 56 17.9

2 12.4

17 10.0

58 30.3

4283

"

! Sept. 17

16 14.11

55. 8

—25 5i i 26.2

2 4.7

17 9.8

58 30.9

4284

Lalande 29900, 1

7

3 May 13

16 51.7

43. 7

+ 16 28 9.6

2 11.4

16 17 35.4

+ 16 25 58.2

4285

"

7.8

-. May 15

16 52.0

43.7

16 28 14.6

2 12.6

17 35.7

26 2.0

4286

25 Herculis .

:; May 29

17 43. !

33. 4

+37 5:i 39.6

2 14. 1

16 18 16.8

+:;7 51 25.5

4287

649 Mayer . .

7

:>, Julv 9

18 8. 5

59. 1

—26 :: 9 :

2 10.4

16 19 7.6

—26 5 19.6

4288

8 Ophiuchi <p

3 July '.':'.

(18)

16 7 37.2

2 16.0

16(19)

—16 9 5:;. 2

4289

"...

4 Juue 5

1,- .mi.::

51.5

16 7 46.9

2 2.3

19 41.8

9 49.2

t4290

6

3 .May 31

18 51.7

5U.7

3 Hi 26.8

2 11.2

16 19 42.4

— 3 18 38.0

4291

Bessel, W.425 .

7.8

:: July 10

18 51.7

51.4

— 7 1 42. 5

2 13.6

16 19 43. 1

— 7 3 56. 1

4292

Lalande 30024-6.

7.8

3 May 13

19 22.8

42.7

+18 52 35.4

2 7.9

16 20 5. 5

+18 50 27.5

4293

"...

:! .May IT.

19 22.9

!'.'. 7

+18 52 33.2

2 8.3

20 5.0

50 21.9

4294

9 Ophiuchi <j

:; Julv 19

19 21.3

57.1

—•.'li 59 22.8

2 9.8

16 2d 18.4

—21 1 32.6

4295

"...

7

3 July 21 i

19 20.8

57. 1

—211 59 22.7

2 10.0

20 17.9

1 32.7

4296

26 Herculis . .

7

:: April 27

19 4:,. 2

36. 4

+33 11 15.2

2 3. 3

16 20 21.6

+33 9 11.9

4297

"...

7

:; April 28

19 45.4

36.4

+:;:: li 13.3

2 3.5

20 21.8

9 9. 8

4298

Lalande 30051 .

6.7

:; May Hi

211 6.5

54. 0

— 11 57 8.8

2 8. 8

16 21 0.5

—11 59 17.6

4299

27 Herculis ji

:i May 29

211 .".li. "

41.2

+21 58 9.8

2 9.0

16 21 37.7

+21 56 0.8

4300

"...

3 July 29

-20 56. 1

41.3

21 58 22. 6

2 19.9

21 37.7

56 2. 7

4301

a

4 Sept. 17

20 58.3

39.3

21 58 18.6

2 13.5

21 37.6

56 5. 1

4302"

Flamsteed, B.226'.

6

:; April 28

21 10. (i

42. 1

20 57 35. 4

2 11.5

16 21 52.7

+20 55 34. 9

431 13

"...

6

3 May 13

21 10.8

41.8

2U 57 37.8

2 ::. 9

21 52.6

55 33.9

4304

28 Herculis . .

7

! June 5

22 0.2

44.1

5 50 29. 9

1 5H.5

16 22 44.3

+ 5 57 30.4

4305

29 Herculis h

3 May :'.l

22 30. -

45. 2

+ 11 57 49.5

2 6. 8

16 23 Hi. o

+11 55 42.7

4306

2:; Scorpii t

3 July 5

22 27.7

59.9

—27 45 5.2

2 4.5

16 23 27.6

—27 17 9.7

4307

"...

:; July 8

22 27. 3

59.9

27 45 12.4

2 4.4

23 27. 2

47 n;. -

4308

"...

3 July 9

22 27.(1

59.9

27 45 14.5

2 4.3

23 26. 9

47 18.8

4309

"

3 July 19

22 27.2

59.9

27 45 111. -J

2 1.2

23 27. 1

47 11.4

4;; in

(t

:'. July 23

16 22 -J?.:.

+ 60.0

—27 45 7.3

— 2 1.1

16 2:'. 27. 5

—27 47 8. 1

(224)

GOULD CATALOGUE OF STAKS OBSERVED BY D AGELET.

225

Mean equinox 1800. 0

No.

Name

Mag

Dale

App't a

Reduct'i

App't t\

Reduction

a

(!

h m s

s

0 / n

/ //

It m s

O ' "

431]

23 Scorpii r

3 July -20

16 22 27.3

+ 00.0

—27 45 11.3

— 2 1. 1

16 23 27.3

—27 47 12.4

4312"

31 Herculis . .

3 Mac -29

•23 -24.9

30. 3

+33 59 9.9

2 0. 2

16 24 1.2

+ 3.3 57 3.7

4313

32 Herculis .

3 April 27

25 4.4

37.5

30 57 32. 6

1 55.9

16 25 41.9

+30 55 30.7

4314

"...

7.8

3 April 28

25 4.4

37.5

3d 57 35.5

1 56.3

25 41.9

55 39.2

4315

"...

6.7

3 May 13

25 5.1

37.2

30 57 37.7

1 59.7

25 42. 3

55 38.0

4316

"...

6

3 May 15

25 5.2

37.2

+30 57 34. 4

2 0.2

25 42.4

55 31.2

4317

1.' ( Iphiuchi .

3 June 3

25 1.2

50.2

— 1 50 59.0

2 3.4

10 25 51.4

— 1 53 3.0

4318

Lalande 3IU93 -

7

3 July 10

25 8. 7

48.7

+ 1 50 39.7

2 7.4

16 25 57.4

+ 1 48 32. 3

43 HI

13 Ophiuchi C

3 April 19

25 15.9

53. 9

— 10 0 58. 3

2 0.9

10 20 9.8

—10 8 59. 2

4320*

it

3 May 16

25 16.2

53. 4

10 6 57.0

2 1.7

20 9.6

8 58.7

4321

«(

3 July 23

25 16.7

53.0

10 6 54.7

2 5.1

26 9. 7

8 59.8

4322

it

3 July -26

(25)

.-,::. 1

10 0 55.8

2 5.5

(26)

9 1.3

1323

"...

4 Oct. 1

•25 19.2

50.3

-10 7 2.0

1 59.1

20 9.5

9 1.1

1324

653 Mayer . .

8

3 July 9

25 57.8

55. 8

—17 40 19.3

2 2.0

16 26 53.6

—17 48 21.3

4325

33 Herculis .

3 May 29

26 2-2. 0

46.8

+ 7 33 28. 4

2 0.8

16 27 8.8

+ 7 31 27.6

4326

35 Herculis a

3 May 13

•27 9. 5

30. 1

12 53, 18. 1

1 50.7

16 27 39.6

+42 51 21.4

1327

"...

3 May 15

■27 9. 9

3d. 1

42 53 18. 1

1 57.4

27 40.0

51 20.7

4328

Piazzi 133 . .

6.7

3 April 27

27 4.7

11. 1

14 55 24. 9

1 55.6

16 27 49. 1

+ 14 5:: 29.3

43-211

" ....

7.6

3 April 28

27 4. 6

44.4

+ 14 55 22. 1

1 55.9

27 49.0

53 20. 2

4330*

Bessel, W.592 .

7

3 July 8

27 25.8

49. 6

— 0 47 7. 3

2 3. 6

10 28 15.4

— 0 49 10.9

4331*

Lalande 30273,4 .

7

3 May 31

27 50.5

52. 8

9 0 8. 8

1 59.3

16 28 43. 3

— 9 8 8. 1

433-2

055 Mayer

7.8

3 July 9

28 47.2

r,5. 8

17 37 25.5

1 58. 2

16 29 43. 0

— 17 39 23.5

4333

•24 Scorpii

6

3 July 9

29 5. 8

55. 7

—17 18 38.0

1 58.0

10 30 1.5

—17 20 36.0

4334

Groombridge 6223

6

3 May 13

29 55. 5

26.9

+47 3 17.6

1 52.9

16 30 22. 4

+47 1 24.7

4335

"...

6

:; Mav 15

29 55. 8

26 8

47 3 19.8

1 53.4

30 22. 6

1 26.4

4336

36 Herculis m'

:; May -29

•29 52.0

47. 9

4 38 27.8

1 50.3

16 30 39. 9

+ 4 30 39.5

4337

37 Herculis m-

0.7

3 May 10

29 55. 4

48.0

4 39 15.1

1 54.6

16 30 43.4

+ 4 37 20. 5

4338

ii

3 May 29

29 55.7

47.9

4 39

30 43.6

37

4239

Lalande 30344 .

6.7

:: April -27

30 8.1

41.4

22 26 44. 2

1 49.7

16 30 49.5

+22 24 54. 5

4340

"

7.6

3 April 28

30 8.3

41.2

22 26 44. 3

1 49.8

30 49.5

24 54.5

4341

14 Ophiuchi .

6

3 May 31

30 46.1

49.0

1 36 31.0

1 55.3

16 31 35.1

+ 1 34 35.7

434-2

38 Herculis . .

7

3 July 19

30 51. 1

47.5

5 18 11.2

2 1.6

16 31 38. 6

+ 5 16 9.6

4343

"...

3 July 23

30 50.6

47. 5

5 18 II..-

1 59.5

31 38. I

16 12.3

4344

"...

7

4 June 5

30 53.1

44.3

5 17 58.2

1 48.2

31 37.4

10 10. 1

4345

Flamsteed, B.2299

6 7

3 April '27

32 3. 0

40.1

25 17 4.2

1 40.7

16 32 43. 1

+25 15 17.5

4346*

"...

6

3 April 28

32 3.3

40.1

25 17 4.6

1 47.0

32 43. 4

15 17.6

1347

tt

3 July 29

32 3. 5

39.7

25 17 16.2

2 5.9

32 43.2

15 10.3

4348

Lalande 30446 .

0.7

3 July 10

32 27.0

30. 7

(49)

16 33 3.7(

+49)

4349

42 Herculis .

3 July 10

32 40.7

36.7

49 21 37. 2

2 5.2

16 33 17.4

+49 19 32.ii

4350

39 Herculis .

3 May 29

32 51.1

38.6

27 20 37. 6

1 52.7

16 33 29.7

+27 18 44.9

4351

40 Herculis f

3 Mav 15

33 9.6

36.5

32 0 2. 4

1 48.9

16 33 46.1

+31 58 13.5

435-2

"...

3 July 8

33 KM

30.3

32 0 18.6

2 2.0

33 46. 4

58 10.0

4353

a

3 July 26

33 9.6

30. 3

32 0 24. 2

2 2.6

33 45.9

58 21.6

4354

Lalande 30438 .

3 Juue 3

33 10.5

41.0

22 0 54.9

1 53.2

16 33 51.5

+21 59 1.7

4355

Lalande.30448 .

3 June 3

33 30.7

41.0

22 4

16 34 11.7

+22 2

4356

41 Herculis .

6

3 May 31

34 29.4

17. 1

6 30 54.8

1 50.4

16 35 16.5

+ 0 29 4.4

4357

"...

6

3 July 19

34 29.3

47.0

6 30 58. 2

1 57.0

35 16.3

29 1.2

1358

" . .

6; 7

3 July 23

34 29.0

47.0

6 30 56.9

1 57.3

35 10.0

28 59.0

4359

44 Herculis ?/

3 May 15

35 30.3

32.2

39 20 21.5

1 45.4

16 36 2.5

+39 18 30. 1

43(1(1

"...

3 July 8

35 30.0

32. 0

39 20 33. 5

1 59.9

36 2.0

18 33.0

4361

43 Herculis i

6

3 May 16

35 27. 4

46.4

8 59 16. 8

1 40.0

16 30 13.8

+ 8 57 30. 2

4362

B'lamsteed, B.2310

6

3 April -27

35 35. 8

43.9

16 9 16.3

1 43.7

16 36 19.7

+16 7 32.6

4363

" .

6

3 April 28

35 35.8

43.9

16 9 15.8

1 43.0

36 19.7

7 32.8

4304

19 Ophiuchi . .

:; May 29

36 16.6

48.6

2 28 0.4

1 47.7

16 37 5.2

+ 2 26 12. 7

4365

40 Herculis .

7

3 July 23

36 29. 9

37.9

+28 45 52. 7

1 59.7

16 37 7.8

+28 43 53. ii

4366

"2(5 Scorpii e

3 July 26

36 11.0

63. 1

-33 53 12.0

1 44.3

16 37 14. 1

—33 54 56. 3

4367*

45 Herculis e

3 Mav 31

37 8. 6

47.4

+ 5 38 50.9

1 46.7

16 37 50.0

+ 5 37 4. 2

4368

20 Ophiuchi

3 July -29

37 53.6

53. 2

-in 23 9.7

1 48.6

10 38 46.8

—10 24 58. 3

4369

Lalande 30590 .

0.7

3 April 27

::- 11.4

44. s

-|-I3 59 4.4

1 39.4

10 38 50.2

+13 57 25. o

4370"

6.7

3 July 23

16 38 11.8

+ 44.2

+13 59 12.8

- 1 54.0

16 38 56. 0

+13 57 18.8

29

(225)

226

GOULD — CATALOGUE OF STARS OBSERVED BY d'aGELET.

Mian equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'i

App't <5

Reduction

a

d

h m s

s

o / //

, „

h m s

O 1 a

4371

Lalande 30590 .

6.7

3 July 19

16 38 11.5

+ 44.2

+ 13 59 11. 1

— 1 53.7

16 38 55. 7

+ 13 57 17.4

4372

Bessel, W.1289 .

7

3 May 15

38 26. 8

29. 2

43 37 6.7

1 41.3

16 38 50. 1

+43 35 25. 4

4373

It

6

3 June' 3

38 26. 9

29. 0

43 37 14.6

1 46.9

38 55. 9

35 27.7

4374

Flamsteed,B.2318

6.5

3 April 27

(39)

13 38 53.9

1 37.6

10(40)

+13 37 16.3

4375

"

6

3 July 19

39 37.3

44.3

13 39 6.6

1 51.0

40 21.6

37 15.0

4376

"...

6

3 July 23

39 37. 1

44.3

13 39 4.8

1 52.0

40 21.4

37 12.8

4377

47 Herculis k

3 May 16

39 50. 3

47.8

7 37 55.4

- 1 35.5

16 40 38. 1

+ 7 36 19.9

437.*'

21 Ophiuchi . .

3 May 31

40 28.2

48.9

1 35 52.2

1 41.9

10 41 17. 1

+ 1 34 10.3

4371)

48 Herculis -

3 May 29

40 51.8

37.0

30 20 41.6

1 41.4

16 41 28.8

+30 19 0.2

4380

50 Herculis -

3 May 29

42 13.7

37.1

30 11 7.3

1 39.7

16 42 50. 8

+30 9 27. 0

4381

"...

6

3 June 3

42 14.3

37. 0

30 11 1.8

1 41.0

42 51.3

9 20.8

4382

49 Herculis .

7

3 April 27

42 14.3

44.2

15 20 46.7

1 33.0

16 42 58.5

+15 19 13.1

4383

"

7

3 April 28

42 14.9

44.2

15 20 42.8

1 33.8

42 59. 1

19 9.0

4384

t (

3 May 31

42 14.4

43.7

15 20 56.2

1 39.6

42 58. 1

19 10.6

4385

Lalande 30704 .

7

3 May 15

42 35.4

35.8

32 55 31.0

1 35.5

10 43 11.2

+32 53 50. 1

4; m;

a

0.7

3 July 19

42 35.8

35.6

32 55 51.2

1 51.3

43 11.4

53 59. 9

4387

6

3 July 23

42 35.9

35.7

32 55 49. 3

1 52.0

43 11.0

53 57. 3

4388 52 Herculis . .

3 July 26

42 56. 8

27.1

46 22 15.4

1 54.0

16 43 23. 1)

+40 20 21.4

4389*

51 Herculis .

3 July 9

42 48. 0

39. 4

+25 1 56.0

1 47.8

10 43 28.0

+25 0 8.2

4390

23 Ophiuchi . .

6.5

3 July 29

43 3. 4

51.5

— 5 47 12.8

1 42.9

16 43 54. 9

— 5 48 55. 7

429]

Arg. Z.,Oel. 16568

8

3 May 13

43 50.0

26.4

+47 1 9. 4

1 33.0

16 44 16.4

+46 59 36. 4

4392

"...

8.9

3 May 15

43 49. 5

26.4

47 1 13.1

1 33.5

44 15.11

59 39.6

431)3

54 Herculis .

3 May 31

45 52. 7

42.2

18 47 20. 8

1 34.7

16 46 34.9

+ 18 45 46. 1

4394

50 Herculis

3 May 29

40 11.7

39.0

26 5 19.6

1 33.8

Hi 40 50.7

+26 3 45. 8

4395*

Groombridge2389

6

3 April 28

40 43.8

29. 6

43 11 59.3

1 24.7

16 47 13.4

+43 10 34.0

4396

"...

7

3 May 13

46 43.8

28.9

43 12 5.7

1 28.8

47 12.7

10 30.9

43117

"

8.9

3 May 15

46 43. 6

29.3

43 11 27.0

1 29.2

47 12.9

[9 57..-]

4398

"...

6

3 June 3

40 43.8

29. 1

43 12 6.5

1 34.9

47 12.9

10 31.6

4399*

t;

7

3 July 19

40 43.0

29.2

43 12 22.7

1 47.0

47 12.2

10 35.7

441 HI

7

3 July 23

40 44. 1-

29.3

+43 12 23.8

1 47.8

47 13.4

10 36.0

4401

G66 Mayer

3 July 29

46 45. 2

59. 0

—21 14 51.8

1 32.6

16 47 44.2

—24 46 24.4

44112

20 Ophiuchi . .

6.5

3 July 29

40 56.2

58.7

—24 38 38.9

1 32.4

16 47 54.9

—24 40 11.3

4403

27 Ophiuchi k

3 July 20

47 26.2

45.8

+ 1) 43 25. 2

1 40.7

16 48 12.0

-!- 9 41 44.5

4404

Lalaude 30862 .

7.8

3 May 31

47 30.4

42. 3

18 34 55.9

1 32.3

16 48 12.7

+ 18 33 23.6

4405

Lalande 30897 .

9

3 July 23

49 5. 4

35. 7

32 85 11.3

1 42.8

16 49 41.1

+32 -.v.; 28.5

441 Hi

Johnson 5030

6

3 April 28

50 5.2

26. 0

47 42 29.6

1 19.7

16 50 31.2

+47 41 9.9

44117

"...

8

3 May 13

50 5. 1

25.7

47 42 37.7

1 23.8

50 30.8

41 13.9

4408

"...

8

3 May 15

50 5. 4

25. 7

47 42 36.6

1 24.4

50 31.1

41 12.2

4409

Groomliridgc 2392

7

3 June 3

51 4.1

29.2

42 51 9. 9

1 28.7

16 51 33. 3

+42 49 41.2

4410

"...

6.7

3 July 19

51 2.7

29.4

42 51 20. 3

1 40.7

51 32.1

49 39.6

441 J

"...

6

3 July 23

51 3. 0

29.4

42 51 17.7

1 41.5

51 32.4

49 36.2

4412

Arg. Z.,Oel. 16G77

8

3 April 28

51 44.7

26.0

+47 40 37.7

1 17.2

16 52 10.7

+47 39 20. 5

4413

31 Ophiuchi

6.7

3 July 29

51 27.1

59. 2

-25 19 18. 1

1 26.0

16 52 26.3

—25 20 44. 1

4414

Lalande 30990,1 .

6.7

:; Mai- 31

51 51.6

40.4

+22 57 40. 7

1 26.1

16 52 ii'.'.o

+22 51 i 14.6

4415

58 Herculis e

3 May 29

52 2.0

36.4

31 15 14.3

1 25.5

Hi 52 38.4

+31 13 48. 8

4410

"...

3 July 23

52 2.7

36.4

31 15 21.5

1 38.4

52 39. 1

13 43. 1

4417

"...

3 Aug. 20

52 2. 4

36.8

31 15 27.8

1 42.0

52 39.2

13 45.8

44 IS

32 Ophiuchi . .

3 July 26

53 14.4

43.9

14 24 58.7

] 33.7

10 53 58.3

+14 23 25.0

441!)

59 Herculis rf

6

3 May 13

53 38. 5

35.1

33 53 17. 1

1 18.9

16 54 13.6

+33 51 58.2

442U

"...

0

3 May 15

53 38.9

35.1

33 53 14. 9

1 19.4

54 14.0

51 55.5

4421

"...

7.8

3 June 3

53 38.7

34.8

33 53 22. 7

1 24.5

54 13.5

51 58.2

4422

33 Ophiuchi . .

3 July 29

53 44.2

44.1

13 55 33.5

1 32.8

16 54 28.3

+ 13 54 0.7

4423

34 Ophiuchi .

3 July 29

54 2.2

44.1

13 53 29.5

1 32.8

16 54 46.3

+ 13 51 50.7

4424

Lalande 31072 .

6.7

3 April 28

54 48.8

29. 0

43 2 23. 7

1 13.0

16 55 18.4

+43 1 10.7

4425

"...

7.8

3 July 19

54 48.5

29.1

43 2 51.3

1 35.5

55 17.6

1 15.8

4426

"...

8

3 July 23

54 49.2

29. 2

43 2 50.7

1 30.3

55 18.4

I 14.4

1427

60 Herculis .

:; May 29

55 21.4

44.5

1 3 2 55. 5

1 20.7

16 56 5.9

+ 13 1 34.8

4428

"...

3 May 31

55 21.7

44.5

13 2 57.5

1 21.1

56 6.2

1 36.4

4429*

"...

3 July 20

55 21.7

44.4

1 3 3 5. 1

1 30.5

56 0. 1

1 34.6

1430

Lalande 31 134

8

3 May 13

16 56 12. 1

+ :;-'.i i

+28 23 42.9

— 1 15.5

16 56 50. 1 +28 22 27.4

(226)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

227

Mean equinox 1800. 0

No.

Name

Mao-.

Date

App't a

Reduct'n

App't ci

Reduction

a

.1

h m s

s

0 / //

1 a

/

m s

0 ' "

443]

LBlanda 31134 .

9

3 May 15

16 56 11.7

4- 38.0

+28 23 43. 7

— 1 16.0

16

511 10.7

+28 22 27. 7

1 132

35 Ophiuchi //

3 Aug. 20

58 0.0

55. 4

—15 26 33. 2

1 20.5

1(1 58 55.4

— 15 27 511.7

4433

Groombridge 2408

6

3 April 28

58 31.8

28.7

+44 6 30.2

1 7.4

111 50 0.5

+44 5 22. 8

4434

"

7

3 May 13

58 31.(1

28.4

44 6 38.0

1 11.4

59 0.0

5 2(1. 6

4435

"...

7.8

l! May 15

58 31.7

28.4

44 6 35.1i

1 12.1

59 0. 1

5 23.2

4436

"...

6.7

3 July 26

58 31.5

28.3

44 6 58. 1

1 31.6

58 59.8

5 26. 8

443?

2172 Bradley

6.7

3 July 29

58 58. 1

33.9

35 37 22.0

1 30.2

16

59 32.0

+35 35 5 1 . 8

4438

Lalande 31222 .

8

3 July 19

59 8.3

" 38. 1

27 25

16

50 46. 4

+27 24

4439

Piazzi 313 . .

8

3 July 19

59 20. 1

38. 1

27 23 35.9

1 26.7

16

59 58.2

+27 22 9.2

444U

62 Herculis .

3 May 29

59 37.8

39. 5

24 46 40. 1

1 14.6

17

0 17.3

+24 45 25. 5

4 111

"...

7.8

3 May 111

16 59 38.0

39.5

24 46 37.6

1 15.0

0 17.5

45 22. 6

4442*

Aiiuiiyiim .

7.8

3 April ■_'-

17 1 2. 6

25. 5

4? 5? 2:1.9

1 13.6

17

1 28.1

+4? 5(1 JO. 3

4443

Piazzi 7 .

6.7

3 Jnlv 29

1 14.1

38.5

26 44 18.8

1 25.6

17

1 52.6

+2(1 42 53.2

44 14

Lalande 31295 .

8.7

3 July 23

1 17. 1

40.8

21 29 40.9

1 2:1. (1

17

1 57.9

+21 28 17.3

444>".

Arg.Z.,0el. L6837

8.9

3 May 13

1 37.9

24.5

48 40 44.9

1 7*. 1

17

2 2.4

+48 39 37. 8

444(1-

"...

8

3 May 15

1 38.2

24.5

48 40 47.7

1 7.6

2 2. 7

39 411. 1

444?

Lalande31292 .

7

3 July 2(1

1 41. 1

34.9

33 39 10.5

1 25.7

17

2 16.0

+33 37 44. 8

4448

6:{ Herculis .

7

3 May ill

2 6.9

39.6

24 3d 39.5

1 11.3

17

2 111.5

+24 29 28. 2

4449

37 Ophiuchi .

6

3 Aug. 20

2 16.9

45.5

10 5! 36.3

1 22.5

17

3 2.4

+10 50 13.8

4450

Lalande 31316 .

7.8

3 July 29

2 42.5

35.6

32 27 46. 2

1 24.4

17

3 18. 1

+32 26 21.8

44:>i

Lalaude 31320 .

7

3 July 23

2 52.7

40.8

21 30 4.4

1 21. 1

17

3 311.5

+21 28 43. 3

445-2

Lalande 31357

7

3 .Inly 19

4 26.9

40.7

21 41 46.9

1 18.3

17

5 7.6

+21 40 28. 6

4453

"...

7

3 July 23

4 26.9

40.7

21 41 46.4

1 18.9

5 7.6

40 27.5

4454

"...

7.8

3 July 29

4 26.8

40.7

21 41 47.11

1 19.9

5 7.5

4ii 27.4

4 155

64 Herculis a

3 May 29

4 48.2

43.9

14 38 51.0

1 7.8

17

5 32. 1

+14 37 43.2

4456

"

3 .May 31

4 48.4

43. 8

14 38 52.7

1 7.5

5 112.2

37 45.2

4457

"...

3 July 26

4 48.5

43.7

14 39 0.6

1 17.5

5 32.2

37 43. 1

4 158

"...

3 Aug. 2(1

4 48.1

43. 9

14 39 1.4

1 20.1

5 32. 0

37 41.3

4459

"...

2.3

3 Sept. 2

4 47.8

44.2

14 39 1.6

1 20.8

5 32. 0

37 40.8

4460

Johnson 3678

7.8

3 May 13

5 23. 1

27.1

45 35 19. 0

1 1.4

17

5 50. 2

+45 34 17.6

4461

"...

7.8

3 May 15

5 23.3

27.1

45 35 14.8

1 1.8

5 5(1.4

34 13.0

4462

65 Herculis $

3 April 28

6 a. 3

39.8

25 6 2.3

0 58.2

17

6 40. 1

+25 5 4.1

4463

Lalaude 31418 .

6

3 July 215

6 43. 0

39. 6

23 59 43. 7

1 16.2

17

7 22.6

+23 58 27.5

4404

67 Herculis tt

3 April 28

(?)

37 3 27. 3

0 54.8

17

(8)

+37 2 32.5

4465

"

3 May 15

7 32.3

33. 0

37 3 30. 2

0 59. 0

8 5.3

2 31.2

44(1(1

"...

3 June 3

7 32. 4

32.8

37 3 34. 1

1 4.3

8 5.2

2 29.8

4467

66 Herculis u

3 May 29

8 27.7

45.3

11 6 30.8

1 2.0

17

9 13.0

+ 11 5 28.8

4466

Lalande 31483 .

6.7

3 July 19

8 33.8

39.9

23 20 9. 6

1 12.7

17

9 13.7

+23 18 5(1. 9

4469*

"...

6.7

3 July 23

8 33. 6

39. 9

+23 20 6. 3

1 13.4

9 13.5

. 18 52. 9

447U

Lalaude 31496

8

3 May 31

8 55.5

49. 6

— 0 5 19.6

1 2. 2

17

9 45. 1

— 0 6 21.8

4471

68 Herculis /j.

6

3 May 18

9 21.1

35.3

+33 20 20. 6

0 56.1

17

9 56.4

+33 19 24.5

4472

"

6.5

3 May 15

9 21.2

35.2

33 20 2IMI

0 56. 5

9 56.4

19 23.5

44711

69 Herculis c

6.7

3 June :;

10 14.8

32. 4

37 31 22.8

1 0. 4

17

10 47.2

+37 30 22. 4

4474

..

3 July 26

10 14.1

32.5

37 31 46.3

1 14.0

10 46.6

30 32. 3

4175

70 Herculis .

3 May 31

12 0. 2

39. 4

24 43 29. 6

0 57.0

17

12 39 6

+24 42 32.6

447(1

"...

3 July 19

12 0. 4

119. 2

24 43 35.5

1 8.2

12 39.6

42 27.3

447?

"...

3 July 23

12 0.5

39. 2

24 43 34.6

1 9.1

12 39.7

42 25. 5

4478

72 Herculis w

6.7

3 May 13

12 35.7

35. 5

32 45 8. 4

0 51.4

17

13 11.2

+32 44 17.0

4479*

"...

6

3 May 15

12 35. 3

35.5

32 45 9.2

0 51.8

13 10.8

44 17.4

4480

Lalande 31638 .

8

3 July 26

12 51.3

39. 6

+23 54 35. 7

1 7.8

17

13 30.9

+23 53 27. 9

4481

45 Ophiuchi .

3.4

3 July 29

13 34.4

(11.4

—29 39 17. 1

0 54.8

17

14 35.8

—29 40 11.9

4482

74 Herculis .

3 Aug. 20

14 1(1.4

26.6

+46 27 49. 3

1 13.2

17

14 43.0

+46 26 36. 1

4483

Groombridge 2435

7

3 May 13

14 39.6

31.0

40 11 32.7

0 47.8

17

15 1(1.(1

+40 10 44 0

4484*

"

7

11 May 15

14 39.2

30. 9

40 11 42. 1

0 48.3

15 10.1

10 53.8

4485

73 Herculis -

3 May 31

15 4. 9

40.1

23 10 18.4

0 52.5

1?

15 45. 0

+23 9 25. 0

4486

"...

6.7

3 July 19

15 4. 9

39. 9

23 10 2:1. :;

1 3.4

15 44.8

9 19.9

4487

"

6.7

3 July 2:1

15 4.6

39. 0

23 in 21. 1

1 4.1

15 44.5

9 20. 0

4488

49 Ophiuchi a

:: May 29

15 47. 7

47.9

4 20 26.0

0 51.8

17

16 35.6

+ 4 19 34.2

4489

75 Herculis p

3 Sept. 2

16 14. 1

33. 2

37 21 28.2

1 10.6

17

16 47.3

+37 20 17.6

1490

Lalaude 31759 -6J

7

3 July 26

17 16 38. 9

+ 35. 1

+32 52 37. 0

— 1 4.0

17

17 14.0

+32 51 33. 0

(227)

228

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't <i

Reduction

a

(5

*

It m a

. s

o / "

/ //

h m s

o ' "

4491

Groombridge 2436

8

3 Mav 15

17 16 45. 8

+ 31.8

+38 47 0. 3

— 0 45.2

17

17 17.6

4-38 46 15. 1

4411-J

Lacaille 7334

4

3 April 28

18 19.3

Oil. 9

—26 5 8. 3

0 51.2

17

19 20.2

—26 5 59. 5

4493

Lalande 31844 .

7.8

3, May 15

19 1.1

31.'.'

+31 52 57.5

0 42.2

17

19 35.3

4-34 52 15.3

4494

77 Herculis x

:: Mav 29

21 2.6

24.2

48 21 1 44.7

0 42.7

17

21 26. 8

+48 20 2.0

4495

Piazzi 133 . .

8. 9

3 July 23

21 4.1

42. 2

17 41 25.7

(1 54.5

17

21 46.3

4-17 40 31.2

4496

7(1 Herculis /.

3 May 15

22 (1.7

38.8

26 16 49.3

ii 38.3

17

22 39.5

4-26 10 11.0

449?

"...

3 July 26

22 (i. 8

38. 4

20 17 8.0

o 55.2

22 39.2

10 12.8

4498

"...

3 July 29

22 (1. 7

' 38.4

26 17 7.6

0 55.6

22 39. 1

10 12.0

4499

"...

3, Aug. 20

22 l.li

38.7

26 17 11.3

ii 58.6

22 39.7

10 12.7

4500

Lalande 31960

7

3 May 13

22 17.7

43.1

16 59 36. 1

0 38.6

17

23 0.8

+16 58 57. 5

14501

Lalande 31957 .

6.5

3 April 28

22 35. 1

45.5

12 5 48.0

0 36.1

17

23 20.0

+12 5 11.9

4502

Lalande 31994 .

3 May 15

23 32.7

43.1

16 55 53.6

0 3,7.0

17

24 15.8

4-10 55 16.6

4503

54 Ophiuchi .

3 May 31

24 25.8

44.3

13 19 8.3

. 0 39.2

17

25 10. 1

+13 18 29. 1

4504

Lalande 32042,3 .

3 Mav 15

24 49.7

43.2

16 39 31.7

0 35.2

17

25 32.9

+16 38 50. 5

4505

"...

0.7

3 Aug. 20

24 48.9

42.9

16 39 50.7

0 52. 3

25 31.8

38 58.4

4506

55 Ophiuchi a

3 April 28

24 53.8

45.2

12 43 44.7

0 32.8

17

25 39.0

+12 43 11. 9

4507

"...

3 May 13

24 54.4

44.9

12 43 37.2

0 35. 1

25 39.3

43 2.1

4508

(i

3 May 29

24 54.4

44.6

12 43 39.8

0 38.3

25 39.0

43 1 . 5

4509

"...

3 May 31

24 54.(1

44.6

12 43. 43.4

o 38.5

25 39.2

43 4.9

4510

"...

3 July 12

24 55. 4

44.2

12 43 45.3

0 46.3

25 39.6

42 59.0

4511*

a

3 July 19

24 55.(1

44.2

12 43 48. 8

0 47.4

25 39.2

43 1.4

4512*

"...

3 July 23

24 55.2

44.2

12 43 47.8

0 47.9

25 39. 4

42 59. 9

4513

"...

3 July 26

24 55.11

44.3

12 43 51.3

0 48.3

25 39. 3

43, 3. 0

451 1

"...

3 July 29

24 55. •_>

44. 3

12 43 48.3

0 48.7

25 39.5

42 59.0

4515

" . .

3 Sept. 2

24 54.5

44.7

12 43 52. 9

0 51.9

25 39. 'J

43 1.0

4.-, Mi

K

2.3

3 Sept. 6

24 54.5

45.0

12 43 51.3

o 5-.'. 1

25 39.5

42 59.2

451?

"

2.3

3 Sept. 7

24 54.5

45.0

12 43, 52.8

ii 52.2

25 39.5

43 0.0

4518

"...

2

4 Oct. 6

24 57.(1

42.3

12 43 46.5

0 49.5

25 39.3

42 57.0

4519

"

2

4 Oct. 9

24 57. (1

42.3

12 43 45.5

0 -19. 1

25 39. 3

42 56. 1

4520

Piazzi 177 . .

7

3 July 26

28 14.5

48.4

2 10 4.8

0 41.0

17

29 2.9

+ 29 23. 2

4521

Bessel, W.620 .

~

3 April 28

28 26.2

46.3

12 52 29.1

0 25.9

17 29 12. 5

+ 12 52 3.2

4522*

79 Herculis .

6

3 .May 13

28 37.li

39.7.

24 21 i 45.5

0 28. 3

17 29 16. 7

+24 26 17.2

4523

"...

6.7

3 Mav 15

28 38.0

39.7

24 20 44. 9

0 28.8

29 17.7

26 Hi. 1

452 1

1 1

6

3 July 23

28 37.7

39.2

24 26 59. 8

0 44.6

29 10.9

26 15.2

4525*

Groombridge 2447

7.8

3 May 31

30 54. 5

23.8

48(35)

17

3,1 18.3

+48(35)

4526"

82 Herculis y

3 .May 29

30 59. 9

23.8

48 42 56. 9

0 27. 7

17

31 23.7

+48 42 -J9.2

4527

"...

7

3 Mav 31

31 0.8-

23.8

4-48 42 53. 0,

0 27.5

31 24.6

42 26. 1

4528

58 * >phiuehi d

6

3 Jul'v 12

3d 29. 8

57.7

—21 33 46. 9

0 33.2

17

31 27.5

—21 34 20. 1

4529*

Piazzi 194 . .

7. 6

3 April 28

31 13.5

48.5

+ 4 29 7. 1

0 25.4

17

32 2.0

+ 4 28 41.7

4530

" . . ' .

8

3 July 26

31 14. 1

47.3

4 29 17.0

0 37.8

32 1.4

28 39. 2

4531

n

7

3 Aug. 20

31 14.4

47.7

4 29 23. 6

0 39.9

32 2. 1

28 43.7

4532

2228 Bradley '.

7

3 May 13

32 12.9

39.6

24 37 37.2

II '.'3. 1

17

32 52.5

+24 3.7 14. I

4533

"...

7.6

3 May 15

32 14.0

39. (1

24 37 35.9

0 23. 5

32 53. 6

37 12.4

1534*

Piazzi 2U4 . -

6

3 July 29

32 34. 4

35. 7

31 24 55.0

0 41.3

17

33 10. 1

+3.1 24 13.7

4535

60 Ophiuchi (i

3 April 28

32 47. 2

48.4

4 40 13.3

0 22. 9

17

33 35. 6

+ 4 39 50.4

4536

"...

3 July 26

32 48. 5

47.4

4 40 16. 3

0 35. 5

3,3 35. 9

39 40.8

4537

"...

3 Aug. 20

32 48.7

47.6

4 40 15.5

0 37. 7

33 36. 3

39 37. 8

1538

"...

3 Sept. 2

32 48. 2

47.8

4 40 18.9

0 38.4

33 36.0

39 40. 5

4539

n

3 Sept. 6

32 48.2

47. 9

4 40 18.2

n :;-.:,

33 36. 1

39 39.7

4540

"...

3 Sept. 7

32 48. 3

47.9

4 40 19.6

0 38.5

33 36.2

39 41.1

4541

<i

3

4 Oct. 6

32 50.7

45. I

4 40 13.3

0 36.9

33 35. 8

39 36.4

4542

((

3

4 Oct. 9

32 51.0

45.0

4 40 13.3

0 36.8

33 36.0

39 36.5

4543

85 Herculis i

3 Mav 29

33 22. 6

26.1

46 7 31.1

0 24. 1

17

33 48. 7

+46 7 7.0

4544

it

3 May 31

33 23. 6

26. 0

46 7 33.7

0 24. 7

33 49. 6

7 9. 0

4545

83 Herculis .

6.7

3 May 13

33 37. 1

39.6

24 40 50. 9

0 20. 9

17

3,4 10.7

+24 40 3,0.0

4546

n

7

3 May 15

33 3-. 1

3,9. i;

24 40 48. 3

0 21.4

34 17.7

40 26. 9

4547

84 Herculis . .

:'. May 13

34 29.0

39.7

24 25 45. 6

0 21.6

17

35 8. 7

+21 25 24.0

4548

"...

7

3 May 15

34 30.5

39. 7

24 25 43. 9

0 20. 0

35 10.2

25 23. 9

4549

Lalande 32464

7

3 Aug. 211

31 i 22.7

35.0

33 19 52.4

0 39.3

17

30 57.7

+33 19 13. i

4550

62 < >phiuchi >

3 May 31

17 37 3.7

+ 48.5

4- 2 48 6.0

— 0 21.5

17

37 52.2

+ 2 4? 44.5

(22Sj

GOULD — CATALOGUE UK STARS OBSERVED BY D AGELET.

229

Mean equinox 1800. 0

No.

Name

Mag.

Dale

App't a

Keduct'u

App't A

Reduction

a

<!

It 111 s

s

o / //

/ //

h m s

u ' »

I55J

02 Qphiuchi y

:: July 10

17 37 3.8

+ 48. 1

+ 2 48 7.4

— 0 27. 1

17 :'.7 51.9

+ 2 47 40.3

4552

"...

:; July 12

37 4. 3

48.1

2 4-* 4.8

ii 27. 1

3.7 52. 1

47 37.4

1553

CI

3 Jul\ 26

37 4.(1

48.1

2 48 10.6

II 29. I

37 52. 1

47 41.5

4554

.(

3 Sept. 2

37 3.9

48.5

2 48 13.0

0 31.8

37 52.4

47 41.2

4555

"...

:; Sept. 6

37 3. 7

* 48.6

2 48 10.2

ii 31.9

37 52.3

47 3-.::

1556

"

3

4 Oct. 6

37 6. 7

45. 7

2 48 9. 1

n 30.8

37 52.4

47 38.3

4557

11

4

4 O.t. 9

37 (i. 7

45.8

2 18 6.9

ii 30.7

37 52.5

47 30.2

4558

Lalande 32505

6

3 July 29

37 33.5

35.6

31 30 5.9

tl 33.8

17 38 9. 1

+31 :<.:, 32. l

1559

Bessel, W.1314 .

0

3 May 13

37 36. 1

42.7

17 47 7.0

ii 15.9

17 38 18.8

+ 17 46 51. 1

4560

"...

6

3 May 15

37 30.7

42.7

17 47 5.0

0 10.2

38 19.4

40 49. 4

4561

66 Herculis //

3 April 28

37 59.9

38.4

27 51 14.8

(I 1(1.9

17 38 38.3

+27 51 3.9

1562

■« _ . .

3 May '.'9

38 0. 7

37.8

27 51 16.7

(1 17.9

38 38.5

50 58.8

4563

"...

3 Sept. 6

38 0. 5

38.- 1

27 51 37.5

ii 37.:',

38 38.6

51 0.2

4564

I'iazzi 255

6.7

3 May 13

39 24. 4

42.1

19 19 58.2

0 13. 1

17 in 0.5

+19 19 45. 1

4565

"...

7.8

3 Maj 15

39 25. 7

42.0

19 19 56.7

ii 13.5

40 7.7

19 43.2

1566*

"...

6

3 July 23

39 25. 2

41.1

19 20 It). 5

ii 28.3

40 0.3

19 42.2

4567

Lalande 32600 .

7

3 July '-".i

40 5.4

34.0

34 21 45.5

II 3(1.5

17 411 39.4

+34 21 15.0

1568

87 Herculis -

3 Mav 3]

4U 3. e

38.8

25 42 11.4

ii 19.7

17 in 42.6

+25 41 51.7

1569

"...

5

3 Aug. -Jli

40 4. 2

38.8

25 42 24.H

II 3.2. 5

4(1 43.0

41 51.5

4570*

Flamsteed, B.2433

7.8

3 Max 29

41 20.9

24.7

47 4! 27. 0

Ii 12. 1

17 41 45.0

+47 41 14.9

457 1

Bessel, W.1433 .

7.8

3 May 13

41 4_'. 4

41.3

22 23 5. 0

0 9. 2

17 42 23.7

+22 22 55.8

4572*

"...

7.8

3 May 15

41 43.4

40.7

22 23 8.0

ii 9.6

42 24. 1

22 58.4

4573

"...

6.7

3 July 23

41 43.2

4H.0

+22 23 19.2

II 25.2

42 2:;. 2

22 54. 0

4574

03 Ophiucni . .

3 July in

41 36.2

59.2

—24 49 30.7

(i 17. 1

17 42 35.4

—24 49 53.8

4575*

"...

3 July 12

41 35.9

59.2

—24 49 35.8

ii 17. 1

42 35. 1

49 52. 9

4576

Lalande 32688 .

6

3 July 26

42 1.0

36.7

+29 23 32. 5

0 20.4

17 42 37.7

+29 23 0. 1

4577

"...

6.5

3 Aug. 2H

42 1.0

37.0

29 23 34. 2

ii 30. 1

42 38. U

23 3. 8

1578

Lalande 32698 .

7.6

3 April 38

42 J 3.0

44.1

15 23 14.8

II 0. 7

17 42 57. 1

+ 15 23 8.1

4579

Lalande 32709 .

7.8

3 July 29

43 5. (1

32.4

36 54 57.4

II 25.5

17 43 37.4

+36 54 31.9

1580

Anonyina

7.8

3 July 20

44 111. 0

35.2

32 4 39.7

0 23. 7

17 44 45.8

+32 4 JO. 0

458]

<>

8

3 Aug. 20

44 10.8

35.6

32 4 37.6

0 27.9

44 40.4

4 9.7

4582

88 Herculis :

3 May 29

44 25.9

2l.li

48 27 21 . 0

(1 7.4

17 44 49.9

+48 27 13.0

4583

Lalande 32810 .

8.9

3 July 29

45 31.7

31.2

38 52 44.7

II 23.(1

17 40 2.9

+38 52 21.7

458 1

Lalande 32832 .

8.9

3 Max 13

45 35.7

36.7

30 25 12.3

'I 2.5

17 46 12.4

+30 25 9.8

4585

"...

9

3 May 15

45 30.7

30. 7

30 25 10.4

0 2.9

40 13.4

25 7. 5

1586

90 Herculis /

:; July in

46 17.2

30.3

40 3 32. 8

0 17.4

17 40 47.5

+40 3 15.4

4587

89 Herculis . .

3 May 31

4G 42.0

38. :

26 5 37.5

0 4. 1

17 47 21.3

+26 5 33.4

1588

"

3 July 26

40 42. 8

38.3

26 5 48. 3

II 19. 1

47 21. 1

5 29.2

4589

it

3 Aug. 20

40 42.4

38.6

+20 5 5(1.11

ii 2::. l

47 21.0

5 20. 9

4590*

5 Sagittarii i

3 July 12

40 50. 9

58.9

—24 14 52.0

0 10.0

17 47 55. 8

—24 15 8.6

4591*

64 < ipliiuclii r

3

3 April 28

47 8.0

54. 1

9(43)

17 48 2. 1

- 9(44)

4592

"...

3 Sept. 2

47 8. 2

53. 2

9 43 54.3

0 13 5

48 1.4

44 7.8

4593

"...

:; Sept. 6

47 8. 3

53.3

9 43 55. 6

0 13.5

48 1 . 0

44 9. 1

4594

"...

4 Sept. 9

47 11.0

49.7

9 43 59. 5

II 13.4

48 1.3

44 12.9

4595*

u

4 Sept. 17

47 11.0

49.8

9 43 58.5

0 13.4

48 1 . 4

44 11.9

4596

Piazzi 307 . .

3 April 28

(48)

— 4 47 10.5

— 0 3.0

17(48)

— 4 47 13.5

4597*

9] Herculis 6

3 May 13

4* 51.4

32.7

+37 17 3.3

+ 0 3. 1

17 49 24.1

+37 17 0.4

4598

"...

3 .May 15

48 52. 8

32.7

37 16 58.5

+ 0 2.7

49 25. 5

17 1.2

4599

"...

4

4 Oct. 6

48 52.0

31.4

+37 17 30.5

— 0 2:;. o

49 23. 4

17 6.9

4600*

57 Serpentis C

3 July 10

49 4.4

50.6

— 3 39 42. 3

0 9.2

17 49 55. 0

— 3 39 51.5

4G01

92 Herculis f

3 May 31

49 22.9

37.0

+29 16 48. 0

0 1.5

17 49 59. 9

+29 16 46. 5

4602

"...

3 Aug-, ao

49 22. 8

37.0

29 17 1.1

0 19.8

49 59. 8

10 41.3

4603

00 Opliiuchi 7i

3 July 26

49 34.2

47.4

4 23 44. ::

0 11.4

17 50 21.0

+ 4 23 32. 9

1 40114

9

3 July 29

49 50.5

31.9

37 50 9.9

ii 22.3

17 511 22.4

+37 49 47.0

1605

(iT < Ipliiiulii a

4 Sept. 9

(49)

2 57 19. 3

— ii 13.9

17(50)

+ 2 57 5. 4

4606

94 Herculis v

3 May 29

50 14.6

36.5

::n 12 51.3

+ U ii.5

17 5(1 51. 1

+30 12 51.8

1607

"...

3 Sept. 2

5(1 14.4

36.7

3n 13 12.9

— 0 20. 1

50 51.1

12 52. -

1608

68 Ophiuchi k

3 Sept. 6

50 47.5

49. 3

1 19 29. 7

0 15.7

17 51 36.8

+ 1 19 14.il

4609

Bessel, W.I7I9 .

7

3 July 29

51 111.7

32.8

30 19 4.4

— II 14.3

17 51 43.5

+36 18 5(i. 1

1610

( Iroombridge 2493

8

:; May 13

17 51 20.7

+ 28.5

+43 26 21.2

+ II 7.0

17 51 55.2

+43 26 28.8

(229)

230

GOULD -CATALOGUE OF STARS OBSERVED BY D AGELET

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'u

App't <S

R

eduction

a

d

h m s

s

C ' II

/ //

h in s

0 / "

4611

Groombridge 2493

8.9

3 May

15

17 51 28.0

+ 28.4

+43 26 19. 8

+

0 7.1

17 51 56. 4

+43 26 26. 9

4612

69 Ophiuchi -

1 Sept.

17

51 22.6

49. 2

— 8 9 55. 3

0 8. 5

17 52 11.8

— 8 10 3.8

4613

Piazzi 339 . .

3 April

28

51 12.9

0 62. 9

29 54 15.4

0 5.3

17 52 15. s

—29 34 18.7

4614

10 Sagittarii y

3 July

12

51 56.1

1 2. 8
T 2.2

30 24 34. 5

—

0 1.8

17 52 58.9

—50 24 3(1.3

4615

"

3 Sept.

6

51 56.0

—30 04 54.2

+

0 0. 5

52 58. 2

24 33.7

4616

95 Herculis -

3 May

31

52 20. 3

0 40.7

+21 36 21.6

+

0 2.5

17 53 1.0

+21 S6 24. 1

4617

" . 1st

5.6

3 Aug.

20

52 20. 4

40.(1

21 36 36. 3

11 13.9

53 l.o

3(1 22.4

4618

" . 2d

3 Aug.

20

52 21.1

40.(1

21 36 36. 3

—

0 13.9

53 1.7

36 22. 4

461U

Johnson 3806

8

3 May

13

53 5. 3

2S.6

43 14 39.9

+

0 10.0

17 53 33.9

+43 14 49.9

4620

"...

8

3 May

15

53 6.5

28.6

43 14 39.0

+

0 9.5

53 35. 1

14 48.5

4621

96 Herculis -

3 July

10

53 9.3

40.7

20 50 41.2

0 5.7

17 53 50. 0

+20 50 35.5

4622

97 Herculis . .

7

3 July

26

53 28.7

39.8

22 56 1.4

0 8.6

17 54 8. 5

+22 55 52.8

4623

"...

:: Sept.

2

53 28. 4

40.2

22 56 4.8

0 13.8

54 8.6

55 51.0

4(124

Lalande 35130,1 .

7.8

3 July

29

53 42. 1

31.5

33 19 21.4

0 10.3

17 54 16.6

+33 19 11. 1

4625

70 Ophiuchi p

4 Sept.

9

54 36.0

45.3

+ 2 33 49. 9

—

0 7. 5

17 55 21.3

+ 2 33 42.4

4626

71(1 Mayer

7

3 July

12

54 23.5

60.8

—28 27 57.5

+

0 1.2

17 55 24. 3

—2-' 27 56. 3

4627

Arg.Z.Oel. 17670-3

4.5

3 April 28

55 16. 1

57.2

— 17 10 4.2

+

0 4.0

17 56 13.3

—17 10 0.2

4628

Bessel, W.1900

6

3 July

29

56 20. 4

40.4

+21 38 27.5

0 4.9

17 57 0.8

+21 38 22.6

4629*

2272 Bradley . .

3 July

26

56 50.0

48.2

2 28 6.5

0 1.3

17 57 18.2

+ 2 28 5.2

41)30

" - - -

7

3 Aug.

20

56 29.6

48.3

2 28 10. 9

—

0 3. 3

57 17.9

28 7.6

4631*

98 Herculis . .

3 May

31

56 56. 3

40. 5

22 12 29. 1

+

0 9.3

17 57 36.8

+22 12 38.4

4632

71 Ophiuchi s1

3 July

10

56 58. 9

45.7

8 43 6.8

+

0 1 . 0

17 57 44.6

+ 8 43 7.8

4633

72 Ophiuchi s-

4.5

3 Sept

2

57 6. 0

45.8

9 32 47. 4

0 5.2

17 57 51.8

+ 9 32 42.2

4634

"...

4.5

3 Sept.

6

57 5.9

45. 8

9 52 51.1

0 5. 4

57 51.7

32 45. 7

4635

(i

1 Sept.

9

(57)

9 32 is. 11

0 6. 3

(57)

32 41.7

4636

Piazzi 376

7

3 Sept.

2

57 15.0

45.8

9 28

17 58 0.8

+ 9 28

1635

"...

7

3 Sept.

6

57 14.8

45. 9

9 28 53.6

—

0 5. 1

58 0. 7

28 48. 5

4638

Lalande 33280 -

(1.7

3 July

26

57 14.8

48. 3

2 12 12.9

0.0

17 58 3. 1

+ 2 12 12. 9

4639

Groombridge 2505

8

:; May

13

57 42.3

50.9

40 4 17.6

+

0 16.6

17 58 13.2

+40 4 34.2

4649

"...

8

3 May

15

57 43.2

30.9

40 4 13.0

+

0 16.2

58 14. 1

4 29.2

41.41

99 Herculis b

4 Sept.

9

(58)

3(1 52 36.7

_

0 9.2-

17 (59)

+30 32 27. 5

4642

"...

1 Sept.

17

5- 52.3

34.3

30 32 40.5

—

0 9.6

59 26. 6

52 30.9

4643

73 ( Iphiuchi </

3 July

10

58 49.7

47.(1

3 58 11.4

+

(I 4. 1

17 59 37. 3

+ 3 58 15.5

4644

103 Herculis o

3 July

8

59 7.7

36.9

28 44 35. s

+

0 3.0

17 59 44.(1

+28 44 38. *

4645

Bessel, W.28 . .

6.7

3 Aug.

20

59 5. 8

48. 1

3 6 211.0

0 0.6

17 59 53.9

+ 3 (i 25. 1

4646

Lalande 35376

6.7

3 Aug

20

59 53.2

48.0

3 17 311.4

+

0 1.3

18 0 41.2

+ 3 17 40.7

4(147

102 Herculis . .

4 Sept.

9

17(59)

■JO 17 36.(1

(i 6. 1

18 (ii)

+20 47 311.5

4648*

Bessel, \V. (16 .

7.8

3 May

13

18 O 3.2

39.5

24 56 15. -J

+

0 18.4

18 0 42.7

+24 56 33. 6

4649"

"...

7.8

3 May

15

0 4.3

39.5

24 56 16.7

0 17.9

0 43.8

56 34.(1

4650*

Lalande 33412 .

6

3 July

26

0 30.0

42.6

+ 16 26 54.9

0 2.6

18 1 12.6

+16 20 57.5

4651

13 Sagittarii /;'

3 April

28

0 49.5

58.9

—21 5 53.7

O 11.0

18 1 48.4

—21 5 42.7

4652*

Lalande 33514 .

6

3 July

26

5 5(1.7

42.7

+ 1(1 13 50. 1

0 6. 9

18 4 19. 1

+ 16 13 57.0

4(153

104 Herculis A

3 May

13

3 46.7

36.3

31 21 28.2

0 24.8

18 4 23.0

+31 21 55.0

4654

"...

5.6

3 May

15

3 47. 3

36.2

31 21 24.3

0 24. 4

1 23. 5

21 48.7

4655

" ...

3 May

31

3 47.0

35. 9

31 21 32.0

0 20. 1

4 22.9

21 52. 1

4656

"...

3 July

29

3 47. 2

35.6

3,1 21 4(1.3

O 4.7

4 22.8

21 51.0

4657

"...

3 Aug.

20

3 47. 5

35.8

31 21 50.9

+

0 0.1;

4 23.3

21 51.5

4658

"...

4.5

5 Sept.

2

3 46.9

36.1

31 21 51.5

0 tl. 9

1 23.0

21 50.6

4659

"...

3 Sept.

6

:; Id. -J

36. 1

31 21 52.6

0 1.1

4 23. 0

21 51.5

4660

ti

4 Sept,

9

3 49.7

33.7

31 21 50.7

0 2.7

4 23.4

21 48.0

4661

si

4 Sept.

17

3 49.2

0 33.9

+31 21 55.6

_

0 3 2

4 23.1

21 52.4

inc.-.'

Lacai lie 7651 .

6

3 April

28

3 35.1

1 4.9

—33 26 58. 7

+

0 11.4

18 4 40.0

—35 2(1 47. 3

4663*

Groombridge '-'530

7

3 May

13

5 53.0

0 31.9

+38 43 3.9

11 28.8

18 6 24. 9

+38 43 32. 7

4(1(14

"...

6.7

3 May

15

5 53.7

31.9

38 43 2. 6

0 28. 2

6 25. 6

43 30. s

46(15

"...

6.5

3 Sept.

2

5 52.6

31.8

+3S 43 32. 3

0 1.0

6 24. 4

43 33. 3

4666*

19 Sagittarii 6

3 April

28

7 8.7

63. 1

—29 54 2.2

0 17.5

18 8 11.8

—29 53 44.7

1667

"...

3 July

12

7 10.2

61.5

29 54 24.7

0 19.2

8 11.7

54 5. 5

4668"

"...

3 Aug.

20

7 10.2

61.6

29 54 18.6

0 20.9

8 11.8

53 57. 7

4(1(19

"...

4 Sept.

17

7 13.(1

57.8

—29 54 18.1

0 19.9

8 11.4

53 58. 2

4670

Aiiuii_\ in.'i .

7

3 July

29

18 7 3',i. ii

+ 36. 1

+50 20 1(1.(1

+

0 10.5

18 8 15. 1

+311 20 -.':. 1

(230)

GOULD-'-CATALOGUE OF STARS OBSERVED BY 1) AGELET.

231

Mean equinox 1800. 0

No.

Name

Mag.

1 lati

App't ii

li'eduet'tl

App't '!

Reduction

a

<S

h m s

s

o / '/

/ //

It III 8

o / //

467]

Groombridge2533

7

3

May

13

18 S 56. 3

+ 29.(3

+42 5 19.7

+ 0 ::::. 7

18 9 25.9

+42 5 53.4

4672

"...

7

:i

Mai

15

8 57. 4

29. <;

42 5 18.0

0 33.2

9 27.11

5 51.2

4673

"...

(i. 5

3

Sept.

2

8 56.0

29.6

42 5 47.5

(1 5.(1

9 25. 6

5 52. 5

4674

Lalande 33779 .

8

3

May

31

9 35.9

39.5

24 21 53.9

ii 28.3

18 10 15.4

+24 22 22. 2

4675

"...

3

July

8

9 36. 1

39. 1

+24 22 1.0

li 18.7

10 15.5

22 19.7

1676

Bessel,W.303 .

6

:;

April

28

9 56.8

.Mi. 1

—14 28 32.0

0 26.0

18 10 52. 9

—14 28 li. ii

4677

74 Ophiuchi r

::

July

III

in 5.3

0 47.8

+ 3 17 :!4. 8

0 20. 4

18 10 53. 1

+ 3 17 55.2

1678

'ill Sagittarii c

l

Sept.

17

9 53.2

1 (1. 0

—34 28 Hi. 1

II 25.li

18 HI 53.2

—34 27 51.1

4679

1(15 Herculis . .

3

May

31

HI 17. 1

0 39.5

+24 21 49.9

(1 29.3

18 III 50. (i

+24 22 19.2

4680

"

3

July

8

10 17.8

39.0

24 21 59.2

0 19.8

10 56.8

22 19.0

468]

ti

4

Sept.

9

Id 20.5

36.9

24 22 8. 8

0 7. 5

10 57. 4

22 1(3.3

4683

Lalande 33814 .

7.8

3

Sept.

2

10 54.7

25.0

48 2 12.1

0 7.(1

18 11 19.7

+48 2 19.1

4683

lnti Herculis . .

4

Sept.

9

11 12.7

37.' 9

21 52 57. 9

0 9.3

18 11 50.6

+21 53 7.2

4684

2302 Bradley

6.7

:i

July

27

11 33.2

36.5

29 35 1.(1

(i 16.8

18 12 9.7

+29 35 18.4

|:',-.~.

"...

6

:i

July

29

11 32.8

36.5

29 34 59. 3

II Hi. ii

12 9.3

35 15.(3

1686

Lalande 33868 .

8.9

3

May

13

12 16.2

26.3

46 19 2H. 1

ii 38.7

18 12 42.5

+46 19 58.8

4687

"...

9

3

May

15

12 17.7

26.3

46 ]9 20.4

ii 38. 7

12 44.0

19 59. 1

1688

1 Lyrse k

3

Sept.

6

12 17.8

33. 6

:;:. 58 45.6

ii in.:;

18 12 51.4

+35 58 55.9

4689

107 Herculis t

3

July

8

12 36.2

36.9

28 46 36.9

0 22.9

18 13 13.1

+28 46 59. 8

4690

3

July

10

12 36.0

36.9

28 46 40.8

0 22. 4

13 12.9

47 3. 2

469]

108 Herculis . .

3

July

27

12 39.4

36.4

29 46 6. 0

ii 18.4

18 13 15.8

+29 46 24. 4

4692*

"...

3

July

29

12 36.9

36.4

29 46 2.5

II 17.8

13 15.:!

46 20.3

4693

"...

4

Sept.

14

12 40.3

34. Ii

29 46 13. 1

n 9.H

13 14.9

46 22. 1

4694

Lalande :i:i>95 .

6

3

Sept.

7

12 32.6

44.8

11 56 11.3

ii 15.9

]8 13 17.4

+11 56 27.2

4695

2308 Bradley

6

:i

May

:;i

13 7.8

40.1

+23 11 2.5

0 33. 3

18 13 47.9

+23 11 35.8

4696

Lalande 33933 -

5.6

3

April 28

12 59.2

53.2

— 7 10 35.2

(1 37.11

18 13 52.4

— 7 9 58. 2

4697

Arg.Z.Oel.18209,10

8

4

July

14

13 35.6

54. 4

—23 32 28.4

0 25. 4

18 14 30.0

—23 32 3. 0

1698

109 Herculis. .

3

July

8

14 3(1.2

40.3

+21 40 55.9

0 26. 1

18 15 Hi. 5

+21 41 22.0

4(309

"...

3

July

111

14 29.5

40.3

21 40 59. (i

(I 24.3

15 9. 8

41 2:1.9

4700

Lalande 34000 .

6.7

3

Sept.

7

14 49.2

41.4

+211 20 54.5

(1 17.1

18 15 30. 6

+20 21 11.6

470]

22 Sagittarii 7t

3

July

12

14 38.3

59.4

—25 31 28.5

0 29. 1

18 15 37. 7

—25 30 59. 4

4702"

"...

3

Aug.

20

14 37.9

59.5

25 31 33.5

(i 30.2

15 :'.7. 1

31 3.3

4703

t i

4

Sept.

17

14 42.0

55.8

—25 31 29.7

0 28.3

15 37.8

31 1.4

4704

GroorriBridge 2555

6

3

May

13

Hi 2.3

24.0

+49 0 47. 5

0 44.0

18 Hi 26.3

+49 1 31.5

4705

"

(3

3

Maj

15

16 3. 1

24.(1

49 (I !:;. 7

0 44.5

16 27. 1

1 28.2

4706

59 Serpentis d

3

April

28

16 8.2

50.4

0 4 41.2

0 39.1

18 Hi 58.6

+ 05 20.::

4707*

"...

6

3

July

27

16 in. ii

49.11

n 4 51.2

ii 27.3

16 59.0

5 18.5

4708

"...

6.7

3

Sept.

2

16 9.2

49. :i

0 4 57. 1

0 24. 7

Hi 58. 5

5 21.8

47(19

"...

4

Sept.

9

16 13.2

46.0

0 4 52.7

0 21 . 9

16 59.2

5 14.6

4710*

ti

4

Sept.

14

16 12.4

46. 1

0 4 55. 9

0 21.8

Hi 58.5

5 17.7

47]]

Lalande 34067,8

7

3

May

31

Hi 23.2

38.1

27 17 3.4

0 38.5

18 ]7 1.3

+27 17 41.9

471 -J

2 Lyra- /i

6.7

3

July

8

17 8.4

30.7

39 23 51.1

II 29.:!

18 17 39.1

+39 24 20. 4

4713

Lalande 34128 -

6

4

July

14

17 28. 2

43.5

+ 64 38.5

0 27.5

18 18 11.7

+ 65 (5.0

47J4

728 .May.r . .

6

3

July

12

17 29.8

56.5

—18 50 54. 4

n 29.5

18 1 8 26. 3

—18 50 24.9

47ir,

Piazzi 84 . .

7.8

3

July

10

18 ll.ll

38. 1

+26 19 47.8

0 30. 4

18 18 38. 1

+26 20 18.2

4716

(30 Serpentis c

3

July

27

18 26.9

49. 8

— 2 6 36. 3

0 31.0

18 19 Hi. 7

— 26 5. 3

4717

"...

4

Sept.

9

(18)

46.8

2 6 38.6

II 25.5

(19)

6 13.1

4718

"...

6

4

Sept.

14

18 29.5

46.9

2 6 39. 3

0 25.5

19 16.4

6 13.8

4719

730 Mayer .

7

3

July

12

18 46.5

56. 3

—18 32 2. U

0 34. 5

18 19 42.8

—18 31 27.5

4720

Anonyma

9

3

May

13

19 41.0

24.9

+48 10 20.3

0 50.4

18 20 5. 9

+4" 11 10.7

472]

"...

9

3

May

15

19 42.2

24.8

48 10 17.3

0 50. 0

20 7. 0

11 7.3

4722

Piazzi 100 - .

5.6

3

April

28

20 37.8

40.7

+23 43 41.8

I) 51.7

18 21 18.5

+23 44 33.5

4723

~,'.V.\ Mayer

7

3

Sept:

6

2(1 30.-5

56.6

—18 30 :;7. ii

0 3(5.5

18 21 27. 1

—18 30 1. 1

4724

61 Serpeutis e

3

July

27

2" 47.6

49. 5

1 8 29. 9

. 0 34.2

1 3 21 37. 1

— 1 7 55.7

4725

"...

4

Sept.

9

2D 51.6

46.4

1 8 30.8

n 28.3

21 38.0

8 2.5

4726

it

6

4

Sept.

14

2(1 51.11

46.5

1 8 32. 1

ii 28.2

21 37.5

8 3.9

4727

"...

4

Si pt.

15

2(1 51.11

46.5

— 1 6 :!2. 0

ii 28. 1

21 37.5

8 3.9

4728

Bessel. W.702-4

6.7

:;

Sept.

2

21 27.8

42. S

+16 47 32.2

II 27.7

18 22 Hi. ii

+16 47 59.9

4729*

"...

6.7

4

July

14

21 30.3

39.5

16 47 22.9

ii 32.2

22 9. 8

47 55. 1

4730

Johnson 3940

8

3

July

-

18 21 55.5

+ 27. 1

+44 7 23. 1

+ 0 36.3

18 22 22.9

+44 7 59.4

(231)

232

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equi

nox 1800. 0

No.

Name

Mag-.

Date

App't a

Reduct'n

App't <!

Reduction

a

<!

h m s

s

o / "

/ //

h m s

o / //

4731

Johnson 3944 .

8

3 May

31

18 22 33. 2

+ 26.1

+46 17 1. 1

+ 0 49.4

18 22 59. 3

+46 17 50.5

473-2

Lalande 34333 -

7

3 May

13

22 35.6

41.2

21 45 19. 1

0 51.1

18 23 16.8

+21 46 10.2

4733

Bessel, W 741,2.

7

3 April

28

23 3.2

36.5

+32 5 52. 8

0 56. 8

18 23 39.7

+32 6 49. 6

4734

Lalande 34354 .

8

3 Sept.

6

. 22 5i;.::

56.6

—18 42 20. 8

O 29. 1

18 23 52.9

—18 41 51.7

4735

1 Aquiloe m

3 July

27

23 27. 5

52.2

— 8 22 50. 7

0 39. 3

18 24 19.7

— 8 22 11.4

473li

I'iazzi 116

6.7

3 Aug.

20

23 47. 1

39.7

+23 28 7. 6

0 31.0

18 24 26. 8

+23 28 38. 6

4737

"...

7

3 Sept.

2

23 47. 0

39.9

23 28 7.7

0 29.5

24 26. 9

28 37.2

4738

Rumker 6596

7

3 July

10

24 11.7

42.1

17 34 41.9

0 39.9

18 24 53.8

+17 35 21.8

4739

Lalande 34436 .

7

3 May

13

25 1.8

41.9

20 18 21.0

0 54.5

18 25 43.7

+20 19 15.5

4740

"...

7

4 Sept.

9

25 5.1

38.5

20 18 47. 0

0 28.1

25 43.6

19 15.1

4741

"...

7

4 Sept.

14

25 4.7

38.6

20 18 44. 0

0 27.6

25 43. 3

19 11.6

474-2

"...

7.6

4 Sept.

15

25 4.3

38.6

20 18 44.2

0 27. 5

25 42. 9

19 11.7

4743

Piazzi 127 . -

7.8

3 May

31

25 38.5

31.7

38 40 53. 2

0 53. 3

18 26 10.2

+38 41 46.5

4744

"...

7.8

3 July

8

25 38. 9

31.3

38 41 1.9

0 41.9

• 26 10.2

41 43.8

4745

Lalande 34484,5.

6.7

3 April

28

26 19.9

35. 3

34 17 9.4

1 1.9

18 26 55.2

+34 IS 11.3

4746

Piazzi 132

6.7

3 Aug.

20

26 3H.9

39.7

23 26 36. 0

0 35.0

18 27 111.6

+23 27 11.0

4747*

Lalande 34528,9

6.7

3 April 28

27 25. 9

35.3

34 17 11.7

1 3.5

18 28 1.2

+34 18 15.2

4748

Lalande 34536 .

6.7

3 May

13

27 28.4

41.2

21 56 6.6

0 58.7

18 28 9. 6

+21 57 5.3

4749

2339 Bradley . .

8

3 May

15

28 8.8

32.1

38 43 17. 1

1 1.5

18 28 40.9

+38 44 18.6

4750

7

3 May

31

28 8.2

31.8

38 43 26. 0

0 57.1

28 40. 0

44 23. 1

4751

ii

9

3 July

8

28 9.1

31.3

38 43 37. 4

0 45.7

28 40. 4

44 23. 1

4752

"...

8

3 July

10

28 8.6

31.3

38 43 35. 1

0 45. 1

28 39.9

44 20.2

4753

"...

7.8

3 July

27

28 8.7

31.3

38 43 41. 0

ii 411.3

28 40. 0

44 21.3

4754

"...

7

3 Sept.

6

28 7.9

32.0

38 43 50. 6

li 32.5

28 39.9

44 23. 1

4755

"...

7.8

4 Sept.

9

28 10.3

29.5

+38 43 52. 9

0 22. 1

28 39.8

44 15.0

4756

Bessel, W.784 .

6

4 Sept.

15

28 20.5

48.9

— 7 58 4. 8

0 40.1

18 29 9. 4

— 7 57 24. 7

4757

3 Lyrse a

3 April

28

29 36.6

32. 7

+38 35 5. 0

1 7.5

18 30 9.5

+38 36 12.5

4758

"...

1

3 May

15

29 38.7

32.2

38 35 7.2

1 3.7

30 10.9

36 10.9

4759

"...

3 May

31

29 37.8

31.9

38 35 16.9

0 59.5

30 9.7

36 16.4

4760

"...

3 July

8

29 38.6

31.4

38 35 29. 7

0 47.9

30 10.0

36 17.6

4761

"...

1

3 July

10

29 37.7

31.4

38 35 29. 9

0 47.2

30 9.1

36 17. 1

4762

"...

3 July

12

29 38.4

31.4

38 35 30. 3

0 46.6

30 9.8

36 16.9

4763

"...

3 July

26

29 38. 3

31.4

38 35 35.4

0 43.(1

30 9.7

36 18.4

4764

"...

3 July

27

29 38. 3

31.4

38 35 34.2

0 42.8

30 9.7

36 17.0

4765

"...

:i July

29

29 38.2

31.4

38 35 33.7

0 42. 1

30 9. 6

36 15.8

4766

"...

3 Aug.

20

29 37..-

31.7

38 35 38. 9

0 37.2

30 9.5

36 16.1

4767

"...

:; Sept.

2

29 38. 0

32. 0

38 35 41.3

0 35.2

30 10.0

36 16.5

4768

"...

3 Sept.

6

29 37.9

32. 1

38 35 40. 3

0 34.8

30 10.0

36 15. 1

4769

"...

3 Sept.

7

29 37.9

32.1

38 35 40. 2

0 34.7

30 10.0

36 14.9

4770

"...

4 July

14

29 39. 1

29.1

38 35 29.2

0 42.2

30 8.2

36 11.4

4771

"...

4 Sept.

9

29 40.0

29.9

38 35 43. 6

0 30. 5

30 9.9

36 14. 1

4772

"...

4 Sept.

14

29 39. 6

30.0

38 35 46. 2

II 311. 1 1

30 9. 6

36 16.2

4773

"...

1

4 (».t.

9

29 39. 4

30.6

38 35 41.2

0 29.5

30 lli.O

36 10.7

4774

"...

1

4 Oct.

14

29 39. 1

30.7

36 35 44.4

0 29.6

30 9. 8

36 14.0

4775

"...

1

4 Oct.

15

29 38.5

30. 8

38 35 44. 6

0 29. 6

30 9. 3

36 14.4

4776

"

1

4 Oet.

16

29 39. 1

30.8

38 35 46.7

0 29. 7

30 9.9

36 16.4

4777

"...

1

4 Nov.

28

29 38.5

31.5

38 35 39.0

0 35.9

30 10.0

36 14.9

4778

"...

1

4 Dec.

28

29 38. 1

31.6

+38 35 28. 7

0 45.2

30 9.7

36 13.9

4779

2 Aquilse o

4 Sept.

14

30 29. 6

49.3

— 9 14 38.4

0 43.4

18 31 18.9

— 9 13 55.0

4780

"...

5

4 Sept.

15

30 29.8

49.3

9 14 38.5

0 43.3

31 19. 1

13 55.2

4781

3 Aquilas n

3 Sept.

6

31 45.4

52.5

— 8 28 28. 7

0 49.1

18 32 37.9

— 8 27 39. 0

4782

Grooinbridge2627

7

3 May

15

32 36. 2

30.9

+40 44 24. 6

1 8.3

is :t:{ 7.1

+40 45 32 9

4783

Groombridge2629

7

3 May

31

32 53. 3

32. 2

+38 10 13.6

1 4.0

IS 33 25.5

+38 11 17.6

4784

28 Sagittarii .

7

3 July

10

33 18.3

58.0

—22 36 9.8

0 54.9

18 34 16.3

—22 35 14.9

4785

Lalande 34772 .

8.9

3 Sept.

7

33 50. 4

41.8

+19 15 57.5

0 44.4

18 34 32.2

+19 16 41.9

4786

4 Aquibe .

3 July

27

33 56. 4

48.3

1 51 33.3

0 52.4

18 34 44.7

+ 1 52 25. 7

4787*

"...

4 Sept.

15

33 58. 7

45.4

+ 1 51 19.0

0 44.4

34 44. 1

52 3. 4

4788

5 Aquilse

3 Aug.

20

35 19.7

49.6

— 1 10 30. 1

0 52.7

18 36 o. :;

— I 9 37.4

4789

"...

6

:i Scut.

6

35 19.4

49.7

1 10 311.3

0 51.8

36 9. 1

9 38.5

4790

Lalande 34842 .

8

3 Sept.

6

18 35 2ii. 1

+ 49.7

— 1 10 39.2

+ 0 51.8

18 36 10. 1

— 1 9 47.4

(232)

GOULD — CATALOGUE OF STARS OBSERVED P.Y D AGELET.

233

Mean equinox I-1 0. 0

No.

Name

Mag-.

Date

App't a

Rcduct'i

App't c!

Reduction

a

(5

h tn s

s

O t II

/ //

Ii in s

O ' II

179]

6 Aquilse I

3 July 29

1- 35 4'.'. 4

+ 50.9

— 4 57 53. 9

+ o 55.6

1- 36 33.3

— 4 56 58. 3

4792

l'i.-izzi 1 T '. *

6

3 April 28

36 1.3

34.2

+36 20 15.7

1 16.8

18 3il 35.5

+3(1 21 32.5

4793*

( Sroombridge 2644

7

3 May 15

36 :>.(',

32.0

39 5 11.6

1 13.3

18 ill! 37.(1

+39 (1 21.0

4794

1 in Herculis . -

4 July 27

3(1 22. 7

40. 9

20 21 5. 2

o 53.9

18 37 3.H

+20 21 :,0. 1

4795

"...

6. 5

I Sept. 14

36 24.2

38. 6

20 21 15.2

ii 12.6

37 2. 8

21 57.8

4796

"

5

4 Sept. l.".

36 24.3

38.6

20 21 12.8

o 42.5

37 2.0

21 55.3

1797

Lalande 34904 .

7

:i May 13

30 54.8

35.8

32 58 0.4

1 14.1

18 37 30.6

+32 59 23. 5

1798"

4 Lyrse e1

:: May 15

(37)

39 26 49. 6

1 14. 1

IS (37)

+3!) 28 3. 7

4799*

5 Lyrse e'2

:: May 15

37 13.2

31.8

39 22

is 37 45.0

+39 24

4800

6 Lyrse f

4 Sept. 17

(37)

37 23 38.5

o 40:2

18(37)

+37 24 18.7

1801

it

5

4 O.'t. 9

37 2-.'. 5

31.3

37 23 30. 1

0 39.7

37 53 s

24 9.8

4802

U

1 Oct. 15

37 21.8

31.5

37 23 30.7

o 39.8

37 53.3

24 10.5

4803

7 Lyra' . . .

5

4 Oc.l. 9

37 24. 5

31.3

37 22 58.5

0 30.7

18 :i7 55.8

+37 23 38.2

1804

1 1 1 Herculis -

:: s,-pt. 2

37 28.6

43.7

17 57 13.8

o 50. 1

18 38 12.3

+17 58 3.9

4805

Lalande 35005,7 .

7

3 Aug. -.'ii

38 :'.7.7

48. 9

0 30 22.0

0 57. 1

1- 39 2il.il

+ o 37 19. 1

N806

Riimker t'>744

7

4 Sept. 15

39 I7V2

37.:.

23 17 17.3

O 47. 1

18 39 54.7

+23 IS 4.4

1 1807

it

7

1 Oct. 14

39 1 6.5

38.0

+23 17 11.3

(i 45.3

39 54.5

17 50.6

1808

Lalande 35025 .

6.7

:; May 31

39 1.2

60.6

—26 53 10.2

1 3.0

18 40 1.8

—20 52 7.2

4809

Piazzi 203

6.5

:: April 28

39 27. 3

43.0

+19 5 38.6

I 18.0

1- 10 10.3

+ 19 6 50.6

4810

Lalande 35045 -

0.7

3 May 13

39 48. 1

36.6

31 31 17.5

1 18.7

1- in 24.7

+:il ::2 36.2

4SI1

•<

6.7

3 May 15

39 4-.il

36.6

+31 31 18.2

1 17.7

40 25.5

32 35.9

4812

7 Aquilse .

3 Sept. 6

39 45.6

50.0

— 3 29 43. 1

o 58.7

18 4o 3i;.:,

- 3 28 44.4

1813

"...

7

1 Sept. II

39 48. -

47.2

3 29 43. 5

o 53.7

40 311.0

28 49.8

l-l 1

8 Aquilse .

3 Sept. 6

41) 1..".

50. 6

3 33

18 40 52. 1

— 3 32

4815

"

6

4 Sepl. 1 1

411 4.7

47.2

3 33 17.9

0 54. 0

40 51.9

32 23.9

t810

"...

4 Sept. 17

40 4.6

47.3

— 3 33 17.4

o 53.9

40 51.0

32 23.5

■IS 17

Lalande 35074,5 .

7

3 Aug. -.'n

411 35.9

45.0

+10 44 12.5

o 57.5

18 41 2O.0

+ 10 45 lo.o

4818

32 Sagittarii v1

G

:: July in

41 6.6

58. 1

-22 59 12. 5

1 5. 7

18 42 4.7

—22 58 3(1. s

4819

"...

3 July 12

41 7.7

58.1

22 59 43. 2

1 5. 0

42 5. S

58 37.(1

4820

K

C

3 Sept. 7

• 41 7.0

58.3

—22 59 33.3

1 6.(1

42 5.3

58 2(1.7

482]

Lalande 35110 .

6

:: July 27

41 34.7

35. 7

+31 23 26. 0

1 0.4

I- 42 10.4

+31 24 26.4

4822

■-■ Lm.T I>>

6

4 Oct. 9

41 46.2

33.8

32 34 36.9

0 46.2

1- 42 20.0

+32 35 211. 1

4823"

.1

4 Oct. 15

41 45.6

34.0

32 34 36. 9

0 411.2

42 19.(1

:;:, 2:;. 1

4824 "

9 Lyrse v-

3 May 13

41 49.4

30.2

32 18 21.2

1 21.1

18 12 25.6

+32 10 12.3

4825

"...

:; May 15

41 49.9

36.2

32 18 23.2

1 20.7

42 2H. 1

10 43.0

4826

"...

:i Sept. 2

41 49.2

0 3.-.. 7

32 is 49. -

ii :,:•,.:,

42 21.9

19 43.3

4827

"...

4 Sept. 1 1

(-11)

32 19 0.9

0 47.2

(42)

19 4-. 1

1828

it

4 Sept. 17

(41)

+32 19 1.2

0 40.9

(12 1

19 48. 1

1829

34 Sagittarii a

3 May 31

41 50.9

1 0.4

—26' 32 57. 9

1 7. 1

1- 12 51.3

—26 :H 50.8

1830

a

3 July 5

(41)

—26 32 48. 4

1 0.7

(42)

31 41.7

4831

Lalande 35130 -

8

3 Aug. 20

42 7.7

0 43.9

+13 43 16.8

0 59.0

is 42 51.6

+13 44 15.8

4832*

35 Sagittarii v-

3 July 8

42 3. 1

58. 1

—22 55 29. 2

1 7.1

18 13 1.2

—22 54 22. 1

4833

"...

:; July 10

42 2.5

r>.-'. 0

22 55 30.5

1 7.0

43 0.5

54 2:i.:.

1834

"...

3 July 12

42 3. 4

58.0

22 55 31.9

1 7. 0

43 1 . 4

54 24.9

4835*

"...

6

4 July 14

42 6. 0

54.0

—22 55 27. 8

1 2. 2

43 0.0

54 25.6

1836

in Lyrse /3

3 July 27

(42)

+33 7 21.7

1 0. 9

18(43)

+33 8 22.6

4837

112 Herculis- .

5

3 April 28

43 1.7

42.1

21 10 J8. 0

1 23.6

IS 43 43. 8

+21 11 41.(1

4838

"...

3 July 19

43 3.0

40.6

21 10 33. 1

1 5.0

43 43.6

1 1 38. 1

4839

"...

:s Sept. 6

13 2.6

4].0

21 '10 40.3

0 5(1.9

43 43. 6

11 37.2

1840

"...

6

4 Sept. 15

43 5.2

38.3

21 10 44.9

0 51.0

43 43.5

11 35.9

4S41

(12 Serpentis .

6

4 Sept. 17

44 58.5

43. 8

+ 6 21 36. 9

0 57.4

18 45 42. 3

+ 6 22 34.3

4842

37 Sagittarii f-

3 Juh- 12

44 50.8

57. 3

—21 22 28. 1

1 10. s

18 4:. 48. 1

—21 21 17.3

4843

"...

3 Sep't. 7

44 50.5

57.5

—21 22 20.8

1 11.2

45 4S.il

21 O.H

4844

63 Serpentis 6l

3 April 28

45 27.7

49.1

+ 3 55 59. 0

1 22.:,

18 46 16.7

+ 3 57 21.5

4845

"...

3 July 19

45 29. 1

47. 5

3 56 4.7

1 9.4

46 16.6

57 14. 1

1846*

"

3 July 27

4.-, 2.-. S

47. 5

3 56 7.9

1 8.5

4(1 10.3

57 16.4

4847

" . .

I Sep't. 14

45 31.7

44.(1

3 56 16.4

0 58. 9

4(1 16.3

57 15.3

1848

Serpentis 62

4 Sept. 14

45 ::::.:;

44. (1

3 Ml 15. I',

o 58.9

is 4(1 17.9

4- :; :.7 1 1.:.

1849

113 Herculis - .

6.5

3 \iiu-. '.'ii

45 38.0

40.3

22 23 o.o

1 2. I

18 Kl 18.3

+.'2 21 3.0

1850

" - - -

3 Sept. 2

1- 15 37.8

4- 40.4

+22 23 o. 1

+ 1 0.8

18 46 18.2

4-22 24 0. 9

30

(233)

234

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800.0

No.

Name

Mag.

Dati

App't a

Reduct'rj

App'l A

Reduction

a

<5

It III s

s

0 ' "

/

a

ll III s

0 / //

4S5J

9 Aquila- k

5.4

4

Oct.

9

18 45 32.6

+ -i • •"'

— 6 6 41.0

+ 1

1.9

IS 40 21.3

— 6

5 39. 1

4852

"

1.5

4

Oct.

14

45 32.7

48.6

6 6 43. 7

1

1.9

4fi 21.3

5 41.8

4853

n

4.5

4

Oct.

15

45 32. 4

4^.6

6 6 42.4

1

1.9

46 21.0

5 40.5

4854

Anonyroa .

7

3

May

31

45 22. 8

5S.7

—22 48 1.6

1

12.4

18 4fi 21.5

—22 4(

4855

11 Lyra '!'

6

3

May

13

46 1 1 . 1

33. -

+36 42 19. 0

1

18 46 11. 9

+36

43 47.2

4856

"...

7

3

May

15

46 11.1

33. 7

36 42 17.7

1

27.7

46 45. 1

43 45. 4

4857

Lalande 35329 .

7

4

Sept.

15

46 33.6

39.7

17 43 1-.7

0 56. 3

18 47 13.3

+17

4 1 45.0

4858

Lalande 35333 .

6

4

Sept.

15

46 37.0

39. Ci

17 50 55. 7

0

56.5

18 47 16.6

+17

51 52.2

4859

12 Lyra; <5-

3

May

13

46 56.2

:;::. 9

36 37 43.3

1

29. 3

18 47 30. 1

+36

30 12.6,

4860

"...

3

May

15

46 58. 1

33.8

36 37 41. 3

1

28.8

47 31.9

30 10. 1

4861*

Lalande 35367,8 .

6.7

3

July

111

47 21.6

43.5

14 33 33.4

]

13.3

18 48 5. 1

+ 14

34 46.7

m;.'

2388 Bradley . .

6

3

Aug.

20

48 56. 1

35.3

32 38 10.4

1

5.5

18 49 31.7

+32

39 15.9

4863

Ill Aquila-

4

Sept.

17

48 54. 8

41.2

+ 13 37 52.7

1

0.4

18 49 36.0

+13

38 53. 1

4864

38 Sagittarii C

3

July

5

48 51.5

61.3

—311 10 11.9

1

16.7

18 49 5-.'. 8

—30

S 55.-.'

4865*

"...

3

July

8

48 51.3

61.3

30 10 19.2

1

16.5

49 52.fi

9 2.7

4866

"

3

Sept.

6

48 51.6

61.4

3<> 10 29.6

1

19.5

49 53. 0

9 10.1

4867

"

3

Sept.

7

48 51.8

61.3

30 10 1::. 2

1

19.5

49 53.2

s 53.7

4868

"...

3.4

4

Oct.

15

48 54. 7

57.9

—30 it) •.'6.:;

1

14.5

49 52.6

9 11.8

4869

11 Aquila;

3

Sept.

2

49 9. 1

41.2

+ l:: -jn 56.11

1

7.5

IS 49 53.3

+13

22 3. 5

4870

"...

4

Sept.

17

(49)

13 21 0.7

1

0.8

(49)

22 1.5

4871

13 Aquila; e

3

May

13

49 48.7

44.4

14 46 52.2

1

29.3

18 50 33. 1

+ 14

48 21.5

4872

"

3

May

15

49 49.2

44.4

14 46 57.9

1

28. 9

50 3:;. 6

48 26. 8

4.-::!

•'

3

July

10

49 49.2

4:'.. 4

11 47 0.7

1

16.8

50 32.6

48 23. 5

4874

ti

3

July

19

49 49.7

43.3

14 47 8.3

1

15.0

50 33.0

)8 -j:;. ::

4875

"...

3.4

4

Oct.

it

49 52.0

41.2

11 47 18.7

1

0.9

50 33.2

48 19.6

4876

"...

3.4

4

Oct.

14

49 52.2

41.3

+14 47 20.3

1

1.0

50 33.5

48 21.3

4877

Lalande 35472,3 .

8

3

July

12

49 44. 3

50.8

— 4 43 47. 3

J

16.7

I- 50 35.1

— 4

12 30.6

4878

12 Aquila; i

4

Sept.

14

50 11.2

48; 0

6 1 39. 3

1

7.8

1- 50 59.2

— 6

0 31.5

4879

"

4.5

4

Sept.

15

50 11.6

48.0

6 1 39.fi

1

7.8

50 59.6

0 31.8

.1— N

" . .

4.5

4

Sept.

16

50 11.5

48.0

— 6 1 43. 0

1

7.s

50 59.5

0 35.8

4881

14 Lyra' y

3.4

3

Aug-.

20

50 52. 6,

35. 5

+32 24 12.3

1

6.8

18 51 28.1

+32

25 1 9. 1

4882*

14 Aquila; g

6

3

July

12

51 32.4

51 1. 5

— 3 59 51.9

1

19.1

18 52 22. 9

— 3 58 32. 8

4883

39 Sagittarii o

3

3

April 2S

51 42.fi

59.3

22 2 29. 0

1

22. !>

18 52 41.9

—22

1 6. 1

4884

"...

3

July

5

51 43.5

57.6

22 2 22. 8

1

20.1

52 41.1

1 2.7

1--:.

" . . .

3

Sept.

6

51 43.8

57. 7

22 2 34.8

1

20.9

52 41.5

1 i:;. 9

1--6

"...

4

July

14

51 47.0

53.6

22 2 26.ii

1

14.4

52 lo.fi

1 ll.fi

4887

15 Aquila' /(

6.7

3

July

12

53 33.9

50.7

4 20 19.4

1

22.0

18 51 2l.fi

— 4

IS 57.4

4888

46 Sagittarii r

3

May

31

53 26.3

61.0

27 58 5.6

1

22.5

18 51 27.3

—27

56 43. 1

4889"

"...

3

July

8

53 26. 5

60. 2

27 58 8.9

1

22.7

54 26.7

56 46.2

4890

"

3

Sept.

7

53 26. 9

en.;;

—27 58 4. 5

1

25.1

54 27.2

56 39.4

4891

Lalande 35672 .

8

3

July

19

54 22. 6

44.2

+ 12 41 9.1

1

21.5

18 55 6.8

+ 12

42 30.6

4892

Lalande 35674 .

7.8

3

July

10

54 26.3

40.9

20 57 32.0

1

23.3

18 55 7. 2

+20

58 55. 3

4893

"...

6.7

3

Sept.

2

54 26.4

41.1

20 57 43.9

1

13.3

55 7. 5

58 57.2

4894

17 Aquihr f

3

July

19

55 28. 8

43.9

13 33 10.0

1

22. 9

18 56 12.7

+ 13

34 32.9

4895

"...

3

Aug-.

20

55 2H.2

43. 9

13 33 17. 5

1

17.7

56 13. 1

34 35.2

l-:n;

Lalande 35758 .

8.9

3

July

12

56 8.7

48.9

0 19 11.4

1

25. 5

18 56 57. 6

+ 0

20 36.9

l-o;

18 Aquila- . .

:;

July

27

56 47.9

44.9

+10 45 0.9

1

23. 7

IS 57 32.8

+ 10

46 24.6,

4898

41 Sagittarii it

5.6

3

May

13

56 53. 4

5-.:.

—21 21 7.3

1

29. 7

IS 57 51.0

■-'1

10 57.6

4899

"...

3

May

15

• 56 54.4

58.5

21 21 7.2

1

29. 5

57 52.9

19 37.7

4900

"...

::

May

31

56 5:;. 7

58.0

21 20 59. 0

]

28. ;

57 51.7

19 30. 3

4901

..

3

July

8

56 54.9

57. 3

21 21 5.8

1

27.2

57 52.2

10 38.6

4902

"...

3

Sept.

6

56, 5 1.6

57. :;

21 21 6.8

1

27.7

57 51.9

19 59. 1

4903

"

5.6

4

Sept.

14

56 57. 9

53. 5

21 21 5.4

1

21.4

57 51. 4

19 ll.il

4904

"...

1

Sept.

15

56 57. 7

53.5

21 21 6.8

1

21.4

57 51.2

19 15. 1

4905

"

!

Sept.

16

56 58. ]

53. 5

21 21 7.6

1

21.4

57 51.6

19 46.2

4906

(t

4

4

Oct.

15

5(5 58. C:

54.0

—21 21 11.9

]

21.7

57 52.fi

19 50.2

4907

Lalande 35851 .

6.7

1

Sept.

17

58 19. 1

in.2

+ 16 32 48.8

1

11.7

18 58 59. 3

+ 16

34 0.5

4908

"...

1

Oct.

14

58 1-.:;

40.7

16 32 45.0

1

11.3

58 59. 0

33 56. 3

4909

Lalande 35880 .

6

!

Sept.

17

:>'.) 2. 9

40.2

16 31

18 5'.l 43. 1

+ 16

52

4910

"...

'

Oct,

14

18 59 2.6

+ 40.7

+16 31 41.2

+ 1

12.2

1- 59 i::.:;

+ 16

32 53.4

(■;:: 1,

GOULD — CATALOGUE OF STARS OBSERVED I'.V D AGELET.

I^.'i

Mean equinox 1800. o

No.

Name

Mag.

Dale

App'i a

Reduct'n

App't 6

Seduction

a

,!

It m s

s

O 1 II

/ ,/

h

tit a

/ //

1911*

17 Lyras . . .

6

3

Aug. 20

18 59 15.9

4- 35.7

-f-32 in 19.8

+ 1 20.2

is

59 51.6

+ 32 11 4(1.0

1912"

1- Lyrse t

3

July in

59 36.5

33. (1

35 1(1 11.5

1 30.8

19

ii Hi. 1

[ 35 17 45.3

4913*

" ...

3

July 19

59 36.2

:;:;. :,

-4-35 in 15.0

1 28. 1

0 9.7

47 43. 1

4914

Til? Mayer

3

July r>

59 33. 1

7,7.7,

—21 7,9 55.9

1 30. S

19

ii 30.6

—21 58 25. 1

1915

tc

8

3

Sept. 11

59 33. 3

57.5

22 0 5.7,

1 31.5

0 30.8

58 34.il

4916

"...

(i

3

Sept. 7

18 59 33. 3

7,7.(1

21 59 7,4.11

1 31.4

ii 30.9

58 23.2

4917

•jo Aquilse

3

May 13

19 ii 56.3

53.3

8 17 19.9

1 38.9

19

1 49.0,

— 8 15 41.0

1918*

"...

3

July 27

ii 57.6

52.0

8 17 12.3

1 31. I

1 49.(1

15 41.2

4919*

Bessel, W.91

5. 6

3

May 15

1 10. 11

54.9

12 37 7,:;. i;

1 37. S

19

2 5.5

— 12 30 15.8

4920

((

6

3

May 31

1 9.7

54. 5

12 37 49.8

1 30.2

2 4.2

36 13.0

4921

Piazzi 19 .

7.8

:;

July 19

2 15.9

32. 6

37 27 10.9

1 32.0

19

2 48.5

+37 28 42.9

4922

Lalande 36062 .

7.8

4'

Oct. 1

2 24.4

43.4

+ 8 15 19. 1

1 1-.7

19

3 7.8

+ 8 17 7. 8

4923

42 Sagittaiii i/>

3

July 5

2 I7.H

59. 0

—25 36 39.9

1 34. 1

19

3 10.0

—25 35 5. 7,

4924

"...

3

Sept. 11

2 17.2

59.0

—•75 36 18.7

1 30.2

3 16.2

35 12.5

4925

21 Aquilse

6

3

Aug. 20

2 49. 4

48.3

+ 1 56 24. 1

1 30. 1

19

3 37.7

+ 1 57 54.2

4926

[4

3

Sept. 2

2 19.2

48. 4

1 56 24.2

1 29.2

3 37.6

57 53. 4

4927

"...

5. 6

4

Sept. 1 1

2 7,2.0

45. 2

1 56 30. 8

1 21.6

3 37.2

57 52. 4

4928

"...

0

4

Sept. 16

2 .',2. 1

45. 3

1 56 25.9

1 21.7,

3 37.4

57 47. 4

"...

5

4

Sept. 17

2 7,2. 2

45. 3

1 56 32. 1

1 21.4

3 37. 5

57 53. 5

4930

Flamsteed, B.259]

7

3

Sept. 7

3 2n.ll

41.1

21 12 15.8

1 25.0

19

4 1.7

+21 13 40.8

4931

Tiazzi 27 . . .

6

4

Oct. 9

3 32.6

30.8

38 49 32. 9

1 12.8

19

4 3.4

+38 50 45. 7

4932*

Groombridge 2782

6.7

3

July HI

4 13.6

711.(1

40 4 41.0

1 37.7,

19

4 44.6

+40 6 18.5

4933*

"...

7.8

3

July 12

4 14.2

31. 0

40 4 39.6

1 36.9

4 45.2

6 16.5

4934

Lalande 36146 .

(i

3

May 13

4 10.2

46.0

11 21 0.9

1 48.6

19

4 7,0.2

+1 1 22 49. 5

4935

Piazzi 30 . . .

7

3

July 19

4 42.5

31.7

39 3 50.7

1 35.4

19

5 14.2

+39 5 20. 1

1936

"...

4

Oct. 9

4 44. f»

30.7

+39 4 12.9

1 14.2

5 15.2

5 27.1

4937

Lalande 30173,4 .

6.7

3

May 15

4 30.1

53.6

— 93 24. 2

1 43.4

19

5 23.7

— 9 1 40. 8

4938

43 Sagittaiii d

6

3

July 14

4 58.8

56.3

19 19 19.0

1 37. 8

19

5 55.1

—19 17 41.2

4939

"...

3

Sept. 6

4 58.7

56.4

19 19 21.3

1 38.0

5 55. 1

17 43.3

4940

"...

5

4

Oct. 15

5 2.5

53.1

19 19 20. 1

1 31.4

5 55.6

17 48.7

1941

Lalande 36205 .

7

3

July 5

5 16.8

—16 20 5. 0

1 38.6

19

6 12.0

— 10 18 26.4

49 12

LaUtnde 36207,8 .

6.7

3

Ann-. 20

• 5 29.8

43.5

+14 43 9. 1

1 31.6

19

6 13.3

+14 44 40.7

4943

22 Aquilse

3

May 31

5 49.0

48.1

4 27 52.7

1 46.2

19

6 37.1

+ 4 29 38.9

4944

"

3

July 27

5 50.0

47.3

4 27 59. 1

1 36.6

0 37.3

29 35.7

4945*

1 Sagittse

4

Sept. 15

6 1.8

38.5

20 52 4. II

1 20.7

19

0 40.3

+2(1 7,3 24.7

4946

"

4

Sept. Ill

6 1.0

38. 5

20 52 4. 1

I 20.6

0 39.5

53 24. 7

4947

20 Lyrse n

3

July 10

11 21.7,

31.9

38 46 7,7. 1

1 40.6

19

0, 56, 1

+3-' 48 38. C

4948

"...

3

July 19

6 24. 8

31.1

38 46 57.7

1 37.8

0, 55.9

48 37,. 7,

1949

"...

3

Sept. 7

(1 24.7,

32.4

38 47 8.5

1 26.3

(1 7,0.9

48 34. 8

1950

a

5

4

Oct. 9

6 20. 4

30.9

38 47 15. 7

1 16.3

0 57. 3

48 32. 0

49:, 1

tt

6

4

Oct. 14

(i 2C,.:i

31.0

38 47 13.4

1 16.4

6 57.3

48 29. 8

4952

Lalande 36268 .

6

4

Oct. 1

il 36.2

41.3

+14 10 39.6

1 22.2

19

7 17.5

+14 12 1.8

4953

7 7 ."> Mayer

7

;;

Sept. 6

6 40. 3

55.0

—15 53 53. 4

1 39.2

19

7 35. 3

—15 52 14.2

4954

1 Vulpeculse

6

:;

Aug. 20

6 55. S

41.11

+21 1 15.2

1 32. 1

19

7 30.8

+21 2 47.6

1955

"...

4

Sept. 14

6 58. 1

:;-. 1

21 1 25. 1

1 22.0

7 36.5

2 47.1

4956

tt

4

Sept. 15

6 58. 1

38.5

21 1 23.1

1 21.9

7 30.0

2 45.0

1957

2429 Bradley" '.

6

::

May 15

7 28. 1

50.2

0 2 27. 1

1 50.0

19

8 18.6

+ 0 4 17.1

4958

25 Aquilse ul

5

::

May 13

7 39.9

46.1

11 12 45.3

1 53.6

19

8 26. 0

+11 14 38.9

4959

"...

G.7

4

Oct. 9

7 43.4

42.5

+ 11 13 11.7

1 2I.C,

s 25. 9

14 36.3

4960

24 Aquilse

6

3

May 15

7 47.8

50.2

—02 34. 2

1 50.5

19

8 38.0

— 0 0 43. 7

490 1

77(1 Mayer

6.5

4

Sept. 17

7 4 1. 1

53.9

—22 47 13.8

1 35.5

19

8 38.0

—22 45 38. 3

4962

Lalande 36336 .

7

3

July 14

8 17.3

40. 8

+21 26 9.9

1 41.8

19

8 58. 1

+21 27 51.7

4963

Lalande 36348 .

8

4

Oct. 1

8 31.4

41.3

14 5 45.9

1 24.8

19

9 12.7

+14 7 Ki.7

49114"

1'iazzi (14 .

6.7

3

May 31

8 34.0

4(1.4

9 14 9.6

1 51.0

19

9 2K.4

+ 9 16 0.6

4965

21 Lyrse 0

3

July HI

8 52. 9

32.6

37 45 22. 1

1 il. 1

19

9 27,. 5

+37 47 6.2

4966

tt

3

July 12

- 5 !. I

32.(1

37 45 23. 7

1 43.5

9 2(1.0

47 7.2

1967

il

3

July 19

8 7,::. :;

32.(1

+ 37 45 -J4. B

1 41.4

9 25. 9

47 (1. 2

4968

44 Sagittaiii p'

5

4

Oct. 15

9 In. 9

7,2. 0

—18 14 20.8

1 36.2

19

10 3.5

—18 12 44.6

1969

40 Sagittaiii v

3

July r>

9 21.0

7,7,. -J

16 20 40.6

1 44.(1

19

10 16.2

— Id 18 56.6

4970

27 Aquilse d

3

July 27

19 9 .'il. -

+ 49. 1

— 1 16 49.4

+ 1 4J.9

19

HI 10.2

- 1 15 7.5

(235J

236

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mni.

Date

App't ii

Rcduct'n App't ri

■ Reduction

a

(5

// in s

s

o / //

/ a

h in s

o ' II ■

497J

28 Aquifce A

6

3 Aug. -in

19 9 34.6

+ 44.0

+11 59 13.2

+ 1 57.5

19 10 19.2

+12 0 50.7

1972

29 Aquilse u'2

7.6

1 Oct. 9

9

1 1 8 52. 2

1 27.5

10 111

+ 11 10 J0. 7

4973

Lalande 36409 .

7.8

3 Sept. 7

9 57. 2

32.5

38 41 39.0

1 31. 1

19 10 20.7

+ 5- 40 10.1

4974

Lalande 36431,3

7

4 Sept. 28

in 23.3

36.4

26 52 43.3

1 24.0

19 10 50.7

+20 54 7.3

4975

"

7

4 Oct. 1

111 24. 4

36. 3

26 52 4:'. ii

1 23.8

II n.7

54 12.8

4976

(<

7

4 Oct. 14

in 23.9

36.7

+20 52 40 4

1 25. s

11 0.0

54 4. 2

-111? 7

Lalande 36489 .

6

3 May 15

11 15. 1

50.5

- n 39 0.6

1 55. 1

10 12 5.6

— 0 57 5.5

4978

LI

6

4 Sept. 10

11 18.0

40.1

— 0 38 49.3

1 32.0

12 4.1

37 10.4

1979

Lalande 36505 .

7

3 July 14

11 41.4

40.7

+21 48 14.9

1 40.0

19 12 22. 1

+21 5ii 1.5

4980

a

7.8

3 July 19

11 41.7

40. 6

+21 48 10.4

1 45.4

12 22.5

50 1.8

1981*

47 Sagittarii ,\l

:; Sept. 6

12 6.9

58.6

—24 51 53.4

1 49.0

19 13 5.5

—24 5:t 4.4

4982

48 Sagittarii \:

3 Sept. 0

12 1 1. 1

58.5

—24 49 3.4

1 49.2

10 13 12.6

—21 47 14.2

4983

Lalande 36542

7.6

4 Oct. 9

12 33.6

4:s. o

+ 9 30 29.7

1 31.2

10 13 10.0

+ 0 32 0.0

4984

.".ii Sagittarii - .

(i

4 Sept. 15

13 29.0

53.6

—22 11 22.0

1 42.3

19 14 22.0

—22 0 40.3

4985

Lalande 36610 .

7

:; July 29

13 5:!. 2

44. 9

+ 11 I 5!!. 7

1 40.8

10 14 38. 1

+ 11 3 40.5

1986

3 Vulpeculae

6

3 May 31

13 59.6

39. 6

25 51 10.2

2 1.7

19 14 50.2

+25 55 17.9

4987

"

6. 5

4 Oct. 14

1 4 2. 4

37. 1

25 51 42.5

1 28. 1

14 50.5

53 10.9

1988

Riimker7384

6

:; May 13

11 3. 3

44.4

15 30 5.4

2 3. 0

10 14 47.7

+ 15 38 0. ii

4989

Lalande 36628,30

7

4 Sept. 28

14 31.0

33. 6

. 33 7 8.4

1 27.8

19 15 4.0

+ 55 3 55.2

4990

"...

7.G

4 Oct. 1

14 30.5

33.7

33 7 11.2

1 27.8

15 4.2

8 39. 0

4991

Lalande 36629 .

7

:: July 14

14 23.0

41.5

19 51 17.3

1 50.2

10 15 4.5

+19 53 7.5

4992

"...

6

3 Aug. 20

14 23. I

41.5

19 51 25. 2

1 42.8

15 4.6

53 8.0

4993

2 Sagittse . .

4 Oct. 15

14 42.2

4H.7

16 31 53. 0

1 31.7

19 15 22.0

+ 10 33 21.7

4994*

30 AquiUe <5

. \jnil 28

14 34.8

49.9

2 II 36.4

2 8.2

10 15 24.7

+ 2 43 44.6

1995

•'

3 May 15

14 36.4

49. 4

2 4141.5

2 5.1

15 25. -

43 46. 6

4996

"...

3 July 12

14 36.8

48.2

2 41 45.2

J 51.0

15 25.0

43 34.2

4997

"

3 July 19

14 36.6

48. 1

2 41 47.3

1 40.4

15 24.7

43 36.7

1998

"...

3 July 27

14 36.3

48. 1

2 41 47.2

i 47.0

15 24.4

45 34.8

1999

"...

I Sept. 16

14 39.4

45. 0

2 41 56.2

1 36. 1

15 24.4

43 5,2. 5

5000

51 Aquilse b

6

■1 Oct. 9

14 42.6

42. 4

11 29 50.5

1 32.9

19 15 25.0

+11 -31 23.4

5001

Lalande 36654,5 .

6.7

:; Sept. 7

15 5.4

33.2

37 in 33.1

1 38. 1

19 15 38.6

+5,7 12 11.5

;,i ii 12

3 Sagittse

4 Oct.- 15

15 5.2

4H.7

10 32 50.4

1 52. 1

19 15 45.9

+ 10 34 28.5

: .;

Lalande 36663,4

7

1 Sept. 2 ■

15 27.9

33.8

32 48 19.7

I 29. 1

19 10 1.7

+52 40 48.8

51 'i 1 1

"...

6.7

4 Oct. 1

15 -27. 4

33.8

32 4- 29.5

l 28.8

16 1.2

10 58. 3

5005

2457 Bradley . .

7

3 July 14

15 58. 4

4 1 . 5

19 51 2H.7

1 52.4

10 10 50.0

+ 10 55 15,. 1

5006

tt

6

3 July 26

15 57.9

41.5

19 51 16.8

1 49.8

16 39. 4

55 0.0

5007

"...

6

3 Auo:. 20

15 59.0

4 1 . 5

19 51 22.11

1 44.9

10 4ii.5

55, 0.9

5008

"...

7

4 Oct. 14

16 ii. 1

39. 5

19 51 37.0

1 32.5

10 39.6

53 9. 5

5009*

4 Vulpeeulse .

6

3 May 13

111 0.3

42. 9

19 23

19 10 43.2

+ 19 21

5010

"...

o

4 Oct. 9

10 2. 3

39.6

19 23 26.5

1 32.6

10 11.0

24 59. 1

5on

3 1 '\ ::'lii .

7

3 May 31

16 29.2

40.2

+24 31 45.6

2 4.8

19 17 9.4

+24 33 50.4

51 i i 2

Lai lie 8120

6.7

:; Sept. 6

16 18.7

61.9

-32 31 10.0

1 54.0

10 17 20.0

—52 20 10.0

5013'

5 Vulpeculse -

0

3 May 13

10 46.5

42. -

+19 40 29. 3

2 8. 1

10 17 20.5

+ 10 42 37.4

51 1 1 !

"...

3 July 14

16 48.0

■11. 0

19 40 44.0

1 53.2

17 29.6

42 5-. 1

5015

"...

0.5

3 July 26

16 47.0

41.5

19 40 43.5

1 50.8

17 20. 1

42 34.3

5016

"...

3 July 27

16 47.4

41.5

19 40 47. 1

1 50.7

17 2-. 0

42 37.8

5017

"...

6. 5

:; Aug. 20

16 48.2

41.6

in in 40.0

1 46.0

17 29.8

42 35.0

5018'

"...

4 Sept. 16

16 49.6

39.0

19 4n 58.5

1 34.4

17 28.6

42 32. 9

5019

"...

0

1 Oct. 14

10 49.6

39.6

19 40 57.0

l 33.5

17 20. 2

42 31.1

5020

2462 Bradley

0

4 Oct. 9

17 4.4

39.5

19 28 39.2

1 33.8

19 17 45.0

+19 30 13.0

502J

Lalande 50754

6.7

3 .Tuly 26

17 5. 0

42. 5

19 50 15.8

1 51.2

19 17 4-. 1

+19 52 27.0

5022

Lalande 50774

7

3 Sept. 7

17 38.6

33.7

36 49 46.6

1 41.9

10 L8 12.3

+36 51 28.5

5023

Piazzi 133

6

3 May 15

17 29.7

49. 4

4- 2 30 7.7

2 4. 5

10 18 10.1

+■ 2 32 12.2

5024

Lalande 36791

li

3 July 5

17 43.4

5 1 . 8

- 7 28 24. 4

1 55.5

10 18 55.2

-7 20 38.-9

5025

55 Aquilse c

7

l Sept. 15

18 8.0

45. 3

+- 1 51 20.0

1 40.8

19 18 53. 9

-1- 1 33 6. 8

5026

4 Cygni . . . '

6.7

4 Sept. 28

1- 24.0

32. 3

35 53 52.0

1 32.2

19 18 50.9

f 55 55 25. 1

5(1-27

6.7

4 Oct. 1

18 24.7

32. 4

35 53 59.0

1 32.0

18 57. 1

55 31.0

5028

Piazzi 139 . .

7

3 July -.'7

18 29.3

41.5

19 49 6.9

1 53. 1

10 10 10.8 ■

f 19 51 0.0

5029

■■

7

4 Oct. 11

18 31.2

39.5

19 40 22.5

1 35.0

io in.;

50 57.0

5030

Piazzi 144 . .

6.7

3 May 15

19 19 19.3

4- 49. 4 -

f 2 -J-' n.7 -

f 2 6.9

19 20 8.7 -

f 2 50 7.0

(236)

GOULD— CATALOGUE OE STARS OBSERVED BY D AGELET.

237

Mean . quinox 181 0.0

No.

Name

Mag

Dal.

App't a

Reduct'n

App't J

Reduction

a

<!

It m a

s

0 ' //

/ //

li m 's

o / 11

503)

36 tVquilse e

6

3

July

12

19 19 21.7

+ 50.2

— 3 13 36.9

+ 1 57. 1

19 20 11.9

— 3 1 1 39. B

5032

5 Cygni . . -

li.7

::

July

I'.P

19 41.5

37.6

+29 1 -.o

1 56. 1

19 20 10. 1

+29 3 4.4

6 Vulpeculse -

::

M:i\

13

111 42.3

40.9

24 13 58.2

2 13.3

19 20 23.2

+24 li; li.:,

5034

"...

0

3

May

31

19 42.8

40.4

24 14 4.2

2 0.2

20 2:'.. 2

16 ]".. 1

5035

"...

4.5

::

Aug.

20

19 4:;. o

39.7

24 14 18.4

1 49.3

20 22.7

16 7.7

5036

8 Vulpeculse .

7

::

Maj

13

19 r>r>. 2

40. 9

24 19 46. 9

2 13.8

19 -jo 36. 1

—21 22 o.7

5037

"...

7

3

May

31

19 :,:..:

40.4

24 19 54.8

2 9. 3

20 36. 1

22 4. 1

5038

7 Vnlpeculse .

:;

Julj

26

19 55.5

41.5

19 50 38.9

1 55. 1

10 2o 37.0

+19 52 34.0

,i .; I

"...

3

July

27

19 05.5

41.5

19 50 40.8

1 54.9

20 37.0

52 35. 7

5040

" ...

fi

3

Julj

29

19 55.9

41.5

19 50 40. 0

1 54.4

20 37.4

52 34. 4

5i 1 1 1

"...

li

4

Sept.

ID

19 58. 1

39. 0

19 50 54.0.

1 38. 1

20 :S7. 1

52 32. 1

"...

7

4

Oct.

0

19 58. 1

39.4

19 50 57. 8

1 36.9

20 ::7.r.

52 34.7

5043

"

6

4

Oct.

14

1 9 58. 3

39.5

19 50 55. 9

1 37.4

20 37.8

52 33.3

51 i 1 1

Lalande 36927 .

7.8

1

Sept.

14

-.'o 48.6

39.9

17 15 31.9

1 40.0

10 21 28.5

+17 17 11.9

5045

"...

8

1

Sept.

15

20 48. 8

40. 0

17 15 20. 0

1 40.0

21 28.8

17 6.9

5046

l'iazzi 157

7

3

.Sept.

7

21 42.1

35. 1

:::, 50 36.4

1 15.3

19 22 17.2

+35 52 21.7

5047

"...

7.8

4

Oct.

;>

21 44.2

32.7

35 50 47.0

1 35.9

22 16.9

7.2 22.0

5048

Piazzi 158 . .

6.7

3

Julj

10

21 31.1

46.6

7 2 32.5

2 0.6

22 17.7

+ 74 33. 1

5049

6 Cygni (i

3

April

28

21 58.5

40.0

27 30 38.3

2 19.9

19 22 38.5

+27 32 58.2

51 61 1

4

Sept.

16

22 2.8

35.3

27 31 14.2

1 39.3

22 38. 1

32 53.5

505]

tc

3.4

4

Sept.

28

22 3. 2

35.5

27 31 11. s

1 38.3

22 38. 7

32 50. 1

"...

4

Oct.

1

22 3. 9

36.3

27 31 13.5

1 38. 1

22 10.2

32 51.6

5053

Comp. J Cygni .

6

4

Oct.

1

22 5. 9

36.3

27 31 37.7

1 38. 1

19 22 42.2

+27 :::; 15.8

51 6 1

Piazzi 163

8

3

July

5

22 39. 1

41.4

21 1 28 54. 0

2 :i. 8

19 23 20.5

+20 3" 57.8

51 155

Piazzi 164

6.7

3

Si pt.

7

22 58. 1

34.4

35 47 5. 0

1 49.3

19 23 32.5

+35 I- 54.3

5056

u

6

4

Oct.

9

23 0. 4

32.7

35 47 15.7

1 37.4

23 :;::. 1

48 5:;. l

5057

xYuonyma .

6

3

July

26

23 4.7

42.6

17 17 43.7

1 59.4

19 23 47. 3

+17 io 4:;. l

5058

"...

6

:i

July

27

23 5.0

42. 6

17 17 44.2

1 59.2

23 47. 6

19 43.4

5059

it

6.5

3

JiUy

29

23 5. 2

42.6

+ 17 17 43.2

1 58.8

23 47. 8

10 42.0

5060

37 Aquilje k

4

Oct.

14

23 15.7

49. 9

—11 1 3.9

1 51.0

19 24 5. 6

—10 59 12.9

5061

38 Aquilae y.

3

July

10

23 32.4

46. 6

+ 6 55 53. 9

2 3. 3

19 24 19.0

+ 6 57 57. 2

5062

tc

3

July

12

23 32. 1

46.6

6 55 .".2. 9

2 3.0

24 18.7

57 55.9

5063

(1

3

July

14

23 32.4

46.5

6 55 54. 1

2 2.6

24 18.9

57 56. 7

5064

8 Cygui . . .

3

May

::i

23 44.6

35.8

3:! 59 56.3

2 16.5

19 24 20. 4

+34 2 12.8

5065

it

3

Aug.

20

(23)

45. 0

:;i o 13.0

1 4S. 5

(2!)

2 1.5

5066

Lalande 37086 .

6.7

4

Sept.

14

24 36.6

45. 0

2 27 5. 1

1 48.6

19 2.". 21.6

+ 2 28 53. 7

5067*

c«

7

1

Sept.

15

24 37. 1

45. 0

2 27 4. 0

J 4*. 5

25 22. 1

28 52.5

5068

Lalande 37106 .

7.8

:i

July

5

25 5.5

39. 3

25 36 3. 7

2 7.4

10 2.". 44.8

+25 38 11.1

5069

9 Vulpeculae . .

6

:;

July

29

25 5. 9

41.8

+19 1- 44.7

2 1.4

19 25 47.7

+ 1!; 2i 40. 1

5070

41 Aquiku <

O

July

12

(25)

— 1 45 13.0

2 5.3

— 1 43 7.7

5071

"...

4

Sept.

16

25 35.5

46.4

1 45 1.5

1 50.8

26 21.9

43 10.7

5072

"...

4

Sept.

17

25 ;;:.. -

46.4

1 44 57.4

1 50.8

26 22.2

43 6.6

5073

"...

6

4

Oct.

1

25

1 44 56.9

1 50.5

26

43 0.4

5074

" . . .

4.5

1

Oct.

9

25 36.2

46.7

1 44 59.7

1 49.4

26 22. 0

43 10.3

5075

it

6

4

Oct.

14

25 35.6

40. 8

1 45 0.9

1 50.4

26 22. 1

43 10.5

5076

"...

6

4

Oct.

15

25 34. 6

46.8

— 1 45 0. 8

1 50.7

20 21. 1

43 10. 1

5077

Groombridge 2870

7

3

Sept.

7

26 5. 1

:;:;. l

+38 18 7.9

1 51.5

19 20 38.2

+38 19 59.4

5078

12 A. puke

6

4

Oct.

14

26 22.4

47.9

— 5 6 50. s

1 52. 3

19 27 10.3

— 5 4 58.0

5079

"...

6

4

Oct.

15

(20)

— 56 53.8

1 52.7

(27)

5 1.1

5080

Lalande 37188 .

6.7

3

May

15

26 49. 2

36.7

+33 19 24.7

2 24.6

19 27 .T..'.l

+:;:; 21 49.3

5081*

Bessel, W.928 .

7

3

July

27

26 53. 5

40.6

22 7 2.3

2 4.3

19 27 34. 1

+22 9 6.6

5082

1 1

6.7

3

July

29

26 54. 2

40.6

22 7 0. 9

2 3.8

27 34.8

0 4. 7

5083

Lalande 37206 .

7.8

3

May

31

27 11.9

31.5

+41 27 21.4

2 22. 4

19 27 43.4

+41 29 43.8

5084

Piazzi 202 . -

7

4

Sept.

17

27 21.7

45.8

— 07 37.6

1 52.5

19 28 7.5

— 0 5 4f.. 1

5085

4 Sagittse e

3

July

9

27 30.8

43.3

+15 59 13. 0

2 9. 2

10 2- 14. 1

+16 1 22.2

5086

"

3

July

26

27 31.0

4:!. 1

15 59 13. 8

2 5.5

28 14. 1

1 19.3

5087

Flanisteed, B.2004

6

4

Oct.

14

27

41 57 12.7

1 42.2

10 28

+41 58 54.9

5088

Lalande 37262 .

7

4

Sept.

14

28 2.8

44.8

2 "4 22. 3

1 52.6

10 2- 17.0.

+ 2 56 14.9

5089

"...

7 *

4

Sept.

15

28 2.8

14. 5

2 54 20.7

1 54.0

28 47.3

56 10.7

5090

ii

7

4

Sept.

28

19 28 2.6

+ 45.0

+ 2 ."4 21. 8

+ 1 52.2

10 2- 47.6

+ 2 56 14.0

(237)

238

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox I8l 0.0

No.

Name

Mag.

Date

App't a

Seduct'n

App't <5

Reduction

a

<5

h m s

s

O 1 a

, n

h m s

o / //

5091*

Lalande 37262 .

7

4

Oct.

9

19 28 2. 3

+ 45.2

+ 2 54 22. 9

+ 1 52.3

19 2- 47.5

+ 2 56 15.2

5092

44 Aquila- a

3

July

10

28 31.9

47.3

4 54 5-. 7

2 9.8

19 29 19.2

+ 4 57 -.5

5093

i i

3

Juh

12

28 32.0

47.3

4 55 0.9

2 9.8

29 19.3

57 10.7

5094

"...

3

July

14

28 32.2

47.3

4 55 0. 1

2 9.9

29 19.5

57 lo.o

5095

Lalande 37310

6.7

3

July

5

28 54. 1

41.(1

20 18 18.3

2 12. 3

19 29 35.6

+20 20 3H.6

5096

'• . . .

8

3

July

8

28 53. 9

41.(1

20 1- 14.8

2 11.7

29 35.5

20 26.5

5097

"...

6.7

3

July

19

28 53.5

41.5

20 18 19.1

2 8.8

29 3,5.0

20 27.9

5098

Groombridge 2889

7

3

Sept.

7

29 21.5

33.2

37 54 35. 1

1 57.6

19 29 54. 7

+37 56 32.7

51 199

"...

6

4

Oct.

11

29

37 54 47.7

1 44.8

29

56 32.5

5100

Lalande 3733d, 1

7

3

July

9

29 39.6

43.2

+16 .5 9.1

2 18.5

19 30 22. 8

+16 7 27.6

5101

45 Aquilss

4

Sept.

14

29 38. 1

40. 1

— 1 6 22.7

1 55.6

19 30 24. 2

— 1 4 27. 1

5102

"...

6

4

Sept.

16

29 39.0

4(1. 2

1 (i 23.0

1 55.5

30 25. 2

4 27.5

5103

"...

4

Sept.

17

29 3.9.3

40.2

1 G 19.3

1 55.5

30 25. 5

4 23.8

5104

it

C.7

4

Oct.

1

29 38. -

4(1.4

1 0 15.9

1 54.9

30 25. 2

4 21.0

5105

" . . -

6

4

Oct.

15

29 38.6

4(1.(1

— 1 6 23. 8

1 55.4

30 25.2

4 28.4

5106

Groombridge 2893

6

3

May

31

29 56.6

29.8

+44 13 4.6

2 26. 5

19 30 26. 4

+44 15 3.1. 1

5 1 1 17

it

6

4

( let.

9

29 57.9

44 13 43.3

1 44.5

30 -J6. 1

15 27.8

5108

13 Cygni 0

4

3

July

27

30 39.7

24.6

+49 43 38. 3

2 9.8

19 31 4.3

+49 45 1-. 1

5109

55 Sagittarii e-

3

Sept.

6

30 9. 4

54.9

— 16 36 54.2

2 10.3

19 31 4. 3,

— 16 3,4 43.9

5110

5 Sagittse a

3

May

15

30 26.5

43.9

+17 31 26.1

2 26.1

19 31 10.4

+ 17 33 52.2

51 11

"...

3

July

19

30 26. 4

42.6

17 31 38.2

2 10.8

31 9. 0

33 49. 0

5112

12 Cygni <j>

3

July

26

30 50.9

3,7.4

29 39 51. 1

2 9.8

19 31 2-. 3

+29 42 0.9

5113

3

July

29

30 52. 0

37.4

29 33 54.7

2 8.9

31 29.4

42 3. 6

5114

"...

3

Aug.

20

30 51.6

37.4

29 39 57.2

2 3.7

31 29.0

42 0. 9

5115*

Lalande 37387 .

7

3

July

5

31 2. 1

41.8

19 59 10.2

2 15.0

19 31 44.2

+20 1 25.2

511(5

"...

8.9

3

July

8

31 2. 1

41.7

19 59 9. 1

2 14.4

31 43.8

1 23.5

5117*

6 Sagittce 0

3

July

9

31 21.2

12. 9

10 59 4.9

2 14.4

19 32 4. 1

+17 1 19.3.

5118

"...

3

July

19

31 21.2

42. 8

16 59 7. 3

2 12.1

32 4. 0

1 19.4

5119*

Groombridge "-'-97

7

3

May

31

31 56.8

20.3

48 47 3.9

2 29. 9

19 32 23.1

+48 49 33.8

5120

40 Aquilse

6.7

4

Sept.

16

32 7.0

41.9

11 41 56.5

1 55.2

19 32 48.9

+11 43 51.7

5121

14 Cygni . . .

3

S, pt.

7

32 25. 0

30. -

42 19 41.9

2 1.1

19 32 55. 8

+42 21 43.0

5122

"...

6

4

Oct.

9

32 26. 8

29. 1

42 19 53.9

1 47.8

32 50.2

21 41.7

5123

tf

6

4

Oct.

14

32 26. 4

29.0

42 19 52.6

1 47.5

32 56.0

21 40. 1

5124

"...

6

4

Oct.

15

32 26. 2

29.(1

42 19 56.5

1 47.5

32 55. 8

21 44.0

5125

Piazzi 241 . .

7.8

4

Sept.

28

32 22. 3,

43.4

7 53 5.2

1 56.1

19 33 5.7

+ 7 55 1.3

5126

47 Aquilse x

6.5

3

July

10

32 23. 5

45.0

11 19 3.7.9

2 15.3

19 33 8.5

+11 21 53.2

5127

"...

3

July

12

32 2 1. 1

45.0

11 19 38. -

2 14.9

33 9. 1

21 53.7

5128

"...

4

Sept.

14

32 27.0

41.9

11 19 58.6

1 56.0

33 8.9

21 54.6

5129

"...

4

Sept.

17

32 2(1.7

42. 1

11 20 0.8

1 55.7

33 8. 8

21 56.5

513(1

Lalande 37 183 .

7.8

3

July

29

33 25. 8

30.0

32 55 7. 2

2 12.2

19 34 1.8

+32 57 19.4

5131

Lalande 37486,7

6.7

3

Sept.

7

33 41.4

30.0

42 35 2.1

2 2.7

19 34 12.0

+42 37 4.8

5132

"

7

4

Oct.

9

33 43. 8

29.3,

42 35 13.7

1 49.3

34 13.1

37 3.0

5133

" . . .

7

4

Oct.

14

33 43,. 2

29.4

42 35 14.3

1 49.2

34 12.6

37 3. 5

5134

"...

6

1

Oct.

15

33 43. 0

29. 4

42 35 11.5

1 49.1

34 12.4

57 o.O

5135

Lalande 374c8,9

7

3

Aug.

20

33 33.5

40.7

22 21 7. 1

2 8.1

19 34 14.2

+22 23 15.2

5136

Lalande 37497 .

7.8

4

Sept.

15

33 43,. 7

42. 8

9 1 0. 2

1 57.9

19 34 26.5

+ 9 2 5-. 1

5137

Groombridge 2909

6

3

May

31

34 9. 8

29. 4

45 0 50. 0

2 32. 4

19 34 39.2

+45 3 22. 1

5138*

Groombridge 2910

7

4

Oct.

1(1

34 15.8

3,1.3,

39 31 44. 3

1 5H.3,

19 34 47. 1

+53 53 34.6

5139*

Lalande 37521,2

7.8

3

Juh

5

34 8. 9

41.0

21 53 22. 0i

2 19.2

19 34 49.9

+22 1 41.8

5140

"...

8. 9

o

July

8

34 8.6

40.9

2 1 59 23. 6

2 18.6

34 49.5

1 42.2

5 Ml

"...

8

3

July

9

34 9. 4

40.9

21 59 21.8

2 18.3

34 50. 3

1 40.1

5142

"...

7.8

3

July

10

34 8. 7

40.1)

21 59 23. 2

2 18.1

34 49.6

1 41.3

5143

Lalande 37527

7

3

July

29

34 2i 1.7

30.3

31 55 25. 7

2 13.0

19 35 3,. o

+31 57 3,3.5

5144

Johnson 4420

6

1

Oct.

16

34 36.8

3,1. 1

39 45 28. 1

1 50.6

19 35 7.9

+39 47 19.0

51 15

48 Aquilse »/;

6.7

3

July

19

34 31.8

44.4

12 47 41. 1

2 16.2

19 35 16.2

+ 12 49 57.3

5146

"...

3

July

26

34 31.7

44.4

12 47 40.7

2 14.8

35 16. 1

49 55.5

5147"

10 Vulpeculae

6

3

July

14

34 44.0

33.5

25 15 (9.4

2 18.0

19 35 23.. 5

+25 18 7.4

5148*

49 Aquilse v

3

July

27

35 9. 8

46. 1

7 6 4.4

2 14. 8

19 35 56.2

+ 78 19.2

5149

"...

6

1

Sept.

16

35 12.4

13.5

7 0 15.7

2 0.0

35 55. 9

8 15.7

5150

(i

6

1

Sept.

17

19 35 12.7

+ 43.5

+ 76 18.6

+2 0.0

19 35 50.2

+ 7 8 18.6

(23S)

GOULD -

-CATALOG IF. OF STARS OBSERVED BY D'AGELET.

239

Mean equinox 1800. 0

No

Name

Mag.

Date

App't a

Jeduct'n

App'l d

Reduction

,/

<s

h m s

s

O 1 II

/ //

Ii in $

515]

Groombridge2920

7

4 Oct. 15

19 35 36.3

4- 31.9

+38 in 14.9

4- 1 52.0

19 56 8.2

4-38 12 ii.O

5152

Lalande 37584

7.8

3 JuU

:;.-, 44.2

35. 5

33 39 21.5

2 15.5

111 36 m.7

-55, II 5,7.11

5 1 53

50 Aquilse y

3 April 28

35 57.5

47.3

in 5 36.0

2 34.1

19 36 14.8

-4-10 8 10.1

5154

(C

:; Mav 13

35 58.6

46.8

in 5 33.4

2 31.8

36 45.4

8 5.2

5155

. .

3 Mav 15

36 ii. 1

46.8

10 5 12.2

2 31. 4

36 46.9

8 13.6

5156

"...

3 July 12

35 59.2

45. 5

10 5 46.0

2 19.8

56 44.7

8 5.8

5 1 57

"...

3 July L9

35 5-. 7

45. 4

in 5 48.8

2 18.2

56 44. 1

8 7. 0

5158

"...

1 Sept. 7

36 2. 4

42.4

10 6 3.5

2 LI

36 46.8

8 4.6

5159

"...

4 Sept. 11

(36)

10 6 4. 1

2 0.5

,5.;,

8 4.6

5160*

1 Sept. 17

(36)

10 6 7.3

2 0.3

(36)

8 7.6

5161*

tl

4 Oct. 1

36 2.2

42.7

10 6 9.6

1 59.5

36 44.9

8 9.1

5163

1 5 Cygni - - .

6

4 Oct. 9

36 31.7

32. 4

36 50 46.3

1 53.6

19 37 4. 1

4-36 52 5.0.0

5163

"...

6

4 Oct. 16

36 31.2

32.6

36 50 47. 4

1 53.4

37 3. 8

52 40.8

5164

Groombridge2925

6

3 Mav 31

36 32.6

32.0

41 15 22.6

2 35. 1

19 37 4.6

+ 41 17 57.7

5165

Lalande 37627

10

3 July in

36 45.9

40.3

23 34 45.0

2 21.8

19 57 26.2

+23 37 6. 8

5166

Lalande 37655

8

:; July 9

37 35.9

39.9

24 36 43.4

2 23. 2

19 38 15.8

+24 5,0 6.6

5167

l'iazzi 27 v

7

3 July 29

37 4H.2

35. 1

34 29 39.6

2 18.3

l'.i 38 24.5,

+54 5,1 57.0

5168

18 Cygni J

3 April 28

38 12. -

31.0

44 36 7.0

2 15. 1

19 5- 43.9

+ 44 5,- 52. 1

5169

"...

3 Mav 13

38 13.0

30. 1

44 36 8. -

2 42. 4

5- 45.4

38 51.2

5170

"...

3 May 15

38 14.2

30. 4

41 36 11.1

2 42.0

38 44.6

38 53. 1

5171

17 Cygni x

5

4 Oct. 16

38 15.0

34.2

33 14 23.3

1 56.2

19 5.- 49.2

+33 16 10.5

:.17 -J

Lalande 37695 -

7

I Sept. 16

38 17.4

42.5

in 10 15.3

2 3. 1

19 38 59.9

+ 10 12 18.4

5173

"...

7

4 Sept. 17

38 17.5

42. 5

in in 21.4

2 3.0

511 0. II

12 24.4

.-,174

Lalande 37710-3-

7

3 Julv 9

38 16.0

39. 8

24 51 31.5

2 24. 8

19 50 25. -

+24 55 55. 5

.-,17.-.

"...

7.8

3 July 10

38 45.2

39. -

24 51 29.8

2 21.5

39 25. 0

53 54. 3

5176

"...

6.7

4 Oct. 15

38 47.4

37.8

24 51 52. 2

1 58.7

5,0 25.2

55 50.0

5177

Lalande 37717

7.8

3 July 26

38 42.6

46.2

7 44 19. 5

2 20.2

10 50 28.8

+ 7 47 9. 7

5178

"...

7.8

3 July 27

(38)

7 44 19.5

2 17.7

(39)

47 7.2

5179

Lalande 37753 .

6.7

3 May 31

39 17.8

34. 2

57 52 31.3

2 59.0

10 in 22.H

+37 55 10.5,

5180

it

6.7

4 Oct. 9

39 50.5

32. 0

37 53 11.6

1 57.3

40 22.5

55 8. 9

5181

53 Aquilae a

3 April 28

40 12.7

48.0

8 18 L8.9

2 39.3

19 41 0.7

+ 8 20 58.2

5182

>,

3 May 13

4H 13.2

47.5

8 18 15.4

2 36.8

41 0.7

20 52. 2

;,1-:;

"...

3 Mav 15

411 14.-3

47.4

8 18 25.0

2 36.5

41 1.7

21 0.5

:,l-l

"...

3 Julv 5

4H 14.4

46.3

- 1- 30.4

2 26. 3

41 0.7

20 56.7

5185

"...

3 Julv 8

I" 14.5

46.2

8 18 27.6

2 25. -

41 0.7

20 53.4

5186

"...

3 July 9

40 14.8

46. 2

8 18 29.0

2 25. 7

41 1.0

20 55.7

.'. 1 -7

"...

3 Julv in

40 14.2

16.2

- 18 30.0

2 25.6

41 0. 4

20 55.6

5188

(4

3 July 12

40 15.1

46. 2

- 1- 29.9

2 25. 3

41 1.3

20 55. 2

5189

"...

3 July 14

40 14.5

46.2

8 18 30.4

2 24.11

41 0.7

20 55.5

5190

3 July 19

40 14.7

46.1

8 18 52. 'J

2 25.7

41 0.8

20 56.6

5191

tl

3 July 26

40 14.6

46.1

8 18 30.5

2 22. 4

41 0.7

20 52.9

5192

"...

3 Julv 27

40 14; 8

46.0

8 18 5.4.2

2 22.2

41 0.8

20 56. 4

5193

"...

3 July 29

40 14.7

46.0

8 18 34.6

2 21.9

41 0.7

20 56.5

5194

"

3 Ana-. 2ii

40 J5. 0

46.0

- 1- 35.0

2 16.7

41 1.0

20 51.7

5195

It

4 July 14

40 18. 1

42.9

8 18 40.5,

2 14.4

41 1.0

20 54.7

5196

"...

4 Sept. 7

40 18.1

43.0

8 18 45.0

2 6.0

41 1.1

20 51.6

5197

11

1 Sept. 14

40 17.9

43. 1

8 18 46.8

2 5.9

41 1.0

2ii 5.'. 7

5198

"...

4 Sept. 15

4m 17.9

45. 2

8 18 16.2

2 5. 8

40 1.1

20 52.0

5199

"...

1 Sept. 16

40 17.6

45.2

8 18 48. 0

2 5.7

41 0.8

211 55.7

5200

"...

1 Sept. 17

40 17.1)

43.2

8 18 50. 0

2 5. 7

41 1.1

20 55.7

520]

"...

4 Oct. 1

40 1-. 1

42.5

8 18 51.5

2 5.1

41 0.4

20 56.6

5202

(<

1.2

4 Oct. 16

40 17.2

43.6

8 18 49. 4

2 5.11

41 0.8

20 54. 4

521 13

"...

1.2

4 Nov. 17

40 16.7

44.0

8 18 47.'.l

2 6.8

41 0.7

2'i 51.7

521 14

[(

1.2

1 Nov. 28

40 16.8

ll.o

- 18 43. 1

2 7.7

41 0.8

20 5i i. -

5205

2529 Bradley .

7

3 Mav 31

41 48.7

34.1

38 10 9.8

2 41.8

19 42 22. 8

+38 12 51.6

5206

12 Vulpeculae

7.6

1 Sept. 16

41

22 4 34.3

2 4.4

19 42

+22 6 38.7

52' '7

"...

6.7

] Sept. 17

41 48.7

38.4

22 4 34.6

2 4.4

42 27. 1

6 39. 0

520S

"...

6

4 Oct. 15

41 48.2

38.9

22 4 30.0

2 3.0

42 27. 1

6 33.0

5209

"...

6

4 Oct. 16

41 4-. 1

38.9

22 4 54.2

2 3.0

42 27.0

6 37.2

5210

Lalande 37855 .

8.9

3 Julv 12

19 42 38. 0

+ 47.7

+ 3 51 13.5

+ 2 27.8

19 43 25. 7

+ 5 55 41.5

(239)

240

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't «

Keduct'l

App't (!

Reduction

a

6

h m s

s

o l "

/ //

h m s

0 / "

5211

Lalande 37855 .

7

3

July 19

19 42 37.6

+ 47.7

+ 3 51 12.(1

+ 2 26. 6

19 43 25.3

+ 3 53 38. 8

5212

tf

7.8

:;

July 27

42 37.0

47.6

3 51 10.5

2 25. 5

43 24. 6

53 36. (1

5213

"...

7.8

:;

July 29

42 37. 6

47.6

3 51 11.7

'.' 25. 2

43 25. 2

53 36.9

5214

9 Sagittse- - .

7

l

Sept. 14

42 46.8

39. 8

18 7 52.3

2 6. 8

19 43 26. 6

+18 9 59. 1

52 1 5

19 Cygni -

6

:;

May 31

42 54.6

34.2

+38 1" 9.9

2 43.2

19 43 28.8

+38 12 5:;. 1

5216

.V Aipiikv

::

July 14

43 41.1

49. 1

— 0 16 46. 3

2 28. 6

19 44 3U.2

— 0 14 17.7

52J7

Anonyma -

6

3

July 9

44 7.6

46.8

+ 6 35

19 44 54.4

+ 6 37

52 1 8

"

6.7

3

July 10

44 7.1

46.8

6 35 1.6

2 30.8

44 53.9

37 32.4

5219

13 Vulpeeulse

(i

4

Sept. 16

44 18.9

37.8

23 31 52.5

2 7.2

19 44 56.7

+23 33 59. 7

5220

"

4

Sent. 17

44 19.8

37.9

23 31 52. 3

2 7.1

44 57.7

33 59. 4

5221

ti

6

4

Oct. 15

44 18.2

38. 4

23 31 50. 9

2 5.5

44 56.6

33 56. 4

5222

60 Aquilse /3

3

April 28

44 4H.3

48.9

5 52 32. 9

2 44.2

19 45 29.2

+ 5 55 17.1

5223

"...

3

May 13

44 41.0

48.4

5 52 26. 4

2 41.9

45 29. 1

55 8. 3

r,224

"...

3

Mav 15

44 42. 1

48. 1

5 52 33.2

2 41.7

45 30.5

55 14.9

5225

C(

3

July 5

44 42.0

47.1

5 52 39. 5

2 31.8

45 29. 1

55 11.3

5226*

"...

3

July 8

44 42.0

47.1

5 52 38. 3

2 31 . 3

45 29. 1

55 9.6

5227

"...

3

July 9

44 42.5

47.1

5 52 37.0

2 31. 1

45 29.6

55 8.]

5228

((

3

July 10

(44)

5 52 36.5

2 30.9

(45)

55 7.4

5229

"...

3

July 19

44 42.2

47.0

5 52 45. 0

2 29. 3

45 29. 2

55 14.3

5230

"...

3

July 26

44 42.2

46.9

5 52 41. 3

2 28. 1

45 29. 1

55 9. 4

5231

"...

4.5

4

Sept. M

44

5 52 54. 1

2 13. 1

45

55 7. 1

5232

"...

::. 1

1

Nov. 28

44 44.5

44.8

5 52 55.7

2 10.3

45 29. 3

55 6.(1

5233

2541 Bradley

(',.7

3

July 27

45 21.3

40.3

23 45 47. 1

19 46 1. 6

+23 48 15.9

.v.'::)

"...

6.7

3

July 29

45 21.4

40.3

23 45 48.2

2 28.3

46 1.7

48 16.5

5235

"...

6.5

4

Sept. 16

45 23. 4

37.8

23 46 2. 7

2 8.4

46 1.2

48 11.1

5236

"...

(5

4

Sept. 17

45 24. 2

37. 8

23 46 7. 1

2 8.4

46 2.0

48 15.5

5237

"...

6.7

4

Oet. 15

45 23. 1

38.3

23 46 5. 1

2 6.8

46 1.4

48 11.9

5238

"...

6

4

Oct. 16

45 23.3

38.3

23 46 5. 1

2 6.7

46 1. 6

48 11.8

5239

Lalande 37965,6

7

4

Sept. 7

45 28.5

38.4

+21 52 35.7

2 10. 1

19 46 6.9

+21 54 45.8

"■210

Lalande 38017

8

3

July 12

46 10. 1

49.1

— 0 12 48.7

2 32.1

19 46 59. 2

— 0 10 16.6

5241

it

7

3

July 23

46 10.2

49. 0

— 0 12 51.2

2 30.6

46 59. 1

10 20.6

5242

Lalande 38039 .

6

3

May 31

46 54. 6

35.3

+36 25 43. 2

2 48. 1

19 47 29.9

+36 28 31.3

5243

Lalande 38068 .

7

4

Sept. 7

47 39. 1

37.9

23 12 43.2

2 12.5

19 48 17.li

+23 14 55.7

5244*

11 Sagittse

7

3

July 8

47 57.4

43.4

16 12 55.2

2 36. 3

19 48 40.8

+ 16 15 31.5

5245

"...

6

3

July 9

47 57.6

43.4

16 12 59.6

2 36.2

48 41.0

15 35. s

5246

"...

3

July 10

47 57.0

43.4

16 12 58.0

2 36.0

1- 40.4

15 34.0

5247

"...

6

4

Sept. 1 1

47 59.7

40. 4

16 13 19.8

2 13.7

48 40. 1

15 33. 5

5248

21 Cygni q

4.5

3

July 29

48 13. 1

35. 4

34 31 4.2

2 32. 0

19 48 48.5

+34 33 36.2

52 19

5

4

Sept. 17

48 15.5

33.4

34 31 25.1

2 9.9

48 48.9

33 35.11

525(1

2546 Bradley .

7

3

July 10

48 24. 2

43.5

15 55 13.2

2 36.5

19 49 7.7

+15 57 49. 7

5251

Santini 1381 . .

6

3

July 23

48 23. 5

48.6

0 47 56.7

2 33. 4

19 49 12. 1

+ 0 50 30. 1

5252

Lalande 38127,8 .

8

4

Sept. 17

49 9.1

33.4

34 28 4.9

2 11.0

19 49 42.5

+34 30 15.9

5253

Lalande 38129,30

7

4

Oct. 1

49 0. 9

42. 4

10 44 3. 8

2 14.9

19 49 43,. 3

+10 46 18.7

5254

12 Sagittse y

3

July 14

49 9. 1

42.4

18 51 52.7

2 36.6

19 49 51.5

+18 57 29. 3

5255

"...

3

July 26

49 9. 5

42. 2

18 54 51.8

2 33.7

49 51.7

57 25.5

5256

"...

3

July 27

49 9. 7

42. 2

18 54 54. 5

2 33.5

49 51.9

57 28.0

5257 -

"...

5

4

Sept. 15

49 11.6

39. 6

18 55 9. 6

2 14.1

49 51.2

57 23.7

"...

5

4

Sept. 16

49 12.2

39.6

18 55 9. 1

2 14.0

49 51.8

57 23. 1

5259*

22 Cygni . . .

6.7

3

May 31

49 44.8

34.6

37 52 44.9

2 52.2

19 50 19. 4

+.".7 55 37. 1

5260

14 Vulpeculae

4

Sept. 14

49 57. 3

38.3

22 31 39. 6

2 14.4

19 50 35.6

+22 33 54.0

5261

ti

6.7

4

Oct. 15

49 56. 8

38. 8

22 31 39. 1

2 12.5

5(1 35.6

33 51.6

5262

Lalande 3S177 !

6.7

4

Sept. 7

50 7.4

35.1

30 24 43. 3

2 14.3

19 5d 42.5

+30 26 57.6

5263

13 Sagittse x

3

July 5

50 rS.3

43.3

16 56 10. 6

2 4(1. 1

19 51 1.6

+16 58 50.7

5264

6.7

3

July 8

50 18. 1

43.2

16 56 5. 9

2 39.5

51 1.3

58 45. 4

5265

"...

3

July 9

50 18.0

43. 2

16 56 8. 5

2 39.3

51 1.2

58 47. 8

5266

l'iaz/.i 362 . .

8

3

July 9

50 23.7

43.2

17 1 41.7

2 39.4

19 51 6.9

+17 4 24. 1

5267

Lalande 38202 .

7.8

3

July 29

50 47. 4

33. 9

+37 31 38.3

2 35.3

19 51 21.3

+37 34 13.6

5268

l'iaz/.i 365

9. 10

3

July 23

50 33. 7

49.2

— 1147 5.9

2 36.2

19 51 22. 9

— 0 11 29.7

5269

Lalande 38230 .

8

1

Oct. 1

51 11.6

41.5

+ 13 56 33.2

2 16.4

19 51 53.1

+13 58 49.6

5270

Lalande38233 .

8

4

Sept. 16

19 51 17.5

+ 37.2

+25 36 34.5

+ 2 15. 1

19 51 54.7

+25 38 49. 6

(240)

GOITLIi — CATALOGUE OF STARS OBSERVED 11Y 1) AGELKT.

241

Mean i quinox 1 300. 0

No.

Name

Mag

Dab

App't n

Reduct'n

App't <S

Reduction

a

d

ll ill s

s

o / //

/ //

It m s

0 / //

527 l

25 ( !ygni .

:'. July

26

19 52 0.5

4- 34. 5

+36 27 27.2

+ 2 37.8

19 52 35.0

+36 30 5.11

5272

15 Vulpeculae

3 July

14

52 12.7

39. 1

27 9 52.2

2 41. ]

I'.' 52 51.8

+27 12 ::::. ::

5273

"...

3 July

27

52 12. 1

39.0

27 9 58. 8

2 37.7

52 51.1

12 36.5

5274

GvoombriuVe 31 ol

0

3 May

31

52 33. 1

30.2

45 Id 57. 2

2 56.9

19 5:: 3.6

+45 i:: 54. ]

5275

2559 Bradley .

(i

1 Sept.

17

52 38.5

37.7

24 J 2 56.0

2 16.9

19 53 16.2

+24 15 12.0

5276

"...

0

1 Oct.

15

52 37.9

38. 2

24 12 56.(1

2 15.0

5:; ic. i

15 ll.ll

5277*

Lalande 38284

i;

1 Sept.

15

52 37.0

4-.'. 5

10(20)

19 5:1 1:1.5

+10(22)

5278

Lalande 38292 -

7

1 Oct.

l

52 49. 5

41.5

13 59 40. 6

2 18.2

19 53 :Si.n

+ 14 1 58.8

5279

Hi Vulpeculse

:: Jul3

12

52 52. 1

40. 3

24 20 26.0

2 12. 3

111 5:: 32.4

+21 2:; 8.3

5280

"...

5

1 Sept.

15

52 54.3

37. 6

24 20 50. 8

2 J7.4

5:; 31.9

23 8.2

528]

"...

(1

1 Sept.

17

52 54.5

37.7

24 20 54.5

2 17.2

53 32.2

23 11.7

5282

"

5.6

1 Oct.

15

52 54.5

38. 2

24 2ii 53. 2

2 15.3

5:! 32.7

23 s. 5

5283

Lalande 38319 .

7.8

3 July

5

53 19.8

43.0

17 42 2.2

2 44.2

IK 51 2.8

+17 44 4G. 4

5284

"...

7. 8

3 July

8

53 20. 1

43.0

17 12 1.0

2 I:;.:,

54 3. 1

44 44.5

5285

"...

7. 9

3 JulV

9

53 20.5

43.0

17 42 3.0

2 43.2

51 3.5

44 46.2

5286

"...

7. 8

3 July

Hi

53 19.6

4:;. ti

17 42 1.7

2 13.0

54 2.G

44 44 7

5287

Lalande 38328

7

3 July

5

53 34.9

43.0

17 54 15.6

2 11. 1

111 51 17. 0

+ 17 57 11.11

5288

"...

7

3 July

8

53 35. 1

42. 9

17 54 19.6

2 13.7

54 1^.::

57 3. 3

5289

"...

7.8

3 July

9

53 35.6

42. 9

17 59 20.8

2 13. 1

54 18.5

57 4.2

5290

"...

7

3 July

10

53 34.2

43. 9

17 51 19.4

2 4:;. 2

54 17. 1

57 2.G

5291*

"...

7

4 Oct,

9

53 37. 9

40.4

17 54 46.6

2 is. ti

54 18.3

57 4.G

5292

! 1 Sagittae y

3 July

23

53 37.5

13.6

!5 26 3.7

2 H'.::

19 54 21.1

+ 15 2- 44.li

5293

63 Aquilse r

4 f-ept.

II

53 38. 3

43.6

6 41 0.7

2 22. "

IK 51 21.'J

+ 6 43 22. 7

5294

2567 Bradley

7

3 July

■j:i

54 11.7

43.2

16(32)

19 54 54.9

+16(34)

5295

Lalande 38368 .

7.8

4 Sept.

16

54 22. 6

34.9

31 22 2.0

2 17.8

19 54 57.5

+31 24 19.8

5296

"...

7

■1 Sept.

17

54 22.2

34.9

31 22 6.6

2 17.6

54 57. 1

24 24.2

.v.". IT

15 Sagittse z

6.7

:; July

29

54 23.9

43.2

16 29 44.5

2 39.8

19 55 7. 1

+ IG 32 24.3

5298

*'

li. 7

1 Oct.

1

54 26.6

4H.7

16 30 1.7

2 19.5

55 7. 3

32 21.2

5299"

26 Cygni c-

4.5

3 May

31

55 14.9

27. 1

49 30 18.5

3 1. 1

111 55 42.0

+49 33 10. li

5300

"...

3 July

27

55 15.7

26.1

49 30 30.7

4 42.4

55 41.8

33 13. 1

5301

Lalande 38404 .

7.8

3 July

14

55 26. 1

35. 3

35 25 23. 4

2 45.8

19 56 1.4

+35 28 0. 2

5302

"...

7

4 Oct.

15

55 28. 1

33. 7

35 25 51.8

2 15.8

56 1.8

28 7.G

5303

It

7.8

-1 Oct.

16

55 27. 9

33.7

35 25 51.9

2 15.8

56 1 . G

28 7.7

531 1

16 Sagittae ?;

3 July

5

55 34.7

42. 4

19 22 47.2

2 17.7

19 5G 17. 1

+19 25 34.9

5305

"...

G

8 July

8

55 34.7

42. 4

19 22 47.4

2 46.5

56 17. 1

25 33.9

5306

"...

3 July

26

55 34.9

42. -J

19 22 4'.'. (i

2 42.il

56 17.1

25 31.0

5307

"...

6

4 Oct.

9

55 37. 4

39.9

19 23 10.9

2 19.8

56 17.3

25 30.7

t:,::n.--

Lalande 38423

8

3 July

12

55 41.7

41.1

22 36 41.6

2 45. s

10 50 22. -

+22 39 27.4

5309

Lalande 384:58 .

7

-1 Sept.

15

55

31 37 18.2

2 l-.'.l

10 50

+31 39 :;7. 1

5310

(1

7

! Sept.

16

56 12.3

34.8

31 37 13.2

2 19.8

56 47. 1

39 33.0

5311

«

7.G

4 Sept.

17

56 11.0

34.8

+31 37 16.3

2 19.6

5G 45.8

39 35. 9

5312

til Aquilae

3 July

9

56 52.2

49. 5

— 1 17 20.3

2 45.9

19 57 41.7

— 1 14 34.4

5313

"

7.8

3 July

in

56 52. 1

19. 5

— 1 17 21.3

2 15.8

57 41. G

14 35.5

531 1

1? Vulpeculaa

0

3 July

5

57 36.7

41.0

+22 59 59.6

2 5H. 1

10 58 17.7

+23 2 40.7

5315

"

3 July

12

57 36. 1

41.11

22 59 58.6

2 48.2

58 17. 1

2 46.8

5316

"...

6

3 July

26

57 36.3

40.8

23 (1 4.ii

2 44. 7

58 17. 1

2 48.7

5317

"...

:t July

29

57 36.9

40.8

23 0 4.8

2 43.9

58 17.7

2 48.7

5318

"...

4 Sept.

7

57 39.6

38. 1

23 0 21.2

2 24. 3

5- 17.7

2 45. 5

5319'

"...

4 Sept.

14

57 39. 3

38.2

23 0 21.3

2 23. 2

58 17.5

2 44.5

5320

• -

6

1 Sept.

17

57

23 0 26. 8

2 22. 9

58

2 49.7

5321

"...

5 6

4 Oct.

I

57 39.5

38.5

23 0 26. 1

2 21.7

58 18.0

2 47. 8

5322

"...

0

1 Oct.

9

57 39. 4

38.6

23 ii 26.0

2 21.3

58 18.0

2 47. 3

5323

'.'7 Cygni l>'

3 May

31

58 19.6

36. 3

35 22 49. 5

3 2.7

10 58 55.0

+35 25 52. 2

532 1

"...

3 July

14

58 20. 9

35.4

35 23 1.1

2 19.6

58 56.3

25 50.7

5325

n

6

1 Sept.

15

58 23. 1

33. 2

35 23 27. 5

2 22.li

58 56.6

25 49.5

5326

it

(i

1 Sept.

16

58 23.2

33.2

35 2:i 26.8

2 2 1 . 8

5- 56. 1

25 48. 6

5327

tt

(3

1 Oct.

Hi

33. 8

35 23 30.9

2 19.2

58 56. G

25 511. 1

5328

Lalande 38591,2

6. 7

1 Oct.

15

19 59 '.'7.4

34.5

33 1- 35.7

2 2n. li

20 0 1.0

+33 50 56.3

5329*

65 Aquilse U

3 July

9

20 0 9.6

49.6

1 27 6.6

2 5(1.0

20 0 50.2

— 1 24 16.6

5330

-

:: July

1U

•,'ii ii 8.9

4- 19.6

+- ] 27 2. -

+ 2 49.9

20 (I 58. 5

1

- ] 24 12.0

31

(241)

242

GOULD — CATALOGUE OF STARS OBSERVED BY D'AGELET.

1

Mean equinox 1800. o

No.

Name

Mag.

Date

App't a

Reduct'x

App't (1

Reduction

a

6

h m s

s

C ' 'I

/ a

// m s

O 1 II

5331

65 Aquilae II

6.5

3 July 23

•ill (1 9.5

+ 49.4

+ 1 27 3.6

+ 2 48.0

20

o 58.9

— i 24 15.0

5332

"

4

I Sept. 1 i

n 12.6

40. I

1 26 49.9

2 31.5

9 58.7

24 18.4

5333

"...

4.5

4 Oct. 9

0 12. 1

46. 1

— 1 26 44.8

•J 31. 1

9 58.5

24 13.7

5334

Lalande 38631 .

8

1 Sept. IT

0 24.7

39.2

+20(10)

20

1 3. 9

+20(19)

5335

17 SagitOe U

6.7

3 julj ■::

0 25. 5

41.9

20 17 3. 1

2 47.9

20

1 7.4

+20 19 51.0

5336

"...

7.8

4 Sept. 16

II 27.8

39. 2

20 17 11.6

2 26.7

1 7.0

19 38.3

5337

"...

7

4 Sept. 17

0 28.0

39.2

20 17 16.6

2 -JO. 0

1 7.2

19 43.2

5338

"...

7

4 Oct. Hi

(i 27.4

39. 7

+20 17 13.5

2 24.9

1 7. 1

19 38.4

5339

2 Capricorni f

7

3 July 8

(i 23. 1

53. :,

—13 14 15.9

•J 19. I

20

1 10.0

— 13 II 20.:,

5340

28 Cygni b-

5.6

3 May 31

1 23.9

30.0

+36 12 22.4

3 0. 9

20

1 59.9

+ 30 15 29.3

5341

(i

3 July 29

1 24.5

35.0

36 12 38.3

2 49.0

1 59.5

15 27.3

5342

18 Vulpeculae

3 July 26

1 33. 1

39.6

26 10 19.8

2 49.7

20

2 12.7

+20 19 9.5

5343

2581 Bradley . .

8. 9

3 July 12

1 33.5

4'2. 0

20 29 50.5

2 53.0

20

2 15.5

+29 32 49.5

5344

"...

6

3 July 27

1 32.6

4 1 . s

20 30 6. 0

2 49.4

2 14.4

32 :.:,. I

5345

"...

7

4 Sept. 16

1 36.1

39.2

20 30 21.3

2 27. 9

2 15.3

32 49. 2

5346

"...

7

4 Sept. 17

(1)

20 30 27.4

2 27. 9

(2)

32 55. 3

5347

"

7

4 Oct. 1

1 36.0

39.4

20 30 25.9

2 20.0

2 15.4

32 52.5

5348

"...

7

1 Oct. 15

1 35. 3

39.7

20 30 22.7

2 20. 1

2 15.9

32 48. S

5349

"...

7

4 Oct. Id

1 35.4

39. 7

+20 30 22.4

2 26. 1

2 15.1

32 48.5

5350

66 Aquilae .. .

6.7

4 Oct. 9

2 7.6

46. 4

- 1 38 20.7

2 33.3

20

2 54. 0

— 1 35 :.::. 1

5351

"...

5.6

4 Nov. 17

2 6.8

47.0

— 1 38 27. 3

2 34.5

2 :.:'.. 8

35 52. 8

5352*

19 Vulpeculae

3 July 26

2 16.9

39.7

+20 10 23.4

2 51.3

20

3 20. 0

4-20 13 14.7

5353

"...

7.6

1 Sept. 15

2

26 in 47.3

2 28.5

3

13 15.8

5354

"...

7

4 Sept. 16

2 49.0

:;-. i

26 10 40.4

2 28. 3

3 20. 1

13 14.7

5355

20 Vulpeculse .

3 July 23

2 57.6

39.8

25 50 31.5

2 52. :.

20

3 37.4

+25 :,:: 24. o

5356

"...

7

4 Sept. 16

3 0.9

37.3

25 50 53. 1

2 28. 0

3 38. 2

53 21.7

5357

"...

6.7

l Oct. li'.

(3)

25 50 50.2

2 '.'0.:;

m

53 22. 5

5358

Lalande 38821 .

8

4 Sept. 17

4 27. 5

38. 1

23 35 55. 6

2 30.7

20

5 5. 6

+23 38 20.3

53:.;)

"...

7

1 Oct. 1

4 26.9

38. 4

23 35 59.7

2 29. 2

5 5. ;;

38 28.9

5360

Anonyma .

8

4 Oct. 'J

5 22.0

39.3

21 20 n. 1

2 30.4

29

0 1.3

+21 22 30.5

5361

"...

7.8

4 Oct. 16

5 21.7

39. 4

21 19 58. 1

2 30. 1

6 1.1

22 28. 2

5362

21 VulpeculiE

3 July 29

5 22. 6

lis. 9

28 2 50. 3

•J :.::. 7

20

o 1.:.

+28 5 50.0

5363

"...

6

1 Oct. 15

5 24.6

37.0

28 3 17.3

2 28.6

6 1.6

5 45.9

t:.:;oi»

4 Sept. 7

5 41.1

45. J

+ 1 23

20

0 20.2

+ 1 20

51 It '».">

5 Capricorni a'

3 July 12

5 39.9

53. 4

— 13 9 49.4

2 :.:.. i

20

6 33. 3

— 13 0 54.3

5366

"...

3 July l!l

r. 39.9

53.2

13 9 51.0

2 54. :.

0 33. 1

0 57. 1

5367

"...

4 Sept. 14

5 43.2

19.0

—13 9 38. 5

2 40.7

0 32.8

6 57.8

5368

U(Hev) Vulpeculae

5.6

4 Sept. 15

6 9.3

37.6

+24 50 4:.. 9

2 ::.'.:.

20

0 40.9

+24 59 18.4

5369

"...

6. 5

4 Sept. 16

(1 9.8

37.6

24 50 45.9

2 32. 4

0 47.4

59 18.3

5370

22 Vulpeculae

3 May 31

6 9. 8

42. 1

22 .".1 II.:;

3 9.9

29

0 51.9

+22 51 21.2

5371

"...

6.5

3 July 26

6 10.3

41.1

22 51 25.8

2 55.9

6 51.4

54 21.7

5372

"...

:: July 27

('. 10.6

41.1

2-.' 51 '.'7.4

2 55.2

0 51.7

54 22.6

5373*

it

6

1 Oct. 1

0 13.6

38. 7

+22 51 :,ii.4

2 31.3

6 52. 3

54 21.7

5374

(i Capricorni «'-

3 July 12

6 3.7

53. 4

—13 12 5.6

2 55. 8

20

6 57. 1

—13 9 9.8

5375

"...

3 July 19

0 3.8

53.3

13 12 7.3

2 55.2

6 57. 1

9 12. 1

5376

"...

4 Sept. 7

(i 7. 1

19. 5

13 11 54.4

2 41.2

o 56.6

9 15.2

5377

"...

1 Sept. 14

6 6.7

49. 5

—13 12

6 56.2

9

5378

29 Cygni //■

3 July 23

6 27. 1

35. 2

+36 9 1.7

2 57.2

20

7 2. 3

+36 11 58.9

5379

23 Vulpeculae .

6.5

I Sept. 16

0 .".•-'.II

36.8

27 9 57.2

2 32.7

20

7 28. 8

+27 12 29.9

5380

18 Sagittae . .

6.7

I Oct. 1

6

20 57 6.7

2 32.3

29

7

+2ii 59 39.0

538J

"...

7

4 Oct. 9

6 53.0

39. 5

29 :.7 4. 1

2 32. ::

7 32.5

59 30. 4

5382

"...

7

1 Oct. 15

<! 52.9

39.6

20 50 58.9

2 32.0

7 32.5

59 30.9

5383

" . . .

1 Oct. in

6 53. 1

39.6

211 :,7 1.5

2 32. 0

7 32.7

.".9 33.5

538 1

Riimker8153

7.8

4 Oct. 15

7 7. 4

39.0

20 15 i:;.:.

2 32.2

20

7 47.0

+20 47 45.7

5385

24 Vulpeculae

3 July 29

7 32.6

40.6

24 0 55.4

3 0. 5

20

8 13.2

+24 3 55. 9

5386

"...

:; July 30

7 32.4

in. 0

21 o 54.6

2 56. 0

S 13.9

3 59.6

5387

"

6

4 Sept. 15

7 35.4

38.0

24 1 1 1 . 1

2 34.2

S 13.4

3 45.3

5388

■' . . _

6

4 Sept. 17

7 35.8

38.0

4-24 1 14.2

2 34.0

8 13.8

3 48.2

5389

Lalande 38971

7

:: July lit

7 31!. 4

49. 1

-li 1 1 1.7

+ 2 59.9

29

8 22. 5

4- 0 1 44.3

5390

827 Mayer . .

3 July 1 1

29 s 37.2

+ 54.0

-15(27)

20

9 31.2

15(24)

(242)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET

243

Mean equinox 1800. 0

No.

Name

Mag.

Dal-

App't a

Reduct'n

App'l ii

Reduction

a

(5

It III s

s

O ' II

/ a

It m s

o ' II

5391

8 Capricorni v

(i

4

Sept.

14

20 8 43.7

+ 49.6

— 13 25 25.8

+ 2 44.0

2o 9 :;:;.:;

—13 22 41.8

5392

9 Capricorni |S

3

July

14

8 51.7

54.0

15 27 4. 9

2 59. 5

20 9 15.7

-15 24 5.4

5393

"...

3

July

19

8 52.0

51.0

15 27 2.7

2 58.5

9 46.0

24 4. 2

5394

"...

3

3

.lul'\

20

8 52.0

51.0

15 27 4.8

2 58. 3

9 40.0

2 1 6. 5

5395

"...

4

Sept,

7

(8)

— 15 -jo :,(i.::

2 44.9

(9)

24 5.4

5396'

I'iazzi 85 .

4

Oct.

16

l) 8.0

39. 6

4-20 51 41.5

2 34.8

2 1 9 17.6

+2(1 51 10.3

5397

Rumker8188

7.8

4

Oct.

9

9 23.0

39. 6

20 33 0.9

2 35. 1

'jo HI 2.0

+20 35 36.0

5398

"...

8

4

Oct.

15

11 22. 4

39. 7

20 32 57. 1

2 34.8

10 2. 1

35 31.9

5399

it

4

Oct.

III

'.I 22.7

39. 8

20 33 5.9

2 3 1.7

10 2.5

3,5 38.6

5400*

34 Cygni P

3

July

27

11 50.1

34.7

37 22 5.5

3 0. 3

20 10 24.8

+37 25 5.0

:.|ni

ti

3

July

29

it 49.5

31.7

37 22 4.8

2 59.6

10 24.2

25 4. 4

5402

Bessel, W.474 .

7

4

Oct.

1

;i 50.8

3.7.5

20 19 54.8

2 34.6

20 111 28.3

+26 22 29. 4

5403

Aiiimviiia .

7

3

July

10

li 53.0

45. li

10 47 54.:;

3 2.8

20 10 38.6

+ 10 50 57. 1

5404*

35 (,\ gni in

3

July

30

in 22.4

36.2

34 18 51.5

2 59.8

20 10 58.6

+34 21 51.3

5405

...

6

4

Si pt.

16

10 24.5

34.0

34 19 17.7

2 35.0

10 58.5

21 53.3

5406

<f

6

4

Sept.

17

Hi 24 8

34.0

34 19 17.8

2 35.6

10 58. 8

21 53,. 4

5407

2618 Bradley '.

6.7

3

Sept.

2

10 28.3

34. 1

40 4 5. 2

2 50.9

20 11 2.4

+ 10 0 50. 1

5408

Lalande 39102 .

0.7

4

Sept.

15

10 36.0

40.4

17 7 37.3

2 5*. 9

20 11 16.4

+17 10 16.2

5409

Lalando 39162 .

7

4

Oct.

9

12 10.5

39. 1

22 10 42.6

2 37.7

20 12 49.6

+22 13 20.3

:.4 in

Lalande 391S1 .

8

4

Oct.

1

12 47.6

36.2

29 55 2. 6

2 37. 1

20 1 3 23,. 8

+29 57 39. 7

54 1 1

25 Vulpeeulse

0

3

July

23

12 40.5

40.9

23 45 50. 1

3 4.4

20 i3 27.4

+ 2:: 1^ 54.5

5412

"...

6

4

Sc|,t.

15

12 48.8

38.2

23 46 15. 1

2 40. 1

13 2T.0

48 55.2

5413

"...

6

4

Oct.

15

12 48.6

38.7

23 46 17.2

2 37.8

13 27.5

48 55. 0

5414

"...

a

4

(in.

16

12 48.4

38.7

23 40 22.3

2 37.6

13 27. 1

48 59. 9

5415

37 Cygni y

3

Julj

12

14 30.4

33. 9

59 51 15.7

3 10.8

20 15 4.3

+39 37 20.5

5416

"...

3

July

11)

14 29.6

33. 8

39 34 15.5

5 8.0

15 5.4

37 24. 1

5417

"...

3

July

20

It 29.8

33.8

39 34 15. 1

3 8. 3

15 3.0

37 23. 4

5418

"...

3

July

26

14 29.2

33. 7

39 34 18.8

5 0.5

15 2. 9

37 25. 3

5419

"...

3

July

27

14 30.5

33.7

39 34 19.2

3 6. 2

15 4.2

37 25.4

5420

"...

3

July

29

14 20.3

33.7

39 34 17.9

3 5.6

15 3.0

37 23.5

5421

(<

3

July

30

14 29.6

33. 7

39 34 22. 1

3 5.2

15 ::. 3

37 27. 3

5422

"...

3

Sept.

2

14 29. 5

33. 9

59 34 25.4

2 55..-'

15 3. 4

37 21.2

5423

"...

4

Sept.

7

14 31.8

31.5

3,9 3,4 42.0

2 41.7

15 3.3

37 23.7

5424

"...

4

Sept.

14

14 31.3

31.0

39 34 43.0

2 40. 1

15 2.9

37 23,. 1

5125

"...

4

Sept.

15

14 31.4

31.0

39 34 44. 3

2 40.0

15 3.0

37 24. 3

5421!

"

4

Sept.

16

14 31.5

31.6

+39 34 41. 1

2 39.8

15 3. 1

37 20.9

5427

lo Capricorni -

3

Julj

9

14 56. 1

—18 54 29. 5

3 5.8

20 15 51.5

—18 51 23. 7

5428*

39 Cygni It

3

Julj

23

15 14.8

37.8

4-31 29 58. 8

3 7.8

20 15 5-.'. 0

+31 33 6.6

54211

" ...

6

4

( >ct.

1

15 17.2

35.0

31 30 28. 1

2 39. 6

15 52.8

33 7. 7

54:10

ti

5

4

Oct.

9

15 17.1

35. 7

31 30 28. 1

2 39.0

15 52. 8

33 7.1

5431

«

6.5

4

Oct.

15

15 16.5

35.9

31 30 27.5

2 :;-. o

15 52.4

33 5.9

5432*

Piazzi 134

7

4

Sept.

17

15 25. 1

44. 9

2 16 4.3

2 47.2

20 16 lo.o

+ 2 18 51.5

5433

"...

8

4

Oct.

16

15 24. 1

45. 4

2 16 2.2

2 46.7

16 9.5

18 48. 9

5434

Lalande 39326

7

3

July

10

15 54.5

44. 9

+ 13 12 59.4

3 10.3

20 10 39. 1

+ 13 16 9.7

54:55

1 1 ( lapricorni p

3.4

3

May

31

16 30. 1

50. ]

—18 30 55. s

3 II. 1

20 17 20.2

—18 27 44.7

5436

Piazzi 149 . .

7

4

No:.

17

17 2(5.0

45. 8

+ 2 14 17.3

2 50. 0

20 18 11. S

+ 2 17 7.3

5437

Bessel, W.729 .

7.8

3

July

29

17 30. 2

12. 4

19 46 30.2

3 B.3

20 18 18.6

+19 49 38.5

5438

Piazzi 155

7..-'

4

Sept.

15

18 1.7

38.5

23 5 3H.0

2 46. 0

20 18 40.2

+-23 8 Hi. o

5439

"...

4

Oct.

16

18 1.4

39.0

23 5 35.7

2 45.5

18 40.4

8 19.2

5440

Groombridge 3174

7.8

3

Julj

30

18 18.2

33.8

39 42 3.4

3 9. 8

20 18 52.0

+39 45 13.2

54 1 1

(<

8

4

Oct.

9

IS 19.9

32.2

39 42 26. 5

2 40.9

18 52. 1

45 7.4

5442

"...

8

4

Oct.

15

18 19.8

32. 4

39 42 27. B

2 40.3

IS 52. 2

45 8. 1

5443

Lalande 39418 .

10

Sept.

2

18 17.4

15.0

10 16 47.7

3 3. 5

20 19 :;. o

+ 10 19 51.2

5444

Lalande 39426 .

7.8

4

Oct.

1

18 45. 1

34. 8

33 37 58. C

2 43. 1

20 19 19.9

+33 40 41.7

54 15

Anonyma

8.9

3

July

10

18 41.6

42. 8

19 24 10.5

3 14.4

20 19 24.4

+19 27 24. 9

5446

40 Cygni .

(i

3

July

23

19 34.8

35.0

37 44 10.2

3 13.3

20 20 9. 8

+37 47 23.5

51 17

...

4

Sept.

14

19 36.9

32. 7

37 44 57. 1

2 47.2

20 9.0

47 24. 3

5448

it

4

Sept.

16

19 37.0

32. 7

37 44 36.0

2 47.0

20 9.7

47 23.0

5449

"

6

4

Oct.

!)

19 36.7

33. 2

37 44 40.8

2 44.4

20 9.9

47 25.2

5150

1 Delpliini

3

Sept.

•>

20 19 57.:;

+ 45.7

+10 11 :>.:>

+ 3 5.4

20 20 43.0

+10 14 15.3

(243)

244

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800.0

j No.

Name

Mag.

Date

App't a

Reduet'n

App't ,5

Reduction

a

,i

It m s

s

O ' II

/ //

It in 8

O ' II

5451*

1 Delphini . .

6.7

1

Sept. 17

20 20 0.5

+ 42.6

+ 10 11 30.3

+ 2 50.3

20 20 43. 1

+ 10 14 20.6

5452*

"...

7

1

Sept. 18

20 1.0

42. 7

in 11 26.7

2 50.4

20 4:;. 7

14 17. 1

5453

43 Cygni u>

4

Sept. 7

20 20.:.

26. 5

48 40 44.3

2 47.9

20 2n 56.0

+48 43 3,2. 4

5454

"...

6.7

4

Oct. 1",

20 28. 6

27.4

48 40 44.7

2 41.4

2H 56.0

4;; 26. 1

5455

"

5

4

Nov. J 7

20 26.6

28.4

48 40 51.4

2 41.6

20 5.".. II

43 33.0

5456

Bessel, W.815 .

7.8

3

July 20

20 2 1. 1

43.0

18 42 30.6

3 13.7

20 21 7.1

+ 16 46 4.3

5457

41 Cygui i

::

July 21'.

20 34.8

38.7

29 30 18.5

3 13.1

20 21 13,.:,

+20 42 31.6

;, i.-,-

"...

::

July 29

20 34.5

38. 7

29 30 21.8

3 12.3

21 13.2

42 34. 1

5459

"...

3

July 30

2o 3;,. o

38. 7

29 30 22. 5

3 12.0

21 13.7

42 34.5

5460

"

5

4

Sept. 15

20 37.2

36.2

29 39 46. 1

2 47. 0

21 13.4

42 34.0

5401

Lalande 39506 .

7

::

July 19

20 31.1

43.0

18 42 21.4

3 14.1

20 21 14.1

+18 43 35.5

5462

"

7.8

3

July 20

20 31. 1

43.0

18 42 18.7

3, 13.0

21 14. 1

45 32.6,

546:?

42 Cygni . . .

1

Oct. 0

21 8.7

34. 2

33 44 52.3

2 44.6

20 21 42. 9

+35 47 36. 9

5464

Bessel, W.609 -

7.8

1

Oct. 1

21 lo.o

41.4

15 5 44.8

2 49.4

20 21 51.4

+ 15 6 34.2

5465*

Rttmker 8373

9

::

July HI

21 1-..".

42. 7

19 53 1 . 2

:: 17. :.

20 22 1.2

+19 56 18.7

5466*

"...

7

4

Out". 16

21 21.4

40.1

19 53 31.0

2 47.0

22 1 . 5

56 19.8

5467

Bessel, W.888 .

7

3

July 10

22 40.4

41.8

22 6 2. 0

3 17.0

20 23, 22.2

+22 9 10.0

5468

"...

7.8

3

July 20

22 41. 1

41. 8

22 0 1.6

3 16.8

23 2.'. 0

0 18.6

5469

44 Cygni .

6.7

3

Sept. 2

22 47. 9

35.9

36 13 6.1

3 6.11

20 23 23.8

+36 16 12. 1

5470

■"

7

4

Sept. 14

22 50.0

33.5

36 13 16.0

2 49.6

23 23.5

16 5.6

5471

"...

4

Sept. !•".

22 50. 1

33. 5

3G 13 19.7

2 49.4

23 23.6

16 9. 1

5472

"...

1

Sept. 16

22 50. 1

33.5

36 13 14.8

2 49. 3

23 2:;. 6

16 4. 1

5473

"...

7

1

Oct. 0

22 49. 0

34.0

36 13 18.2

2 46.3

23 23. 0

16 4.5

5474

Lalande 39594,5 .

6

1

Sept. 17

22 46.8

38.0

25 5 22.2

2 30.6

20 23 24. 8

+ 25 8 12.8

5475

"...

7

4

Oet. 16

22 45.9

38.4

25 5 2:!.:i

2 48. 1

23 24.:;

6 11.-1

5476

2 Delphini e

*>

May ::i

22 .".:;. 1

46. s

10 34 29.1

:; 2C o

20 23 39. 9

+ 10 37 :.6. II

5477

"...

3

Julv 9

22 53.0

45. 9

lo ::i 38. 1

3 18.3

23. 36.9

37 56. 1

5476

"...

4

4

Sept. 18

22 56. 0

43.6

in 34 57.0

2 :,::.:;

23 40.:,

37 50.3

54711

"...

1

Oet. 1

22 56. 7

42. 7

10 3,5 1.0

23 30. 4

37 54.4

5480

" "

6

4

Nov. 17

22 55.5

43.4

10 35 0. 1

2 53.3

23 38.9

37 53.4

5481

45 Cygni u-

4

Sept. 7

23 24. 8

27.0

48 14 13.4

2 49.7

20 23 51.8

+48 17 3. 1

5482

"...

6

4

Oet. 15

23 24. 5

27.9

48 14 17.9

2 44.6

23 52. 4

17 2.:,

5483

3 Delphini ?;

6

1

Sept. 17

23

12 18 5.4

2 53.9

20 21

+ 12 2ii 59.3

5 18 1

Johnson 4835

6

3

July 23,

23 46.2

28.2

49 3 35.7

3 19.5

20 21 14.4

+40 6 55.2

5485

16 Cygui ofl

6

1

(let. 15

21 41.7

27. 8

48 ;:n ir,.n

2 16.2

211 2:, o.:,

+48 33 2.2

5486

Lalande 39681 .

6

■ >

July 26

24 32.6

42. 4

20 15 10.7

3 17.2

20 25 15.0

+20 16 27.0

5487

4 Delphini f

3

July 9

25 13.0

44.8

13 56 10.2

3 21.6

20 25 57.8

+ 13 59 31.8

5488

"...

3

July 10

25 12.5

44.8

13 56 12.2

3 20.3

25 37. 3

59 32.5

5489

1 1

3

July 12

25 1 3. 1

44.8

13 56 12.0

3 20. s

25 57.0

59 ;;:;. 7

5490

"...

3

Sept. 2

2.". 12.9

44.5

13 50 21.4

3 10.8

25 57. 4

59 32.2

5491*

"...

4

Sept. 17

25 16.2

41.6

13 56 39.5

2 55. 2

25 57. 8

59 34.7

5492

"...

6

4

Sept. 18

25 16.9

41.6

13 56 32.8

2 55.1

25 58. :.

30 27.0

5493

"...

6

4

Oet. 11

25 14.0

41.0

13 56 37.5

2 53.8

25 56.8

59 31.3

5494

"...

5

4

Oet. 16

25 15.6

42.0

13 56 37.8

2 53. 6

25 57. 6

59 31.4

5495*

47 Cygni /

3

July 29

25 31.2

36. 7

34 31 5.2

:; 18.4

20 26 7.9

+34 34 23.6

5496

"...

3

.July 30

25 30.8

3,6.7

34 31 7.6

3 18.1

26 7. 5

34 23.7

5497'

Groombridge 3226

6

3

July 19

26 51. 1

30.6

45 57 21.:,

:: 21.6

20 27 21.7

+46 0 46. 1

5498

"...

6

3

July 20

26 51.5

30.6

45 57 22. :;

3 24.2

27 22. 1

0 46.5

5409

"...

6.7

3

July 27

26 50.9

30.6

45 57 23.li

:; 21.:,

27 21.5

0 46.5

5500*

"...

7

4

Oct. 15

26 52. 7

20. 4

45 57 .".1.3

2 48.6

27 22. 1

0 42.9

5501

"...

6.7

4

Nov. 17

26 51.3

30.3

45 58 0. 1

2 48.7

27 21.6

0 48.8

5502

26 Vulpecnlse

6.7

4

Sept. 14

26 55. 8

38.0

25 8 48.9

2 55.3

20 27 33. 8

+25 11 44.2

5503

"...

6

4

Sept. 15

26 55. 7

38.0

25 8 52. 6

2 55.2

27 :'.::. 7

11 47.8

5504

6 Di'l]ihini ji

July 9

27 25.7

44.9

13 51 2.2

3 24. 1

20 28 10.6

+13 54 26. :;

551 15

"...

::

July 10

27 24.0

44.0

13 51 5.5

3 23. 8

28 0. 6

54 29.3

5506

"

3

Sep't. 2

27 2.".. 7

44.6

13 51 14.7

3 13.4

28 10.3

54 26. 1

5507*

■ t

4

Sept. 17

27 28.6

41.6

13 51 33. 1

2 57.5

28 10.2

54 30.6

551 18

i t

4

4

Sept. 18

27

13 51 27.5

2 :,:.:>

28

54 2:,. ii

5509

5 Delphini (

1

Sept. 7

27 32.li

42.5

lo 38 13.6

2 59.4

20 28 14.5

+ 10 41 13.0

5510

4

Sept. 16

20 27 29. 1

+ 42.5

+10 38 13.6

+ 2 58. 3

20 26 11.6

+10 41 11.0

(244)

GOULD — CATALOGUE OF STARS OBSERVED IiY D AGELET.

245

Mean equinox 1800. 0

No.

Name

Mag.

Hat,

App't a

Reduct'n

App't <!

Reduction

a

6

It m s

s

O / II

/ //

ll III s

O 1 II

5511

5 Delphini <

4 Oet.

1

211 27 32.5

+ 42.7

+ 10 38 19.1

+ 2 57. 1

20 28 15.2

+ 10 41 10.5

5512

27 VulpecuUe

:; July

26

27 51.7

40.5

25 43 1.5

:: 21. I

20 28 3a. 2

+25 10 22.9

5513

"...

11

4 Sep!.

11

27

25 43 28.7

2 1(1. 3

28

411 15.0

55 1 1

7 Delphini k

l Oct.

1

28 41.1

43. 1

9 -,'0 27.7

2 58. 5

20 29 21.2

+ 9 23 2C2

5515

"...

(I

4 Oet.

9

2- 41.4

43. 2

9 20 21.9

2 58.6

29 21.11

25 23.5

551(3

29 Vulpeculje

11

1 Sept.

18

28

•J0 27 -.'1.4

2 57. 7

20 29

+20 30 19. 1

5517

20(17 Bradley

0

3 July

12

29 4. 3

44.5

15 5 10.3

3 25.5

20 29 48.8

+ 15 8 35.;:

5518

" . * .

3 July

23

29 4.5

44.3

15 5 0. 1

3 23. 0

29 48. 8

8 29. 1

5519

9 Delphini a

3 May

31

29 35. 3

45.4

15 9 20.0

3 311.0

20 30 20.7

+ 15 12 511.0

5520

" .

3 July

9

39 37. 1

44.5

J 5 9 24.9

3 211. 8

30 21.0

12 51.7

552 1

"...

3 July

10

29 30.2

44.4

15 9 27.3

3 26. 1

30 2O.0

12 53.7

5522

"...

3 July

12

29 311.7

44.4

15 9 31.4

:; 26.0

30 21. 1

12 57.4

5523

(i

3 July

23

29 36.8

44.3

15 9 28. 5

3 23.6

30 21. 1

12 52.1

552 1

Piazzi 255

7.8

4 Nov.

17

29 43. 3

42.9

12 40 21.8

2 59.7

20 30 20.2

+ 12 43 21.5

5525

Piazzi 258

0.7

3 July

•.'9

30 6.9

39. O

29 35 8.2

3 23. 4

20 30 15.9

+29 38 111.0

5526

"...

7

3 July

311

30 7. 2

39.0

29 35 B. 4

3 -.'3. 2

30 411. 2

38 31.11

5527

"...

0.7

4 Sept.

15

50 9.2

30. 4

29 35 34.5

2 5.-. o

30 45.0

38 32.5

5528

"...

(i

4 Oet.

III

3U 9.3

37. 0

29 35 35.7

2 54.7

30 40. 3

38 30.1

5529

Groornbridge 3243

(1.7

3 .Inly

27

30 -JO. 5

32. -

42 5 9. 9

:; 25.:;

20 30 53.3

+42 8 35.2

5530

"...

8

4 (>et.

15

30 22. 2

31.4

42 5 25. 7

2 52. 7

30 53.6

8 18.4

5531

Groombridge 3244

7

3 July

20

30 50.3

32.3

43 34 40.(1

3 '-'-. 3

20 31 22.6

+43 38 8.9

5532

"...

6.7

3 July

26

30 50.2

32. 3

43 34 39. 1

3 26. 4

31 22.5

38 5.5

5533*

Lalande 39956 .

7

1 Oct.

9

31 1.5

40. 4

19 10 3.7

2 58.5

20 31 41.9

+ 19 13 2.2

5534

Hi Delphini . .

7.0

1 Sept.

HI

31 12.9

41.6

13 49 42.4

3 1.0

20 31 54.5

+ 13 52 44.0

.v>::."i

2(574 Bradley .

8

3 July

9

32 7.2

31.8

44 51 20.9

3 34.0

20 32 39.0

+44 57 54.9

5536

"...

7

3 July

19

32 7. 1

31.0

44 54 20.6

:: 30.3

32 38. 7

57 50.9

5537

"...

7

3 July

26

32 6. 6

31.6

44 54 20. 9

:; 28.0

32 38.2

57 54.9

5538

"...

7

3 Sept.

•>

32 7. 9

31.7

44 55 33.9

3 10.3

32 39.(1

57 50.2

5539

"

7

4 Sept.

7

32 8. 9

29. 5

44 54 50.7

3 0.7

32 38.4

57 56.8

5540

1 1

7

4 Sept.

14

32 9. 2

29.0

44 54 54. 0

2 58.9

32 38.8

57 52.9

5541

"...

7

4 Oct.

1

32 8.4

29. 9

44 55 1.0

2 55.8

32 38.3

57 56.8

55 12

Piazzi 272

7

4 Sept.

18

31

10 45 37.9

3 0.7

20 32

+10 48 38. 6

5543

"...

0

4 Nov.

J7

32 5. 2

41.7

1(1 45 4li.4

3 0.7

32 46.9

48 47. 1

5544

I'., ssel, W.I 193 .

0.7

3 July

27

32 31.4

32.9

42 42 5.2

3 27.9

20 33 4. 3

+42 45 33. 1

5545

12 Delphini 6

5.0

4 Sept.

1-

33

14 18 51.2

3 3.6

20 111

+ 14 21 54.8

5546

5U C'ygui a

3 April 28

34 3. 1

34.4

44 30 19.4

3 53.8

20 34 37.5

+ 14 31 1:1.2

5547

"...

:i May

13

34 3.3

33. 8

44 30 -.'5. 8

3 51.8

34 37. 1

34 17.6

5548

"...

3 May

31

34 3. e

33. 2

44 30 25.3

3 47.8

34 37.0

34 13. 1

5549

"...

3 July

9

34 5.0

32.1

44 30 40.9

3 35.9

34 37. 1

34 16.8

5550

3 July

10

34 4. 8

32.1

44 30 40.6

3 35.0

34 30.9

34 10.2

555!

it

3 July

12

34 4. 9

32.1

44 30 40.4

3 34.9

34 37.0

31 15.3

555-.'

tt

3 July

19

34 4. 4

32.0

44 30 44.7

3 32.5

34 3H.4

34 17.2

555:1

"...

3 July

20

34 5. 1

32.0

44 30 45. 4

3 32.2

34 37. 1

34 17.6

5554

"...

3 July

23

34 5.0

32.0

44" 30 44. 0

3 31.2

34 37.0

34 15.8

5555

"...

3 July

20

34 5. 3

31.9

44 30 47.3

3 30. -J

34 37.2

34 17.5

555l ;

"...

3 July

27

(34)

44 30 51.0

3 29.9

(34)

34 21.5

5557

"...

3 July

29

31 5. 2

31.9

44 30 47. 4

3 29. 1

34 37.1

34 10.5

5558

"...

3 July

30

34 5. 1

31.9

44 30 48. 9

3 28. 8

34 37.0

34 17.7

5559

tt

3 Sept.

2

34 4.9

32.0

44 30 58. 1

3 18.0

31 311.9

34 10.7

5560

"

4 Sept.

7

34 0. 8

29.8

44 31 12.8

3 2.7

31 3(1.(1

34 15.5

5561

"...

4 Sept.

14

34 7. 2

29.9

44 31 18.8

3 1.0

34 37. 1

34 19.8

5562

1 1

4 Sept.

15

34 7. 0

29. 9

44 31 14.9

3 0.8

34 30.0

34 15.7

5563*

(i

4 Sept.

10

34 7. 3

29. 9

44 31 12.(1

3 0. 5

34 37.2

34 13. 1

55114

k

1 Sept.

17

34 7.4

30.0

44 31 18.9

3 0.4

34 37.4

34 19.3

55115

it

4 Oet.

1

34 11.5

32. 2

44 31 17.7

2 57. 8

34 3(1.7

34 15.5

5566

n

2

4 Oct.

9

34 (1. 4

30. 1

44 31 17.0

2 511.9

34 30.8

34 13.9

55H7

"...

2

4 Oet.

15

31 (1. 11

3n. (1

44 31 17.4

2 511. 1

34 37.2

31 13.5

5568

"...

2

4 Oct.

HI

34 0. 3

30. 6

44 31 19.0

2 50. 1

34 3(1.9

34 15.1

5569

"...

2

4 Nov.

28

34 5. 1

31.7

44 31 2'2.3

2 57. 3

34 30.8

34 19.6

557i 1

Lalande 40068 .

8

3 Sept.

7

20 34 19.9

+ 41.7

+23 1 17.9

+ 3 19.11

20 35 1.0

+23 4 37.2

(245)

246

GOULD — CATALOGUE OF STARS OBSERVED BY D'AGELET.

1

Mean equinox 1800. 0

No.

Name

Mag.

Dale

App't a

Reduct'n

App't A

Reduction

a

6

h ut s

s

c ' "

/ //

It m it

o / // "

5571

30 Vulpeculte .

6

1

Sept.

18

20 34

+21 30 46.6

+ 3 2.7

20 35

+24 33 49. 3,

5572

"...

6

4

Oct.

;»

(34)

24 311 44.7

3 0.7

(35)

33 45. 4

5573

51 Cygni .

6

4

Nov.

17

35 33. 3

+ 28.6

411 34 42.0

2 56.7

2d 36 1.9

+49 37 38.7

5574

12 Delphini y

:.

July

9

36 38.2

44.6

15 21 9.5

3 34.8

20 37 22.8

+ 15 24 44.3

.,.",,.,

"...

::

July

27

36 38. 1

44.3

15 21 15.4

3 30.6

37 22. 4

24 40.0

5576

"...

5

4

Sept.

18

36

15 21 33.8

3 6.5

37

24 4(1.3

5577

52 Cygni /••

3

July

23

36 45.5

39.2

23 .".11 15.8

3 32. 0

2d 3,7 24.7

+23 .V.I 47.8

5578

53 Cygni e

3

May

31

37 28. 1

39. 1

33 9 47. 8

3 49.4

211 38 7.2

+ 33 13, 37.2

5571)

"...

3

July

19

37 29.4

37. 9

33 Id 1.0

3 35. 2

38 7.3

13 30.2

5580

"

3

July

20

37 29.6

37.9

33 10 0.2

3 34. 9

38 7. 5

13 35. 1

5581

"...

3

July

23

37 29.2

37.9

33 9 58.4

3 34. 0

38 7. 1

13 32.4

5582

"

4

Sept.

I.",

37 31.(1

3.-,.:;

33 10 31.3

3 5. 4

38 (',. '.I

13 36.7

5583

"...

4

Sept.

16

37 31.(1

35. 3

33 10 28.6

3 5.1

38 0.9

13 33.7

5584

"...

4

Sept.

17

37 31.3

3:,. 3

3,3 Id 33.9

3 4.9

38 6 6

13 38.8

5585

"...

3

4

Nov.

28

37 3D. 5

36. 7

33, III 36.8

3 2.8

38 7.2

13 39.6

5586

54 Cygni ?.

3

July

2il

39 0.3

36.8

35 42 9.5

3 35.0

2d 39 37. 1

+35 45 44.5

5587

" ...

3

July

29

39 0. :.

36. 8

35 42 8.8

3 34.1

39 37.3

45 42.9

5588

"...

6

3

Jul.,

3il

39 H.9

36. 8

+35 42 10.2

3 33. S

39 37.7

45 44.0

5589

18 Capricomi a

4

Sept.

7

38 57. 6

53. 3

-27 42 44. 0

3 18.4

20 39 50.9

—27 39 25. 6

5590

Groonibridgc 3278

8

4

Nov.

17

39 23.2

31.0

+45 45 17.9

3 1.1

20 39 51.2

+45 48 19.0

5591

14 Delphini . ."

3

Sept.

7

39 13.2

46. 8

7 4 22.2

3 26.8

211 40 O.ll

+ 77 49.0

5592

15 Delphini . .

3

July

23

39 2N.7

45.5

11 44 41.3

3 34.0

211 40 6.2

+ 11 48 15.3

+ 559:!

6

4

Sept.

7

40 8. 5

:;?. 8

26 18 7.5

3, 10.3

211 4(1 46.3

+20 21 17.8

t5594*

8.9

3

July

30

40 41.3

35. II

39 37 3.9

3 37. 1

2d 41 16.3

+311 40 41.li

5595

Lalande 40279 .

7. S

4

Sept.

28

40 44.5

35.0

34 46 42.6

3 6. 2

211 41 19.5

+34 49 48.5

5590

"...

7

4

Oct.

16

40 43.7

35. 4

34 46 13.6

3 4.4

41 19.1

49 48.0

5597

Rumkcr 8601

7

3

July

27

40 41.1

43.8

17 15 8.8

3 35. 1

211 41 24.9

+ 17 18 43.11

5598

Lalande 40289,90

7.8

4

Sept.

14

40 54. 3

37.8

26 35 15.11

3 9. 8

211 41 32. 1

+20 38 24.8

5599

"...

8

4

Sept.

IT.

40 54.5

37.8

26 35 17.9

3 9.7

41 3,2.3

38 27.0

5600

"

9

4

Oct.

9

40 :>;,. 3

38. 2

26 35 15. y

3 6.9

41 33.5

38 22. 8

5601

55 Cygni . . .

3

July

23

41 35.6

31.9

45 1- 56.4

3 37. 0

20 12 7.5

+ 15 22 33.4

5602

56 < lygui .

0

3

July

12

42 2.".. II

3.3. 1

43 14 55.7

3 41.2

211 12 58. 1

+ 13 is 39.9

5603

"...

3

July

19

42 2.".. n

33. 2

43 15 0.2

3 41.9

42 58. 2

18 42.1

5604

"...

3

July

26

42 25. 3

33. 2

43 15 2.9

3 39. 5

42 58. 5

18 42.4

5605

Piazzi 358

6.7

3

July

29

42 IS. 7

411.3,

27 27

20 42 .V.I. (1

+27 30

5606

"...

6.7

3

July

30

42 19. 1

411.3

27 26 54. 9

3 36.8

42 59. 4

3,1) 33.7

.-,(107

«(

7

4

( let.

9

42 21.2

3.7. 9

27 27 2H.3,

3 8.0

42 59. 1

3d 28.3

5608

"...

6

4

Nov.

17

42 2(1. II

38.6

27 27 22.4

3 7.8

42 58.6

3,1) 311.2

5609*

Bessel, W.1483 .

8

3

July

9

42 35.0

44. 1

17 13 39.4

3 41.6

20 43 19. 1

+ 17 17 21.0

5610*

8

3

July

10

42 34. 7

44. 1

17 13 33.7

3 41.3

43 18.8

17 15.11

5611

«

6.7

3

Sept.

7

42 34. 8

43,. s

17 13 36.5

3 29.0

43 1&6

17 5.5

5612

31 Vulpeculae r

3

July

17

42 51.9

40.8

26 17 46.9

3 38.3

211 43 32.7

+26 21 23. 2

5613

"...

6.5

4

Sept.

14

42 55. 5

38.0

26 18 6.3

3 11.8

43 33.5

21 18. 1

5614

"...

6

4

S, pt.

15

42 56. 3

38.0

21 i L8 9.3

3 11.7

43 3,1.3,

21 2l.il

5615

"...

6. 5

4

Sept.

16

42 5i;. :;

3-. II

2(1 18 7.8

3 11.5

43 34.3

21 19.3

5616

"...

6

4

Sept.

is

42 56.0

38. ii

26 18 9.5

3 11.3

43 34.(1

21 211. S

5617*

Lalande 40403,4 .

7

4

Sept.

•J-

44 6.9

::7. 3

28 50 59.5

3 10.6

2d 44 44.2

+28 54 1(1. 1

5618

"...

6.7

4

Oct.

16

44 li. .".

37.6

28 51 3.4

3. 8. 9

44 4 1. 1

54 12.3

5619

Piazzi 376

(5

3

July

20

44 52.0

47.4

3 42 56. 1

3 39.7

2H 45 39.4

+ 3 40 3,:,. s

5620*

0

4

Oct.

1

45

3 43 17. 9

3 16.5

45

46 34.4

5621

Anonyma .

6.7

4

Oct

15

45 11.9

3ii. 3

32 3,7 49.0

3 9.3

20 45 4S.2

+32 10 58. 3

5622

"...

6

4

Oct.

16

45 11.4

36. 3

32 3,7 53.8

3. 8. 2

45 47. .

41 2.0

5623

32 Vjalpeculse </

6.7

3

July

9

45 21.9

40.8

27 14 27.6

3 46. 1

20 46 2.7

+27 is 13.7

5624*

"...

7

3

July

10

45 21. 1

40.8

27 14 29.9

3 15.6

4(1 1.9

18 15.5

5625

"...

3

July

27

45 21.7

40.8

27 14 34.0

3 41.11

40 2..",

18 15.0

5626

"...

6.7

3

July

29

45 21.2

40.6

27 1 1 36.0

3 411.4

40 1.8

IS 10.4

5627

6

3

July

30

45 21.11

4(1. 5

27 14 38. H

3. 411. 1

40 2. 1

18 18.9

5628

" '. !

5

4

Oct.

:i

45 21. 1

38. 1

27 15 2.4

3 11.1

40 2.2

18 13.5

5629

"...

6

4

Sept.

7

45 21..".

37. (1

27 15 0.6

3 i.-,.:,

40 2. 1

18 16. 1

5630

. . .

6

4

Sept.

14

20 45 23. 9

+ 37.7

+27 15 1.0

+ 3 14.2

2d 40 1.0

+27 18 15.2

(246)

GOULD CATALOGUE OV STARS OBSERVED 1SY ]> AGELET.

247

Mean equinox 181 0. 0

No.

X.i iim'

Mag

Date

Ajip't a

Reduct'i

App't (S

Reduction

a

<S

ll 111 , S

s

o / /'

/ //

U m ,s-

o ' II

5631

:!•_' Vulpeculae </

6

4 Sept. 16

20 45 24.5

+ ::7.7

+27 14 59.6

+ 3 13.9

20 HI 2.2

+27 18 15.5

5632

"...

6.7

4 Sept. IS

45 24.8

::7. 8

27 14 58.3

:: i:i. il

Id 2.(1

18 11.9

5633

"...

6

4 Sept. 28

45 24.3

:;7.:i

27 14 57.2

:; 12. i

40 2. 2

18 9.3

5634

"...

5

4 Nov. 17

45 23. 3

us. 8

27 15 5.4

3 in. li

41 i 2. 1

18 HI. 11

5635

17 Delphini .

:: Sept. 7

45 23.3

45. 1

12 54 2 ~.H

:: 32.6

20 40 8. 4

+ 12 5* 1.5

5636

.".7 t ygni . . .

3 Jnh 19

45 36.8

33.3

43 34 24.(1

:i 45. 5

20 Ki lo. 1

+ 411 38 0.5

5637

"...

3 July 23

45 37.0

33.2

43 34 20.4

3 44.2

4(1 10.2

38 4.0

563S

"...

:; Julj 26

45 37.3

33. 2

43 34 27.5

:; i:;. 2

411 10.5

MS 10.7

5639

[8 Delphini .

3 Sept. 7

48 2.0

46.0

10 1 1.2

:; 35.7

20 48 48.0

+ 1(1 4 111). 0

5640

Lalande 40572 .

7.8

3 July 27

48 14.7

41.2

25 54 21.9

1! 44.0

20 48 55.0

+25 38 5.9

5641*

"...

8.9

3 July 29

48 14.3

41.2

25 34 25. 1

:i 4::.:i

48 55.5

lis 0.0

5642

1 Equulei

6.7

3 Jnh !i.

48 16.8

48. 2

3 28 24.7

:; 45. 4

20 49 5.0

+ 3 32 10. 1

5643"

"...

:; July 20

48 17.2

KH

3 28 23. 4

3 43.4

49 5. 2

32 6.8

5644

"...

7

:; Jul) 23

48 17. 1

48.0

3 28 24.3

3 42.9

49 5. 1

32 7.2

5645*

"...

6

4 Oct. 1

48 20. 1

44.7

:: 28 50.7

3 19.9

49 4.8

32 10.ll

5646

"...

(1.7

4 Nov. 17

48 19.9

45. 4

3 28 47.6

3 20.7

49 5.3

32 8. 5

5647

33 Vulp VllkV

6

4 Sept. 18

48 In. ii

39.6

21 30 1(1.7

3 17.7

20 49 10. (1

+21 33 114. 4

5648

"...

6

4 Sept. 28

48 4U.4

39. 8

21 30 Hi. 7

3 16.3

49 2i). 2

33 33.0

5649

it

6

4 Oct. D

48 10.5

39.9

21 Hi) 19.6

3 15.(1

49 20.4

33 115.2

5650

" .

o

4 Oct. 16

48 m. ii

4U. 1

21 30 18.7

3 15. 1

49 20. 1

33 33.8

5651

58 Cygni v

3 July 12

49 8. 1

:;:■.:;

40 2(i 22. 1

:: 51.2

20 49 111. 4

+40 24 15. 3

5652

"" ...

3 July in

49 8. 4

35. 2

40 20 21.9

:; 49.0

49 43.6

24 10.9

5653

"...

3 July 26

49 8. 0

35. 1

40 20 24.2

11 4(1.5

49 41!. 1

24 10.7

5654

it

4

4 Sept. 7

49 11.0

32. G

4(i 20 52.5

3 14.4

49 411. 11

24 6. 9

5655*

"...

4.5

4 Oct. 15

49 10.2

:',;s. :s

40 20 59. 8

3 11.8

49 43.5

24 11.(1

5656

Piuzzi 417

8

1 Oct. 9

49 27. 1

39. 9

21 31 34.0

3 Ki.:;

20 50 7. 0

+21 34 50.3

5657

"...

7

4 Oct. 16

49 26.4

4(1.1

21 31 33.3

:i 15.8

50 0.5

34 49.1

5658*

Lalande 40705

8. 9

3 July -'7

51 6.3

39.0

31 39 43.6

3 47.7

20 51 15.3

+31 43 31.3

5659

"...

9

3 July 29

51 (>. 2

39.0

31 39 44.(1

:: 4H.0

51 45.2

43 llo.O

5660*

2 Equulei

7

3 July 23

51 33.7

47. 2

6 2ii 19.9

3 46. (1

2(1 52 20.9

+ 0 24 0. 5

5661

"...

7

3 Sept. 7

51 33.5

47.(1

6 20 33.5

3 39.8

52 20.5

24 15.3

5662

Lalande 40739 .

7

4 Oct. 1

51 52.9

45.0

+ 2 30 56. 0

:; 2:1. 5

20 52 37.0

+ 2 34 19.5

5663

22 Capricorni ;/

3 July 9

52 5.4

55.1

—20 41 53.9

3 45.4

20 51! 0.5

—20 58 8.5

5664

59 Cygni /'

3 July 12

52 29.2

::■_'. ii

+46 4n 47.2

3 55.6

20 51! 1.2

+46 44 42. 8

5665

"...

3 July 19

52 29. (i

31.9

46 4(1 18.8

:i 5:1. :i

.'.:: 1.5

44 42. 1

5666

"...

3 July 26

52 30. 3

31.8

45 40 53.4

3 51.0

55 2. 1

44 44.4

5667

Lalande 41 T s ■ 1

6.7

1 Sept. 28

52 40.5

35. ::

35 II 3i.5

3 18. 1

20 .".:; 15.8

+35 14 50.6

5668

"...

7

4 Oct. 9

52 40.0

35. 5

35 11 35.5

.". 1(1.7

53 15.5

14 52.2

5669

"...

6.7

4 Oct. 15

52 39. 8

: I5.il

35 11 34.3

:; 15.0

53 15.4

14 50.2

5670

t<

6

4 Oct. 16

52 39.7

35.6

35 11 36.4

3 15.8

53 15.3

14 52.2

5671

Lalande 1U773 .

6

4 Sept. 18

52 53.9

41.9

13 53 28. ::

3 22.9

20 53 115. 8

+ 13 56 51.2

5672

Johnson 5078

7

3 July 27

54 1.6

33. e

43 20 43. 4

3 52. 0

2H 5 1 35.4

+43 24 35. 4

5673

"...

8

3 July 29

54 1.0

:;:;. -

43 20 44. 7

3 51.3

54 34.8

24 36.0

567 1

Piazzi 44s . .

7

4 Oct 1

53 5H.7

45.1

2 5 56.4

3 25. 4

20 54 35. 8

+ 2 9 21.8

5675

3 Eijuulei

6

3 July 23

53 49. ::

47.7

4 39 10.8

:: 48. 8

20 54 57. ii

+ 4 42 59. 0

5676

"...

6

4 Nov. 28

53 51.9

45. 2

4 39 33. 0

3 26.3

54 57.1

42 59. 3

5677

Lalande in-Ill -

7. ,»

4 Sept. 7

54 2. 8

36.4

31 30 39.7

3 23. 8

2(1 54 50.2

+51 34 5.5

5678

Bradley 2740

7

4 Sept. 28

54 45.5

34.3

37 49 1.9

:; 19.8

2(1 55 19.8

+37 52 21.7

5671)

"...

6.7

1 Oct. 15

54 44.5

34. (i

37 49 3.7

3 17.0

55 10. 1

52 21.3

5680

6.7

4 Oct. 16

54 44.6

34.7

37 49 5.7

3 17.4

55 19.3

52 25. 1

5681

Anonyma .

7

3 July 26

56 16.2

32. 5

46 0 47.0

3 55.0

20 5(1 4S.7

+46 4 42.0

5682

" ...

7

:; July 27

56 15.8

32. 5

46 0 47.2

3 54.(1

5(1 18. 5

4 41.8

5683

Lalande 4(1896

8

4 Oct. 9

56 in. 5

4H.5

+20 5 55.3

:; 22.0

20 56 51.0

+20 0 18.2

5684

Bessel, W.1526 -

6.7

:; July 9

56 14.4

49.7

- 1 57 34.3

5 52.7

20 57 4. 1

— 1 33 41.6

5685

"...

7.8

4 Oct. 1

56 17.9

HI. ii

- 1 37 8.3

:; 28.8

57 3. 0

33 39.5

5686

62 Cygni f

:; July 19

57 5.0

34.3

f 43 4 8. 3

:; 57. i

20 57 no. ::

+43 8 5.4

5687

...

3 July 29

57 5. 2

34.2

43 4 10.8

3 54. 5

57 50.4

8 5.3

5688

Piazzi 173

6.7

1 Nov. 23

57 2. 9

39.5

26 4 27.7

3 22. 4

20 57 42.4

+26 7 50. 1
+57 45 32.2

5689

61 Cygni, prec. .

6

3 July 12

57 1 1.5

37. 0

57 41 32.6

:; 5o.i;

20 57 51.5

5690

6

4 Sept. 28

2H 57 17.2

-f- 34.5

+!7 42 11.3

•f- 3 22. 2

2u 57 51.7

+ 57 45 33.5

(247)

248

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800.0

No.

Name

Mag.

Date

App't a

Reduct'r

App't li

Reduction

a

6

h in s

s

0 1 a

/ //

h m s

O 1 a

569]

61 Cygni, prec. .

6

4 Oct.

15

20 57 16.4

+ 34.8

+37 42 15.7

+ 3 20.0

20 57 51.2

+37 45 35.7

5692*

"

6.7

4 Oct.

16

57 16.6

34 8

37 42 17.3

:: 19.9

57 51.-4

45 37.2

5693

K

6

4 Nov.

17

57 15.9

35. 5

::? 42 21.4

3 19.3

57 51.4

45 40.7

5694

"...

6

4 Nov.

28

57 15.8

35.7

3? 42 19. 0

3 20.2

57 51.5

45 39.2

5695

61 Cygni foil.

7

4 Oct.

15

57 18.0

34.8

37 42 22. 7

:-. 20. 1

20 57 52. 8

+37 45 42. 8

5696

Lalande 40954,5

6.7

:: sept.

18

57 27.8

41.7

14 48 23.7

3 27. 2

20 58 9.5

+ 14 51 50.9

5697

63 Cygni /:

3 July

26

59 11.3

32. 3

46 46 59. 7

:: 58. 1

20 59 43.6

+46 50 57.8

5698

"...

3 July

27

59 10.9

32.3

46 4- 1.8

3 57. 8

59 43.2

50 59.0

5699

"...

3 July

29

59 10.5

32. 2

46 46 58.5

3 57. 1

59 42.7

50 55.6

5700

Piazzi 492 . .

7.8

4 Oct.

1

59 6.1

45.1

2 4 47.8

3 30.4

20 59 51.2

+ 28 18.2

5701

Piazzi 1 . . .

6.7

3 July

9

59 30.0

40.6

29 20 14.9

4 1.6

21 0 10.6

+29 24 16.5

5702

"...

7

4 Sept.

18

59 32.5

37.5

29 20-49.2

3 27. 2

0 10.0

21 16.4

5703

"...

6

4 Sept.

28

59

29 20 49. 2

3 25. 4

0

24 11.6

5704*

"...

6

4 Oct.

9

59 32. 5

37.8

29 20 49.8

3 24.4

0 10.3

24 14.2

5705

(t

4 Oct.

15

59 32.4

37.9

29 20 48.3

3 23.6

0 10.3

24 11.9

5706

"...

6

4 Oct.

16

59 32.9

37.9

29 20 51.8

3 2:!. 5

o 10.8

24 15.3

57n?

5 Equulei y

3 July

•23

2d 59 49.8

46.5

9 16 5.7

:: 55.2

21 0 36. 3

+ 9 20 0.9

f5708

6 Equulei

5.6

:; July

23

21 tl 1.6

46.5

9 12 14.7

3 55.5

21 0 48. 1

+ 9 16 10.2

5709

Piazzi 21 .

8

4 Oct.

1

1 5:.:. :;

45. 1

1 46 17.8

3 33.0

21 2 38.4

+ 1 49 50.8

5710

"...

9. 10

4 Nov.

17

1 5:',. (i

45.8

1 46 15.7

3 33.7

2 38.8

49 49.4

5711*

Lalande 4114:! .

8

3 July

29

2 14.4

33.7

44 37 28. 7

4 0.1

21 2 48. 1

+44 41 28.8

5712

Lalande 41155

7

1 Oct.

9

2 26. 1

:;;,. a

::."> 25 47.9

:•• 25.8

21 3 2. 2

+35 29 13.7

5713

"...

7

4 Nov.

28

2 25.11

36.7

35 25 57. 1

3 25. 3

3 1.7

29 22. 4

5714

Piazzi '26 .

7

:'. July

26

2 36.0

40.6

28 49 55.9

:; 59.0

21 3 16.6

+2s 5;; 55. 5

5715

"...

7.8

3 July

27

2 36. 1

411.6

2- 19 :.-.'.>

:; 59. 4

3 17.0

53 58. 3

57 IG

"...

8

4 Oct.

15

2 38. 5

38.1

28 50 27.7

3 26. 5

3 16.6

53 54.2

5717

"...

8

4 Oct.

16

2 38. 8

38. 2

28 50 26. 5

3 26. 5

3 17.0

53 53.0

5718

Lalande 41165

7

3 July

19

2 17. -■

40.4

29 44 11.8

4 1.9

21 3 28. 2

+29 48 13.7

5719s

Piazzi 30 . . .

B.9

3 July

9

3 9.1

36.3

+ 10 18 13.0

4 7.1

21 3 45. 4

+40 22 20. 1

5720

Bessel, W.128 .

7.8

4 Oct.

1

3 35. 3

45.7

— 0 47 5. 9

3 36.9

21 4 21.0

— 0 43 29. 0

5721

64 Cygni f

3 July

12

3 45.3

40 7

+29 20 41. 1

4 4.9

21 4 26. 0

+29 24 46.0

5722

"...

3 July

19

3 45. 0

40.5

29 20 44.8

4 2.9

4 25.5

24 47.7

57-23

"...

3 July

26

:: 45.4

40.4

29 20 47.5

4 0. s

4 25. 8

24 48.3

5724

it

3 .Inly

27

3 45. 5

40.4

29 20 18. 1

4 0.6

4 25. 9

24 48.7

5725

ii

4 Sept.

18

3 4^.3

37.6

29 21 14.3

3 31.0

4 25.9

24 45.3

5726

"...

6.5

4 Oct.

15

3 47.9

3s.li

29 21 20.5

:; 2?.2

4 25. 9

24 47.7

5727

"...

5.4

4 Oct.

16

3 48. 0

38.0

29 21 20.9

3 27. 4

4 26.0

24 48.3

5728

"...

5. 6

4 Nov.

23

3 47.1

38. 7

29 21 19. 1

3 27. 6

4 25.8

24 46.7

5729*

7 Equulei <!

3 July

23

3 57.7

46.6

9 8 19.0

3 58.4

21 4 44.3

+ 9 12 17.4

5730

Lalande 41239,40

7

1 Sept.

28

4 12.5

35.8

34 55 22. 3

3 29. 0

21 4 48. 3

+34 58 51. 3

5731

"...

7

4 Nov.

28

4 11.4

37.0

34 55 30.0

3 27. 0

4 48.4

58 57.0

5732

Piazzi 4i! .

7.6

4 Nov.

28

5

35 45 26.5

3 28.5

21 5

+35 48 55.ii

:,7:;::

Lalande 11269 .

6

4 Oct.

9

5 II. 1

38.0

29 1 21.2

3 29.2

21 5 38. 1

+29 4 50.4

5734

"...

7

4 Oct.

15

4 59.9

38.1

29 1 17.5

:; 28. 7

5 :;-.o

4 46.2

5735*

"...

7

4 Oct.

16

5 11. 3

38.2

29 1 20.3

3 28.6

5 38.5

4 48.9

5736

8 Equulei a

3 July

23

5 1.7

47.9

4 21 46. 8

:: 50.9

21 5 49.6

+ 4 25 46.7

.".?:;?

"...

:: Sept.

15

5 1.6

47.7

+ 4 21 53.8

:'. 52. 8

5 49. 3

25 16.6

5738

Lalande 41293 .

7

4 Oct.

1

5 32.2

46. 1

— 2 29 31.6

3 37.2

21 6 18.3

— 2 25 54. 4

5739

"...

7

4 Nov.

17

5 32.0

16. 3

- 2 29 37.2

:; 38. 3

6 1-. -

25 58.9

5740

Piazzi 50 .

8.9

3 July

9

6 2. 6

36.5

+ 40 15 12.8

4 10.0

21 6 39. 1

+40 19 22.8

5741

65 < lygni r

3 July

27

6 10.6

37.5

37 7 43.6

4 3.7

21 6 48. 1

+37 11 47.3

.".? 12

" ...

3 July

211

6 11.0

37.5

37 7 40.9

4 3.2

6 48.5

11 44. 1

5743

Piazzi 68 .

8

1 Oct.

1

8 3. 5

43.6

8 4 9. 2

:: 36.9

21 8 47. 1

+ 8 7 46. 1

r.744

Lalande -1 1385 .

6.7

4 Nov.

28

8 19.7

34.8

41 21 52.2

3 29. 2

21 8 54. 5

4-11 25 21.4

5745

67 Cygni a

5

3 July

27

8 56. 5

37. 1

38 29 39.6

4 6.9

21 9 33.6

+38 :::: 46.5

5746

"...

6.5

3 July

29

s 57.11

37.1

::- 2:1 :::..n

4 6.2

9 3-1. 1

33 41.2

57 17

"...

6

4 Oct.

15

8 .".'.mi

35.0

38 30 12.7

3 30.6

9 34. 0

33 43.3

57 18*

"...

6

1 Nov.

1?

s 58. 4

35. 7

38 30 18.3

:: 29.5

9 34. 1

33 47.8

5749*

"...

6

4 Nov.

2::

8 57.6

+ 35.8

::-; 3o 17.2

3 29. 8

9 33.4

33 47.0

ri7r.ii

"...

6

4 Nov.

28

21 8

+38 30 Hi. 7

+ :: 29.6

21 9

+38 33 46. 3

(2 is,

GOrLI") CATALOGUE OF STARS OBSERVED BY D AGELET.

2 -19

Mean equinox 1800. 0

No.

Name

Mag.

Dab

App't a

Reduct'n

App't (!

Reduction

a

<!

ft in S

s

0 / "

/ ./

h in s

0 1 a

5751

66 Cygni v

3

July

12

21 9 3. 1

+ 39.2

+33 59 35.3

+ 4 11.0

21 9 42. 3

■f-34 3 46.3

5752'

..

3

July

19

9 ::. 2

39. 1

33 59 41.0

4 8. 8

9 42. 3

3 49.8

5753

'•

3

.Ink

23

9 3.6

39.0

33 59 38.2

1 7.6

9 42. 6

3 45.8

5754

"...

4

Sept.

18

9 5.8

36.2

34 0 8.5

:; 35.5

9 42.0

3 44.0

5755

"...

4

Sept.

28

9 (i. 3

36.4

34 0 11.1

:; 33.6

9 12.7

3 44.7

57 . .1 i

"...

6

4

Oct.

16

9 5.8

36.7

34 0 16.8

3 31.2

9 4-.'. 5

3 48.0

:.::>7

Groombridge 342]

7

::

July

9

9 13.5

36.0

41 46 50.6

4 13.5

21 9 49.5

+41 51 4. 1

5758

Lalande 41476 .

6.7

::

July

26

10 25.0

43.4

21 7 3. 4

4 6. 4

21 11 8.4

+21 11 9.8

5759

9 Equulei

6

1

Si MI.

7

Id 26.9

43. 8

6 27 8.7

3 41.3

21 11 10.7

+ 6 30 50.0

5760

Auonyma .

7

4

Oct.

15

10 48.8

35.5

37 20 24. 1

3 32. 3

21 11 24.3

+37 23 56. 4

5761

«

7.8

1

Oct.

JG

10 48.6

35. 5

37 20 23.9

3 32.3

11 24.1

23 56.2

5762

Lalande 41497,8 .

7

4

Oct.

1

in 52.7

4:'.. 3

9 25 54.6

3 39.0

21 11 36.0

+ 9 29 33. 6

5763

"...

8

4

Nov.

28

in 52. 1

44. 1

9 25 50.2

3 39. 9

11 36.5

29 30. 1

5764

1 Pegasi c

3

July

9

12 6.1

44.4

18 53 3.7

4 12.2

21 12 50.5

+18 57 15.9

5765

it

3

July

19

12 6. 4

44.2

18 53 8.7

4 9. 4

12 50.6

57 18.1

5766

"...

3

July

23

12 6. 2

44.1

18 53 11.8

1 8. •">

12 50.3

57 20.3

5767

Lalande 41554 .

7

4

Oct.

15

11

31 42 30.0

:; 35. 5

21 12

+31 46 5.5

5768

t«

7

4

Oct.

it;

12 19.9

37.6

31 42 33.8

3 35. 5

12 57.5

46 9. 3

5769

10 Equulei ti

6

4

Oct.

c.

12 13.4

44. 2

5 54 7. 3

3 41. 0

21 12 57.(1

+ 5 57 48. 3

:.77ii

Anonyms .

7.8

4

Sent.

28

12 39.0

34.5

39 27 11.4

3 36.2

■.'1 13 13.5

+39 30 47.6

5771

«

7

4

Nov.

17

12 37. 7

35.5

39 27 24. 7

3 32.4

13 13.2

30 57. 1

5772

Lalande 41(3J5,0 .

6.7

4

Oct.

1

13 54.7

4:1.4

9 15 37.0

:: 41.2

21 14 38. 1

+ 9 19 18.2

r.77:;

Piazzi 118 . .

6

3

July

26

14 15.3

42. 8

+23 21 4.7

4 10.5

21 11 58. 1

+23 25 15.2

5774

34 Capricorni C

I

Sept.

18

14 22. 4

50.9

—23 20 4.2

:: 49.9

21 15 13.3

—23 16 14.3

577.".

Lalande 41644 .

7

4

Oct,

15

14 40.8

36.0

+36 29 36. 8

3 35. 8

21 15 Hi.-

+36 33 12.6

5776

"...

7.8

4

Oct.

16

14 41.1

36.0

36 29 37.8

3 35.6

15 17.1

33 13.4

5777

Piazzi 120

7

3

July

9

14 58.8

42.6

25 14 55.5

4 16. 1

21 15 41.4

+25 19 11.6

5778

Lalaude 41662 .

7

3

July

19

15 4. 1

38.4

36 25 43.6

4 15.0

21 15 42.5

+36 29 58. 6

.-.779

"...

4

Oct.

15

15 7.0

36. 1

36 26 24. 1

3 36. 4

15 43. 1

30 0. 5

5780

"...

7

4

Oct.

16

15 6.6

36.1

36 26 25. 6

3 36. 0

15 42.7

30 1.6

:.7-l

Bessel, W.437 .

7.8

4

Sept.

28

15 11.8

37.9

30 1 16.5

3 39.5

21 15 49.7

+30 4 56. 0

5782

"...

7

4

Nov.

17

15 10.4

38.8

30 1 22.7

:; 36.7

15 49.-.'

4 59.4

5783

n

7

4

Nov.

23

15 9. 7

38.8

30 1 20.4

3 36. 9

15 48.5

4 57. 3

T.7-4

(t

7

4

Nov.

28

15 10.0

38.9

30 1 21.8

3 37. 4

15 48.9

4 59.2

5785

Lalande 41692 .

8

4

Oct.

6

15 48.4

43.5

9 13 26. 5

3 43. 1

21 16 31.9

+ 9 17 9.6

5786

69 Cygni . . .

6.7

3

July

19

16 58.6

38.8

35 44 1 -. 9

1 16.9

21 17 37.4

+35 48 35.8

5787

"...

3

July

23

16 58. 5

38. -

35 44 16.8

4 15.6

17 37.3

48 32. 4

5788

"...

7

4

Oct.

15

17 1.1

36.4

35 44 55. ..

3 37.9

17 37.5

48 33.4

5789

"...

7

4

Oct.

16

17 1.0

36.4

35 44 58. 3

3 38. 0

17 37.4

48 36.3

5790

Lalande 41756 .

6.7

4

Oct.

6

17 49.:.

43.9

7 16 12. 1

3 45.4

21 18 33.4

+ 7 19 57.5

.-.79 1

35 Vulpeculae

3

July

26

18 9. 4

41.9

26 40 25. 2

4 14.5

21 18 51.3

+26 44 39.7

5792

"...

6

4

Sept.

28

18 12.6

39.0

26 40 52. 1

3 4-.'. 3

18 51.6

44 34.4

5793

1 1

6

4

Oct.

1

18 12.5

39.0

26 41 0.7

3 42. 1

18 51.5

44 42.8

:.7M1

"...

6

4

Nov.

28

18 11.7

40. 0

26 40 58. 9

:: 40.9

18 51.7

44 39. -

.-,7'.'.-.

70 Cygni . . .

C

4

Oct.

15

18 36. 5

36.3

36 11 32.3

:; 39.3

21 19 12.8

+36 15 11.6

5796

"...

6

4

Oct.

16

18 36.8

36.3

36 11 30.4

3 39. 1

19 13.1

15 9.5

5797

Anonyma .

7.8

4

Nov.

17

18 46. 8

43.6

11 1 35.4

3 45.2

21 19 30.4

+11 5 20.6

5798

Lalande 41815,6 .

4

Oct..

6

19 34. 1

43.0

11 14 9.7

3 45. 9

21 'Jo 17. 1

+11 17 56.6

5799

2 Pegasi /

3

July

19

20 9. 9

43.3

22 41 49. 5

4 17.7

21 20 53.2

+22 46 7.2

581 HI

K

3

July

26

20 9.9

43.2

22 41 54. 4

4 15.8

20 53. 1

46 10.2

.Vol

ci

6

4

Oct.

1

20 13.5

40.2

+22 42 25. 0

3 44.5

20 53.7

46 9.5

5802

22 Aquarii t3

3

July

9

20 10. 1

r.o.7

— 6 30 50.5

4 14.5

21 21 0.8

— 6 26 36. 0

5803*

"...

3

3

Sept.

15

20 10.9

50.3

6 30 42. 4

4 8.7

21 1.2

26 33.7

5804

"...

4

Sept.

7

20 14.6

46.7

6 30 26.5

3 51.2

21 1. 3

26 35.3

5805

"...

4

Sept.

14

20 14.0

46.8

6 30 28.7

3 51.(1

21 0.8

26 37.7

5806

"...

4

Sept.

16

20 14.0

46.8

6 30 26. 3

3 51.0

21 0.8

26 35.3

581 '7 "

"...

4

Sept.

18

•Jii 14.5

46.8

6 30 25. 6

:; 51.0

21 1. 3

26 34.6

5808

"...

3

4

Nov.

23

•jo 13. -

47.6

— 6 30 28. 7

:; 52.6

21 1.4

26 36. 1

5809

Lalande 41869 .

6.7

4

Oct.

6

20 45.6

43.0

+11 12 6.1

:; 16.9

21 21 28.6

+ 11 15 53.0

5810

-

6.7

4

Nov.

17

21 20 45. 3

+ 43.6

+11 12 9.4

+ 3 46. 8

21 21 28.9

+11 15 56. 2

32

(249)

250

GOULD CATALOGUE OF STARS OBSERVED BY D'AGELET.

Mean equinox 1800. 0

No.

X;

Mag.

Date

App't a

Reduct'n

App't 6

Reduction

o

0

It m s

s

o / II

/ //

h m s

o ' »

5811

71 Cygni g

3

July

23

21 21 30.0

+ 34.7

+45 35 20. 2

+ 4 21.3

21 22 4.7

+45 39 41.5

5812

"...

6

4

Oct.

15

21 31.8

32.7

45 36 3. 8

3 40.5

22 4.5

39 44. 3

5813

"...

6.7

4

Oct.

16

21 31.6

32. 7

45 36 5. 9

:; 40. 3

22 4.3

39 46.2

5814

Piazzi 174

6.7

4

Sept.

28

22 7. 7

40.1

22 54 17.9

3 46.4

21 22 47. 8

+22 58 4. 3

5815

"...

4

Oct.

1

22 6. 8

40.2

22 54 23.8

3 46. l

22 47. 0

58 9.9

5816

I'iazzi 178

6.7

3

July

26

22 38.2

43. 4

22 26 45.7

4 18.0

21 23 21.6

+22 31 3.7

r,H 1 7

"...

7.8

3

July

27

22 38. 1

43.3

22 26 43. 7

4 17.7

23 21.4

31 1.4

5818

"...

7.8

3

July

29

22 38. 3

43.3

+22 26 4-2. 'J

4 17.2

23 21.6

31 0. 1

5819

37 Capricorni

6

4

Nov.

23

22 45. 6

50.9

—21 2 4. 2

3 59. 6

21 23 36.5

—20 58 4. 6

5820

Bessel, W.671 .

6.7

4

Oct.

6

24 41.4

41.6

+17 22 49.0

3 46.5

21 25 23. 0

+17 26 35.5

5821

t I

7

4

Nov.

17

24 41.0

42.2

17 22 53. 1!

3 46.4

25 23.2

26 39.7

5822

2807 Bradley .

6

3

July

19

25 12.6

35.4

44 53 48.2

4 26.0

21 25 48.0

+44 58 14.2

5823

"...

7

4

Oct.

15

25 15.5

33. 3

44 54 31.6

3 43.6

25 4^. 8

58 15.2

58-24

"...

7

4

Oct.

16

25 15.7

33.3

44 54 36. 3

3 43.6

25 49. 0

58 10.9

5825

et

7

4

Nov.

28

25 14.2

34.3

+44 54 37.0

3 42. 1

25 48.5

58 19. I

5826

39 Capricorni e

3

July

9

24 57.8

54. 2

—20 25 28. 4

4 15.8

21 25 52. 0

—20 21 I2..6

5827

"...

3

July

12

24 57.6

54.1

20 25 26. 1

4 15.7

25 51.7

21 10.4

5828

"...

4

Sept.

16

25 1 . 3

49.8

20 25 8.6

3 57.5

25 51.1

21 11. 1

:,.<»J

"...

4

Sept.

18

25 1.3

49.8

20 25 13.4

3 57.7

25 51.1

21 15.7

5830

"...

4

4

Nov.

23

25 1. 2

50.7

—20 25 13.6

4 1.3

25 51. 9

21 12.3

5831

Piazzi 200 . .

7

3

July

27

25 40.9

43.1

+23 29 39. 4

4 20.7

21 26 24. 0

+23 34 0. 1

5832

"...

8

3

July

29

25 40.0

43.1

23 29 40. 4

4 20.2

26 2:!. 7

34 0.6

5833

73 Cygni p

3

July

19

25 52. 1

35. 6

44 38 19.5

4 26.5

21 26 27.7

+44 42 46.0

5834

6

4

Oct.

15

25 55. 2

33.4

44 39 4.2

3 44.2

26 28.6

42 48. 4

5835

"...

4

4

Nov.

28

25 53.2

34.4

14 39 4.6

3 42.7

26 27.6

42 47.3

5836

72 Cygni . .

3

July

23

25 58. .".

38.6

37 34 6.8

4 24.2

21 26 37. 1

+37 38 31.0

5837

"

4

Sept.

28

26 0.6

35.8

37 34 43. 1

3 47. 8

26 36. 4

38 30.9

5838

3 Pegasi .

3

July

26

26 57.8

47.7

5 39 19.0

4 19.5

21 27 45.5

+ 5 43 38. 5

5839

5 Pegasi -

6.5

4

Oct.

6

27 42. 4

41.5

18 21 39.5

3 51 . 0

21 28 23.9

+18 25 30.5

5840

Lalande 42153 .

7

4

Oct.

15

27 53.4

33.6

44 25 18.8

3 45.9

21 28 27.0

+44 29 4. 7

5.- il

( i

7

4

Oct.

16

27 53.0

33.6

44 25 15.4

3 45.7

28 26. 6

29 1.1

58 12

4 Pegasi .

3

Sept.

15

27 43.6

47.6

4 48 21.2

4 13.2

21 28 31.2

+ 4 52 34. 1

5843

74 Cygni .

3

July

23

28 18.8

38.0

+39 2li 44.0

4 26.5

21 28 56.8

+39 31 10.5

5844

40 Capricorni y

3.4

4

Sept.

7

28 9. 9

49.1

—17 37 20. 1

3 59. 0

21 28 59. 0

—17 33 27. 1

5845

"...

4

Sept.

16

28 9.4

49.1

17 37 2:..::

3 59. 2

28 58. 5

33 26. 1

5846

"...

4

Oct.

1

28 9. 9

49.2

—17 37 23.0

4 0. 0

28 59. 1

33 23.0

5847

6 Pegasi .

4

Sept.

18

28 38.6

45. 1

+ 1 17 9.8

3 56. 3

21 29 23.7

+ I 21 6. 1

5848

Groombridge 3512

7

3

July

12

29 4. 0

38. T

38 20 51.5

4 30.7

21 29 42. 7

+38 25 22. 2

5849

"...

6.7

3

Aug.

21

29 3. 9

38. 2

:;- 21 o.'.i

4 18.0

29 42. 1

25 18.0

5850

Lalande 42200, l"

7.8

3

July

27

29 1.6

43.0

24 31 48. 1

4 23.9

21 29 44. 6

+24 36 12.0

5851

<>

7.8

3

July

29

29 1.2

42.9

24 31 46.9

4 23.2

29 44. 1

36 10. 1

5852*

Groombridge 3514

7

4

Sept.

28

29 14.7

33. 7

43 44 19.8

3 50.2

21 29 48.4

+43 48 10. 0

5853

Lalande 42240,1

8.9

4

Nov.

28

30 4. II

35.6

42 19 52.7

3 46.3

21 30 39. 6

+42 23 39. 0

5854

Lalande 42243 .

7

4

Oct.

6

30 2. 7

43.5

9 38 46. 3

3 54.8

21 30 46. 2

+ 9 42 41.1

5855

"...

7

4

Nov.

17

30 2.7

44.0

9 38 50.2

3 54.7

30 46.7

42 44. 9

5856*

Lalande 42249 .

8. 9

3

July

26

30 12.0

48.1

4 2 49.5

4 22.1

21 31 0. 1

+ 4 7 11.6

5857

"...

7

3

Sept.

15

30 12.2

47.8

4 2 56. 0

4 15. 6

31 0. 0

7 11.6

5858

Groombridge 3529

7

3

July

9

31 7.6

38. 8

38 32 17.8

4 :;::..".

21 31 46.4

+38 36 51.3

5859

E/alande 42273,4

8

3

July

19

31 9. 2

42.2

27 46 33.2

1 28.4

21 31 51.4

+27 51 1.6

5860

26 Aquarii . -

6

4

Oct.

1

31 12.2

45.4

0 18 58. 3

3 57.8

21 31 57.6

+ 0 22 56. 1

5861

Lalande 42287 .

7

3

Sept.

15

31 19.4

47.9

+ 3 51 40.4

4 16.5

21 32 7.3

+ 3 55 56. 9

5862

44 Capricorni </-

6.7

4

Sept.

16

31 20.1

48.5

—15 22 22.7

4 1.2

21 32 8.6

—15 18 21.5

5863

Lalande 42292 .

8

3

July

27

31 26.3

44.0

+20 57 58. 1

4 25.4

21 32 10. 3

+21 2 23. 5

5864

41

7.8

3

July

29

31 25.8

44.0

20 58 2. 8

4 24. 8

32 9.8

2 27.6

5865

Groombridge 3532

8

4

( let.

15

31 36.6

34.3

43 28 1.7

3 49.0

21 32 10.9

+43 31 .",0.7

5866

"...

8

4

Oct.

16

31 36.4

34. 3

43 28 0.5

3 48.7

32 10.7

31 49.2

5867

7 Pegasi .

6

3

July

26

31 27. 1

48.0

4 42 13. 4

4 23. 1

21 32 15. 1

+ 4 46 36. 5

5868

75 Cygni . . .

3

July

23

31 43.9

37.0

42 17 41.3

4 30. 1

21 32 20. 0

+42 22 11.4

5869

6.7

4

Sept.

28

31 46.3

34.4

42 18 16.6

3 52. 3

32 20.7

22 8. 9

5870

6.7

4

Nov.

28

21 31 44.9

+ 35.7

+42 18 28.5

+ 3 47.5

21 32 20.6

+42 22 16. 0

(250)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELKT.

251

Mean equinox 1800.0

No.

Name

Map-.

Dato

App'l a

Eteduct'n

App't 6

Reduction

a

6

h m s

s

o / /'

/ //

ll in 3

o / "

583 1

Lalaade 42309,10

8

July 27

21 31 39.8

+ 44.1

+20 37 31.0

+ 4 25.0

21 32 23.9

+20 42 0.2

5872

"...

7.8

3

July 29

31 40.2

44.1

29 37 31.7

1 25.0

32 21.5

41 59.7

5873

2827 Bradley .

6

4

Oct. 6

32 2. 9

43.4

9 51 9.8

3 5C. 2

21 3,2 46.3

+ 9 55 0.(1

587 1

l(

6

4

Nov. 17

32 2.2

44.0

9 51 9. 0

3 50.11

3,2 10.2

55 5. 0

5875

76 Cygni. . -.

6

3

Aug. -1

32 54. 1

37.9

39 49 48. 3

4 17.4

21 3,5 3,2.3,

+59 51 5.7

5876

77 Cygni . . .

6

3

July 9

33 42. 2

38.4

40 5 37.7

4 30. 1

21 34 2(1.3

+41) 10 13.8

5877

"...

C

::

Jul} 23

33 42. 7

38.1

40 5 30.:;

4 31.0

34 20.8

10 7.9

5878

1 1

0

::

Aug. 2 1

33 42. 3

37.8

40 5 47. 4

4 22. 0

34 20. 1

10 9.4

r„s?'.i

8 Pegasi e

3

Sept, 15

33 35.2

46.8

6 53 35. 3

4 17.7

21 34 22.0

+ 8 57 53.11

5880

"...

4

Sept. 16

(33)

8 53 50. 1

3 59. 1

(34)

57 55.2

588 1

"...

4

Oct. 1

(33)

8 53 53. 6

3 57.9

(34)

57 53.5

5882

((

2.3

4

Oct. 0

33 38.0

43.7

8 53 54.9

3 57.7

3,1 21.7

57 52.0

5883

a

3

4

Oct. 9

33 38. 1

43.7

8 53 53. 5

3, 57.0

34 21.8

57 51. 1

5884

Lalande 42379 .

7

4

Oct. 15

:;:; 56.4

33.9

44 47 39. 1

3 511.0

21 5,1 3,11.5,

+ 11 51 29.7

5885

"...

7.8

4

Oct. Hi

33 50. 8

33.9

44 47 38.2

3. 50.4

34 30.7

51 28.6

5886

9 Pegasi g

3

July 27

34 17.5

45.3

16 21 50. 1

4 27.2

21 3,5 2.S

+16 26 17. 3

5887

" . '.

4.5

3

July 29

34 17.4

44.5

16 21 52.7

4 26.8

35 1.9

20 19.5

5888

2841 Bradley .

0

3

July 9

31 26.3

38.4

40 HI 14.7

4 36.6

21 35 4.7

+40 14 51.3

5889

it

3

July 23

34 26.6

38.1

in 111 11.3

4 32.2

5,5 4.7

14 43.5

5890

it

6

3

Aug. 21

34 27.0

37.8

40 10 25.8

4 22.8

55 4.8

14 48.6

5.-91

"...

7

4

Sept. 28

34 29.7

35.4

40 10 40.9

3 54.4

35 5. 1

11 41.3

5892

78 Cygni /i>

3

July 19

34 29.4

42.4

27 40 14.2

I 31.3,

21 5,5 11.8

+27 50 45.5

5893*

Piazzi 267

6.7

:;

July 19

34 44.9

42.4

+27 47 46.2

1 51. 1

21 35 27.3

+27 52 17.0

5894

48 Capricorui /.

4

Sept. 7

34 57.3

47.8

—12 20 54.2

4 3.5

21 35 45. 1

—12 16 50.7

5895"

"...

4

Sept. 18

34 57.7

47.8

12 20 54.7

4 3.6

35 45.5

16 51.1

5896

"...

5

4

Nov. 23

34 56.5

48.6

— 12 20 45.5

4 0. 2

5,5 45. 1

10 39.3

5897

Johnson 5380 .

7.8

4

Oct. 15

36 17.8

33.0

+45 52 51.6

3 52.4

21 36 51.4

+45 50 44.0

5898

((

7.8

4

Oct. 10

30 17.8

33.6

45 52 50. s

3 52. 2

50 51.4

56 49.0

;>;«!

12 Pegasi

C

3

July 12

30 9.11

44.2

21 57 21.0

4 33.5

21 3,0 53.2

+22 1 55.1

5900

"...

3

July 26

30 8.7

43.9

21 57 3U.G

4 29.7

36 52.6

2 0.3

5901

11 Pegasi

::

Sept. If.

30 17.7

48.3

1 41 43.7

4 20.8

21 37 0.0

+ 1 46 4.5

5902

"...

4

Sept. Hi

30 20.3

45.0

1 42 5.7

4 2.2

37 5. 3

40 7. 9

5903*

Lalaude 4'>464,5

7

4

Oct. 1

30 23. 8

42.8

12 14 9.0

3 59.2

21 37 0.0

+12 48 8.2

5904

"...

7

4

Oct. 0

36 23. 7

42. 9

12 44 6.0

3, 5-. 9

37 6.6

48 4. 9

5905

a

7

4

Nov. 17

30 23.9

43.4

12 44 6.7

3, 5-. 5

37 7. 3

48 5.2

5906

2853 Bradley" !

7.8

3

July 27

30 48.2

45.4

16 12 5.8

1 29. 1

21 37 53,. 0

+ 16 10 34.9

5907

1(

6.7

3

July 29

30 48.9

45.3

16 12 7.0

1 29.0

37 31.2

16 36.6

5908

* Groombvidge 3565

7

3

July 9

37 42.0

37.9

42 3 48. 1

4 59.9

21 38 2H.5

+ 12 8 28. 0

5909

(i

7.8

3

July 23

37 43.2

37.0

+42 3 4S.8

4 35. 3

38 20.8

8 24. 1

5910

902 Mayer . .

7.8

4

Sept. 14

38 3. 0

48.0

—13 42 57. 4

4 5. 9

21 38 51.li

—13 38 51.5

5911

81 Cygni n-

3

Aug. 21

38 50.7

34.5

+48 18 49. 9

4 27.2

21 39 25. 2

+48 23 17. 1

5912

" . '.

5

4

Oct. 9

38 52. 5

32.5

48 19 21.1

3 55. 3

5,9 25.0

23 10.4

5913

a

6.5

4

Oct. 15

38 52.5

32.7

48 19 20.8

3 54.1

39 25. 2

23 14.9

5914

((

6

4

Oct. 10

38 52.7

32. 7

48 19 22.6

5 53.9

39 25.4

23 16.5

5915

Lalande 42549 .

7.8

1

Oct. 1

39 5.3

42.4

14 46 9.2

4 (1.9

21 3,9 47.7

+ 14 50 10. 1

5916

((

7

4

<lrt. (i

39 4.9

42.5

14 46 9. 1

4 ii. 0

59 47.4

50 9. 7

5917

Lalande 42559 '.

7

4

Sept. 28

39 25. 1

41.4

19 28 8.5

4 0.0

21 411 6.5

+ 19 32 15.1

5918*

13 Pegasi

6.7

3

July 12

39 52.7

45. 7

16 17 5.2

1 35. 1

21 411 38.4

+ 10 21 40.6

5919

"

3

July 19

39 52.2

45. 0

16 17 7.6

4 33.7

40 3,7. 8

21 41.3

5920

- -

3

July 26

39 52.7

45.4

16 17 14.5

4 31.9

40 38. 1

21 40.4

59-21

"...

3

July 27

39 52.4

45.4

16 17 10.6

4 31.7

40 37.8

21 42.3

5922

"...

3

July 29

39 52.4

45.4

16 17 10.0

4 31.2

40 37.8

21 47.2

5923

it

4

Sept. 16

39 55.8

41.9

16 17 43.9

4 3.0

40 37.7

21 46.9

5924

14 Pegasi _ .

:;

Sept. 15

40 19.4

41.9

29 10 33. 8

4 21.4

21 41 1.3

+29 14 55. 2

5925

"...

7

1

Sept. 28

40

29 10 51.9

4 ll.ll

41

14 51.9

5926

Johuson 5408

8.9

:;

July 9

40 53. 8

38.9

40 8 30.2

4 42. 1

21 41 32.7

+40 13 18.3

5927

i«

7

1

Nov. 17

40 56. 0

30.7

40 9 24. 2

3, 51. 1

41 32.7

13 18.6

592S

Piazzi 312 . .

6.7

3

July 12

41 25.8

45.2

18 49 4. 4

4 37.2

21 42 11.0

+18 53 41.6

5929

..

6.7

4

Oct. 0

41 28.5

41.0

+18 49 41. 1

4 1.0

42 10. 1

55 42.7

5930

51 Capricorn! ft

4

Sept. 7

21 41 33.9

+ 48. 1

—14 33 14.8

+ 4 8.5

2 1 42 22. 0

—14 29 6.3

(251)

252

GOUi^D — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag

Date

App't a

Reduct'n

App't 6

Reduction

a

6

h tn s

s

0 / //

< //

h m s

0 / //

5931"

51 Capricomi /i

4

Sept. 14

21 41 34.2

+ 48. 1

—14 33 22. 3

+ 4 8.6

21 42 22.3

—14 29 13.7

5932

Groombridge 3584

7

4

Oct. 9

42 13. 1

36.5

+38 32 17.3

3 58. 8

21 42 49. 0

+38 30 16. 1

5933

"...

7

1

Oct. 15

42 13.11

36.7

38 32 16. 6

3 57.8

42 49.7

36 14.4

5934

"...

7

!

Oct. 16

42 12.7

30.7

38 32 18.6

3 57. 6

42 49. 4

36 16.2

5935

15 Pegasi

3

Aug. 21

42 5-.'.:;

42. 4

27 47 15.4

4 29. 1

21 43 31.7

+27 51 44.5

5936

"...

3

Sept. 15

42 52. 6

42. 4

27 47 21.3

4 23. 4

43 35.0

51 44.7

5937

"...

6

4

Sept. 16

42 55.6

39. 4

27 47 44.4

4 4.4

43 3,5.0

51 48.8

5938

16 Pegasi

:;

July 27

43 14.4

43.4

24 54 49.4

4 35.9

21 43 57. 8

+21 59 25.3

5939

"

6.5

::

July 29

43 14.4

43.4

21 51 49.0

4 35. 3

43 57. 8

59 24.3

5940

Lalande 42690, 1 .

6

3

July 19

43 27.7

45.1

18 39 12. 0

4 37.0

21 44 12.8

+18 43 49.0

5941*

..

6.7

4

Sept. 28

43 31.9

41.6

18 39 43.1

4 3.9

44 13.5

43 47.0

5942

"...

6.7

1

Oct. 1

43 31.5

41.6

18 39 50.3

4 3.7

44 13.1

43 54. 0

5943

"...

6.7

4

Oct. 6

43 31. 1

41.7

18 39 48.1

4 3.1

44 12.8

43 51.2

5944

Lalande 42708,9

6

3

July 19

44 8. 7

45. 1

18 42

21 44 53.8

+ 18 46

5945

it

7

4

Oct. 1

44 12.4

41.7

18 42 45.5

4 3. 9

44 54. 1

46 49. 4

5946

"...

7.8

4

Oct. 6

44 12.11

41.7

18 42 46.8

4 3.6

44 53.7

40 50.4

5947

Lalande 42712,3

7.8

3

July 9

44 15.7

43. 2

27 19 56.4

4 42.2

21 11 58.9

+27 24 38.6

5948

"...

8.9

3

July 12

44 16.0

43. 1

27 19 47.9

4 41.5

44 59. 1

24 29.4

5949

"...

7

3

July 23

44 16.4

42.9

27 19 57. 1

4 38.2

44 59.3

24 35.3

5950

"...

7

4

Nov. 17

44 18.8

40.4

27 20 33.2

3 59.8

44 59.2

24 33.0

5951

Lalande 42743 .

7.8

4

Oct. 9

45 17. 1

41.5

19 50 21.8

4 3. 9

21 45 58. 0

+19 54 25.7

5952

Lalande 42756 .

8.9

3

July 27

15 40.7

11.0

33 45 17. 9

4 39. 4

21 46 21.7

+33 49 57. 3

5953

"...

9

3

July 29

45 40.6

41.0

33 45 19.6

4 37.6

46 21.0

49 57.2

5954

"...

7.8

::

Sept. 15

45 41.4

40.8

33 45 33. 1

4 25. 3

46 22. 2

49 58.4

5955

Piazzi 337

7.8

4

Oct. 15

46 11.9

37.9

35 8 14.3

4 1.1

21 40 49.8

+3,5 12 15.4

5956

"...

7.8

4

Oct. 16

46 11.7

37.9

35 8 18.4

4 0.9

46 49.6

12 19.3

5957

17 Pegasi

3

July 23

46 23. 9

40. 8

11 3 17.0

4 37.0

21 47 10.7

+ 11 7 54.0

5958

"...

3

July 26

41; 24.0

40.8

11 3 22.3

4 36.3

47 lo. s

7 58.6

5959

"...

3

Aug. 21

46 24.3

16. 1

11 3 24.7

4 31.2

47 10.7

7 55.9

5960*

it

6

4

Oct. 6

46 28. 3

1::.:;

11 3 42.0

4 6.7

47 11.6

7 48.7

5961

Lalande 42836 .

8.9

4

Nov. 17

47 33.8

42. 2

+19 17 14.9

4 4.4

21 48 16.0

+19 21 19.3

5962

Lalande 42846 .

7.8

3

July 12

47 37.9

50. 1

- 5 '.V, 4.1

4 36.5

21 48 28.3

— 5 18 27.6

5963*

Lalande 42849 .

8.9

3

July 9

47 49.0

43.1

+28 17 19.2

4 45. 2

21 48 32. 1

+28 22 4.4

5964

Lalande 42867 .

7.8

4

Oct. 15

48 51.2

33.7

47 39 9.0

4 1.5

21 49 24.9

+47 43 10.5

5965*

Bessel, W.1274 .

6

3

July iV

48 45 2

45.3

17 59 37.4

4 41.0

21 49 30.5

+18 4 18.4

5966

Lalande 42883,5 .

7.8

3

July 27

49 8. 4

42.6

28 48 27.4

4 41.2

21 49 51.0

+28 53 8.6

5967

"...

9

3

July 29

49 .-'. 4

42. 0

28 48 27.8

4 40.5

49 51.0

53, 8.3

5968

"...

8

4

Sep't. 16

49 11.3

39. 4

28 48 53. 9

4 8.8

49 50.7

53 2.7

5969

(i

9

4

Oct. 9

49 11.2

39.0

28 49 3.4

4 5. 0

49 50.8

53 8.4

5970

18 Pegasi . '.

6

3

July 26

49 20.6

47.9

5 41 20.0

4 37.6

21 50 8.5

+ 5 45 57. 6

5971

"...

3

Sept. 15

49 21.6

47.6

5 41 22. 5

4 30.5

50 9.2

45 53. 0

5972

"...

6

4

Sept. 28

49 24. 4

44.3

5 41 38.7

4 10.2

50 8.7

45 48. 9

5973

"...

6

4

Oct. 6

49 23. 5

44.4

+ 5 41 42.7

4 9.8

50 7.9

45 52.5

5974

28 Aquarii

7

3

July 12

50 1 . 2

49. 4

— 0 25 37.7

4 39.6

21 50 50.6

— 0 20 58. 1

5975

"...

6

3

July 23

50 2. 3

49. 2

0 25 33. 3

4 37.6

50 51.5

20 55.7

5976

"...

6

4

Oct. 16

(49)

— 0 25 9. 5

4 11.5

(50)

20 58.0

5977

20 Pegasi . .

3

Aug. 21

50 33.9

40.3

+ 12 5 21:. 2

4 34.4

21 51 20.2

+ 12 10 0.6

5978

Lalande 42943 .

6.7

4

Nov. 17

51 0;8

39.5

31 58 46.9

4 3.2

21 51 10.3

+32 2 50. 1

5979

Lalande 12947 .

8

3

July 27

51 12.(1

42.3

+30 25 5.2

4 43.0

21 51 54.3

+30 29 4-. 2

5980

31 Aquarii o

6

3

July 23

52 8.6

49.7

- 3 11 33.4

4 38.6

21 52 58. 3

—3 6 54. 8

5981

i>

6.5

4

Oct. 6

52 11.8

46.0

- 3 11 7.4

4 13.8

52 57. 8

6 53.6

59*2

Lalande 42989 .

7.8

3

July 29

52 15.4

46. 0

+ 14 57 1.0

4 40.6

21 53 1.4

+15 1 41.6

59.-':i

"...

7

4

Sept. 16

52 18.8

42.5

14 57 27.9

4 12.1

53 1. 3

1 40.0

598 1

Bessel, W.1299 .

8

3

July 29

52 31.2

40.11

11 48

21 53 IT. 2

+ 14 52

5985

21 Pegasi

3

July 26

52 43. 0

47.0

10 20 52.5

4 41.0

21 53 30.0

+10 25 33.5

5986

Lalande 43012 .

7.8

3

Sept. 15

52 56. 2

4S.II

+ 3 45 8.2

4 33.2

21 53 44.2

+ 3 49 41.4

5987

32 Aquarii

3

July 12

53 4H.7

49. 7

- 1 50 44.7

4 41.9

21 54 30.4

— 1 52 2. 8

5988

"...

3

July 19

53 40.3

49.0

1 50 44.4

4 40.5

54 29. 9

52 3. 9

59.-9

"

3

July 2::

53 40.9

49.5

- 1 50 42.5

4 40.0

54 30.4

52 2. 5

5990

Lalande 43037,8 .

7

4

Sept. 28

21 53 56. ::

+ 4:',. 7

-|- 9 12 23.9

+ 4 12.0

21 54 40.0 + 9 10 30.5

(252)

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

253

M, :tli ripimOX 1800.0

No.

Name

Mag

Date

App't a

Reduct'n

App't i5

Reduction

a

<S

It III s

s

0 1 a

/ //

h m s

0 / //

5991

Groombridge 3655

7

1

Oct. 9

21 54 17.5

+ 35.5

4-43 37 15.3

+ 4 6.8

21

54 53.0

+43 41 22. 1

5992

"...

7

1

Nov. IT

51 10,.,-

36.4

+43 37 19.7

4 2.8

54 53.2

41 22.5

5993

34 Aquarii a

3

July 9

(54)

— 1 21 51.5

1 43.4

21

55)

— 1 17 8. 1

5994

"...

3

July in

54 41.0

49.5

1 21 47.4

4 41.4

55 3H.5

17 O.o

5995

"...

3

July 23

(54)

1 21 48.5

1 ll.ii

55)

17 7.5

5996

"...

4

Sept. 7

54 44.9

45.5

1 21 21.7

4 Hi. 1

55 30.4

17 5.6

599?

(i

3

4

Oct. (i

54 44.7

45.6

1 21 22.2

4 15.0

55 30.3

17 7. 2

5998

. ,

3

4

Oct. 16

54 44.5

45.7

— 1 21 21.8

1 15. 1

55 30.2

17 6.7

5999

■.".' lVgasi v

3

Ann;. 21

54 47. 1

48.0

+ 40 35.0

1 37 '2

21

55 35. 1

+ 45 12.2

tii

" ...

3

Sept. 15

54 48.2

47.9

+ 4 0 37.8

4 34.5

55 36. 1

5 12.3

600J

:!'.'. Aquarii i

5

4

Sept. 14

54 49.3

47.9

—14 54 17.9

4 17.5

21

55 37.2

—14 50 0.4

6002

"...

4

4

Sept. 16

54 49.2

47.9

—14 54 16.7

4 17.5

55 37. 1

49 59. 2

6003

Lalande 43073 .

3

July '.'7

55 2.7

42. 1

+31 53 54. 4

1 46.2

21

55 44.8

+31 58 40.6

6004

23 Pegasi

3

July 26

55 48. 2

43. 2

27 55 9.6

4 46.4

21

50 31.4

+27 59 56. 0

6005

Bessel, "W.1391 .

7.8

4

Oct. (i

56 54. 4

43.9

8 37 43.3

4 14.2

21

57 38.3

+8 41 57. 5

(,(!' 6

"...

8

4

Nov. 17

56 53.5

44.4

8 37 4H.7

4 13.9

57 37.9

41 54.6

6007

24 Pegasi t

3

Aug. 21

56 57.7

43.8

+24 17 45.9

1 39.6

21

57 41.5

+24 22 25. 5

6008

Lalande 43146,7 -

6.7

4

Nov. 23

57 3.6

K 1

-12 39 27.5

4 21.8

21

57 51.7

- 12 3,5 5.7

6009*

Groombridge 3079

6.7

::

July 29

57 19.2

::-.::

+43. 57 59. i>

4 49.3,

21

57 57. 5

+ 44 2 49.2

6010

Piazzi 4U6

6.7

3

July 12

57 11.9

45.8

+18 25 17.2

4 49. 1

21

57 57. 7

+18 30 6.3

C.u 11

35 Aquarii

8

!

Oct. 10

57 10.3

4-.il

—19 33 50.8

4 21.8

21

57 59.2

—19 29 29.0

6012

25 Pegasi - .

6

■y

Sept. 15

57 42.5

44.6

+20 39 30.5

4 35.1

21

58 27. 1

+20 44 5. li

6013

Piazzi 417

6.7

3

July 19

58 10.4

48.9

+ 1 40 54.5

4 44.4

21

58 59. 3

+ 1 45 38.9

6014

38 Aquarii e

6

1

Nov. 23

59 7.2

48.1

—12 36 50.9

4 23,. 1

21

59 55.3

—12 32 27.8

6015

"...

4

Sept. 16

59 7.7

47.4

12 36 5U.7

4 20.1)

511 55. 1

32 30.7

6016

"...

6

4

Oct. 16

(59)

—12 3<i 56.8

4 21.1

,59)

32 35.7

6017

2C Tegasi f)

:;

July 23

59 is. 4

48.2

+ 58 25. 9

4 45.4

22

0 6.6

+ 5 13 11.3

,6018*

"...

4

Sept. 7

59 21.4

44.4

5 8 53.6

4 18.6

0 5.8

13 12.2

6019

27 Pegasi

6

3

July 26

59 40.6

42.3

32 7 14.4

4 50.0

22

0 22. 9

+32 12 4.4

6020

"

6

3

Aug. 21

21 59 41.0

42.0

32 7 18.4

1 12.3

0 23.0

12 0. 7

6021

Lalande 43255 .

7.8

3

July 12

22 0 1.9

45.8

18 33 46.2

4 51.2

22

0 47.7

+ 18 38 37.4

6022

"...

7.6

1

Oct. 6

0 5.3

42. 1

18 34 24.6

1 14.5

0 47.4

38 39. 1

6023

"...

6.7

1

Nov. 17

0 4. 9

42. ('.

1- 34 24.9

4 12.5

0 47.5

38 37.4

6024

28 Pegasi

3

Sept. 15

(i 19. 1

44. 9

19 55 2-. 3

1 36.9

22

1 4.0

+20 0 5. 2

6025*

29 Pegasi 7t

3

July 26

0 24. 8

42.3

32 7 20.4

4 5H.5

■_•■_,

1 7.1

+32 12 10.9

6026

"...

3

July 27

11 24.6

42.3

32 7 18.3

4 511.3

1 0.0

12 H.<5

6027

"...

4.5

3

Aug. '-'1

0 25. 1

42.0

32 7 23. 6

4 42.9

1 7.1

12 6.5.

6028

Piazzi 15 . .

6.7

3

July 19

1 25.7

46.4

+14 58 49.7

4 49.6

22

2 12. 1

+15 3 39. 3

6029"

4n Aquarii

8

4

Oct. 16

1 56.6

47.6

—12 59 1.6

4 22. 8

22

2 44.2

—12 54 38.8

6030

Groombridge 3700

7.8

3

July 29

2 5.8

39.4

+ 11 58 9.5

4 52.6

22

2 45.2

+42 3 2. 1

6031

Lalande 43331 .

8.9

3

July 12

2 0.0

44.7

23 53 11.6

4 53.9

22

2 50.7

+23 58 5.5

6032

Piazzi 29 .

6.7

3

July 26

3 14.7

42. 2

33 32 33. 0

4 52.7

22

3 56. 9

+33 37 25.7

6033

Piazzi 32 .

8

:;

July 12

3 45.8

44.0

27 32 20. 3

4 50.(1

22

4 29.8

+27 3,7 22.3

6034

Piazzi 33 -

6.7

3

July 9

3 56.2

46. 5

16 7 33.8

4 54.1

22

4 42.7

+ 10 12 27.9

6035

I ( Hew) Lacertee

5

3

July 23

4 38.1

40.8

38 38 39.7

4 55.7

22

5 18.9

+38 43 35. 4

6036

c<

6

3

Aug. 21

4 38.1

40.9

38 38 49. 7

4 46. 4

5 10.0

43 36. 1

6037

Lalande 43417 .

7

4

Oct. 6

4 42.4

41.6

21 27 53.7

4 10.9

22

5 24. 0

+21 32 10.6

6038

"...

7

4

Nov. 17

4 41.7

42.2

21 27 51.4

4 14.9

5 23.9

32 6.3

6039

"...

7

4

Nov. 2:'.

4 41.7

42.3

21 27 55. 6

4 15.1

5 21.0

3,2 10.7

6040*

Piazzi 39 .

7

3

Sept. 15

4 42. 8

44.3

23 14 55. 0

4 39.8

22

5 27. 1

+23 19 34. 8

6041

Lalande 43420,1

7.8

3

July 19

4 44.6

43.6

28 30 17. 8

4 54.9

22

5 28. 2

+28 35 12. 7

6042

Groombridge 3717

6.7

3

July 29

4 57.7

38.8

+44 22 14.5

4 55.0

22

5 36.5

+44 27 9.5

6043

13 Aquarii 6

4

Sept. 16

5 29. 1

46.6

— 8 50 41.7

4 23.2

22

6 15.7

— 8 40 18.5

6044

1 LacertEe

5

3

July 23

6 34.6

41.5

+36 40 27. 3

1 56.8

22

7 10. 1

+36 45 24. 1

6045

(<

3

July 26

G 34.3

41.5

36 40 31.4

4 55.8

7 15.8

45 27.2

6046

£(

3

July 27

6 34.0

41.4

36 40

7 15.4

45

6047

"...

5.6

3

Aug. 21

6 34.9

41.1

36 40 37.7

4 48.4

7 10.0

45 26. 1

6048

Lalande 43495 -

10

3

July 12

6 31. 1

45.4

21 49 24. 3

1 56.6

22

7 10.2

+21 54 20.9

6049

"...

7.8

4

Nov. 17

li 34.0

42. 2

21 50 0.2

4 15.8

7 16.2

54 16.0

6050

Bessel, W.246 .

7.8

4

Nov. 23

22 7 2. 1

+ 42.4

+21 19 29.0

+ 4 16.4

22

7 44.5

+21 23 45. 4

(253)

254

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Meau equinox 1 800. 0

No.

Name

Mag.

Date

App't a

Reduet'n

App't 6

Reduction

a

(i

h m s

s

o / //

/ //

li m s

0 / 11

6051

Lalande 4351S .

7

3

July 9

22 6 59.5

+ 49.7

— 1 18 36. 3

+ 4 51.7

22 7 49.2

— 1 13 44.6

t6052

7.8

3

Sept. 15

8 24. 5

44.0

+25 17 15.3

4 42. 0

22 9 8. 5

+25 21 57.3

6053

46 Aquarii p

6

4

Sept. 16

8 52. 5

46.6

— 8 53 35. 7

4 25.2

22 9 39. 1

— 8 49 10.5

6054

Piazzi 65 . . .

8

3

July 12

9 29.2

42.0

+36 41 5. 0

5 2.0

22 111 11.2

+36 46 7. 0

0055

"...

6.7

3

July 29

9 29. 4

41.6

36 41 12. 6

4 56.8

10 11.0

46 9. 4

6056

30 Pegasi . .

3

Sept. 15

9 36.4

47.9

4 42 39. 3

4 39.9

22 10 24.3

+ 4 47 19.2

61157

Piazzi 69 -

7

3

July 26

10 8.5

46. 9

+12 57 5. 1

4 53.4

22 10 55. 4

+13 1 58.5

6058

48 Aquarii y

3

July 9

10 29. 9

49.9

— 2 28 17. 4

4 53.6

22 11 19.8

— 2 23 21. 6

6059

ii

3

July 19

10 29. 3

49.7

— 2 28 12. 8

4 51.8

11 19.0

23 21. 0

6060

31 Pegasi . .

3

Aug. 21

10 53.3

46.8

+11 7 16.5

4 48.3

22 11 40.1

+11 12 4.8

6061

Piazzi 76 .

6.7

4

Oct. 9

11 2.0

41.0

25 51 38.5

4 19.7

22 11 43.0

+25 55 58. 2

600-2

"...

6

4

Nov. 1 7

11 1.7

41.6

+25 51 41.9

4 17.3

11 43.3

55 59.2

6063

Lalande 43654 .

7

4

Oct. 16

11 47.0

47.9

—16 1 21.2

4 29.5

22 12 34. 9

—15 50 51. 7

61164

2 Lacertse

3

July 23

12 7.6

39.2

+ 15 26 51.6

5 2.2

22 12 46.8

+45 31 53.8

6065

Lalande 43680 .

7.8

3

July 12

12 34. 0

41.4

39 34 42.9

5 4.8

22 13 16.0

+39 39 47. 7

6066

"...

7.8

3

July 29

12 34.4

41.0

+39 54 42.5

4 59.5

13 15.4

39 42. 0

6067

50 Aquarii

6

4

Oct. 16

12 55. 8

47.6

—14 36 45.4

4 29.6

22 13 43.4

—14 52 15.8

6068

33 Pegasi . .

3

Sept. 15

13 16,. 5

45. 2

+19 45 50.7

4 45.5

22 14 1.7

+ 19 50 30.2

6069

"...

6

4

Oct, 9

13 20.3

42. 2

19 46 7.6

4 21.6

14 2.5

50 29.2

6070

"...

6

4

Nov. 17

13 19.5

42.7

19 46 9.3

. 4 20. 3

14 2.2

50 29. 6

' 6071

"...

6

4

Nov. 23

13 19.6

42.8

19 46 11.9

4 20.*

14 2.4

50 32. 4

6072

Lalande 43729 .

7

O

July 26

13 29. 1

M>. 7

+ 14 11 34.0

4 55.8

22 14 15.8

+14 16 29.8

6073

923 Mayer - -

7

3

July 9

13 26.8

49. 9

— 2 16 43.3

4 55. 4

22 14 16.7

— 2 1 1 47. 9

6074

Piazzi 97 . . .

7

3

July 26

15 15.8

46.2

+ 17 20 58.7

4 57.5

22 16 2.0

+17 25 56.2

6075

"...

7

4

Oct. 9

15 19.2

42.7

17 21 29. 1

4 23.7

10 1 . 9

25 52.8

6076

"...

6

4

Nov. 17

15 19.2

43.1

17 21 28. 7

4 22.3

16 2.3

25 51.11

6077

"...

4

Nov. 23

15 19. 1

43.2

17 21 30.7

4 22.3

16 2.3

25 53. 0

6078

4 Lacertse

3

July 23

15 47.6

38. 1

48 22 48.11

5 5.2

22 16 26. 0

+48 27 53. 2

61179

"

6.5

3

Aug. 21

15 48.2

38.0

48 22 59. 2

4 55.2

16 26.2

27 51. 4

6080

34 Pegasi

3

Sept. J 5

15 38.7

48.1

3 17 56.8

4 48.1

22 16 26. 8

+ 3 22 44. 9

6081

"...

6

4

Sept. 16

15 41.3

44.7

3 18 18.8

4 27.7

16 26.0

22 46.5

6082

35 Pegasi . .

3

Sept. 15

16 56.4

48. 1

5 57 9.3

4 49.0

22 17 44.5

+ 3 41 58. 3

6083

Lalande 43859 .

7

3

July 12

17 11.5

42.6

36 --'n 39.7

5 6. 7

22 17 54. 1

+36 25 46.4

6084

"

7.8

3

July 29

17 11.8

42. 2

+36 21) 44.2

5 1.7

17 54.0

25 45.9

6085

55 Aquarii f

3

July 9

17 42. 1

49. 7

— 1 7 14.6

4 58.3

22 18 31.8

— 1 2 16.5

6086

"...

3

July 19

17 42.7

49.5

— 1 7 15.5

4 56.3

18 32.2

2 19.2

6087

Lalamle 43891 .

7

4

Oct. 9

18 6.3

41.7

+23 42 9. 1

4 24.2

22 18 48.0

+23 46 33.3

6088

"...

7

4

Nov. 17

18 6.2

42. 2

23 12 11.5

4 21.6

18 48.4

46 33. 1

61189

"...

4

Nov. 23

18 5.8

42.2

23 42 24.0

4 22.li

18 48. 0

46 46.0

6090

Lalande 43893 .

6

3

July 27

18 6.6

44.7

25 55 20.9

5 0.9

22 18 51.3

+26 0 21. 8

6091*

36 Pegasi

4

Oct 2

18 25. 0

44.1

8 2 13.0

4 27.4

22 19 9.1

+ 8 6 40. 4

6092

Lalande 4391 1,5 .

7.8

3

July 12

18 51.2

40.9

43 1 2. 1

5 9. 5

22 19 32. 1

+43 6 11.6

6H93

Piazzi 120 . -

6

3

July 26

19 3. 6

44.8

25 39 44. 0

5 1.6

22 19 48. 4

+25 44 45. 6

6094

37 Pegasi

3

Sept. 15

19 3.6

48. 1

3 20 28. 3

4 50. 1

22 19 51.7

+ 3 25 18. 4

61195

"...

6

4

Sept. 16

19 6.2

11.7

+ 3 20 47. :;

4 29.5

19 5ii. ;i

25 16.8

6096

57 Aquarii a

6

4

Oct. 16

19 15.8

47. 0

— II 46 19.7

4 32.1

22 20 2.8

-11 11 47.6

6097

Piazzi 127

7.8

4

Sept. 16

19 48.2

44.8

+ 3 14 23. 1

1 29.9

22 20 33.0

+ 3 18 53.0

6098

38 Pegasi . .

:;

Aug. 21

20 10.8

43. 2

+31 28 L8.2

4 55.9

22 20 54.0

+31 33 11.1

61199

Lalande 43981 .

6

3

.Inly 27

20 7. 5

49.7

— 4 II 44.5

4 55.9

22 211 57.2

— 3 55 48.6

6100

5 Lacertse

3

July 12

20 33. 1

39.8

+46 36 0. 1

5 11.3

22 21 12.9

+46 41 11.4

6101

(i

3

July 23

20 33.7

39.6

46 36 0. 6

5 7.7

21 13.3

41 8.3

6102

6 Lacertse

6. 5

3

July 29

21 11.7

40.9

42 1 0. 3

5 5.3

22 21 52. 6

+42 6 5.6

6103

Piazzi 139 . .

6.5

::

July 9

21 34.2

44.8

28 26 9. 0

5 8.5

22 22 19.0

+28 31 17.5

6104

"...

6.7

3

July 26

21 34.5

44.4

28 26 17.5

5 3. 6

22 18.9

31 211.9

6105

"...

7.6

4

Oct. 9

21 37.8

40.9

28 26 53. 2

4 25.5

22 18.7

31 18.7

6106

"...

6.7

1

Nov. 17

21 37.3

II. 1

28 26 59. 3

4 22.4

22 18.7

31 21.7

6107

39 Pegasi . .

:;

Sept. 15

22 10.5

45.6

19 7

22 22 56. 1

+19 12

61U8

"...

4

Oct. 2

22 13.3

42.5

19 7 44.8

4 27.9

22 55.8

12 12.7

6109

7 Lacertfe

::

Aug. 21

22 27.4

38.3

+49 10 27.2

4 59.4

22 23 5.7

+49 15 26.6

61 III

Piazzi 142 . .

7

4

Oct. 16

22 22 46.5

+ 46.8

— Hi 12 38.5

+ 4 33.7

22 2:: 33. 3

— 10 38 4.8

(254)

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

255

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'rj

App't <S

Reduction

a

.1

h m s

s

O 1 II

/ //

ll III s

o / /'

C.I 11

(irooml.vi.1ge 3804

6.7

4 Oct.

9

+ 38.8

+38 in 53.0

+ 4 25. 2

22 23 37. 3

+38 45 18.3

6112

.">0 Aquarii v

3 July

19

22 51.2

52. 6

—21 48 30.0

1 54.9

22 2:: 43. 8

—21 43 35. 1

6113

Groombridge 3810

7

3 .Inlv

9

24 5. 5

42. ::

+39 42 26. 8

5 12.2

22 24 47. 8

+39 47 39.11

6114*

ti

7.8

:; July

12

24 5.5

42.2

39 42 18.9

5 11.9

24 47.7

47 3ii.~'

i;i 15

"...

7.8

4 Sept.

16

24 8. 3

38. 1

+39 4-.' 59.2

I 31.0

24 46.7

47 311.2

111 Hi

('.'-' Aquarii t/

3 July

23

24 15. 1

40.4

— 1 13 37.4

4 59.5

22 25 4.5

— 1 8 37. 9

in it

Lalande 44146 .

7

3 July

27

24 46.6

44.4

+28 50 35.2

5 5. 2

22 25 31.11

+28 55 40.4

6118

(irooinbridge 3815

7

3 July

9

25 0.3

42.4

39 39 36.5

5 13.4

22 25 42. 7

+39 4 1 49. 9

6119*

ti

3.9

3 July

12

24 59. 8

42. 3

39 39 32. 8

5 12.5

25 42. 1

44 45.3

6120

ii

8

3 July

29

25 0.2

41.9

39 39 37.3

5 7. 2

25 42. 1

44 44.5

6121*

Piazzi 158 . .

7

3" Sept.

15

25 25. 6

4.".. 7

19 10 8.3

4 52.8

22 26 11. 3

+19 15 1.1

6122

(' p. 8 Lacertae

7.8

4 Oct.

9

26 20.0

39.1

+38 31 23.4

4 20.9

22 20 59. 1

+38 35 5i'.:;

6123

8 L'acertae

0.7

3 July

29

26 17.4

42. 3

38 31 8.9

5 7.0

22 20 59.7

+3s 36 1G.5

6124

"

6.7

3 Aug.

21

26 17. 1

42.0

+38 31 13.8

5 0. 3

26 59. 1

30 1 1. 1

6125

03 Aquarii a

4 Oct.

2

26 38. 1

46.0

— 5 19 52.5

4 34.0

22 27 24. 1

- 5 15 IS. 5

6126

a

0.5

4 Oct.

16

26 37.4

40.1

— 5 19 47.7

4 34. 1

27 23.5

15 13.0

6127*

Lalande 44221 .

0.7

4 Sept.

16

27 4. 8

39.8

+34 32 38.6

4 32.4

22 27 44. 6

+34 37 11.0

6128

Lalande 44250,1 .

(-.9

3 July

19

27 39.2

48.2

8 8 23.0

5 4.2

22 28 27. 4

S 13 27.8

6129

Lalande 44252,3 .

7

3 July

9

27 48. 3

42.1

41 41 17.9

5 15.5

22 28 30. 4

+41 40 33. 4

6130

40 Pegasi . .

3 July

23

28 26. 1

46.5

18 24 23. 7

5 6. 2

22 29 12.6

+ 18 29 2H.9

6131

"...

0.7

3 Sept.

15

28 26. 9

45.9

18 24 36. 1

4 54.5

29 12.8

29 3n.O

6132

"...

4 Nov.

23

28 28. 2

43.3

18 25 3.4

-1 28.8

29 11.5

29 32.2

6133*

Piazzi 177

0.7

3 July

12

28 58. 3

41.5

44 3 30.5

5 15. s

22 29 39. 8

+ 11 8 46. 3

6134*

10 Lacertee .

5. ti

3 July

9

29 35.7

43.2

37 55 32.0

5 15.5

22 30 18.9

+38 0 47.5

6135

u

3 Aug.

21

24 35.7

42.3

37 55 45. )

5 2.2

30 18.0

0 47.3

6136

Lalande 44344,5 !

0.7

4 Sept.

16

29 52. 3

39.0

36 28 44. 1

4 34.0

22 30 31.9

+36 ■■'■:; is. i

6137

42 Pegasi J

3 July

19

30 40.4

48.0

9 42 22. 3

5 6.2

22 31 28. 4

+ 9 47 28. 5

6138

" ...

3 July

23

30 41.ll

47.9

9 42 21.0

5 4. 4

31 28.9

47 25.4

6139

"...

3

4 Nov.

23

30 44.1

44.5

9 42 53. 6

4 32.6

31 28.6

47 26.2

6140

1 1 Lacertre .

3 July

29

31 4. 2

41.5

43 8 53.5

5 11.0

22 31 45.7

+43 14 4.5

(1141

n

0.5

4 Oct.

9

31 7.5

38.4

+43 9 37.3

4 29.2

31 45.9

14 6.5

6142

Lalande 44391 '.

0

4 Oct.

2

31 8.6

40.9

—13 40 40.8

4 37.7

22 31 55.5

— 13 30 3. I

6143

43 Pegasi o

3 July

12

31 38.2

45.3

+28 10 45.5

5 13.2

22 32 23. 5

+28 15 58.7

(5144

"

3 July

26

31 38.0

44.9

28 10 58. 1

5 9. 3

32 22. 9

10 7.4

6145

44 Pegasi ij

3 July

9

32 53. 8

45.3

29 5 28. 8

5 15.0

22 33 39. 1

+29 111 43.8

6146

"

3 July

19

32 53. .".

45.0

29 5 34.2

5 12.0

33 38.5

111 40.2

11147

11

3 July

27

32 54. 1

44.8

29 5 33.8

5 9. 9

33 38.9

111 43.7

6148

"

3 Sept.

15

32 55.2

44.3

29 5 47.5

4 56.8

33 39.5

II) 44.3

6149

"...

4 Sept.

16

32 57. 2

41.1

29 6 7. 9

4 35.0

33 38. 3

10 43.5

6150

4 Sept.

18

32 57.7

41.2

29 6 0.7

4 35.2

33 38. 9

10 41.9

6151*

"...

3

4 Oct.

9

32 57.2

41.3

29 6 13.5

4 31.2

33 38. 5

10 44.7

6152

**

3

4 Nov.

23

32 56.7

41.8

29 6 19.9

4 27.9

33 38.5

Id 47. S

6153

Bessel, W.773 .

0

3 Aug.

20

32 57.11

47.4

+ 9 49 13.4

5 1 . 0

22 33 44.4

+ 9 51 14.4

6154

936 Mayer .

4 Oct.

2

34 3. 0

46.5

—10 46 12. 1

4 38.3

22 ::4 49.5

—10 41 33.8

6155

13 Lacertse .

3 July

29

34 -JO. 7

42.4

+40 41 9.2

5 12.0

22 35 12. 1

+40 40 21.8

CI 56

"

3 Aug.

21

34 29. 5

42.0

40 41 21.9

5 5.3

35 11.5

46 27.2

6157*

45 Pegasi

7

3 Julv

23

34 58. 1

40. 8

18 13 47.2

5 9.7

22 35 44. 9

+ 18 IS 56.9

6158

Piazzi 214 . .

6

3 July

9

3n 31.4

45. 4

29 19 43.9

5 10.5

22 36 16.8

+29 25 n.4

6159

ti

6

3 July

12

35 31.4

45.3

29 19 41.8

5 15.0

36 16.7

24 57.4

6160

4(3 Pegasi f

3 July

27

35 54.2

47.7

11 3 57.7

5 7.4

22 36 41.9

+11 9 5.1

61C1

"...

3 Sept.

15

35 55. 1

47.2

11 4 12.5

4 58.5

36 42.3

9 11.0

6162

47 Pegasi X

3 July

19

36 8.4

46.3

22 25 50. 9

5 12.2

22 36 54.7

+22 31 3. 1

6163

'*

3 July

26

36 8.1

40. 1

22 25 53. 4

5 10.3

36 54.2

31 3. 7

6164

n

4 Sept.

16

36 11.4

42.3

22 26 21. 1

4 37. 1

36 53.7

30 58.2

6165

it

4

1 Sept.

18

36 12.2

42. 3

22 20 2H.4

4 36.8

36 54. 5

30 57. 2

6106

CI

4

4 Oct.

9

36 12.5

42.4

22 20 26. 1

4 33.7

36 54. 9

30 59.8

6167

It

4

4 Nov.

23

36 11.3

42. 0

22 20 29. 8

4 31.2

36 54. 2

31 1.0

6168

Groombridge 3882

6

3 July

29

36 37. 0

41.9

+43 24 20. 6

5 14.3

22 37 18.9

+43 29 40.9

6169

71 Aquarii --

5

4 Oct.

2

38 12.8

40.9

—14 43 19.8

4 40.9

22 3- 59.7

—14 38 38.9

6170

Piazzi 226

5.6

3 July

12

22 38 18.3

+ 44. 1

+36 16 46.7

+ 5 18. 8

22 39 2.4

+36 22 5. 5

(255)

256

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'ri

App't <5

Reduction

a

<5

h m s

s

o / '/

/ //

h in s

o / //

om*

48 Pegasi \i

3

July 23

22 39 35. 3

+ 46.2

+23 27 45. 7

+ 5 13.2

22 40 21.5

+23 32 58.9

6172

"

3

July 29

39 35. 1

46. 0

23 27 46. 0

5 11.5

40 21. 1

32 57.5

6173

"...

3

Sept. 15

39 36.3

45.5

23 27 56. 4

5 0. 1

40 21.8

32 56. 5

6174

" . .

4

Sept. 16

39 39. 3

42.3

23 28 15.6

4 38.7

40 21.6

32 54. 3

6175

"...

4

4

Oct. 9

39 39. 4 •

42. 4

23 28 18.6

4 35.1

40 21.8

32 53.7

6176

Piazzi 232 . .

6.7

3

July 19

40 5. 0

47.1

17 59 57.9

5 3. 1

22 40 52. 1

+18 5 1.0

6177

14 Lacertse .

6

3

Aug. 20

40 39.5

42.5

40 48 41.5

5 8.9

22 41 22. 0

+40 53 50. 4

6178

"...

3

Aug. 21

40 40. 0

42.5

+40 48 41.7

5 8.5

41 22.5

53 50.2

6179"

73 Aquarii \

4

Oct. 2

41 24. 1

46.2

— 8 43 11.1

4 41.1

22 42 10. 3

— 8 38 30. 0

6180

49 Pegasi a

3

July 26

41 27.3

48.2

+ 8 41 20. 3

5 9.7

22 42 15.5

+ 8 46 30. 0

6181*

"...

4

Sept. 18

41 31.4

44.2

8 41 43.0

4 39.8

42 15.6

46 22. 8

61-.'

15 Lacertse .

3

Aug. 21

42 19.5

42.3

42 10 1.4

5 9.5

22 43 1.8

+42 15 10.9

6183

"...

'.}

8, [it. 1..

42 20.8

42. 2

42 10 6.3

5 1.8

43 3. 0

15 8.1

61-1

Piazzi 241 - -

6

3

July 29

42 25.0

47.2

15 41 50.8

5 11. 1

22 43 12.2

+15 47 1.9

6185

"...

4

Sept. 17

42 28.9

43.4

+15 42 24.2

4 40.0

43 12.3

47 4. 2

6186

76 Aquarii <i

3

July 27

43 10. 1

51.2

—16 57 52. 9

5 4.8

22 44 1.3

—16 52 48. 1

61-7

"...

4

Sept. 16

43 14.1

47.0

—16 57 29.7

4 42.6

44 1. 1

52 47. 1

6188

Groombridge 3919

6

3

July 19

44 14.0

43.8

+39 13 28.4

5 20.3

22 44 57.8

+39 18 48.7

6189

50 Pegasi " p

3

July 23

44 21.5

48.4

7 39 57.5

5 11.4

22 45 9. 9

+ 7 45 8. 9

6190*

"...

4

Sept. 18

44 25. 0

44.4

7 40 26. 9

4 41.0

45 9. 4

45 7.9

6191

Lalande 44862 .

6

3

July 29

45 42.0

44.4

+35 12 0.3

5 17.0

22 46 26. 4

+35 17 17.3

6192

24 Piscis Austr. a

1

3

July 9

45 40. 1

53.4

—30 45 53. 5

5 4.5

22 46 33. 5

—30 40 49.0

6J93

"...

1

3

July 12

45 40. 3

53. 3

30 45 40.8

5 4.3

46 33.6

40 36.5

6194

t i

3

July 19

(45)

30 45 43.8

5 3.7

(46)

40 40. 1

6195

"...

3

July 27

45 40.6

52. 9

30 15 45.4

5 3.5

46 33. 5

40 41.9

6196

"...

4

Sept. 17

45 44.5

48.5

30 45 23.7

4 45. 1

46 33.0

40 38.6

6197*

"...

4

Oct. 2

45 44. 2

48.5

—30 45 28. 4

4 47. 0

46 32.7

40 41.4

6198

16 Lacertse .

3

Aug. 21

46 34.3

43.0

+40 27 7.9

5 11.3

22 47 17. 3

+40 32 19.2

6199

51 Pegasi

3

July 2:;

46 51.8

47.0

19 36 45.1

5 15.6

22 47 38. -

+19 42 0.7

6200

"...

3

Aug. 20

46 52.2

46.5

19 36 45.4

5 8.7

47 38.7

41 54.1

6201

Anonvnia

7

3

Sept. 15

47 35.2

46.2

+20 21 49.6

5 3.7

22 48 21.4

+20 26 53. 3

62(1-2

Lacaille 9321

5.6

3

July 27

47 4:;. 9

52. 7

—30 36 59.5

5 4.2

22 48 36. 6

—30 31 55.3

6203

"...

5.4

4

Sept. Hi

47 49. 1

48.4

:to 36 37.0

4 45.7

48 37.5

31 51.3

6204*

"

6

4

Sept. 17

47 46.7

48.4

—30 36 3(5.6

4 45. 9

48 35. 1

31 50.7

6205

Lalande 41982 .

7.8

3

Sept. 15

49 31.7

4(5. 3

+20 4 7.1

5 4.6

22 50 18.0

+20 9 11.7

62H6

Lalan. le 45023 .

7

3

July 29

50 2.".. 6

45. 6

29 55 29.6

5 17.9

22 51 11.2

+30 0 47.5

6207

Bessel,W.ll37 .

7.8

3

Aug. 2d

50 38.7

47.3

13 42 49.8

5 9.5

22 51 26. 0

+13 47 59.3

62H8

Groombridge 3947

7

3

July J 9

50 49. 1

43.3

41 12 44.8

5 24.4

22 51 32. 7

+44 18 9.2

62(19

"...

6.7

3

July 26

50 49.9

43.1

41 12 51.5

5 22.3

51 33.0

18 13.8

6210

"

7

3

Aitg. 21

50 50. 1

42. 6

+44 13 1.4

5 13.8

51 32.7

J8 15.2

6211

82 Aquarii

3

July 27

51 19.1

50.0

— 7 43 46. 0

5 9.1

22 52 9. 1

— 7 38 36. 9

6212

Piazzi 283 . .

7

4

Sept. 17

51 57.5

43.7

+15 4 51.0

4 43.8

22 52 41.2

+15 9 34.8

6213

1 Andromedse o

3

July 9

52 0.6

44.3

41 9 48.6

5 27.2

22 52 44. 9

+41 15 15.8

6214

"...

3

July 12

52 o.:.

44.2

41 9 42.5

5 26. 3

52 44. 7

15 8. -

6215

•' . . .

3

July 19

52 0.6

44.0

41 9 47.0

5 24. 3

52 44.0

15 11.3

6216

"...

3

July 26

(52)

41 9 50.4

5 22. 1

(52)

15 12.5

6217

"...

4

Sept. 18

52 4. 4

40. 1

41 10 26.9

4 44.(1

52 44.5

15 10.9

6218

Bessel, W.1279 -

7

3

Sept. 15

52 32. 8

46. 1

J9 45 39.7

5 5.7

22 53 19.2

+ 19 50 45.4

6219*

4 Piscium /3

4.5

4

Oct. 2

52 57.0

44.9

2 40 5. 2

4 40.1

22 53 41.9

+ 2 44 45. 3

622H

53 Pegasi ji

:;

July 9

53 19. 1

46.7

26 54 35. 4

5 23.8

22 54 5.8

+26 59 59. 2

6221

"...

3

July 23

53 19.3

46. 3

26 54 41.7

5 20.2

54 5. 6

+27 0 1.9

6222

"...

4

Sept. 16

53 22. 7

42.4

26 55 18.7

4 44.5

54 5. 1

0 3.2

6223

54 Pegasi a

3

July 19

54 0.4

48.0

14 2 39. 9

5 17.9

22 54 48. 4

+14 7 57.8

6224*

" .

3

July 29

54 0.5

47.8

14 2 42. 0

5 15.6

54 48.3

7 57.6

6225*

"...

2

3

Aug. 17

54 1.2

47.4

14 2 39.6

5 11.5

54 48.6

7 51.1

6226

"...

3

Aug. 20

54 0. 7

47.3

14 2 42.7

5 10.8

54 48.0

7 53.5

6227

"...

:;

Aug. 21

54 1.4

47.3

14 2 43.0

5 10.6

54 48.7

7 53.6

6228

"...

1

Sept. 18

(54)

43.8

14 3 5.5

4 44.5

(54)

7 50.0

6229

Lalande 45163 .

6.7

:;

July 27

54 13.7

49. 2

0 8 48.9

5 12.1

22 55 2. 9

+ 0 14 1.0

6230

Riimker 10819 .

7.8

:;

Sept. 15

22 51 58. 8

+ 46.6

+19 4 44.1

+ 5 6.8

22 55 45.4

+19 9 50.9

(256)

GOULD — CATALOGUE OF STARS OBSERVED BY D AGELET.

257

Mean equinox 1800. n

No.

Namo

Mag.

Hale

App't a

Reduct'n

App't (5

Reduction

a

(5

h m s

s

o / II

/ //

li m s

O 1 II

6233

Piazzi 300 . .

6.7

3

July 29

22 55 34.6

+ 47.5

+17 20 57. 1

+ 5 16.3

22 56 22. 1

+ 17 2(1 13.4

6232

"...

7

4

Sept. 17

55 37. 9

43.5

17 21 28.4

4 45.1

56 21.4

26 13.5

6233

Piazzi 301 . .

7

3

Sept. 15

55 50. 3

411.7

18 44 52. 0

5 7.0

22 50 37. 0

+18 49 59.0

6234

55 Pegasi /

3

Aug. 21

56 7.8

48.0

8 14 43.8

5 in. 7

22 56 55. 8

+ 8 HI 54.5

6235

56 Pegasi

3

July 12

56 36.0

47.1

24 18 5.1

5 23. 5

22 57 2:!. 1

+24 23 28. 6

6236

"...

3

July 26

56 35.7

46.7

24 18 11.4

5 19.9

57 22. 4

23 31.3

6237

"...

6.7

4

Sept. 17

56

24 18 50.5

4 45.4

57

23 35. 0

623H

Lalande 45241 .

6

3

July 19

56 49. 7

47.4

19 58 10.5

5 20.6

22 57 37. 1

+20 3 31.1

6239

t<

7

3

July 23

56 50. 2

47.3

19 58 12. 4

5 19.7

57 37.5

3 32.1

6240

5 Pischim A

4

Sept. 18

57 41.0

45.1

0 57 39.9

4 46.1

22 58 26. 1

+ 12 20. 0

6241

1 Andromedse

4

Sept. 16

57 53.3

39.7

45 13 40.9

4 46.9

22 58 33. 0

+45 18 27. 8

62 12

57 Pegasi m

3

July 26

58 37.7

48. (1

7 30 32.6

5 16.4

22 59 2(1. :i

+ 7 35 49. 0

6243

" ...

3

Sept. 15

58 38. 3

47.9

7 30 35. 4

5 8.0

59 26.2

35 48.4

0244*

Lalande 45320 .

6.7

3

July 27

58 41.7

47.6

17 34 1.8

5 18.7

22 59 20. ::

+17 39 2(1.5

6245

"...

7.8

3

July 29

58 41.4

47.5

17 34 4.5

5 18.2

59 28.0

39 2:!. 7

6246

Tiazzi 319 . .

6.7

3

July 19

59 6.3

46. 5

28 29 51.7

5 23.8

22 59 52. 8

+28 35 15.5

6247

"...

7

3

July 23

59 7.0

4(1. 4

28 29 54.9

5 22. 7

59 5!i. 4

35 17.6

6248

58 Pegasi n

3

Ang. 20

59 9.6

48.0

8 39 16.6

5 12.0

22 59 57. 6

+ 8 44 28. 6

6249

Groonibridge 3990

7

3

Ang. 21

59 33.4

42. 4

48 28 54.7

5 18.0

23 0 15.8

+48 34 12.7

6250

Groombridge 3997

7.8

4

Sept. 17

59 47. 7

41.1

38 18 32. 1

4 46.9

23 0 28.8

+38 23 10. 0

6251

Piazzi 4 .

3

July 12

22 59 59. 1

48.1

16 25 19.3

5 22.5

23 0 47.2

+16 30 41.8

6252

Piazzi 5 . . .

6.7

4

Oct. 2

23 0 19.4

44.8

3 50 29. 3

4 45. 9

23 1 4.2

+ 3 55 15.2

6253

6 Andromeda;

3

Sept. 15

0 31.9

43.6

42 2:! 4.2

5 9.9

23 1 15.5

+42 28 14. 1

C'.'.il

tt

7.8

4

Sept. 16

0 34.0

40. 5

42 23 28. 5

4 47.8

1 14.5

28 16.3

6255

Lalandc 45378 '.

7

3

July 19

0 44.3

46. 6

28 52 10.9

5 24.5

23 1 30.9

+28 57 35. 4

6256

Lalande 45445 .

6.7

3

July 26

2 36. 1

46. 6

28 16 14.7

5 23.0

23 3 22. 7

+28 21 37. 7

6257

"...

6.7

3

July 27

2 37.1

4(1. 5

28 16 13.6

5 22. 8

3 23. 6

21 36.4

6258

"...

7

3

July ■.".»

2 36.4

46.5

28 16 10.9

5 22.2

3 22. 9

21 33.1

6259

7 Andronieda;

3

Aug. 21

2 43.0

42.8

48 13 32. 1

5 19.2

23 3 25. 8

+48 18 51.3

6260

"...

3

Sept. 15

2 43.2

42.6

48 13 42. 4

5 11.0

3 25. 8

18 53. 4

6261

Lalaudc 45472 .

7.8

4

Oct. 2

3 5.7

44.9

3 49 51.1

4 46. 8

23 3 50. 6

+ 3 54 37.9

6262

Piazzi 20 . . .

6.7

3

July 19

3 17.4

47.9

18 27 31.5

5 22. 7

23 4 5.3

+18 32 54.2

6263*

"

7

3

July 23

3 17.3

47.8

18 27 31.8

5 21.6

4 5.1

32 53. 4

6264

Lalande 45496 .

6.7

3

July 27

3 53. 8

46.6

28 35 45.7

5 23.2

23 4 40.4

+28 41 8. 9

6265

"...

6.7

4

Sept. 17

3 57.4

42. 6

28 36 19.9

4 48.1

4 40.0

4 1 8. 0

6266

Lalaudc 45498 .

6.7

3

Aug. 20

3 58.7

46. 7

22 55 40.5

5 15.8

23 4 45. 4

+23 o 5(1.:!

6267

" - - -

7

3

Aug. 17

4 26.9

46.4

26 53 41.0

5 17.5

23 5 13.3

+26 58 58.5

6268

61 Pegasi

6.7

3

July 26

5 14.6

46.8.

27 4 16.4

5 23.7

23 6 1.4

+27 9 40. 1

6269

"...

3

Aug. 17

5 14.4

46.4

27 4 13.2

5 17.7

6 0.8

9 30.9

6270

Lalaudc 45543 .

7

3

Aug. 21

5 20.0

46.7

23 35 37.7

5 16.1

23 6 6.7

+23 40 53. 8

6271

6 Piscium y

4

Sept. 18

(6)

45.0

2 6 35. 9

4 48.6

23 (6)

+ 2 11 24.5

6272

"...

5

4

Oct. 2

6 2.4

45.0

2 6 41.7

4 47.8

6 47.4

11 20.5

1127:!

Anonyma

7

3

July 27

7 13.3

46.6

29 51 0.6

5 24.8

23 7 50.9

+29 56 25. 4

(127!

"...

8

3

July 29

7 13.1

46.6

29 51 2.2

5 24.2

7 59. 7

5(1 26.4

6275

Lalande 45613,4 .

7

3

Jul'y 19

7 17.4

46.5

32 52 4. 7

5 27. 8

23 8 3.9

+32 57 32. 5

• 127(1

"...

8

3

July 23

7 17.6

46.4

32 51 59. 9

5 20.7

8 4.0

57 26.6

(5277

Lalande 45620 .

7.8

3

Aug. 17

7 25.0

46.3

29 16 50. 8

5 18.8

23 8 11.3

+29 22 9.6

6278

8 Andromeda;

3

Sept. 15

7 48.2

43.2

47 50 11.7

5 12.9

23 8 31.4

+47 55 24.6

6279

Lalande 45635

9:10

4

Oct. 2

7 51.4

45. 0

2 4 52. 0

4 48.2

23 8 36. 4

+ 2 0 10.8

I12.-H*

Piazzi 44 . . .

7.8

3

July 26

7 54.7

47.1

26 25 31.4

5 24.3

23 8 41. 8

+26 30 55. 7

6281*

9 Andromeda;

6

3

Aug. 21

8 11.2

44.8

40 35 32. 0

5 19.8

23 8 56. 0

+40 40 51.8

6282

"...

4

Sept. 16

8 15.4

41.4

40 36 7.5

4 50. 3

8 56. 8

40 57. 8

6283

Lalande 45655 .

8

3

July 23

8 12.4

46.5

32 32 50. 5

5 26. 9

23 8 58. 9

+32 38 17.4

6284

Lalandc 45677 .

6.7

3

July 27

9 1.7

46.5

33 30 39.2

5 26.2

23 9 48.2

+33 42 5. 4

6285

"...

7

::

July 29

9 1 . 9

46. 5

33 36 4(1.4

5 25. 7

9 48.4

42 6. 1

6286

"...

6.7

:;

Aug. 20

9 2.8

45. 8

33 36 43.7

5 10.:!

9 48.6

42 3.0

6287

7 Piscium b

1

Sept. 18

9 24. 1

44.9

4 12 38.6

4 48.6

23 10 9.0

+ 4 17 27.2

6288

"...

6

4

Oct. 2

9 24.3

44.9

4 12 44. 4

4 49.5

10 9.2

17 33.9

6289

Bessel, W.262 .

7

4

Sept. 17

9 34.8

43. 5

21 55 1H. 7

4 49.6

23 10 18.3

+22 0 3.3

•120"

10 Andromedse -

6

3

Aug. 21

23 9 37. 2

+ 44.4

+40 53 47. 5

+ 5 20. 4

23 10 21.6

+40 59 7. 9

33

(257)

258

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1 800. 0

No.

Name

Mag.

Date

App't a

Reduct'i

App't (5

Reduction

a

6

It m s

s

o / //

/ //

h m s

O 1 '/

6291

10 Andromedae -

2

4 Sept. 16

23 9 41.9

+ 41.4

+40 54 13. 3

+ 4 50.8

23 10 23. 3

+40 59 4. 1

6292

62 l'cgasi t

6

4 Dec. 28

9 59.7

44.3

22 34 3.2

4 44.7

23 10 44.0

+22 38 47.9

6293

12 Andromedae .

3 duly 19

10 29. 4

46.2

37 0 3.8

5 29.7

23 11 15.6

+37 5 33.5

6294

"...

6

3 July 23

10 29.7

46.1

37 0 4.1

5 28.6

11 15.8

5 32.7

6295

"...

3 July 27

10 29.9

46.0

37 0 9.2

5 27.5

11 15.9

5 36.7

6296

"...

3 July 29

10 29.6

45.9

37 0 9.2

5 26.9

11 15.5

5 36.1

6297

"...

3 Aug. 17

III 3M.II

45. 5

37 0 16. 1

5 21.3

11 15.5

5 37.4

6298

64 Pegasi

6. 5

3, Aug. 20

11 24.4

46.3

30 37 45. 8

5 19. 5

23 12 10.7

+30 13 5.3

6299

Lalande 45780 .

7

4 Sept. 17

11 53.0

43.3

24 44 39. 4

4 50.3

23 12 36. 3

+24 49 29.7

6300

Lalande 45781 .

8.9

4 Oct. 2

11 55.3

45.0

1 38 36. 9

4 49.4

23 12 40.3

+ 1 43 26. 3

6301

66 Pegasi

3 Sept. 15

12 12. 1

47.8

1 1 7 55. 1

5 12.1

23 12 59. 9

+11 13 7.2

63(12

31(19 Bradley

7.8

3 vug. 17

13 13.0

46.4

31 20 42. 1

5 21.0

23, 13 59.4

+31 26 3. 1

6303

Lalande 45831 .

7.8

3. July 26

13 38.3

47.8

22 31 27.6

5 21.2

23 14 26.1

+22 39 48. 8

6304

Groombridge 4052

7.8

3 July 27

13 49. 5

45. 8

40 25 31.2

5 29.5

23 14 35.3

+40 31 0.7

6305

"...

7.8

4 Sept 16

13 54.0

41.8

40 26 4. 5

4 51.9

14 35.8

30 56. 4

6306

Lalande 45839 .

7

3 Aug. 21

13 56.8

46.5

29 31 34. 1

5 19.6

23, 11 43.3

+29 36 53. 7

6307

Groombridge 4053

6.7

3 July 19

14 14.0

46. 1

39 55 28.0

5 31.8

23 15 0. 1

+40 0 59. s

i;:;ns

"

7

3 July 23

14 14.4

46.0

39 55 26.8

5 30.6

15 0.4

0 57.4

6309

67 Pegasi

6.5

4 Sept. 17

14 21.8

42.9

31 12 26.ii

4 51.2

23 15 4. 7

+31 17 17.2

6310

6s l'c gasi v

3, July 26

14 36.8

47.8

22 12 54. 3

5 25. 1

23 15 24. 6

+22 18 19.4

6311

Lalande 45861 .

7

3 Aug. 20

14 57.5

47.1

23 46 7. 5

5 19.2

23 15 44.6

+23 51 26. 7

6312

8 Piscium a'

4 Sept. 18

15 55.6

45. 2

0 4 54.6

4 51.2

23 16 40.8

+ 0 9 45. 8

6313

"...

5

4 Oct. 2

15 r,.-..2

45.1

+ 0 4 50. 0

4 50.4

10 40.3

9 46.4

6314

9 Piscium k2

6

4 Oct. 2

16 14.7

45.1

— 0 3 18.2

4 50.5

23 16 59.8

+ 0 1 32.3

6315

13 Andromedse .

3 July 19

16 44.8

46.1

+41 43 KI.5

5 32.7

23 17 30.9

+41 48 43. 2

i;::i(i

"...

6

3 July 23

16 45.3

46.0

41 43 7.4

5 31.5

17 31.3

48 38.9

6317

"...

3 July 27

16 45.3

45.9

41 43 11.5

5 30. 3

17 31.2

48 41.8

i;:;ih

"...

1 Sept. 16

16 49.7

41.8

41 43 45.9

4 52. 9

17 31.5

48 38.8

6319

09 Pegasi

3 July 26

16 57.2

47.7

23 58 52. 6

5 26. 3

23 17 44.9

+24 4 18.9

6320

"

3 Aug. 17

16 57.4

47.2

23 58 51.2

5 20.6

17 44.6

4 11.8

6321 *

"...

3 Aug. 20

16 58. 3

47.2

23 58 52.9

5 19.9

17 45.5

4 12.8

6322*

10 Piscium U

5

4 Dec. 28

17 3.7

45. 6

5 12 1.5

4 52.2

23 17 49.3

+ 5 16 53.7

6323

Lalande 45960

6.7

3 Aug. 21

17 36.5

47.6

18 41 51.8

5 18.7

23 18 24. 1

+18 47 10.5

6324

"...

7

■1 Sept. 17

17 39.8

44.11

18 42 24. 9

4 51.5

18 23.8

47 16.4

6325

70 Pegasi <y

3 Sept. 15

IS 15. II

47.9

11 34 16.3

5 13.8

23 19 2.9

+11 39 30. 1

6326

( rr abridge 4074

8.9

3 July 27

19 8.9

45.6

+45 16 24. 1

5 31.9

23 19 54.5

+45 21 56. 0

t6327

Lalande 46022 .

8

4 Oct. 2

19 41.7

45.2

— 0 17 35.3

1 51.2

23 20 26. 9

— 0 12 44. 1

6328

14 Andromedse .

3 Aug. 17

20 12. 4

46.2

+38 2 56. 3

5 24.5

23 21 28. 6

+38 8 20.8

6329

"...

3 Aug. 20

20 42. 7

46.1

38 3 0. 6

5 23.5

21 28.8

8 24.1

6330

"...

3 Aug. 21

20 43.0

46.1

38 2 59. 3

5 23. 1

21 29.1

8 22.4

6331

"...

4 Sept. 16

20 46. 2

42.6

+38 3 27. 0

4 53.5

21 28.8

8 20.5

6332

13 Piscium -

7

4 Oct. 2

20

— 2 16 7.4

4 51. 6

23 21

— 2 11 15. s

6333*

"...

7

4 Dec. 28

20 55. 1

45.9

— 2 16 12.6

4 53.9

21 41.0

11 18.7

6334

Lalande 46084 .

7

3 Sept. 15

21 2.9

46.8

+27 12 50. 5

5 15.1

23 21 49. 7

+27 IS 5.6

6335

"...

6.7

1 Sept. 17

21 5.7

43.5

27 13 8.1

4 52.7

21 49.2

18 0.8

6336

Tiazzi 110 . .

7.8

3 July 27

21 25.9

46.2

42 52 40. 9

5 32.1

23 22 12. 1

+42 58 13.0

6337

71 l'egasi y

3 July 26

22 39. 8

46. 2

21 18 22.8

5 26.9

23 23 28. 0

+21 23 49. 7

6338

" ...

6

4 Sept. 17

22 43. 2

4 l! ("i

+21 IS 57.7

4 52. 8

23 27. 2

23 50. 5

6339

14 Piscium -

6

4 Oct. 2

23 6.7

45.2

— 2 25 .".2. 9

4 52. 2

23 23 51.9

— 2 21 0.7

6340

Lalande 46101 .

6.5

3. July 19

23 6. 3

48.5

+19 38 50. 5

5 28.1

23 23 54. 8

+19 44 18.6

6341

"...

5.6

3 July 23

23 6.3

48.4

19 38 50.9

5 27.3

23 54.7'

44 18.2

6342

72 Pegasi

3 Aug. 20

23 16.7

47.0

30 8 0.2

5 22. 4

23 24 3. 7

+30 13 22. 0

6343

"...

6

3 Sept. 15

23 17.4

46.7

30 8 10. S

5 15.7

24 4.1

13 26. 5

6344

Piazzi 121 . .

7

3 July 27

23, 30. 3

46.4

42 42 20. 5

5 32. 5

23 24 16. 7

+42 47 59.0

634.")

15 Andromedse -

3 Aug. 17

24 8. 2

46.3

39 2 42.3

5 25.2

23 24 54. 5

+39 8 7. 5

6346

"...

1 Sept. 16

24 9.6

42.7

3.9 3 8. 6

4 54.4

24 52.3

8 3.0

6347

15 Piscium .

7

1 Oct. 2

24

0 7 44.2

4 52. 1

23 25

4- 0 12 36. 3

6348

Bessel, W.612 .

8

3 July 26

25 3. 7

48.5

17 11 11.6

5 26. 2

23 25 52. 2

f 17 19 37.8

6349

Lalande 40239 .

7.8

1 Sept. 17

25 11.6

44.0

23 22 28.5

4 53.4

23 25 55. 6

f23 27 21.9

6350

(1

7

4 Dec. 28

23 25 10.4

f 44.7

+23 22 37. 3

4- 4 47.5

23 25 55. 1 -

+23 27 24.8

(258)

GOULD— CATALOGUE OP STARS OBSERVED BY D AGELET.

259

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't <!

Reduction

a

6

h m s

s

o / "

/ a

h m s

o ' "

6351

Lalande 46255

8

3 Sept. 15

23 25 50.4

+ 46.7

4-31 42 39.0

4- 5 16.5

23 26 37.1

+31 47 56. 1

6352

Johnson 0126

7.."

3 July 23

26 20.8

46.9

42 0 32.6

5 34.3

23 27 7.7

4-42 12 6.9

6353

74 Pegasi

3 Aug. 'Jii

26 44. 0

48.1

15 37 50.7

5 20.5

23 ■'.', 32. 1

4-15 43, 11.2

6354

...

1 Sept. 16

26 47. 0

41.4

15 38 17.3

1 53.5

27 31.4

43 10.8

6355

Piazzi 136 .

8

1 Oct. 2

26 50.4

45.0

2 10 59.7

4 52.3

23 27 35. 1

-1- 2 15 52.0

6356

16 Andromedse

5. 6

3 July 27

27 2. 5

46.4

45 17 2.0

5 33.7

23 27 48.9

+45 22 35.7

6357

"...

3 Aug. 17

27 2. 3

•45.9

45 17 11.5

5 27.:;

27 48.2

22 :',.-■. s

6358*

75 Pegasi s
Lalande 46300,1

3 July 26

27 3.1

48.6

17 12 14.0

5 20. 0

23 27 51.7

+17 17 41.2

6359*

0.7

3 July 27

27 21.9

46.5

45 (0)

23 28 8.4

+45 (0)

6360

17 Audromedce i

3.4

3 July 19

27 34.6

47.2

42 4 5. 4

5 35.0

23 28 21.8

+42 9 41.0

6361

»

3 July 23

27 34.8

47.0

42 4 3, 1

5 24. 3

28 21.8

9 37.4

6362

"...

3 Sept. 15

27 36.4

45.9

42 4 25.7

5 17. 8

28 22. 3

9 43.5

6363

"...

G

4 Sept. 17

27 38.2

42. 6

42 4 49.7

1 55. 1

28 20. 8

9 44.8

6364*

Piazzi 147

8

4 Oct. 2

'.".1 20. 1

45. (1

3 30 57. 9

4 52.0

23 30 5. 1

+ 3 41 50. 5

6365

"...

7.8

4 Dec. 28

29 19.5

45.8

3 30 58. :;

4 54.9

30 5.3

41 53.2

6366

19 Andromedse /.

3 Aug. 17

29 48. 9

46.4

43 8 10.4

5 20. 1

23 30 35.3

+43 13 36. 5

6367

"

4

3 Aug. 20

29 49.3

46.3

43 8 12.8

5 26.4

30 35.6

13 39.2

6368

u

3 Sept. 15

29 50. 2

46.0

43 8 18. 3

5 1-.::

30 36.2

13 30.0

6369

t(

5. 6

4 Sept. 17

29 52.4

42.7

43 8 45.8

4 55.6

30 35. 1

13 41.4

6370

Lalande 46424 .

8

3 July 27

30 35.3

46.8

45 1 12.3

5 33.7

23 31 22. 1

+45 6 40. 0

6371

18 Piscium 7.

3 July 19

31 1. I

49.0

0 35 29.4

5 23.8

23 31 50.7

+ 0 40 53.2

6372

76 Pegasi

6

3 July 23

31 46.9

48.9

15 8 7.2

5 27.5

23 32 35.8

+15 13 34.7

6373

"...

6.7

3 Aug. 21

31 47.(1

48.3

15 8 13.8

5 21.0

32 35. 3

13 34.8

6374

ti

4 Sept. 16

31 49.6

44.6

15 8 4H.7

1 54.3

32 34.2

13 35.0

6375

77 Pegasi

3 July 26

32 22. J

49.1

9 7 58.9

5 25. 2

23 33 11.8

+ 9 13 24. 1

6376

78 Pegasi

6.5

4 Sept. 17

33 13.0

44.0

28 10 22.8

4 55. 1

23 33 57.ii

+28 15 17.0

6377

Piazzi 171 . .

7

3 Aug. 20

33 55. 5

46.5

45 10 48.0

5 27. 0

23 34 42.0

+45 16 16.2

6378

n

7.8

3 Aug. 21

33 55. 7

46.5

45 10 49.3

5 27.3

34 42.2

10 16.6

6379

"...

8

3 Sept. 15

33 55.9

46.2

45 111

34 42. 1

16

6380

Piazzi 173 . .

8

3 July 27

34 4.6

47.5

42 32 39. 0

5 34.4

23 34 52. 1

+42 38 13. 4

6381

Rttmker 1 1533 .

7

4 Sept. 17

34 37.0

44.5

19 13 31.7

4 54.9

23 35 21.5

+19 18 29. 6

6382

"...

7

1 Dec. 28

34 36.7

45. 2

19 13 33.0

4 50.2

35 21.9

18 23. 2

6383

Lalande 46553,4 .

7

4 Oct. 2

34 43.7

44.7

11 57 52.0

4 52. 8

23 35 28.4

+12 2 45. 4

6384

20 Andromedae \j>

3 July 23

35 22.7

47.4

45 12 54.4

5 36. 1

23 36 in. 1

+45 18 30.8

6385

"...

6

3 July 27

35 22. 5

47.3

45 13 4.0

5 35.2

36 9.8

18 39.8

6386

"

3 Aug. 17

35 23. 0

46. 8

45 13 8. 2

5 28. 7

36 9.8

18 30. 9

6387

"...

3 Aug. 20

35 23.3

46.7

45 13 13.6

5 27. 8

36 10.0

18 41.4

6388

"...

3 Aug. 2J

35 22.9

46.7

45 13 10.3

5 27. 4

36 9.6

18 37.7

6389

"...

:: Sept. 15

35 23.9

46.3

45 13 21.0

5 19.5

30 10.2

18 40.5

6390

Lalande 46G11

6.7

3 July 26

30 35. 8

48.6

24 22 40. 3

5 30.0

23 37 21. 1

+24 28 10.3

6391

i<

7

4 Sept. 28

36 40.0

44.3

24 23 14.0

4 53.2

37 24. 3

28 7.8

6392

"...

7

4 Sept. 30

30 39.8

14.3

24 23 15. 1

4 52.9

37 21. 1

28 8.0

6393

"...

6.7

4 Oct. 2

36 39.0

44.3

24 23 18.4

4 52.6

37 23. 3

28 11.0

6394

Besscl,'\V.895 .

8

:; Sept. 15

38 24.0

47.9

21 39 20. 7

5 17.9

23 39 11.9

+21 44 38.0

6395

79 Pegasi

3 Julv 23

38 45. 0

48.7

27 38 13.1

5 32.0

23 39 33.7

+27 43 45. 1

6396

"...

6

1 Sept. 28

38 48.6

44.3

27 38 52. 7

4 53.5

39 32.9

43 40.2

6397'

"...

■1 Sept. 30

38 48. 8

44.3

27 39 0.9

4 53.0

39 33. l

43, 53.9

6398

Lalande 46676 .

6

3 Aug. 20

38 51.8

47.7

35 13 32. 1

5 20. 3

21! 39 39.5

+35 18 58.4

6399

"...

6

3 Aug. 21

38 51.9

47.7

35 13 34.3

5 26. 0

39 39. 6

19 0.3

6400

Lalande 46678 -

7

3 July 26

38 55. 3

48.7

26 28 45. 0

5 31.0

23 39 44. 0

+20 34 10.0

6401

<■

7

4 Oct. 2

38 59. 9

44.3

20 29 18.7

1 52. B

39 44.2

34 11.5

6402

"

7

4 Dec. 28

38 58. 0

45.0

26 29 28. 2

4 48.2

39 43. 0

34 10.4

6403

Lalande 46725 .

7

3 July 27

4D 25. 3

48.2

38 59 54. 7

5 34.4

23 41 13.5

+39 5 29. 1

6404

Lalande 46746 .

7.8

3 Sep't. 15

41 3.7

47.4

36 41 41.7

5 19.5

23 41 51. 1

+30 47 1.2

6405"

23 Piscium . .

6.7

1 Sept. 15

41 32.6

44.7

20 28 38. 4

4 56.0

23 42 17.3

+20 33 34.2

6406

" . .

6

4 Sept. 28

41 31.1

44. 6

20 28 37.7

4 53.7

42 15.7

33 31.4

6407

"...

' 6

1 Sept. 30

41 30.5

44.0

20 28 38. 0

1 53.4

42 15. 1

33 31 . 4

6408

"...

6

4 Dec. 28

41 29.5

45. 3

20 28 46.1

4 511.5

42 14.8

33 30.0

6409

-1 Pegasi <S>

:; July 23

41 31, 1

49.1

17 55 7.6

5 29.5

23 42 20.2

+18 (I 37.1

6410

"...

3 Aug. IT

23 41 31.2

+ 48.0

+17 55 12. 4

+ 5 23. 7

23 42 19.8

+18 0 30.1

(259)

260

GOULD CATALOGUE OF STARS OBSERVED BY D AGELET.

Mean equinox 1800. 0

No.

Name

Mag.

Date

App't a

Reduct'n

App't (5

Reduction

a

3

h m s

s

O ' //

i it

h m s

O t II

6411

81 Pegasi (p

4 Sept. 10

23 41 34. 9

+ 44. 8

+17 55 39. 7

+ 4 55.6

23 42 19.7

+18 0 35.3

6412

"

6

4 Oct. 2

41 35.2

44.7

17 55 11.!

4 53.2

42 19.9

0 37.6

6413

82 Pegasi . .

6. 5

4 Sept. 17

41 39.9

45.0

9 45 15.5

1 :,:,. l

23 42 24.9

+ 9 50 III. 0

(5414

83 Pegasi r

6.7

4 Sept. 28

41 47.7

44.6

20 32 59. 3

4 53.8

23 42 32. 3

+20 37 53. 1

6415

"...

6.7

4 Sept. 30

41 46.5

44.6

20 32 58.8

4 53.5

42 31.1

37 52. 3

6416

Auonvnia .

6.7

3 July 26

42 0.7

49.1

16 -11 59.8

5 28. 4

23 42 49. 8

+ 10 47 28.2

6417

Piazzi 220 . .

6.7

3 Aug. 20

42 6.7

47.9

35 45 23.7

:, 26. 8

23 42 51.0

+35 50 51 1. 5

6418

"...

7

3 Aug. 21

42 6.4

47.9

35 45 27. 8

:> 20.0

42 54. 3

50 54.4

6419

Lalande 40801 .

6.7

3 July 26

43 47. 0

49.2

17 32 38.3

5 28.9

23 44 3,0. 2

+17 38 7.2

6420

tt

7

4 Oct. 2

43 51.8

44.8

17 33 10.0

4 53.4

44 30.0

38 3.4

6421

26 Piseium -

3 Sept. 15

44 6. 2

48.5

5 52 15.5

5 17.5

23 44 54.7

+ 5 57 33. 0

6422

"...

6.7

1 Sept. 17

44 8. 9

45.1

5 52 12.4

4 56. 1

44 54.0

57 38. 5

6423

"...

7

4 Oct. 0

44 8. 9

45.0

5 52 39.0

4 53.8

44 53,. 0

57 33. 4

6424

Piazzi 229 . .

7.8

3 July 23

44 24.5

49. 1

24 45 3.0

5 31.7

23 45 13.6

+21 :,o ■■::<.■>

6425

Johnson 6217 .

6.7

3 July 27

44 42.8

48.2

46 8 58.2

5 30. S

23 45 31.0

+40 14 35.0

6426

Lalande 46906 .

7

3 Aug. 20

44 58. -

48.5

19 57 43.7

5 23. 8

23 45 47. 3

+20 3 7.5

6427

"...

7

3 Aug. 21

44 59.0

48.5

19 57 43.2

5 23.5

45 47. 5

3 0. 7

6428

Piazzi 235

6

3 July 26

45 42. 0

49.1

21 20 42.2

5 30.2

23 46 31.1

+21 32 12.4

64211

"...

7

3 Aug. 17

45 41.8

48.6

21 26 42. 4

5 24. 9

46 30.4

32 7.3

6430

"

6

4 Sept. 28

45 40. 7

44.7

21 27 8.2

4 54.0

46 31.4

32 2.2

6431

"...

4 Sept. 30

45 46.6

44.7

21 27 10.2

4 53.8

46 31.3

32 4.0

6432

84 Pegasi ip

3 July 23

46 46.3

49.2

23 50 19 4

5 31.7

23 47 35.5

+24 1 51. 1

6433

"...

3 July 27

46 45. 3

49.1

23 50 16.4

5 30.8

47 34.4

1 47.2

6434

"...

3 Aug. 20

46 45. 6

48.5

23 50 -.'.-,.0

5 24.7

47 34. 1

1 50.3

6435

"...

3 Aug. 21

46 40. 5

48.5

23 56 25.0

5 24. 0

47 35.0

1 49.0

6436

"...

3 Sept. 15

46 47.2

48.2

23 56 29. 3

5 18.8

47 35. 4

1 48. 1

6437

"...

6

4 Sept. 15

40 49. 9

44.8

23 56 53. 1

4 50.7

47 34.7

1 49.8

6438

"...

4 Sept. 16

40 49. 9

44.8

23 56 48. 7

4 56.6

47 34.7

1 45.3

6439

"...

4 Sept. 17

46 5U.0,

44.8

23 50 56. 1

4 56.4

47 35.4

1 52.5

6440*

"...

4 Sept. 28

46 50. 0

44.7

+23 56 53. 0

4 54.2

47 34.7

1 47.2

6441

27 Piseium . .

5

4 Oct. 6

47 41.4

45.1

— 4 44 46. 5

4 54.9

23 48 26. 5

— 4 39 51 . 6

6442

Lalande 47032,4 .

0.7

3 July 26

48 30. 4

49.0

+32 31 31.1

5 33. 6

23 49 19.4

+32 37 4.7

0443

"...

6

3 July 27

48 30.2

49.0

32 31 28. 9

5 33. 4

49 19.2

37 2. 3

6444

Piazzi 250 . .

6.7

4 Oct. 2

48 48.9

45.0

10 4 41.6

4 54.0

23 49 34. 9

+10 9 35. 6

0445

3192 Bradley .

7

3 July 23

49 22. 3

49.3

25 43 1.9

5 32.5

23 50 11.6

+25 48 3,4. 4

0440

"...

6.7

3 Aug. 20

49 22. 3

48.6

25 43 3.8

5 25.3,

50 10.9

48 29. 1

6447

tt

7

3 Aug. 21

49 21.9

48.6

25 43 2. 2

5 25. 0

40 10.5

48 27. 2

6448

"...

7

3 Sept. 15

49 23.4

48.3

25 13 9.9

5 19.2

50 11.7

• 48 29. 1

0419

"...

7

4 Sept. 15

49 25. 4

44.9

25 43 34. 4

4 57.1

50 10.3

48 31.5

0450

"...

0.7

4 Sept. 17

49 20. 1

44.8

25 43 39. 4

4 56.6

50 10.9

48 30. II

6451

"...

0.7

4 Sept. 28

49 20. 3

44.8

25 43 34. 6

4 54.5

50 11.1

48 29. 1

6452*

"...

0.7

1 Sept. 30

49 26. 8

44.8

25 43, 32.6

4 54.0

50 11.6

48 26. 6

0,453

Groombridge 4199

7

3 July 26

50 43. 7

49.11

41 9 3,7.4

5 36. 2

23 51 32.7

+41 15 13.0,

0454

"...

6.7

3 July 27

50 43.8

49.-0

+41 9 37. 3

5 35. 9

51 32.8

15 13.2

6455

29 Piseium .

5

4 Oct. 6

50 49.6

45.1

— 4 13 20.1

4 55.1

23 51 34. 7

— 48 2:,. 1 1

6456

85 Pegasi

3 July 23

50 54.5

49.4

+25 56 8. 9

5 :;■.'. 8

23 51 43. 9

+20 1 41.7

6457

"...

3 Aug. 17

50 54. 3

48.8

25 50 13.0

5 20. 1

51 43. 1

1 39. 1

6458

" ....

6.7

3 Aug 21

50 55. 2

48.7

25 56 15.6

5 25.1

51 43.9

1 40.7

0459

"...

3 Sept. 15

50 55.5

48.3

25 50 23. 7

5 19.4

51 43. 8

1 43. 1

0400

"...

0.7

4 Sept. 15

50 59. 0

44.9

25 56 40. 7

4 57.3

51 43.9

1 38.0

6401

"...

1 Sept. 16

50 58. 4

44.9

25 56 43. 8

4 57.0

51 43.3

1 40.8

6462

" . .

0

4 Sept. 17

50 ,',9.li

44. 9

25 56 46.2

4 56.7

51 43.9

1 42.9

0103

"...

6

4 Sept. 28

511 58.9

44.9

25 56 44. 1

4 54.5

51 43.8

1 38.6

0101

Lalande 47140,2 .

8

4 Oct. 2

51 33.7

45.0

15 3 44.0

4 54.0

23 52 is. 7

+15 8 38.0

040.",

Groombridge 4219

7

3 July 26

53 3:;. 7

49.3

40 53 11.2

5 36.2

23 54 23.0

+40 58 47. 4

0,10,0

"...

7

3 July 27

53 33. 7

49. 3

40 53 11.0

5 35.8

54 23.0

58 47. 4

0407

Piazzi 207 . .

6

3 Aug. 20

53 37. 1

48.7

33 26 58. 1

5 27. 2

23 54 25. 8

+33 32 25. 3

6468

"...

6

3 Aug. 21

53 37.0

48.7

33 26 59. 8

5 27.0

54 25.7

32 26.8

6469

n

7

4 Sept. 15

53 41/4

44.9

33 27 29. 5

4 57.9

54 20.3,

32 27. 4

6470

Piazzi 268 . .

6.7

4 Sept. 17

23 53 54. 4

+ 45.0

+25 27 12. 6

+ 4 56.8

23 51 39. 4

+25 32 9.4

(200)

GOULD — CATALOGUE OP STARS OBSERVED BY D AGELET.

26L

Mi an equinox 1800. 0

No.

Name

Wag.

I late

App't a

Reduct'n

App't cS

Reduction

a

(!

h m s

s

c / »

/ //

h m s

O ' "

6471

Piazzi 268 . .

6

1 Oct. 2

23 53 54.7

+ 45.0

+25 27 14.7

+ 4 53.9

2:i 54 39.7

+25 32 8. 6

6472

Lalande 47216 -

6.7

4 Sept 28

5 1 0. 5

45.0

26 28 44. 5

4 54.6

23 54 45.5

+26 33 39. 1

hit::

"...

6.7

4 Sept. 30

54 0. 2

45.0

26 2s 43. 5

1 54.6

54 45.2

33 38. 1

6474

86 Pegasi

3 July 23

54 37.8

49.6

12 11 27.4

5 28. 1

23 55 27. 4

+12 16 55. 8

6475

Piazzi 270

3 Aug. 17

55 2:.. -

49.0

27 49 39.2

5 20.7

2:; 50 14. s

+27 55 5.9

6476

"...

6

3 Aug. 21

55 20. 2

48.9

27 49 38.3

5 25. 7

56 15.1

55 4. 0

6477

"...

0.7

:; Sept. ir>

55 25. 8

48.5

27 49 48. 0

5 20. 1

56 14.3

55 8.1

6478

Lalande 47204 .

7

■1 Sept. 28

55 35. 1

45.0

27 21 31.0

4 54.7

23 50 20. 1

+27 20 25. 7

6479

"...

7

4 Oct. 2

55 34.9

45.0

27 21 33. 3

4 54.0

56 19.9

20 27. 3

6480

"

7

4 Oct. 6

55 35. 0

45.0

27 21 35. 8

4 53.3

50 20. 0

20 29. 1

6481

Groombridge 4237

7

3 July 26

50 31.8

49.5

38 56 35. 0

5 35.7

23 57 21.3

+39 2 10.7

6482

"...

7

3 July 27

50 31.8

49.5

38 50 33. 0

5 35.4

57 21.3

2 9. 0

6483

21 Andromeda- a

:: July 19

57 14.2

49.8

27 53 34. I

5 34.3

23 58 4. 0

+27 59 8. 4

6484

"

3 Aug. 17

57 15. 1

49.1

27 53 45. 2

5 26.8

58 4.2

59 12.0

6485

"...

3 Aug. 20

57 15.5

49.0

27 53 44. 0

5 25. 8

58 4.5

59 9.8

6486

"...

1! Aug. 21

57 15.2

49.0

27 53 43. 9

5 25.0

58 4.2

59 9. 5

6487

"...

:; Sept. 15

57 15. 1

48. G

27 53 52. 5

5 19.7

58 3.7

59 12.2

HI-

"...

4 Sept. 15

57 19.3

45.2

27 54 14.9

4 57.0

58 4.5

59 12.5

64S9

"...

4 Sept. 10

57 18.9

45.2

27 54 9.2

4 57.4

58 4. 1

59 6. (i

6490

"...

4 Sept. 17

57 19.7

45.2

27 54 13.2

4 57.1

58 4.9

59 10.3

6491

ii

2.3

4 Sept. 28

57 18.6

45.1

27 54 15. 4

4 54.8

58 3. 7

59 10.2

6492*

"...

4 Sept. 30

57 19.3

45.1

27 54 17.0

4 54.4

58 4.4

59 11.4

6493

"...

4 Oct. 2

57 19.0

45.1

27 54 20.8

1 54. 1

58 4.1

59 14.9

6494

87 Pegasi u

3 July 23

57 55.0

49.7

17 0 32.5

5 29. 9

23 58 44. 7

+17 6 2.4

6495*

22 Andiomedje .

5. 6

3 July 26

59 8.5

49.8

44 51 53.7

r. :;:. :;

23 59 58.3

+44 57 31.0

6490

n

3 July 27

59 8.4

49.8

44 51 54.0

5 37.0

59 58.2

57 3l.n

6497

"...

:: Sept. 15

23 59 10.3

+ 48.6

+44 52 7.9

+ 5 21.8

23 59 58.9

+44 57 29.7

NO

No. 40 appa

TES TO CATALOGUE.

rently the same star as

No. 39.

189 <i is 30" larger than No. 190 = Str. Cat. Gen. 75.

1572 i is 30" smaller than Arg. 52 = Piazzi 185.

923 6 is 5' larger tban Lai. 10975 = W. 1341,2.

2934 a is 2s smaller than Lai. 23233 = W. 373.

:;r::s <J is 8' smaller than Lai. 27036 = W. do-',.

3952 i is 30" larger than W. 329.

4501 a is 25s smaller than Lai. 31597 = W. 469.

5308 <5 is 30" larger than Lai. 38423.

5708 <5 is 1' 30" larger than Lai. 41055,0 = Piazzi 10.

P. J 2

6327 (! is 40" larger than Lai. 46022 = W. 459.

1. 25, for

C0RR1GENI

)A.

"time T " read "app

•oximate sidereal time."

P. 2(1

for f= 19° 20' tide the negative sign.

P. 32

, 1. 21, omit No. 3174 from the list.

P. U

2, 1. 10-14, observations of 17S4, June 22, add 1/h 14m to the
numbers in columns T and app. sid. lime.

Pp. 129-132, subtract 2m from tbe numbers in column T. for Oct. 9.

P. 20

1, No. 3174, omit the t. The star is Taylor 6044 = Brisbane 4343.

(261)

THE SATUKNIAN SYSTEM.

BY BENJAMIN PEIRCE.

The ring is the characteristic feature of the Saturnian system, and its theory is
the chief object of the present investigation. Observation has shown the ring of
Saturn not to be one, but to be subdivided into two or, possibly, more concentric rings.
Tbe mutual action of these rings cannot be neglected in the complete theory, nor the
reciprocal action of the rings and the satellites. But the analysis properly commences
with the consideration of a single elementary ring. The actual ring is thin, which
facilitates the computations; but it is proposed to extend this memoir, which must be
regarded as merely introductory, to the research into the attractions of any ring, how-
ever thick. Such a ring is, geometrically, a hollow cylinder, and the resulting formulae
will be found to be curious and novel aggregates of discontinuous terms, in which the
discontinuities unexpectedly balance each other and leave an uninterrupted continuity
in the numbers deduced from the formulae.

T. Tbe ring is assumed to be of uniform density and thickness, and to fill the
space contained between two co-axial and concentric circular cylinders. The following
notation is adopted : —

2 b = the length of the cylinder or the thickness of tbe ring,
«2 = the radius of the base of the outer cylinder,
«! = the radius of the base of the inner cylinder,

r = the distance of tbe attracted point from the axis of the cylinder,
Q = the distance of a particle of the ring from the axis,
([ = the angle from /• to o.

By the equatorial plane, or simply the plane of the ring, is to be understood the

plane which is drawn perpendicular to the axis and midway between the bases.
34 ID (263)

If, then,
let

2 THE SATURNIAN SYSTEM. [§ 1

z = the distance of the attracted point from the plane of the ring,
L = the distance of the particle from the plane of the ring,
/ = the distance of the attracted point from the particle.

The following notation is also introduced into this memoir : *

j = v/-i,

*© = the ratio of the circumference to the diameter of the circle,
= 3.1415926536,

& = the base of Naperian logarithms,

= 2.7182818285,
which gives

v/@'3= J-J = 4.810177381.

F = any function of q and c = F (q, L)

F2 =F(o, b), F0 =P(9, 0), F, =F(o, -h),

F2m = F (am, b), Fc = F (am, 0), Flm = F («„„ -b),

F20 = F (0, b), Foo = F (0, 0), F10 = F (0, -b),

F;o =F(0, £),

F(0) — the value of F when s vanishes,

F(0) = the value of F when r vanishes,

F[oj = the value of F when r and s vanish.
Let, moreover,

k = the density of the cylinder,
do = q dq d(p d £ = the volume of a particle,
dy = n d r> d(p,

£2 = k I — = the potential of the ring for the attracted point
The value of/ is given by the equation,

f = r2 + ^2 — 2 r q cos tp -j- (a — t )2

= (>" + 'v')2 s'n'J 2?"f (>' (,02 cos2 a fjP + (g £)2

= ('• + 9 f — 4 '' Q co*2 * 9 + (* — C)2

= (9 — t cos fr )2 -\- >2 sui'2 (/j -f~ (g — O2-

* This nutation is introduced in order to set free the letters i, ir, and e, which are so much wanted for astronomical pur-
poses. The sign for ^ — 1 is similar in aspect to i, and is nearly an inverted r. The sign for the ratio of the circumference to the
diameter is nothing more than a c with the lower extremity extended and wound over the letter; while that for the Naperian base
is nearly the letter 6 with the initial extremity bent down over the symbol.
(264)

§ 2-5] THE SATURNIAN SYSTEM. 3

2. The integration with reference to t gives, by familiar forms of integration,

v>^n = k{n'2-ir),

in which

I2' = log(/_g + Q.

3. When the ring is very thin, and the attracted point nearly in its plane, so that
the second dimensions of z and b can be neglected, the formulas give

f =/o(0)

r— *

J2' = log/.
£2'2 = \ogfJ-

f '

b—z

~7~'

(v — i™ -f H

K = log/

so that the result is the same as if the values were reduced to

4. In the same way, when the attracted point is so far from the cylinder, that the
cube of b can be rejected in comparison with the square of the distance of the point,
the formulas give, by reduction,

/•=/--?+-Mi--)

J /o /. ^ 2./; V f*J>

q>_cv — 2J

Jo

which is the same as if the values were reduced to

£1' — £~l' ■=.—.

Jo

5. The integration with reference to q gives, by introducing

£2" =fp (,>£?),

94 =fp (o £2'2) =fp [9 log (/2 -» + *)]

= I </ log (/2 - 0 + b) - i/p [o2 Dp log {U—z + 5)]

(265)

4 THE SATURNIAN SYSTEM. [§ 5

But the value of/1 in § 1 gives

/DP/= Q—rcoscp.
Hence

11, = J ^ log (/, - 0 + b) -fp ifAfi_z + by

But, again, an easy reduction gives

r g2(g — rcosqc) f g'(g — rcos qp) (/2+g— 6) _ f g'2 (g — r P0S 9-) I/2 + g — ^

Jp2/2(/2-z + 6) ~ Jp 2/2[/I— (z — 6)?] Jp 2/s(r*+e» — aprcosg.)

-6)

19)

?2 (g — r cos (y) (/2-|-z — &)
/p 2/2/0(0)

Put, for the moment,

77 = 0 — r cos (p,

and we find

/! = f + H sin2 if -f (0 — £)2,
^2 = jp2 -f- 2j» r cos 9 -j- r cos2 q>,
<»2 (o — r cos </> ) = jo3 — |— 2jr r cos 9 -\-p t2 cos2 9

= (jr -\- r2 sin2 9) ( p -]- 2 r cos <j ) -|- /> r2 cos 2 9 — r3 sin cp sin 2 9),

F + ' sm 9> = V + ' — 2 9 r cos 9" =/S(o)»

r Q-(i> — rcosy) , C , in rr,n-m\ I C(z—b) (/> + 2 r cos g.) , f> r2 cos 2 qp — r3 sin qp sin -2 qp

Jp»/.(/.-«+rt~ U^"1" 9;_t"i 2/2 -T-J, 2/Jw)

, f (z — b) (p r2 cos 2 gj — ;-3 sin g sin 2 g>)

~r i, " 2/2/§(„r" ~~-

The terms of this last integral, which do not involve 0 — b can be omitted, because
the same terms must recur in the expression of 12", and must consequently disappear
from the value of 12.

We find also, by the integral tables,

if, =/■

£j = log (/=+/>),

Xzk=?<^)l0='.fe^=T^I°s«-s+'')-^j|0^

'0(0)

zri lofer/o(o) — rzij log (A + * — *),

f-i-

tan[

-,?M)

r sin qp (2 — It) r sin gj/

Hence

Q.I = i (?2 + r2 cos 2 9) log (/„ + 0 — 3) — i (0 - J)/2

— (0 — i) ;• cos (p log ( /o -f- 9 — r cos 9)
-{- i r sm 2 w tan1 ] - — ~ -,

' j.2 r sin qp

and

In o — o" Q" o" _i_ o "

i -^0 -1' "^22 •i'-12 "21 T M 11-

(266)

§6-8] THE SATUKNIAN SYSTEM. 5

6. When the cube can be rejected, as in § 4, the integration of the formula of that
section gives

-£% = £% = fb-f=f

b (p -\-r cos q>)

pJo op Jo

= 5/0 + 1 r cos 9 log (/„ + Q — r cos 9).

7. When the point is so near the axis of the ring that the square of r can be
rejected, the value of £2% is easily found to be

QZ=-k f log CA°> + • - *) -/^jy+Li)

(»-*) [./?'-r-^P + 2 r cos y log (/p + 9)].

8. In order to obtain the last integral of £2, which is to be performed in reference
to 9 as the variable, elliptic integrals must be introduced ; and the following notation
is adopted, which does not differ materially from the ordinary notation :

sin 6 = sin i sin 9,
Fi <p =f+ sec fi,

FJ=F, (£'©), S? =$(*©).
If we also assume

Hi9 = (FJ — E; ) Fcoi9 — F? E,,. y + H)
in which co i = i'0 — *

we obtain from well known formulae of elliptic integrals

cos2 ^ sin?; cos q [" C sec_0 jnl _ jt

V ( 1 — cos2 i sin2 t/) L J,! cos2 qp + cos2 1 sin2 rt sin2 gj ' J

y/(l — cos2 1 sin2?;)

s'sin2;?) r /' sec 0 ■ •> -rn\ tt
I I : 5 r^ sin" « 1? ■ ! = H; 1].

sv LLl + cot'-z/sin2^ < } '

sin »; cos ri

o

We have also the following formulae of elliptic integrals, which are given in elementary
treatises :

/ ^- = F, 9 — E, w — cot 9 cos (5,
y*^ (tan2 J 9 sec (5) = 2 tan J 9 cos £ -f- F, 9 — 2 E,: 9,
/.(sin2? secfi) ==^|_.(FI 9 — ^-9),
y^ (sec2 y sec fi) = F, 9 — sec2 ? (E,- 9 — tan 9 cos fi),
f sec3 fi = sec2 i E; 9 — tan2 1 sin 9 cos 9 sec fi.

By putting

9' = i -© — i 9,

(267)

6 THE SATURNIAN SYSTEM. [§ 8 («)

we have in all the forms in which the function to be integrated has the same value for
negative as for positive values of ip',

2-a j-a j©

r = 2 r = 4 r.

o -*© o

We also have

2© 2© 2©

*)

2©

p r sin2 qp cos qi (/.-, — z -j- />)

X

M/;-(^-*)2]

2-3

f' Qr sin2 qp cos qi (^ — a -(- 6)

2-3 • 2©

r ()>' sin2 y cos (ji [ ( J\ TV1" s*n~ ' cos f

J<P /<>«» ^ V0 /2/o(0)

0 0

The first term of this last member, occurring in both Sl'i and Si", may be omitted,
which leaves, for the present casej

2© 2©

(z — J) q r sin2 qp cos qp

/Joo^ylog (/,+•-*)]=/,

„ 0 /2/oco)

u 0

But

q r sin2 y cos cp = — or cos8 y -|- o r cos 9

/, 2 1 C2 + '-'2 , (f — r2)-\ r2 (Q- + r") {if — r2)2

= (4 cos- y + ^- cos 9 + ^-/ j/2
which gives

er ' ■ 8fr /- "(0) 8(.2r2 '

2© 2©

0 0

_ (g-Z.)(e2+r2)(e2-r2)2 /? 1

Again wc find

2-3 2©

/ r , ,, 1 N1 r r sin qi (D^ /:,-{-?■ sin qp)

0 0

2©

r- sin2 qp (/„ -f- q)

-0 */s (/*+«— rcosqp)

J*

(268)

2©

r2 sin2 qp (/2 -f- p) (^ — p -f- ?" cos qp)

ftlf* —ie—r cos qp)2]
0

8 (£)] THE SATURNIAN SYSTEM.

2^

!sin- (jr

" /, [r*sin'g>+(Z-6)s]

/' r3 sin2 <p (fl — Qi -\-f2 r cos qp -f- g r cos qp)

o

2© 2^
i' r8 sin2 qp cos <p (' r" sin5 qp [r- -\- (z — b)- — prcosqo]

~~ J<t> r'-sin,qp + (z— b)2 J$ ~ f„ [r2 sin2 <p + (z — 6)-] '

The first term of this last memher occurs in £2'^ and £2'^ just as in £2'^ and £2'^, and
may, therefore, be rejected ; which leaves

l'\ l/^-l \1 f [r2sin3qr + (z — b)-— (z — «)21 [r2+(r — 1,)- — <, r cos gi]

| /• cos w loo- ( /; + C> — >' cos (f ) = — / L- i— t-i ; r „\ „ — i-LL -— L=^= — ' * ^J

2-3 2<3

,7.\ r,* + {z—by—,r^^, f~_A\a f y"+(~ — hf~ grcosqp _

lj X /a "^ ' Jf/« (»*+(«— 6)*— rWg,)' •

0 0

again we find
/%n2ytan"(^osy)(j-^=fhcos2y^^^

,/uL ' _/., r sin qp J ,/e L ' f :, i~ sm~ cp -\- (o — ruosqr)-(i — by J

0 u '

= (0—b) f \i r COS 2 O /j Cr — Pco?g=) — (g - rogsgQr g sin2 qpl

1 j ./ r y /, c^2 sin2 ,>+(«— A)2]/;;,,) J

The fraction, under the sign of integration, may for a moment be denoted by/^V;
thus

V — i v nn« 9 rr, -^ ^ ~ gC0S ?) ~ (g ~ r C0S ff ) r P si"2 9

v — . 2 ; cos -j a) f^t1'* — i — / tvh>> ■>

[rzsin2qp + (2— &)2]/o«»

which can be developed into the form
The value of M is found by putting

/0(0) = ")

in the value of

* J 0(0) >

that of N is found by putting

r2 sin2 (p = — (g — b)2,
in the value of

V[r2sin29) + (g — bf];
and that of P is found by division.

First, then, to find M, the equation

/o(0) = >" + V2 — 2 r Q cos 9 = °>
gives the reduced values

f\ = {z-bf,

2coSa> = £+r = ^±^

(269)

THE SATUKNIAN SYSTEM. [§ 8 (c)

— <?

r — 0 COS 9 = —^;

{> — r cos c/>

2q

i i (<? + »-)2

1 + cos w = ^ L,

1 — cos q> = ^- ,

7 2 Qr

(e2— r°)2
sin- 9 = — -~^r ,

<?4 + r*
cos- ^ = \ , .,,
' 2 g2 r-

/| (r _ q Cos tp ) — (<> — r cos 9) r Q snr 9 == -^- y(g — J)2 9 ^- J,

M = V/1(ft)=^rcos2y/Hr-ecoV^if?'C^)^Si"2y
_ (e4+Q(^-g2) _ (e4 + r4) (^-e8)

Secondly, to find N, the equation

?2 sin2 (f> = — (2 — Z>)2,
gives the reduced values

r2+(c-*)2

COS-" (p =

9 =

r'

,o„. _r2+2(z- ft)2

COS Z (/'

r*

^2 _|_ j.2 _|_ 2 p r eos ,jp (>2 — I — *— — [ — 2 q r VI is If

/o(oj p2 + r2 — 2ercosqp (g2 + r2)2 — 4(>2 r2 cos2<p (»2 — r2)2 + 4 q2 r2sin2(p

p2 -)- r2 -)- 2 () r cos (p

/I (/• — q cos 9) = r </ -|- r8 -\-r{z — bf — [</ -)- 3 9 r -)- 0 (s — bf] cos 9 -(- 2 </ r cos2 9
= 3^r + r3 + (2«>2 + r)(^-[./+3or+^(^-^]cos9?
— (9 — ;• cos 9) 0 r sin2 9 = (p- — 0 cos 9) (2 — b)2,
fl(r — 0COS9) — (9 — r cos 9)9 ?• sin8 (jp = (3(>2-|-?a) ~*^z~- [</-f-3or2-|-2(i)(0 — £)2]cos9,

.... . , . . ., ( 3(>2+^)(</3H-^) ra+('"~ft)a— 2V>- [^3or2+2.)(.e'-/;)2J cos2y
f|(r — pco>qn) — (p — rcos<jp)grsiinp >> 1 /\s 1 / r s l^ 1 s 1 t \ /j t

t>2 + »'2 — 2§rcosqp (j)2 — r2)2 — 4 ()2 (z — bf

2vr(3^ + r2)^-=^-U»2 + r2)[^ + 3^r + 2.>(,-/02]
"(V«_r8)a_4^(g_i)

-ths — jtf — x^rz: — avT" - C0S(P

(270)

r2 + (z-6)2 (c3 + r2) (3 c,2 + r2) - 2 g [(,» -4- 3 P r° + 2 g (z - bf\
r (e2 _ r2) " — 4 (i1 (z — 6) 2

Rg (<?)-(/)] THE SATURNIAN SYSTEM-. (J

N = V Tr sm <p -4- u — A) I = 2 /• cos j 9 - „

L fix 'J J 0(0)

= 27" C»* + 2 (g - *fl F + (s ~ *)3 - <? r cos »]
(^ = ^3 (2/20 — »*) (/» — 9 r cos cp).

Lastly, to find P, we may neglect the terms which do not affect its value, which
gives the reduced values

/2(r_()coscf) = 2r^cos2T — [3;^ + V3 + (»(,= — i)2] cos <r + ^ + ro2 + r (.? — ^)2,
— (a — r cos 9) r 0 sin2 9 = — r2 0 cos3 9 -(- r (>2 cos2 9 -j- r2 9 cos 9 — <r r,
j* ^. — ^ cos 9) — (0 — r cos 9) r 9 sin2 9 = — r2 <s> cos3 9 -{- 3 r 02 cos2 9

- [2 ^4- (,3+0(3 — J)2] cos 9,

J r cos 29 [/l(r — 0 cos 9) — (0 — r cos 9) r^ sin29] = — r3(,> cos5 9 + 0 r2^)2 cos4 9

— [I r\> + r v3 + r 0 (* — £)2] cos3 9,
[r2 sin3 9 + (0 — 5)2]y1(0) = 2 r- 9 cos3 9 - r2 (r2 + </) cos2 9 — 2 r 0 [r + (s - bf] cos 9.

The quotient of the second members of the two last equations gives

(„) . P = - I cos- 9 + (^ - rJ C0S9 + — 2-f -^ j5-.

The combination of the equations (a), (b), (c), (d), and (e) gives

or = r m = - 92X ios (/2 + ^ - f)

0 0

_ f(g-6)(g' + >-i0(ea-rT , (-— 6)(e« + p«)(e*-*3)] 'f 1

I lGt)2 "T" 16t,2 J ./^/2/o2(0)

+ X *"X ^ ** cos2 (p + r« (,/ + r2) cos y + ^? ~ 9 r cos f/' + '" + (" ~ bf

_i^cos29+(^?— ^cos^-K-l^-H*- *)2]>

■fj^^-rtC— flfjsJc-K— »)JT[A-!=±5rsi

35 (27'>

10 THE SATURNIAN SYSTEM. [§ 8 {(/)

In order to reduce the preceding integrations to the forms of elliptic integrals, we may
assume

sm ri = ™ ,

' COS I

sin if' cos i = sin r!" = — , — ~ =75=,.

These values o-ive

D

• 2 • 4pr

snr u -

2— (c + r)._|_(,_i)»

/■=[fo + r>" + (* — «fl(l — rin^rinV),
/o(o) = (? + »")" I1 — sinZ U) sin2 ?')

= ((? — r)2 [cos2 </>' + sm2 r/2 cos2 4 sin2 </>'],
cos2 4 cos2 rj'o = cos2 4 — cos2 4 sin2 rf2 = cos2 4 — cos2 iQ (0)

_ [(e+03-(g — ^(g — i)'_ iQr(z — b)*

• ? / 9 / 4 ■ 4 p r ((< — r)- (z — J)2

snr Ji2 cosJ «2 cos4 % = ^ — , \2 , , ,,21 , , ^,

sin2 ?/j cos2 1^2 cos4 u _ (p — ?-)2 (z — J)2

1— 'sin^"cosat; _ [(Q + rf+(z-by](n + ry->

1(|2m_(|!w,_7, f 1 __ 1 e2(r-e)(*-6) r 8ecgg

t V V s H J J^ /2/»m 2 (e _|_ r) ^ [(0 + r)2 -f (z — 6)-] J* cos2 q> + sin2 % cos2 ia sin2 <p

r — q z — b y/(l — sin2 ?/2 cos2 12) Jp cos2 qp -p sin2 tfa cos2 ?'2 sin2 qp

e2(r_e)(z_J)

i2) Jp cos2 qp -|- sin- ^2 cos2 t2 sin2

Again, we have

^ gin2 (/l _|_ (g _ 5)2 _ ^ _|_ (, _ by_ ;.2 cos2 y ^^ _ ^ cog2 y

= (/20 + r cos 9) (/a, — r cos (/>),

r2 -p- (= — b)2 — q r cos qp /2o — e r cos 93 _ 1 _ /ai + g 1 1 fx — Q

r2 sin2 if -(- (z — A)2 — /|, — r2 cos2 9 Z _/a) + r cos 9 /» — r cos V''

sm rj2 cos ?2 ^

_ v (= - *)2 _ v c/a - '•2) _ . //-

1 — sin2 IJ2 cos2 4 = -jr
(272)

./^=i:

¥/»+*'

1 — sin2 IJ2 cos2 4 = -j= — r- = sin2 4 + cos2 4 cos2 ^'j

§8 (h)] THE SATURNIAN SYSTEM. 11

t „_ _Jj: £e^_ _ _ 2r(e* — 2e/a,+/s,)

cos ,, cos rj2 —fm + r e,+2Qr+Jl — (/ao + ,.) [(c) + ,r+(2_j)2]

2r(/20 — g)a

,sin2 if. cos2 5J ens4 i.2 ( fM — q)~ (z — b)2

1 — sin2/^' cos- /, " ~ (/j, + r)2 [(g + r)2 -+- (z — 6)a] "

We also have

•9 If ./20 r

sm r^ = >£+?
cos 9'2 = ^qp

2r

coi?iji" =

l_co.s-,2s.ir)y, =008% +Mn,,,m,i2 - j-p + (/a)+r) (ga+2gr+/|,)

_ 2,-(/|, + 2e/20 + g2) 2r(/20 + P)2

_ (/»+«•) (g2+2g}-+/?-o) (/» + r) [(C' + ^+C^-*)2]'

1— cosSsin2^" (/.o+e)2^— &)2 .

sin2 ,'/' cos2 tf» — (./:„ - r)2 [(g + r)2 + (z — 5)a]'

or,,,-, 2 ' • 2 '"\ (./«o + C>)'2 (~ — 5)2

tan2*j2 (1 — cos^sm2^ ) = (/g| + r)8[(e+r)rTr^=^]»

2-g 2© 2-3

/ M f '" + (' — W — qr cosy _ I/^ ;s f /so — g ■ 1/ n f /*> + Q

^ ~ } M psin2? + (2-6)2]/ — 2 l" "Utifn-r cos ,,)/, ^ '^ > J? (/» + r cos ,)/,

0 u 0

= 2(2 — b) j¥ (/20+;Jl2rsin2g,')/2 + 2 ^ ~~ ^ X {f*-r + 2rSin>tfjf,

sec (

./20 — 1> «/ (1 — cos2 4 sin2 ^2') t/^1 cos2 ^ 4- cos2 *2 s'n2 rl" sn'2 <P

2 ^ (z — &) 2 y/ (/20 — g) 2 cos2 12 sin ?/2' cos rfj C sec ft,

(1 — cos2 i2 sin2 if,') J$ cos2 qp

2^(:—by2 J (1— cos2 ;', sin2 >;,"") /* sec fl2

H z — 6 sin ?/2' ' cos ?//' J(j 1 + cot2 if" sin2 q)

W =?^61'[^E?Hi,,f+H,c]

I 4/» (s— i) F1

"^ (/.+r) v' [((?+r)a + (-—A)2] '» "

The combination of the equations (/), (g), and (A) gives

^ = -^^nog(./2 + ,-^) + ^2^^^^H;s^

u

(273)

12 THE SATURNIAN SYSTEM. [§ 9

+ I l^-2(z-bf] v-^2 [V^^H^' + H^"]

if., /oi r__ \ i /-a j_i Q3(r— e)1 z_^zl F1

+ VJ*\- + 7+fJ— 2-/2o+* e+r J vt(H_r)._|_ (,_&)«] *v .

and finally

O ;./• (V" O'" Q!" _l_ Ow\

The terms multiplied by { © are added to free the expression of Q!" from the dis-
continuity, with which it would otherwise be affected. Thus when

/• = o
we have rj'2 = 0, H,2 ?;3 = i ®>

and the corresponding term of S2'2" would be

V'O— L>)2 V(-'-*)2

t©

4 »• — e = — 6 '

which suddenly reverses its sign, and is balanced by the term which is added in the
corrected form.

Also, when z = b,

we have < = iff = 0, E^i£ = H^tf" = *©, /» = r,

and the corresponding terms of I22" are

which suddenly reverse their signs, and are balanced by the opposing terms.
It is proper to observe, that in this latter case

When /20 = Q,

we have *j2' = & ©j H,s ^/2' = 0,

so that in these cases the sudden reversal of sign does not affect the continuity of the

function.

The function H,a 7)r2"

never vanishes, because •J}2" Cfin never become a right angle.

9. The first term of I22" is incapable of integration, but it may easily be made to
assume another form, which will be preferable for computation by means of quadra-
tures. For this purpose, denote it by the letter L, so that

2®
U = -ii>2£\og(f2-\-z-b).
0 '

(274)

§10] THE SATURNIAN SYSTEM. 13

Its derivative with reference to z is

j __ _ r v Fi

10. When the attracted point is near either of the curved edges of the ring, the
value of LI'" admits of peculiar transformations and reductions. Thus let the approxi-
mated edge be that for which

z = 6, o = a2,
and put

4 = the distance of the attracted point from the
edge, and let this distance be so small that its cube can be rejected. We have then

./I = («2_,f+(^-£)2,
sec% = — f - = _ (1 + _) = _(1 + L + ^,

!s-ll1+ "IT" H 8^~ -) — T V + ~¥7" + -sis-;'

.__«/■. «. — r (---&)2-3(a2 — r)2\

22 — 4r2\1 r _ ~ I? /'

sec 1

cos2 1

I, /-. a2 — r /.? — 3(a, — r)-\

008^=^(1--^-— J '),

sin ?;22 = !-i^ ^-, cos rfa = ^— — '—,

'2 <2

sinor' -_2v/(«2-^v/(z- by-

bill _/ /yoo j7, j

'2

sin rfe cos 42 = sin i]^ = ^ 2~ = rj£',

sin2^=^(l + ^),

cos2 ri" -- (a*-ry (\ 4- (g-5)M
cos »?* — — ^— ^1 + r{ai_r)),

cos^=^(l_^),

= Sin 2 t.V, ( 1 -4- -=-: 7r^-, —- ),

(275)

14 THE SATURNIAN SYSTEM. Q§ 1 1

1 ^ — ti" — r/ — ("2~r) ^z~h)2

¥}a = (1 + i cos2 %) log (4 sec 42) — £ cos2 4a
E* = 1 -f- 1 cos2 ?-22 log (4 sec i<&) — } cos2 %>
Fco,s ?/22 = 7j^ (1 -|- 1 cos2 %) — | sin 2 ?j^ cos2 i^,

Fe„,2 *J22 = Vzi (1 4* ^ C0S2 *a) _ i Sil1 2 ^22 COS2?^,

Eco,a -»/22 = r/22 (1 — 1 cos2^,) + l sin 2 ^22 cos2 4,,
Ec0 ia rfe = rj'^(l — i cos2 4s) + i sin 2 fa cos2 4>,
F^rj^E^ *&' = <,

H,2 ^ = (Fco,a #, — Eco,: ^) F,1^ — F^^ E\, + I ©

= i '0 — i;^ ( 1 ~h *■ cos2 2-22) H- 1 s'n 2 ^22 cos2 ^ — $ cos2 4j sin 2 1]22 log (4 sec t^),

H, i^ = i © — ?/22 ( 1 + < cos2 *&) — |— ^ sin 2 r^ cos2 i& — i cos2 4a sin 2 ^ log (4 sec 4a),

TT "f 1 /5T\ « '"

3.^22 = i'e) — Ji22,

= ^ -log (4 sec i^) — | ~? — j — rw

2010 — 5), ,. . . 2o|(z — 5) , 2o| v^«2 — r)2 / l ^ '\

= _(,_i)r(l+3J^)log(4sec^)-r(,-i) + ^^6^|©-»/2).

These quantities, substituted in the value of SI"', reduce it to

!2£' = 2 (r — «2) (2 — 5) log (4 sec 4,) + 3 (a, — r) (* — b)
— (* — *)» tan" 5=J - (a* - r)2 tan" J=^.

11. When the cube of b can be rejected, the integral of the value of SI" in § 6
gives by the formulae of § 8,

2© 2<3

i2i" = -flr=r(*/0)+jrprcoB9)log(/0 + ? — rcosg>)]

U 0

2^ 2-3

(276)

7 Cq" — Qr cos cp . , , r r2-|-z8 — prcosqp

_ J? /. "•' J* (** + ^ ^ »)/.

0 0

= 25^ (Vy°°~g)3 H, tf + H, fg')

+ 2 b y/ [(, + ,)2 +^] e^+ JcfSrS] pl*

9

12-17] THE SATURNIAN SYSTEM. 15

12. When the second dimensions of z and b can be rejected, the preceding formula
becomes

Q? = - I2J" = 2 b (<? + r) EL + 2 b («> - r) F}M.

13. When the attracted point is so near the axis that the square of r can be re-
jected, the integral of the formula of § 7 gives

ill' = — 2 'O «/ log (/P + * — *) — 2 © (* — W-

14. The attraction of the ring in the direction of the radius r, and toward the

kR = — DrS2 = k

>• Q COS (J)

~V3 "

15. The integration, indicated in the preceding formula, may be first performed
with reference to L, and the result is

in which

1*2= p—f •

J 0(0) J 2

1G. The integration with reference to Q gives

D,B = B£ — B£ — R£ + B£,

in which

K =f9 (V %)■

The notation and equations of § 5 give

r p — o2 cos if = — p2 cos <p — p r cos 2 <jp -|- r3 cos cp sin2 <jp

= — /2(0) cos (/i — j» r cos 2 y -)- 2 r2 cos <f sin2 tp,

B:=(.-»)Jj;^+(.-l)r«.StX3£jl

— 2 (2 — 5) r2 cos ai sin2 9 / -^ — 7.

Jp ./0(0)/2

= (2 — b) cos 9 log (/2 -f- 0 — r cos <p) — r cos 2 <p log (/2 -4-g — b)
— rsin2g>taii[-i££=?.

7 r sin qo/2

17. When the second dimensions of £ and 5 can be rejected because they are
small, the value of R2 can be reduced to

„, hr — Spcosqp

1»2 — ft ~ •

J 0(0)

This gives

R2' = — /; cos w j -j. b r cos 2 y / -| — (- 2 J r2 cos 9 sin2 </> / -5—

(277,

1G THE SATURNIAN SYSTEM. [§18-22

. . . br — ibqcosy

= _ b cos y log (/0(0) -J- Q — r cos (f) — .

J 0(0)

But this formula may not be used when o — r is also very small.

18. The integration with reference to (p gives.

R = E£ — B£ — B£' + B£',

in which

2©

=1^'

l2

0 '

The formulae and notation of § 9 give

2<3 2©

&" =

b fr--{-(z — b)a — (ircmcp . (z — S)3 /* r2-j- (z — b)'2 -Qrcosy

', f r2+(s— b)* — Qr cos cp , (z — &)3 C _^

r J$ fi ' '• Jd[r2+(;— i)2 — j--cos-<jd]/2

0 0

'^ "'J* L 2/, "i" ier/2 1"8^r*/iJ"r: 8j/2r J*Afl»

0 0

2© •

0

2© 2©

I) 0

2'P)

z — b C q* -\- 2 q r cos <p

0

g*^— tov(=-ft)aE

)• r — o

. ^ - -y (*-*)' rv(f-coa H ^ + h. ^ 1

_ re3(3r+(.) 1 /»(« *»+«•/»+/&)] g — ft Fi

L '• ('• + e) "^ r («■ +/*>) J V C(e + »')2 + («- 4)a] v

19. When the point is very near either of the edges of the ring, the forms of
reduction of § 10 give

B£' = (b — 2) ^±^ [log (4 sec 4a) — 1 — tan i£ (* © — »£■)]•

20. When the second dimensions of z and J can be neglected, the integral of E2'

in § 17 gives

2<3 2©

J^ [5 cos y log (/0(0) -f Q - r cos 9 )] -Jf __qf«---_^r-

/* ftrsinX/oao+g)
JtfotoAfm + e— r cos qi)

0

2'P)

(278)

§21-25] THE SATURNIAN SYSTEM.

Jf

2 -a

irsin'qp (/0(0) + (Q (/0(0) — g + rcos qp)

0
2©

/o(o)r'"si"2<P

f h (/»<„)— (,'-+(?rcos<r)

2©

J<i>

i l> (flea — (?+**)
r/o(o)

2-3 2 0

P4" = — i jT - J^l'll _ f 5 cos y log (/0(0) + o — r cos 9)

t/0 /o(o) ^P

— __ ft fJ/^-ieWr2 _ _2KH-r) ™ , 2i(f+r) ™

— °J? rfm r ^T (e + r)r r '.(»)•

21. When the attracted point is so near the axis that the square of r can be re-
jected, the first term of R7 in § 16 is the only one which must be retained, and in this
case we have

log(/. + ? — r 0089)) = log (/|™. + ?)--r '

_ Qr(:- b)

22. The attraction of the ring, perpendicular to its plane, and toward the plane,
is

= -Dli2 = *jT

23. The integral of the value of Dff Z taken with reference to t, gives

in which

7, 1

24. The integration of q Z'2 with reference to g gives
D, Z = Jc (Z02 — Z21 — Z12 -f- Zu),

in which

Z2 —J j=f2-\-rcos(f>Jj

=f2-\-r cos 9 log ( /2 -)- Q — r cos 9).

25. The final integration with reference to 9 trives, by means of the formulas of
§9,

z = h {7Z — z% — 7/z 4- z;r),

36 (279)

18 THE SATURNIAN SYSTEM. [§26-28

in which

2<3 2© 2©

7'" _ /-. i\2 C r*+(z—by — Qrcos(p . , C f \1 I ,fl p. \ f 1

0 0 0

=..2 y/ (* - i )2 [^rE^ ( H, tf - * ®) + H.", ^ - * ®]

26. When the ring is thin and the attracted point near its plane, so that the third
dimensions of z and b can be neglected, the value of Z2' can be reduced by the formula)

f—f 4- (z^br

log (A + Q — r cos (/)) = log (/0(0) + <>-,■ cos 9) + ^ (y^+^I — y

The substitution of these values in Z2' and the neglect of the terms which are common
to Z22 and Z^, as well as to Zj2 and Zn, gives

„// — s b zbr cos <-/>

/oiO) /o(0) (/o(0) + e — ?'COS <J>)

—zb ~ & <*os <y (/o((i) — g + r cos <y)

_sb (q cos <p — r) z J cos qp

r/0(0) sin2 <j) rsin2g>

J /(> — r (' ~r r \ Jo cos <p

0(0) \siuHg> cos'2 1 <jp/ r sin2 qp "

The integral of this expression becomes, after omitting the last term, for reasons already
given,

71" ~ zh f \- 1 (°~r e + r)1

2 " r (q -{->') J 6 lV (1 — sin2 2* sin2 gi) Veos2 qj sin2rp/J
o

2b, p JIjl™

27. The mass of the ring is

&

which aives

s1

M

2 /Q ^(al—a2.)

28. When the ring is very thin and narrow, the integrations can be performed at
once with reference to q>, and we find, by using a for the mean radius of the ring,
(280)

§ 29] THE SATURNIAN SYSTEM. 19

2<Q

'J* J

_m_ n - 2M f1

2'0J0/ " <5W[(a + r)» + *2] "

2©

0

= * (F+r2-a2-°2EA

2©

E1

These formulae give

-©[(a-rj' + ^V [(« + *•)* + **]

29. If, in the general case, a plane is drawn through the attracted point perpen-
dicular to the axis of the cylinder, and if, in this plane, two circles are taken, with their
common centre in the axis, and with radii / and r", connected by the equation,

in which q is the distance of the common centre from the attracting particle (o, £),
every point in either circumference has the same value of i, which may be determined
by the equation

. r' + r" — 2e

cos'*= ' „ \

r-\-r -\-2q

The two circles may be called complementary, and are derived from each other by a sim-
ple and obvious geometrical construction. It is apparent, indeed, that they are both
tangent to a spherical surface, which passes through the particle (o, t), and is tangent
to the cone having for its axis the axis of the cylinder, for its vertex the common cen-
tre of the circles, and which passes through the point (o, c).

If the values of § 29 are, then, denoted as functions of / and r", they give

n (/') = y£ a (/) = l„ n (/) = ± a (/),

R (O = 4* -Q ('0 - 4 » (O = 4 [R (0 - ^ z ('•')]•

r r r L * J

(281)

20 THE SATURNIAN SYSTEM. [§30

When the quantity

/2 I 2

r' -\- zr

is so large that a2 can be rejected in comparison with it, the values of the functions of
§ 28 become

n (,') M

V (/* + Z2)'

INI

Z(''') = t7^!-7EW;

whence, the corresponding values for r" are

M

n(/') =

V(1+^)'

Mr"

h/(i+#]

When 2 is so small that its square can be rejected in comparison with r, these values
become

z(o=5, z(o=^.

30. When the ring is very thin, and the attracted point is so near its plane that
the second dimensions of s and h can be neglected ; and when the ring extends inward
to the very axis itself, its outer radius may be denoted by a, and the points / and r"
may be connected by the equation

and we may suppose
which gives

r'

' tr _

a\

r > a,

r"

<a,

cos i =

/ — a

r -\-a

a
a

— /'

t

a cot2

1 i

2 <■)

r =

a tan2

H

(282)

§30] THE SATURNIAN SYSTEM. 21

and from the formulae of §§ 12, 20, and 26,

11 ('"') = Wa C0Sec2 * i{V] - C0S/F?)'

i2(r") = ^secan'(I?+coSzFJ)J

R(/)==Hsec2^t(l-^m2e)FJ-Ea

'©a2

■?- E (/) = -

a r

2 Ma

Z (/) = ££= sin2 H (sec * I? — FJ) = ^f J2 (r'),

r*, „. 2M 2Mz 2l ., .„, . „,. 2M 2 cos4 4 1 r> , „\

Z(r ) = -i 7=^-3 cos2^(sec?EJ4"FJ) = ^ 5 — h ■"(>*)>

v y a2 'Q a3 v lit/ a2 a2 cos2 j v ;>

a E (/') + 12 (/) = ±| sin2 1 ,=£[« R (/) + 12 (/')],

i2(0 = ^2(/) + ^(/-r")R(/).

If /■' is so large that the square of the lineal dimensions of the ring can be rejected,
these quantities become

n (/) = f, n (/o = ?*

B(0 = 5. R(/')=^ = ^,

v y /- ^ ' of a2 '

z(/)=m; Z(o=^-^.

v y r'3 v ' a- a3

The general values of this section can easily be reduced to series. If

b b

IT; tfj i and St y i

a a

denote respectively the continued product of all values of the function yi i from a to b
and the sum of all these values, we find

n,,, M . 2M-r</2i— 1\« 1 /a\a,'l

(283)

22 THE SATURNIAN SYSTEM. [§ 31

E(,.»,=^+^-f.[A.(^)5i^m

z(<') = -^-,i2 ('•')■

?■ — a

The values of Z in these equations are only applicable when

z>b;
but when

2<b,

they must be multiplied by -r.

31. The following tables contain the value of the potential and attractions of thin
rings computed by the formulae of §§ 27 and 30. In the first table, the ring is narrow
as well as thin, and in the second table, it is continuous to the centre of the ring. The
values of r and r" are the same in both tables for the same value of i.

(284)

•HIE SATUKNIAN SYSTEM.

23

Table

of the potential and attractions of an mfintiety

thin and narrow ring upon points in its plane.

i

0°

r

r

r' .Q (>•') Si (/')

r'2 R (/)

M

a?"R(r")
M

r'3 Z (/) o3 Z (/')

M U M

Mz Mz

GO

0.

1.000000

1.000000

0.

1.000000

5

524.5825

0.001906

1.000001

1.000003

0.000002

1.000008

10

130.64601

0.007654

1.000015

1.000044

0.000030

1.000133

15

57.69548

0.017332

1.000075

1.000226

0.000151

1.000678

20

32.16343

0.031091

1.000242

1.000726

0.000484

1.002178

25

20.3465(1

0.049149

1.000605

1.001816

0.001210

1.005455

30

13.92820

0.071797

1.001292

1.003884

0.002592

1.011692

35

10.05901

0.099413

1.002484

1.007481

0.004997

1.022584

40

7.54863

0.132474

1.004431

1.013402

0.008952

1.040596

45

5.82843

0.171573

1.007667

1.022796

0.015130

1.069407

50

4.59891

0.217443

1.012146

1.037109

0.024963

1.114780

55

3.69017

0.270990

1.019159

1.059161

0.040002

1.186278

60

3.00000

0.333333

1.029660

1.093066

0.063406

1.301032

65

2.46391

0.405859

1.045496

1.146265

0.100769

1.492956

70

2.03961

0.490291

1.069889

1.233363

0.163474

1.838875

75

1.69840

0.588791

1.109147

1.387800

0.278653

2.550722

80

1.42028

(1.704088

1.178052

1.707872

0.529820

4.437579

81

1.37089

0.729454

1.198292

1.815448

0.617156

5.199017

82

1.32335

0.755660

1.221947

1.949978

0.728030

6.242754

83

1.27752

0.782739

1.250000

2.122787

0.827787

7.734104

84

1.23346

0.810727

1.283927

2.35269

1.06876

9.98322

85

1.19095

0.839663

1.325983

2.67340

1.34741

13.6314

86

1.14997

0.869585

1.380021

3.15182

1.77180

20.1935

87

1.11046

0.900534

1.453314

3.94369

2.49037

34.0356

88

1.07232

0.932555

1.562340

5.52133

3.95899

72.7347

89

1.03553

0.965694

1.760174

10.1627

8.4025

275.347

90

1.00000

1.000000

GO

GO

GO

GO

(2*5)

24

THE SATURNIAN SYSTEM.

Table of

'he potential and attractions of a thin ring, confimtoits to its centre, upon points in its plane.

,

afi(r")

r'ii(r')

r'- R (/) as R (r")

r'3 Z (r )

2a — a8Z(r")

i

2M

M

M r" M

Mz

2Mz

0°

1.0000000

1.0000000

1.000000

1.00000

1.00000

5

0.9999988

1.0000007

1.000002

1.00000

1.00000

10

0.9999858

1.0000073

1.000022

1.00001

1.00000

15

0.999924G

1.0000375

1.000113

1.00034

1.00023

20

0.9997578

1.0001209

1.000303

1.00109

1.00073

25

0.9993957

1.0003022

1.000907

1.00273

1.00182

30

0.9987100

1.0000456

1.001939

1.00583

1.00388

35

0.9975244

1.0012400

1.003729

1.01123

1.00748

40

0.9955980

1.0022082

1.006054

1.02011

1.01333

45

0.9925998

1.0037209

1.011247

1.03410

1.02271

50

0.9880727

1.0000170

1.018273

1.05594

1.03711

55

0.9813807

1.0094381

1.028**3

1.08944

1.05910

00

0.9710148

1.0145048

1.044815

1.14132

1.09306

G5

0.9574514

1.0219778

1.078006

1.22352

1.14626

70

0.9308815

1.0331557

1.106622

1.30010

1.23336

75

0.9000490

1.0504120

1.167882

1.00779

1.38775

80

0.8012090

1.0778420

1.278265

2.13747

1.70787

81

0.8494422

1.0853725

1.311186

2.31968

1.81544

82

0.8304980

1.0938000

1.350033

2.54992

1.94989

83

0.822201G

1.1035070

1.396511

2.84908

2.12280

84

0.8003222

1.1145718

1.453285

3.25213

2.35721

85

0.7885587

1.1279491

1.525237

3.82399

2.07338

80

0.7084940

1.1425970

1.017462 •

4.68618

3.15185

87

0.7455082

1.1010259

1.745602

5.86530

3.94367

88

0.7185595

1.1841932

1.940480

9.08531

5.51290

89

0.0855088

1.2155897

2.304086

18.88092

10.16588

90

0.0300197

1.2732394

GO

oo

GO

(28C)

ON THE DISTRIBUTION OF CERTAIN DISEASES IN REFERENCE TO HYGIENIC
CHOICE OF LOCATION FOR THE CURE OF INVALID SOLDIERS.

The disposition to.be made of maimed and infirm soldiers after the war is becoming a
problem of great national moment. A most able physiciaiyvnd zealous sanitarian* lias already-
entered upon its solution, and after having collected materials from all important sources, has
already arrived at conclusions which highly commend themselves. His leading idea is, that
each one should enjoy a home connected with some occupation as a means of support ; and that
pensioners should not be collected into large communities by themselves, as at Greenwich,
Chelsea, or the Hotel of the Invalids. With this view he has classified the various employ-
ments, especially the petty offices in the gift of the general government and of corporate
bodies, which men deprived of a leg or an arm or otherwise maimed may be able to fill, or so
to combine these places that one man may supply what tke other lacks, and thus mutually
assist each other. Such as may be broken down by camp diseases and incapable of any active
labor, he proposes to classify also, and to have sanitary institutions established in various
regions, the localities for them being selected with reference to the particular infirmity to be
treated. It is with a view of contributing something towards this latter branch of the project,
and to show how reasonable it is, that this paper is undertaken.

It has been vaguely known that certain diseases predominate in certain regions, while
they are comparatively unknown elsewhere. But the actual facts in the case, so far as this
country is concerned, have not, I think, been tabulated. I will confine myself for illustration
to the two great classes of diseases which are most likely to be the causes of invalidism, viz:
consumption and miasmatic diseases or fevers.

It has been a disputed point whether the North is really and notably more subject to
consumption than the South. Judging from statistical tables derived from the principal
southern cities, the only sources we have had, until recently, for affording a conclusion, the
proportion of deaths there has not been much less than in the northern cities. The southerner
has told us, however, that the deaths in their cities are those of northern invalids who come
south to die; and that their own population is not much affected by the disease.

In the census of the United States for 18G0, the diseases causing death that year were
given. This census was taken simultaneously everywhere, under the same auspices, and
according to the same formula. It covered a territory embracing nearly every variety of
climate and surface, surpassing in these respects any registration ever before attempted;

* Dr. John Ordroneaux, of New York.
37 . • (2S7)

2 ON THE DISTRIBUTION OF CERTAIN DISEASES, ETC.

greater indeed than the whole extent of civilized Europe, and better adapted, therefore, to
afford conclusions as to the effect of climate on the distribution of diseases, than all the regis-
trations of Europe, taken, as they have been, at many different times and under many different
auspices. I have made an analysis of this census, taking each State by itself, and ascertaining
for each the percentage of deaths from consumption compared with deaths from all other
diseases; and also the number of persons living to one person dying of consumption.

The result was both startling and decisive, and is exhibited in the following table. In
this table is incorporated also an analysis of the less accurate and less* extensive census of
1850, which shows, in the main, a similar result, and strongly confirms the general conclusions.

Maine

New Hampshire

Rhode Island

Vermont

Massachusetts

Connecticut

District of Columbia

New Jersey

New York

Pennsylvania

Michigan

Maryland

Delaware

California

Minnesota

Ohio

Wisconsin

Indiana

Kentucky

Iowa

Illinois

Tennessee

Virginia

Oregon

Kansas

Missouri

Louisiana

North Carolina

Florida

Alabama

Mississippi

Texas

South Carolina

Georgia

Arkansas

CONSUMPTION.

Ph

29.
26.
24.
24.
23.
21.
20.
18.
18.
17.
17.
1G.
16.
16.
14.
14.
13.
11.
11.

10.
in.
in.

9.

9.

888

971 '

2-20

043

758

Gil

565

794

265

375

058

916

905

176

965

741

.". I H

669

131

773

.'.45

036

942

170

839

742

244

394

950

027

853

833

279

156

■-7 8

22. 44
21.81
20.96
24. 02
17. 66
16.76
15.96
12.61
14.67
12. 33
14.55
11.45
9.76

8. -4
9.99
8.42
8. 57

7.78
7.37
7.40

8.48

5. 27
5. 36
5.52
4.91
3.98
3.69
3.66
3.32
2.81
4.34

P<o5

26. 164
23. 880
22.590

24.1131 1
20. 709
19. 185
18. 262
15.7MO
16.467

14. 852

15. 608
14. 183
13. 332

11.790
1 1 . 254
10.044
9.&50
9.275
8.957
8.718
9. 210

G. 505
G. 300
5.955
5: 430
4.5U3
4. 270
4. 245
3. 799
:;. 1-::
4. 109

bJKO

C CO

290

280

308

404

254

363

294

498

473

579

G31

574

558

725

1,140

GO! I

852

792

663

902

879

771

757

2, 498

1,00 J

91 18

839

1,301

1,556

1,618

1,428

1 , 430
1,804

2, 153
1,323

6p|

T -

c o

343
344
214

418
290
382
383
535
463
(;.-,i ;

605
529
776

774

1,742

924

7. '.5
1,2U9

983
1,141

-67

1 , 052
838
1 , 546
2,1153
2,133
1,827
1 , 898
2,5(11
3,248
1 , 590

a to

IS CO

> CO

c-2

316
312
261
411
272
372
338
516
46S
617
618
551
667

721

1 , 297
858
709

1,055

931

■ 956

812

•ISO

838
1,425
1,794
1,874
1,627
1,668
2,154
2, 700
1,456

8.500
7. 885
3.460
7.809
4. 732
5. 807

4. 838
4.371
3.701
G. 681
9. 141

5. 539

6. 475
9.2-1
8. 226
6.959

7. 206
12. 079
10.665
12.646
12.6(12
12.162

6.881
7. 423
7. 839

14. 050
11.; -93
12. 626
14.417
12.366
15.002

15. 491
12. 290
12. 31 1
17. 800

s >

34. 664
31.765
26. 050
31. 839
25. 441
24. 992
23. 100
20.071
20. 168
21 . 533
24.749
19.722
19. 307

18.749
18.460

22. 125
2H.515
21.921
21.559
20. --H
16.091

20. 555
18.193

18.581
19.847
•16. 869
19.272
L9.736
16.089
15.791
21.909

It will be seen that the greatest mortality was at the extreme north, and diminished

southward almost as regularly as the States could be called. Taking the first column as most

correct, We see that in Maine nearly thirty per cent, of all deaths were from consumption;

while in Georgiaand Arkansas only about four per cent, died from that cause; or, at least nine

(28S)

ON THE DISTRIBUTION OF CERTAIN DISEASES, ETC. O

in the extreme north to one in the extreme south. The same result is arrived at if we com-
pare the number of persons living to one death from consumption. The variations from this
direct and uniform decrease are very slight. For instance, in the District of Columbia, the
proportion was considerably greater than in other places of the same latitude, owing probably
to the mixed population, derived as it is from all sections of the land; while in Minnesota and
Iowa it is less dominant, owing, as there is reason to believe, to the remarkably equable and
dry climate. Again, some allowance must be made for the newly settled territories which are
mainly populated by young and vigorous men, with a dearth of females, a class in which the
disease would not be expected to prevail.

The general law that liability to consumption in the United States decreases as we pass
from north to south must be considered as definitively settled. Whatever the minor errors in
diagnosis or in registration may have been, and considering the uniform time and method in
which the data were obtained, they would weigh little against the uniform rate and direction
of the variation exhibited.

Now in addition to the fact that consumption is so much more fatal at the north than at
the south, it is also a fact that the mortality from all diseases is greater at the south than at
the north. If we take the three northernmost States, Maine, Vermont, and New Hampshire,
the mortality to every one hundred persons is 1.25, or one person to every 81 living; while if
we take the southern States, South Carolina, Georgia, and Texas, the mortality is 1.41 to one
hundred, or one death to every 71 living. It then becomes a question, what disease, or what
class of diseases at the south compensates for the fatality of consumption at the north. The
miasmatic diseases, developing fevers of various types, are well known to be very fatal at the
south. If we tabulate the fevers in the same way as we have done consumption, (and this is
also exhibited in the table,) we find the order of the States nearly reversed, the proportion of
deaths being very small in the northern and large in the southern States. Indeed, if we add
together the percentage of deaths from consumption and fever in each of the States, their
sum is nearly equal for all the States; and the extremes of variation for the States, instead of
one to ten, become as one to two.

It is thus evident that there are regions more favored than others in respect to exemption
from certain diseases, and consequently more favorable to recovery from those diseases; and
that this preference is much more strong than has been supposed — certainly more strong than
has ever before been proved. What is true in regard to the two diseases in question is true
to a certain extent of other diseases.

The idea, therefore, of establishing sanitaria for different diseases in parts of the country
best suited to their cure, sending patients north or south, east or west, to the sea-shore or
upon the mountains, as the case maybe, is a most important one. Infirmaries established,
with this idea in view must be attended with a far greater degree of success than can be
obtained from the old system of mingling together invalids laboring under all sorts of
infirmities, as has been the case heretofore in all countries.

An English writer has maintained that the idea that consumption and ague are antago-

(2S9)

4 ON THE DISTRIBUTION OF CERTAIN DISEASES, ETC.

nistic, and that it is more rife and more rapidly fatal in northern than in southern latitudes, or
that its prevalence has any connexion with a cold, wet and variable climate, are popular
errors, at variance with the facts of common experience as well as with the results of statistical
research. Certainly, the figures of our table, more reliable under the circumstances than any
European tables covering a territory of equal extent, are opposed to such views, and strongly
confirm the popular notions, so far at least as the United States are concerned.

(290)

01 SHOOTING STARS.

BY II. A. NEWTON.

The periodical shooting stars, particularly those of August and November, have hitherto
very naturally attracted more attention than the sporadic ones, those which are seen on every
clear night in the year. Yet these latter are objects of no small interest. There are methods
of observing, and of computation, by which much can be learned about them, and observations
already made show something of their numbers and of their -place in the solar system. I
propose, to combine these existing materials and see to what they lead us. If it be said that
I use rude processes and inexact data, and reject in computing terms of considerable
importance, I must plead that it is a step forward to do anything in this direction, and express
the hope that better data will soon warrant the use of more refined processes.

It will be necessary to assume some propositions which are probably not strictly true, and
others which may not be universally conceded. I shall, however, set forth very distinctly
these assumptions that future observation may correct them if erroneous, and verify them if
true.

In the American Journal of Science for July, 18G4, p. 135, I gave a table of the computed
altitudes of three hundred and forty-two shooting stars, which are all I have been able to
collect from the scientific journals.* The altitude is in each cg,ge computed from the parallax
shown by observations made at two or more places at some distance from each other. These
observations are always subject to large probable errors, and there is often great doubt
whether different observers saw the same object. An attempt is made to separate in the
table the manifestly unreliable cases from the rest. But the remaining ones individually are
not all deserving of confidence. Taken together, however, many of the errors will balance,
and the whole may be made the basis of computation as a first approximation.

DISTRIBUTION VERTICALLY OF THE MIDDLE POINTS OF THE LUMINOUS PORTIONS OF THE

METEOR-PATHS. *

When in the table the altitudes of the beginning and ending of the visible part of a path
are given* the half sum is taken as the altitude of the middle point. When only one end is
given we might reject it altogether. It seems better, however, to give some weight to such
determinations. By adding or substracting one-half the average descent of shooting stars wo

— ' — ■ ' ' w ~

"This table, with the accompanying notes, is given in an appendix to this memoir.

(291)

ON SHOOTING STARS.

obtain a number which may be used for the altitude of the middle point. This average
descent according to the table is about twenty geographic miles. But the average length of
track will be found to be between twenty one and thirty-four miles. If the points from
which the motion of the meteors is directed are uniformly distributed over the visible hemi-
sphere, then it may be shown that the average descent would be one-half the average length.
When, therefore, only the first or last altitude is given in the table, we ought, according to the
first result, to take ten miles from the fiust, or add ten miles to the last altitude, and use the
result as the altitude of the middle point. The second result gives a quantity between five
and a quarter and eight and a half miles to be added or subtracted. I have used, therefore,
eight miles as half the amount of descent.

When one end only is given, the resulting altitude is counted once. When both ends are
given it is counted twice. Again, certain sets of altitudes are computed from base lines that
were too short or too long, or they are otherwise not deserving of full confidence. Such are
the flights observed and computed by Brandes and Benzenberg in 1798, 1801, and 1802, a
part of those by Brandes in 1823, those by the younger Brandes in 1833, those by Bogus-
lauski. Erman, and Litteow in 1837 and 1838, by Coulvier-Gravier in 1845, and by Le
Verrier in 1856. These are counted once only, while the other sets are counted twice. In
the best cases, therefore ,the altitudes are counted four times. Proceeding in this manner, and
converting miles into kilometres, we have the following numbers:

Altitudes between 0 and 30 kilometres 39

111

243

277

10G

57

"20

20

30

( I

00

GO

( 1

90

90

( l

120

120

t t

150

150

" i ;

180

180

t i

210

210

i t

240

240

i i

270

270

i t

300

Altitudes over 300 kilometres
These numbers are exhibited graphically in figure 1.

10

2

200

JOO

(292)

Gd VO MO jS(FZ. ISO 2U> S40 X70

ON SnOOTING STARS- 6

The observations made in this country in August and November of last )rear, and the more
reliable series of European observations, lead me to doubt very much the smaller altitudes.
Most of them are in fact computed from very short b*se lines. While there maybe some
flights which are quite low, I feel safe in disregarding all the cases where the height of tho
middle point is said to be less than thirty kilometres. On the other hand, there must be a
definite upper limit to the appearance of these trains, and the extension of the curve given
above to the right of 180 at least, may be referred to errors of observation. The numbers
corresponding I shall therefore disregard. In the following computations the rejection of
these very high altitudes produces an effect the opposite of that which results from rejecting
the very low ones, and the two effects tend to balance each other.

I shall assume that these observed paths are fair examples as to altitude of all visible
paths, and hence that the frequency of the middle points at different altitudes above the
earth's surface is proportional to, and may be expressed by, these numbers:

From 30 kilometres to 60 by 114

GO " 90 " 243

90 " 120 " 277

" 120 " 150 " 10G

" 150 " 180 " 57

Representing these numbers by p, and the average altitude by h0, we have, approximately,

where in the finite summation indicated by 2 the successive values of p are to be taken, and h is
to be successively i (30 + GO), ± (GO + 90), &c, or 45, 75, 105, 135, and 1G5 kilometres. The
value of h0, that is, the average altitude of the middle points of the meteor-paths above the
earth's surface, is thus found to be 95.5 kilometres, or 59.4 English miles.

■DISTRIBUTION OF THE METEOR-PATHS OVER THE APPARENT HEAVENS IN AZIMUTH.
If the middle points of the apparent paths of all the shooting stars that can be seen at one

place during a long time were marked on the visible heavens, we jr z J-

might reasonably suppose these points equably distributed in azimuth.

For let O, in figure 2, be the place of an observer, Z his zenith,

and let the paths, or their middle points, be distributed through a dS"

stratum above him. If then OA and OAl make equal angles with !°

OZ, these lines will pass similarly through the stratum, and about -^ -rf^=== —

as many paths should be seen along one line as along the other. }}/

This argument implies an equable distribution of the paths horizontally along the

stratum, which is not strictly true. For the number of meteors seen at a place increases

through the night, and hence there should be east of us more paths than west of us at any time

of the night. The difference, however, is quite small. A uniform direction of tiie paths may

also have a little influence, especially by changing the distance at which paths can be seen.

(293)

4 . ON SHOOTING STARS.

The above conclusion accords with observation. Mr. Hekrick was accustomed to watch
in company with others on the anniversaries of the August and November showers, and some-
times on other nights. He classified the paths carefully according to the quarter of the
heavens in which they originated, sometimes dividing the heavens into the N., E., S., and W.
quadrants, at other times into N.E., S.E., S.W., and N.W. quadrants. His results, as well as
those of others observing in the same manner, are published in the volumes of the American
Journal of Science since 1837. Rejecting all the observations when the heavens were not
divided into four parts, and collecting the remainder, we have of 6,598 observed paths —

800 in N. 733 in N.E.

965 in E. 852 in S.E.

847 in S. 833 in S.W.

889 in W. 679 in N.W.

These numbers imply a small predominance in the southeast. Since the average zenith
distance of the middle points of paths is 48°.3, the above numbers give as a centre of gravity,
or centre of distribution, a point about 2° from the zenith, in the direction S. 28° E. Mr.
Herrick classified them according to the place from which they proceeded. This makes the
centre of distribution a little nearer the zenith, and perhaps more to the east, than it would
have been if fie had classified them according to their middle points.

Mr. Coulvier-Gravier has given in his Reclierches sur les Etoiles Filantes some deductions
from 2,309 paths observed by him. A table given on page 184 implies that a point about 5°
from the zenith, and very nearly northeast, is the centre of distribution. This is farther from
the zenith than the point before given. The observations are of one person, and are of course
affected by his habits of watching. Combining both results we have the centre a little south
of east of the zenith, and 1°.6 distant. We may safely regard these deviations from the
zenith as errors of observation, and consider the relative frequency of occurrence of meteor-
paths in different parts of the visible heavens as a function of zenith distance only.

DISTRIBUTION OF METEOR-PATHS AS TO APPARENT ALTITUDES.

We have seen that the relative frequency of meteor-paths in different parts of the visible
heavens is a function of zenith distance only. The nature of that function cannot be deter-
mined a priori. But that there is a very rapid diminution of brilliancy as we approach the
horizon is thus shown.

Let m and m1 in the foregoing figure be the places of two meteor-paths of equal intrinsic
brightness, and equal altitude, one seen in the zenith from 0, and the other at a distance 6
from the zenith. The one at in1 will appear less bright at 0 than that at m, both because it
is farther from 0, and because its light has to traverse obliquely the stratum of air and mists
which is near O and much below the region of shooting stars.*" Since Om1 cos 6 = O/;;, the
diminution of light from distance is expressed by the factor cos2 0.
(201)

ON SHOOTING STARS.

The relative intensity of a ray of light at the upper surface of the atmosphere, and at
the earth's surface, is expressed by the formula (Beer, Photometrische Calcul.)

log r - - 8o7?

where I is the intensity of the ray on entering the atmosphere, I1 its intensity at the earth's
surface, and A a constant to be determined by observation. Bouguer gives 0.8146 for the
value of A, Lambert 0.59, Seidbl 0.78, and Schlagintweit 0.587. The ray is here supposed
to come from a distant source. As*the absorption is almost all in the region below the lowest
shooting stars, the same formula may be used by allowing for the diminution of intensity due
to distance of the source. This gives us

, I1 A^

8 1 cos2 0 ~ cos 0.

Taking the mean of the two smaller values assigned to A, that is 0.5885, and the approxi-
mate mean of the two larger values, or 0.8, and computing with them the relative brilliancy
of a meteor-path at zenith distances of 5°, 15°, 25°, &c, considering the brilliancy of those in
the zenith as unit}-, we have the following table:

TABLE I. — Relative brilliancy of shooting stars at different zenith ilistuiiccs.

Zenith

RELATIVE BRILLIANCY.

distance.

A = 0.8

A = 0. 5885

5°
15°
25°
35°
45°
55°
65°
75°
85°

0. 9884
0. 9070
0. 7502
0. 5624
0. 3590
0. 1774
0. 0599
0. 00GG
0. 0000017

0. 99013
0.9137
0. 7729
0. 5892
0.3918
0.2124
0. 0799
0. 0124
■ 0.000016

The numbers in these columns express the relative intensity of the light from flights of
equal inherent brilliancy. The rapid diminution of the light is remarkable, being much
greater than that of the light of the fixed stars. The curvature of the earth is neglected in
the formula, but this affects seriously only the numbers in last line or two of the table.

W-e cannot hence conclude the relative numbers of shooting stars seen at different
altitudes. The brilliancy of paths seen at a zenith distance of 55° is about one-fifth, or one-
sixth, of that which they would have if seen in the zenith. But it does not hence necessarily
follow that, looking at that zenith distance, we can see only one-fifth, or one-sixth, of the paths
3S (295)

b ON SHOOTING STARS.

visible to observers under them. The proportion rendered invisible depends also upon the
relative numbers of shooting stars of different magnitudes. Thus as an extreme case suppose
all were of equal brilliancy, and at an equal height above the earth. Above a certain
almacantaral circle we should see them all, while below that circle we should see none.

The law of distribution of the paths in apparent altitude might be obtained directly by
observations arranged for that purpose. But such observations would have to be continued
for a considerable time, and would involve great labor. Another method has, therefore, been
adopted for obtaining the approximate law of distribution, by using materials collected for
other purposes.

If we should compute or measure the zenith distances of a large number of paths seen by
one observer we should find them affected by his habits of watching. Thus one who looked
habitually to the zenith would see only those near that point, while one looking low down
would see few near the zenith. But combining the observations of a large number of persons,
we might hope that many of these individual habitudes would counteract each other, and that
the aggregate results would be affected only by common errors. I have therefore taken for this
purpose various sets of observations made by about forty different persons. Some are given
in the Astronomische Nachrichten, some in Quetelet's Correspondence Math, et Phys, some in Heis'
Wochenschrift, and some, not yet published, were made in this country in August and
November last. For a part, the distances of the middle points of the several paths from the
zenith for the time were computed. For the remainder, the place of the zenith was in each
case computed, and the distance from it to the middle of the path was carefully measured on
a good sixteen-inch globe. The number of paths thus computed, or measured, was 1,393. Of
these, 30 were within 10° of the zenith, 60 were between 10° and 20° from the zenith, 142
between 20° and 30°, &c, as in the second column of the following table:

Table II. — Illustrating the distribution of meteor-paths over the shy.

Zenith distance.

•

No. of meteors.

Area of sky.

No.
Area.

See3 6.

No.

Area sec3 0.

o o
0— 10

30

.01519

1975

1.012

1951

10 — 20

60

.04512

1330

1.110

1198

20 — 30

142

. 073GC

1928

1.343

1436

30 — 40

197

. 09999

1970

1.819

1083

10 — 50

274

. 12325

2223

2.828

786

50 — 60

304

.14279

2129

5. 299

402

00 — 70

245

. 15798

1551

13.248

117

70 — 80

110

. 1C837

053

57. 678

11

80 — 90

31

. 173C5

178

1510.474

0

(29n)

ON SHOOTING STARS. 7

If the area of the visible heavens is unity, the numbers in the third column give the
areas of the corresponding zones. The numbers of paths divided by the arms give quotients
proportional to the numbers of stars at different altitudes for any unit of surface. These form
the fourth column. The)' increase slowly to about 45°, and then rapidly diminish to the
horizon.

The number of paths along an oblique line OA, (figure 2,) is greater than that along a
perpendicular line OZ. They must be very nearly as the cube of the length of the line, or,
disregarding the curvature of the earth, as sec3. 0:1. In the fifth column are given the cubes
of the secants of 5°, 15°, 25°, &c, these angles being the mean zenith distances for the
several zones. In the sixth column are the quotients arising from dividing the numbers in
the fourth column by those in the fifth.

These numbers would be nearly constant if all the shooting stars in each direction were
visible. Their rapid diminution as 0 increases corresponds very strikingly with the diminu-
tion of light as shown in the previous table. This correspondence may be better shown by
placing the numbers together in the same table, as below. In the first and second columns
marked I and Iu are the numbers for the intensity of the light at different zenith distances.

No.

5— u, from table II. Dividing now n by I

Area sec . 0 ° J

The next column, headed n, is the value of

and Ij, we have the remaining columns. As the curvature of the earth is not taken into
account, the last line is of no importance:

Table III. — Comparison of intensity of light of shooting stirs with the proportion visible, at different altitudes.

I

I.

n

n-M

n-I,

.9884

.9906

1951

1974

1970

.9070

.9137

1198

1321

1311

.7502

. 7729

1436

1899

1.-58

. 5024

. 5892

1083

1926

1838

.3590

.3918

786

2190

2006

.1774

.2124

402

2266

1893

.0599

.0799

117

1953

1464

.0066

.0124

11

1667

887

Since the numbers in the last two columns are tolerably uniform, it appears that the
ratio of the shooting stars visible at different altitudes is very nearly as the intensity of their
light. Near the zenith the area of observation and the number of shooting stars actually seen
are so small that the law is less evident. But whether we consider the values of n, or n — I,
or n -f- Ij, or the numbers in the fourth column of the preceding table, it will be probably
admitted that 1800 is not far from the value to which n approaches as 0 becomes zero. The

(297)

8 ON SHOOTING STARS.

product 1S00 X sec3. 5° X .01519=27.67 would then give the number of shooting stars, out
of 1393, that should be seen within 10° of the zenith. This is equivalent to one in 50.35.
That is, not quite one in fifty of all the shooting stars seen at a place should have the middle points
of their apparent paths ivithin 10° of the zenith.

NUMBER OF SHOOTING STARS THAT COME INTO THE ATMOSPHERE EVERY DAY.

Shooting stars are seen in all countries, and any differences of number for different
countries thus far detected may be easily explained by the personal equations of observers, o1
by differences in the clearness of the atmosphere. It will be assumed that for a given consid-
erable period of time the meteors are equally abundant over all parts of the earth's surface.

Their frequency at different altitudes from the earth's surface, however, varies. If we
suppose px to be the number of the middle points of visible paths that fall in any given period
of time into a cubic unit of the space of the region of meteor-paths, we should have f>1 a func-
tion of the altitude above the earth's surface. Let x represent the altitude, and R the earth's
radius. Suppose now an inverted cone whose vertex is at the eye of the observer, whose axis
is a vertical line, and whose semi-vertical angle is 10°. In general, shooting stars which have
the middle points of their paths within this cone will have the middle points of their apparent
paths within 10° of the zenith.* The number in this cone in the given time will be expressed
very nearly by the formula,

' />, tau2 10° x2 dx,

£

where a and b are the values of x for the lower and upper surfaces of the region of meteor-
paths.

On the other hand, the total number of shooting stars in the given period over the whole
earth will be equal to

The whole number visible at one place is 50.35 times the number seen within 10° of the
zenith, and therefore 50.35 times the number within the above-described cone. Hence if mis
the number in a given period visible in one place, and N the number that would be visible (except
for daylight, clouds, moon, &c.,) through the whole earth in the same period, we should have,

J' 4 - !>x (It + a;)2 dx

I K pi tan 10° x dx

or since

4

50.35 tan2 10" = 2,5°5'

we have

i / /'i •l'2 <%x + 211 J pi x dx + R2 I ,"i dx f
I == 2.555 m •{ - ,.i, (■

N:

J />i X2 dx !

"The average apparent distance of the true centres of the meteor-paths from the centres of the apparent paths is about 1U'
oi aie. Tin- error resulting from the above supposition is therefore exceedingly small.

(298)

ON SHOOTING STARS. V

Now ,o, is a function of x, and assuming as heretofore that the observed altitudes are fair
examples of the real altitudes, we shall have f'1=J>p where k is a constant depending for its
numerical value on the period of time assumed, the unit of space assumed, and the abundance
of meteors during the given period. As we have assumed an equable distribution over the
earth's surface, this constant may be removed outside the integral sign. Again, we may, with-
out great error, use finite summation for integration-, and drop the common factors k and dx.
The equation then becomes,

2 rx2 + 2R 2'" px + It2 2
N = 2.555 m

I 2 (^

Iii this summation x is to be taken successively J (30 + GO), }, (GO -f- 90), &c, that is, 45, 75,
105, 135, and 165 kilometres, and p is 111, 243, 277, 10G, and 57. Hence

2 p = 797,

a

2 px = 76155, and

2 /oai2 = 8135325.

The mean value of R is G370 kilometres, and therefore

N = 10460 m;
that is, the number over the whole earth is to be considered as 1 0460 times the number visible at one
•place.

To obtain this result it was assumed that the shooting stars were uniformly distributed
over the earth's surface, and that the conditions of visibility were uniform. If, however, we
regard the actual instead of the theoretical case, we find that the numbers vary through the
hours of the night. Hence for a fraction of a day, at least, the distribution is not uniform.
The rapid diminution towards the horizon already shown indicates the influence of mists, &c,
in absorbing the light of these bodies. But for this, more would be seen within 10° of the
horizon than in the whole of the rest of the heavens; whereas, of 1393 only 31 were seen in
this part of the sky. These mists, of course, vary in different climates. Hence the numbers
visible in different places may reasonably be expected to differ. Let, however, a locality have
an atmosphere of mean purity, let it in other respects be one of medium character with
respect to the number of visible meteor-paths, and let n be the mean hourly number of shoot-
ing stars seen in a clear sky at that place, then we may consider that the whole number that
under clear skies could be seen over the whole earth in one hour would be 10460ra.

The value of n is of course to be found by observation. It varies for different hours of
the night, but may be found either by counting the numbers that appear throughout the
night, or by counting at or near midnight.

Mr. E. Bouvard, in the year from October, 1840, to October, 1S41, observed at Paris on

(299)

10 ON SHOOTING STARS.

every clear, moonless night.* He always watched between 11 and 1' o'clock. During 71
hours aud 22 minutes he saw 572 shooting stars. Allowing one-fourth of a minute (the period
estimated by him) for recording each path, and we have an average of 8 meteors per hour.
By what factor we must multiply the number seen by one observer to obtain the whole number
visible at the place, we have no observations, that I know of, to determine. It is probable
that this multiplier is as large as four, and that 30 is not too large for the mean value of n.
This would give the average number of meteors that traverse the atmosphere daily, and that
are large enough to be visible to the naked eye if the sun, moon, and clouds would permit,
equal to 30x21x10400, or more than seven and a half millions.

I shall now assume that the phenomenon called a shooting, or falling star is caused by a
small body, (probably a solid,) which was originally moving in its own orbit in the solar
system, or in space; that this body coming into the atmosphere of the earth elicits light by the
loss of velocity, and is usually itself dissipated before reaching the earth's surface. The term
meteoroid will be used to denote such a body before it enters the earth's atmosphere.

NUMBER OF METEOROIDS IN THE SPACE WHICH THE EARTH TRAVERSES.

Suppose many small bodies to be distributed through an indefinite space, so that there shall

be n bodies in a cubic unit. Suppose that these bodies have all an uniform velocity of v units

per second in the same direction. Suppose a large sphere t whose radius is R, and which is

without attraction, to be at rest in this space. The sphere intercepts in each second as many

small bodies as are contained in a right cylinder, whose length is v, and whose radius is R,

that is, - n R3 v bodies.

Suppose now that the sphere attracts the small bodies. Let

the hyberbolic arc MB, figure 3, represent the orbit of one of

these bodies which just grazes the surface of the sphere at B.

Let MA be its asymptote, and EA the perpendicular on the

asymptote from the centre of the sphere, then will the large

body intercept all the small bodies in a cylinder whose radius is EA. But if v is the

velocity of the small bodies at a great distance from E, and ux is the velocity at B,

then will EBx»! = EAxy by the law of conservation of areas. The number of bodies

v 2
intercepted by the sphere is then evidently tt n^xEA2, that is, ttjivR2 -4-. If now va be the

velocity which a body would acquire by falling from infinity to the surface of the sphere when
acted on only by the attraction of the sphere, then will v02 -f- v* = vf, by the law of conserva-
tion of force. Hence the sphere will meet in each second with iz nv R* | 1 -| — ^ j bodies.

If the sphere has an uniform motion in any direction, the same reasoning and formulas
apply by making v and vl represent velocities relative to the centre of the sphere.

This reasoning may be extended to several systems of small bodies. Let there be distrib-
uted uniformly through the indefinite space in each unit it bodies of one system, n" bodies of

*Comptes Iieiulus, xiii, 1039.
(300)

ON SHOOTING STARS. 11

a second system, n!" bodies of a third system, and so forth, and let the bodies of the first
system move in one direction with a velocity v' relative to the sphere; let the bodies of the
second system move in another direction with a relative velocity v", &c, , then will the
number of bodies which the sphere intercepts in each second be equaj to

*RV <-'(l + ^ + ,Kn"c"(l +jj) + 7rRW'(l + ^) + &c.

Call this N1, and we may write,

where the summation indicated by I extends to all the systems of bodies. If V is the mean
value of v', v", v'", etc., for all the bodies, and n is sum of n', n", «"', &c, then fn's'^nV,
The remaining term is the sum of fractions whose denominators vary. Wo may, however,
write

^4=^(1 + ^

when 6 is a number, and is evidently positive; for the mean value of fractions having the
same numerator is greater than the numerator divided by the mean value of the denominators.
Moreover, if the values of v', v",v'", &c, do not vary widely, 6 will be small. Making these
substitutions, we have,

N1 = TJL^L {V2 + v* + 0 r02).

This formula expresses the number of meteoroids which the earth intercepts, by considering
the earth with its atmosphere as the supposed sphere, R its radius measured to the upper
part of the region of meteor-paths, V the mean relative velocity of the meteoroids when they
come into the earth's attraction, vQ the velocity acquired by a body falling from infinity to a
distance R from the centre of the earth, N1 the average number of meteoroids coming into the
atmosphere in a second, and n the mean number in a cubic unit of the space the earth is
traversing in the given period.

If m be the average number visible at one place in a unit of time, we have found that

N= 10460m. The volume of a sphere whose radius is R is f ^R3. Let M be the number of

meteoroids in a space equal to the volume of such a sphere; then M= | ;rnR3, and

r> T\r
10460™ = -.— (V2 + r02 + OvJ),

or

„ 4 10460 wiRV
M:

V2 + r02 + 0 v02'

where m denotes the average number (or fraction of a number) seen in one place per second.
If the hourly number is, as before assumed, 30, then m is ^27, and

M= 116.2 (^ ?^ Y

(301)

12 ON SHOOTING STARS.

THE MEAN LENGTH OF APPARENT PATHS.

To obtain the mean length of the apparent paths I have computed, or measured, the

lengths assigned in 213 European and 803 American observations. The aggregate sum of the

lengths is 12804°, which g*ives an average of 12°. 6. As the observations were made by a large

number of persons, this result will be nearly free from the individual peculiarities of observers.

NUMBERS OF TELESCOPIC SHOOTING STARS.

Shooting stars are of all degrees of brilliancy, and there are many very faint ones.
Almost every hour that a man watches he sees, or thinks he sees, flights which are yet so
faint as to leave him in doubt whether they are shooting stars, or only illusions. We may
therefore reasonably conclude that large numbers of shooling stars are invisible to the naked
eye which yet are visible through the telescope.

This conclusion is verified by observation. In 1854 Messrs. Pape and Winnecke ob-
served* at Gottingen for 32 hours, on nights between the 24th of July and the 3d of August.
Pape saw with the naked eye 312 shooting stars, and Wixnecke saw 45 during the same time
through a comet-seeker. The diameter of the field of view is not given, but in observations
made at the same time diameters of 53' and 36', with powers of 30 and GO, were used.

If the apparent length of a meteor-path is I, and the breadth of the field of view of a
telescope is b, and if the axis of the telescope is directed towards any part of the area whose
length is I and breadth is b, the meteor-path would cross the field of view. If all paths were
of the same length b, and were equally distributed over the whole heavens, then would a
telescope command a portion of the heavens expressed by the fraction lb -4- surface of sky.
Meteor-paths diminish somewhat in length as they diminish in brightness. On the other
hand, a path may be longer when viewed by aid of the telescope than when seen by the naked
eye. Hence for the approximate mean value of I may be taken 1 2°. 6, the mean value of the
length of the apparent meteor-paths visible to the naked eye. Let b be 53', and the ratio of
those actually seen through one telescope to all those which are bright enough to be visible

in it is

180
53 X 12.6:360 X 60 X — , or 1:1853.

I have selected the larger diameter of the telescope, that the ratio may be too small rather
than too large. For the same reason I prefer to reject in the divisor that part of the surface
of the sky which is within 15° of the horizon. This makes the ratio 1:1371.

We have" seen that according to Bouvard's observations one person should see an average
of 8 shooting stars per hour. Hence if -j*^- is taken as the ratio of the number of those seen
in a comet-seeker to that of those seen by one person with the naked eye, there should be in
each hour 8x3\VX 1 371, or 1582 shooting stars hourly that might be visible through a comet-
seeker if the whole heavens could be watched. The ratio between those visible at one place

* Astiouotuiscbe Nachrichten, xxxix, 113.
(302)

ON SHOOTING STARS. 13

and those visible somewhere over the earth lias been found to be for common meteors
1-r-lO-itiO. If the same ratio applies to telescopic meteors, (a supposition to which exceptions
may, it is admitted, be reasonably taken,) we have for the whole number of meteoroids
coming- daily into the air at least 1582x24x10-460, or four hundred millions. There is,
moreover, no reason to doubt that a further increase of optical power would reveal still
larger numbers of these small bodies.

MEAN DISTANCE OF THE SHOOTING STARS.

Although an exact determination of the mean distance of the meteor-paths from an
observer is not easily made, yet some idea of the limits of its value may be obtained.

Suppose a small cone whose vertex is at the eye of the observer, whose axis is perpen-
dicular to the horizon, and whose semi-vertical angle is a. Let d be the mean distance from
the observer of the middle points falling within this cone, x the distance of an element of the
cone from the observer, and p the factor expressing the abundance of the meteor-paths in the
different elements; then by the same formula as for centre of gravity,

_t/a

x3 dx

" f\pa?

x2 dx

where a and b are the heights of the limits of the meteor region. Using summation for inte-
gration, and taking the values of/?, a, and b, before given, we have,

v- px2

fZ= -£ — 116.6 kilometres.

b

I px2

a

Consider now the paths along a line OA, figure 2, inclined to OZ by any angle. Many of
those visible at points directly underneath them are invisible at 0, because of distance. It
seems reasonable that a larger proportion of the more distant than of the nearer ones should
disappear. If, then, it be supposed that the number of those which disappear from different
points along the line is always proportional to the actual number at each point, and the mean
distance be computed on this hypothesis, we shall have a result greater than the mean distance
of the paths actually seen.

If the angle AOZ is 0, the mean distance of the paths in a small cone whose axis is OA is

evidently d sec 6, on the above supposition. Representing by ip the numbers in the second

column of table II, we have for an approximate expression for the superior limit of the mean

distance of all visible shooting stars from an observer,

d~<paec 0 _„„ , .,

% = 232 kilometres,

where the summation extends to the several values of <p, and d has successively the values

5°, 15°, 25°, &c. If the curvature of the earth had been considered, this limit would havo

39 (303)

14 ON SHOOTING STARS.

been smaller. Hence the mean distance of shooting stars from an observer is less than 232
kilometres, or 144 miles.

Again, if tlie mean distance be computed by supposing the disappearing paths to bo
always those which are farthest from p, the result will evidently be smaller than the truth.
The approximate number of paths that disappear may be thus found. If none disappeared
the numbers in the last column of table II would be constant, and equal to 1800, the earth's
curvature being neglected. The quotients of 1800 divided by the numbers in that column
may be represented by q, and then q will express the proportion of all the paths along OA
that are visible at 0. We then should have the equation,

l- a2 sec3 Op x* dx=: q I ~ a2 see3 0 p x2 dx,

where oo1 represents the altitude of the farthest visible paths. Using summation and observing

that 2' pa? = 8135325, we have

« a

8135325 q = Si /<.<-.

a

In this summation so many values of p x2 as are contained entirely in 8135325^ are to be
taken, and with the next value of x such a value of p is to be found as will complete the
equation. Let pa stand for the values of p thus used, including the last. Then if d is the
mean distance from O of the visible paths in the cone, we shall have

X

sec 0-Vo a>3
»= H

2 l o -x2

■" Po ■*'

a

Computing 3 when 0 is 5°, 15°, 25°, &c. , and the mean value of 8 for the whole heavens will
be equal to the expression,

-~ .' , or 140.7 kilometres:

- <P

that is, the mean distance of all shooting stars from an observer (supposing the data on which
the computations are based to be correct) is greater than 140 kilometres, or 87 miles. This
limit, however, cannot be very positively asserted, since the errors from various sources,
especially those from using summation instead of integration, may in this case be quite con-
siderable.

MEAN FORESHORTENING OF THE METEOR-PATHS BY PERSPECTIVE.

To determine the effect of perspective in shortening the apparent paths of meteors, we
need the following geometrical proposition:

If a sphere whoso radius is a bo supposed to have an indefinite number of diameters, and
the extremities of these diameters are uniformly distributed over the surface of the sphere,
and if O be a point without the sphere whose distance from the centre of the S23here is b, then

will the mean value of the angles at O subtended by all the diameters be equal to „. j.
(304)

ON SHOOTING STARS. 15

For let C be the centre of the sphere, AB a diameter, and 0 the
angle ACO. The mean value of AOB will be twice that of AOC. The

tangent of AOC is -. — -,. Let the whole number of the radii of

° b—a cos o

s

the sphere be n, then the number which will make the angle ACO

greater than 0, and less than 0 + d0, is 2 n n sin Odd divided by 4 -, or \ n sin 0 d 0. Multiply
the value of AOC for each value of 0 by the number of radii for which ACO is between 0 and
0-\-dO, and divide the sum of the products by the whole number of radii, or n, and we have
the mean value of AOC. This is evidently,

TV Q/

The value of this expression, when b is greater than a, is j. j. Hence the mean value of

— °n.
AOB is T. -=-, which was to be proved. •

4 b *

The mean effect of foreshortening by perspective may therefore be thus expressed. Let
the diameter of the sphere be bent into the arc of a circle whose radius is b, then the angle it
thus measures is to the mean value of AOB as a square to its inscribed circle.

This result is independent of the ratio of a to b, except that it must be less than unity.
Hence the proposition applies to any number of equal, or unequal lines viewed by an observer,
provided only that the directions of the lines be properly distributed.

If shooting stars came directly downward we should see all that were coming towards us,
since they would be near the zenith. We should see few, if any, whose paths are nearly at
right angles to the line of vision, for those woidd be down near the horizon, and concealed by
mists and smoke. It seems probable that in this case the mean effect of foreshortening would
be a little greater than for the diameters of a sphere.

Again, if the paths were all parallel to the horizon we should see an undue number moving
nearly at right angles to the line of vision ; for those which are diminished most by fore-
shortening are near the horizon, and hence mainly hidden.

But the directions of the meteor-paths are from all parts of the heavens, from horizon to
zenith. It seems reasonable to conclude that the mean effect of foreshortening is intermediate
between that for paths coming from points in the horizon and that for paths coming from the
zenith. Hence it ought to be nearly represented by that of the diameters of the sphere.

This conclusion may be thus expressed. The mean length of the observed paths of
shooting stars is found to be 12°. G. If every path was turned about its middle point, and
bent into an arc of a circle of which the observer's eye was the centre, the mean apparent
length would be increased in the ratio of a square to its inscribed circle; that is; it would bo

equal to ^Xl2°.G, or about 1G°.04.

(305)

16 ON SHOOTING STAES.

AVERAGE LENGTH OF THE VISIBLE PART OF METEOR-PATHS.
If I be the length of an arc, and b the radius, the angle subtended is measured by

j. If we consider any number n of arcs, the average of the angles subtended is - l'T. If b is
0 n o

constant, or is proportional to I, the value of this expression would be equal to the mean

value of I divided by the mean value of b. Applying this to the meteor-paths, the higher,

and hence more distant paths, are probably longer than the lower and nearer ones. The value

of b does uot moreover become very small. Hence we may consider - 1 j- as approximately f-,

where 76 is the mean length and b0 is the mean distance. We have, then, approximately,

l0 10.04 - „ „„

Since the mean of fractions having the same numerator is greater than the numerator
divided by the mean of the denominators, we may, however, consider l„ as less than 0.286.
The difference from this cause is probaly less than one-tenth of the whole amount, as will be
seen by summing the values of j instead of those of b.

Inasmuch as the value of b0 is found to be between 140 and 232 kilometres, we have 1°
comprised between 39 and 65 kilometres, or between 24 and 40 statute miles, or between
21 and 34 geographical miles. The smaller number is without doubt much nearer the truth
than the other.

THE MEAN DURATION OF FLIGHT AND THE MEAN VELOCITY OF THE SHOOTING STAES.

Mr. Wartmann, of Geneva, gives for the aggregate duration of 368 flights observed
during one night in August, 1838, by six observers, 180a.33, which is 0S.49 for each flight.
The mean of 499 estimates made in August and November last is 0S.418. The mean of the
whole 867 estimates is 0s. 45. If the durations given by those observers who are accustomed
to estimate small intervals of time had alone been taken, the result would have been very
nearly the same. Almost all observers agree that the* mean duration of flight is not much,
if any, greater than half a second.*

A mean duration of half a second, and a mean length of path between 39 and 65 kilo-
metres, seem to imply a mean velocity between 78 and 130 kilometres per second. The smallest
of these velocities (more than 48 miles) is twice and a half the velocity of the earth in its
orbit about the sun. This cannot consist with the supposition that the meteoroids all move
in closed orbits about the sun. Hence we must accept as highly probable, one, or more, of
these three conclusions, viz:

1st. That the length of track is too long, which seems to involve that the altitudes, on
which all the computations are based, are on the whole too large. All the altitudes greater
than 150 kilometres might, I think, have been safely rejected.

*A shortening of the duration of flight toward morning is indicated by theory, and is confirmed by observation.
(300)

ON SHOOTING STARS. 17

2d. That the estimates of timo are in general too small. This is quite probable. Tho
mind may not make proper allowance for the time that elapses after tho shooting star is seen
before the eye is fairly directed to the place of the path.

3d. That many of the meteoroids move in hyperbolic orbits about the sun. Whatever
may be said of the sporadic meteors, this cannot be true of the members of the August and
November groups.

Tlie sporadic shooting stars cannot all belong to one narroio ring which has a diameter nearly
equal to that of the earth's orbit.

Such a ring would have to be but little inclined to the ecliptic in order to furnish meteors
throughout the year. The bodies could not have a retrograde motion, else shooting stars
would be seen only in the morning hours, and would moreover have a very distinctly marked
radiant.

They cannot have a direct motion; for their velocity must then be nearly equal to that
of the earth, and yet a little less than it, in order that more be seen in the morning than
in the evening. Their relative velocity on entering the atmosphere would be not much
greater than that of a body falling to the earth from an infinite distance, — that is, not much
greater than 11 kilometres per second. So small a msan velocity is entirely inconsistent both
with direct observation and with the conclusions given above, on page 1G.

We might, it is true, suppose the ring to have a considerable breadth, in which case the
meteors would have a larger mean relative velocity. But if the breadth be such as to furnish
a velocity at all consistent with observation, we have no longer a ring lying between the
orbits of Mars and Venus, but a disk extending much beyond these planets.

A large portion of the meteoroids must, when they meet the earth, have absolute velocities
g rater than the earth' s velocity in its orbit; or else — ■

The sporadic meteors have a series of radiants at some distance from the ecliptic, and hence
come from a series of rings considerably inclined to the earth's orbit;

For shooting stars cannot have relative motions upwards from the earth when they enter
the atmosphere. If, then, the absolute velocities of the meteoroids were all less than those of
the earth, their relative motions (disregarding the earth's attractions) would all be from
points of the heavens less than 90° from that point to which the earth is moving. To an
observer early in the evening but a small part of this hemisphere is above the horizon, while
in the morning almost all of the hemisphere is visible. Hence, either the number of those
seen in the morning should be very much greater than that of those seen in the evening, or else
there should be a radiant in that part of the heavens which is above the horizon in the earlier
hours of the night. If the earth's attraction be considered, the numbers seen in the evening
would be somewhat increased, as also the numbers seen in the morning. The disproportion,
therefore, between the morning and evening hours would be slightly diminished. But even
with this allowance the increase through the night would be greater than the observed
increase, unless one of the two suppositions above given is true.

To determine the amount of this increase there is great deficiency of reliable data. Mr.

(307)

18 ON SHOOTING STARS.

Herrick estimated that about three times as many were to be seen in the morning as in the
evening. Mr. Coulvier-Gravier gives the following table"" for the moan hourly numbers at
different hours of the night.

5" to C"— 7.2 12" to 1"— 10.7

6 to 7— G.5 • 1 to 2—13.1

7 to 8—7.0 2 to 3—16.8

8 to 9—6.3 3 to 4—15.6

9 to 10—7.9 4 to 5—13.8

10 to 11—8.0 '" 5 to 6—13.7

11 to 12—9.5 0 to 7—13.0

*

As the observations from which these numbers have been obtained have never been published,
we cannot say what confidence is to be given to them.

DISTRIBUTION OF THE ORBITS OF THE METEOROIDS IN THE SOLAR SYSTEM.

There are at least three suppositions respecting the distribution of the orbits of the
meteoroids in the solar system which are naturally suggested. Either of them may be con-
sidered as plausible, and one does not necessarily exclude another.

1st. They may form a number of rings like the August group, cutting or passing near
the earth's orbit at many points along its circuit. The sporadic shooting stars may be out-
lying members of such rings.

2d. They may form a disk in or near the plane of the orbits of the planets.

3d. They may be distributed at random, like the orbits of comets.

According to the first of these suppositions there should be a succession of radiants cor-
responding to the several rings. Professor Heis and R. P. Grey, esq., believe that they
have detected such a series. Continued observation directed to this end will probably decide
whether the meteoroids belong entirely, or mostly, to rings.

According to the second supposition the apparent paths of the sporadic meteors should,
if produced in the direction of the motion, all cut the ecliptic below the horizon. For the
absolute motion of the meteoroid and the earth's motion being both in or near the ecliptic,
the resultant relative motion should be from some point in or near the ecliptic. That point
should be above the horizon, since the body must move downward to enter the atmosphere.
As the apparent path produced backward cuts this point, it will, if produced forward, cut the
ecliptic below the horizon, t We have thus a simple means of determining whether the
sporadic meteors come exclusively, or even largely, from a disk or lenticular-shaped group
like that which the Zodiacal Light is often supposed to indicate.

If the third supposition is true, the mean velocity of the meteors is a function of the
numbers of shooting stars in the different hours of the night. For if the velocity is very
small few would be seen in the evening, while if it is very large there should be nearly as
many in the evening as in the morning.

Recherehes sur les Meteores, p. 2 10.

J The earth's attraction tends to turn the direction of the path downward, or carry the point from which the meteor comes
away from the ecliptic towards the zenith. This will sometimes', though rarely, affect the above rule.

ON SnOOTING STARS.

19

^3

By the supposition the absolute motions would evidently be directed from all parts of the
tial sphere in equal numbers. Consider first all those bodies that have a given absolute
velocity v' not less than the earth's velocity v. Let 0, figure 5, be the point
to which the earth is moving, and 00' a lune of the celestial sphere, thru a .<
meteor whose absolute motion is from some point of the area abed will have its
relative motion from an area ABCD nearer to 0. Let OA=OB = #, and v"
represent the meteor's relative velocity. Let n be the number of meteors
coming from all parts of the celestial sphere, v! the number whose relative
motions arc from OAB, and d <p be the angle 0, then we have,

M/=^(1_cos0«).

But by the law of composition of motion we also have,

or

and
Hence,

and

v'2 = v2+v"2—2 v v" cos 0,

v" = v cos 0 ± (vl - v2 sin2 0) ,

v' cos Oa = »" cos 0— v.

1 — cos Oa = l+^-siu20=Fcos ° 0 — ^siu2 0) ,

v VU

vth" ( v . „ , i>2 . , ,* 1

»'= — — < 1+- : sm20±cos0(l sam20) y

4 - ( v' V )

Since v' is greater than v, or equal to it, the sign of the radical in the value of v" does not
change.

Let now Z be the zenith of an observer, 0 be the point to which the
earth is moving, ACA' be the horizon, OZ be «, AOC be <p, and AOB be
dtp. The number of meteors whose relative motions are from the two
vertically opposite triangles OAB and OA'B', is obtained by adding to I'l
the value of n' given above its value when 0 is made tc — 0, which gives

—J- (1 -4- — sin20). Those visible by any observer must come from points

above the horizon. Let it be assumed that the number of those that are actually visible is
proportional to the number of those coming from the visible hemisphere. If N0 represents
this latter number, then

But tan #= cos a sec <p, since ACO is a right angle, and hence

An

Siu2 0 —

cos' a set- a
I + cos2 a sue2 v

Substituting and integrating we have,

"KT " It . " \

N0 = - (1-+-. cos a).

(309)

20

ON SHOOTING STARS.

To obtain this equation v' has been supposed equal to or greater than v. If v' is less
than v there is a maximum value of d, determined by the equation v sin 0 = v', and the radical
in the'value of v" changes sign. The same expression for N0 would, however, be found in this
case by proceeding as follows. The number of shooting stars whose relative motion is from
the triangle OAB, figure 6, would be equal to the whole number whose absolute motion is
from the lune, diminished by those meteors for which d exceeds a certain value OA. The

amount of this diminution is -j-^ multiplied by the difference of the two values of 1 — cos Oct

7 2

obtained by changing the sign of the radical — that is, by 7p-(l 72 sin2 0)%. Hence,

n r*' v2 *

N0 = »-5^/ (1— -ssin20) cosOdp,

where tan 0= cos a sec <p, and <p' is the value of <p when v sin d = v'. Substituting and inte-
grating, we have as before,

No = 5(l + -7COSfl).

Let I be the latitude of a place, h the hour angle counting from the time when the point
to which the earth is moving is on the meridian, and 8 the declination of that point; then

cos a — sin I sin 8 + cos I cos d cos //..
The mean value of 8 for the year is zero, and hence for the entire year we may use the
equation cos a= cos I cos h, and hence, approximately,

N0=-(H — 7 cos I cos A).
2 v'

If we compute according to this formula the value of N0 -r n for the several hours of the

night, for the latitude of New Haven, and that of Paris with the three values v' =v y/H, v' = v,

and v' — ty, we shall have the following table:

Table IV. — IIypollictiral distribution of the shooting stars through the hours of the night.

(310)

Hours of
the uight.

New Haven.

Talis.

8'=»l/2

v' = v

v'=fv

<v'v = v\/2

v' = v

v' = iv

h.
6

*
.875

.970

.765

.732

.829

.911

7

.862

.954

.756

.725

.818

.897

8

.825

.907

.730

.701

.785

.856

9

.705

.832

.687

.664

.732

.791

10

.688

. 735

.633

.616

.665

.706

11

.597

.622

.569

. 500

.585

.606

12

.500

.500

.500

.500

.500

. 500

1

.403

.378

.431

.440

.415

.394

2

.312

.265

.367

.384

.335

.294

3

. 235

.168

.313

.336

2^8

.209

4

. 175

.093

.270

.299

215

.144

5

.138

.046

.244

.275

182

. 103

6

.125

.030

. 235

.268

171

.089

ON SHOOTING STARS. 21

The velocities have been considered as uniform. But it is evident thai if si. me shooting
stars have larger and some smaller velocities, the hourly distribution ought to be approxi-
mately that correspond in-- the mean velocity. It has been assumed, moreover, that the
number seen is proportional to that of those coming from all parts of the visible heavens.
But if the number seen is proportional to the number that strike the upper surface of the
atmosphere within the circumference of a given circle of moderate dimensions, the centre of
the circle being in the zenith of the observer, then must the number coming from each
element of the visible heavens be multiplied by the cosine of the zenith distance of that
element. By this supposition the hourly nuuTbers would be increased in the morning and
diminished in the evening from those given in table IV. Neither of these .suppositions is
probably strictly correct.

It should be borne in mind, on the other hand, that the earth's attraction tends to make
the numbers more uniform through the night. There should also be less difference in the
hourly numbers during the last half of the year than in the first half, since the point to which
the earth is moving is then north of the equator.

If now we compare the numbers in table IV with Mr. Herrick's estimate, and with Mr.
Coulvier-Gravier's hourly numbers given above, a mean velocity of the shooting stars is
indicated as large as, or larger than, that of comets in parabolic orbits. The nature of the
data will nfB, however, allow this conclusion to be strongly urged. Yet that the mean
velocity is greater than that of the earth in its orbit seems almost certain.

NUMBER OF METEOEOIDS EST THE SPACE WHICH THE EARTH IS TRAVERSING.

We have found that, of the space through which the earth is travelling, a volume equal

to that of the earth (atmosphere included) contains a mean number of meteoroids expressed

by the equation,

RV

M= 116.2

V2+v*+0v6

In this equation Vis the mean relative velocity of the meteoroids. If the absolute
velocities were all uniform, and the points from which they come uniformly distributed over
the heavens, we should have evidently,

p* i _ ,_■"

V = A I (i!!+iiB-2s»' cos w) sin wdw — v + k — .

Jo . ■»

For v' we may use, as an approximation, the mean absolute velocity. If v' = v, then V = fi>.
If v' = Vi/2, then V=|». As the mean velocity of the meteoroids seems to be greater than
that of the earth, and more nearly equal to that of bodies moving in parabolic orbits, the
latter value will be used for V. Computing M on this supposition, neglecting the term 0 va\
we have its value more than 14,000. If we deduct for the volume occupied by the atmo-
sphere, we have more than 13,000 bodies in each volume of the size of the earth, each body
such as would furnish a shooting star visible under favorable circumstances to the naked eye.
40 (311)

22 ON SHOOTING STARS.

If telescopic meteors are considered, this number ought doubtless to be increased at least
forty-fold.

There seems to be little reason for supposing that the space near the earth's orbit is very
much more thickly strewn with these bodies than other parts of the solar system. That they
are gi-ouped according to some law is altogether probable. But a velocity different from that
of the earth implies, of necessity, that they are not grouped closely about the earth's orbit.

These bodies cannot be regarded as the fragments of former worlds; they are rather the
materials from which worlds are forming. If astronomy furnishes any measure of their total
mass, we may therefrom obtain some idea, rude though it be, of the mass of the individuals.

(312)

RIFLED (MJIS,

BY W. II. C. BARTLETT.

PAIST I.

STRAINS TO WHICH RIFLED GUNS ARE SUBJECTED.

The general introduction of the rifled gun into the military service has made an epoch in
the art of war. The great range, accuracy of fire, and increased penetrating power of the
missiles of these guns, have greatly expanded the dimensions of defensive works on land and
changed materially the construction and character of our military marine. Such important
results afford strong temptation to push the means by which they are obtained beyond the
limits of prudence, and instances of disaster have created the impression that, in some cases,
these limits have already been passed.

The rifled gun is not only subjected to the usual lateral strain of an ordinary smooth-bore,
but also to a strain in the direction of its length, and one of torsion around its axis; and doubts
have been expressed whether these strains, simultaneously applied and oft repeated, may not
prove an overmatch for the endurance of the material of which this kind of gun is made. Such
doubts are to be confirmed or dispelled only by numerical estimates of the strains, and the
purpose of the present paper is to construct, upon principle, a set of formulas by which these
estimates may be made. Many rifled guns have failed; but the same may be said of all guns,
smooth and rifled; and the question is, are these failures unavoidable in the rifle?

A good gun can only result from the principles of physics, rightly applied by the rules of
mechanics. Of course, such a gun may come from accident, but the chances are so adverse
as to make it highly improbable. Bad guns must ever fail. Good ones may and often do fail
from improper treatment. If the missile clog, explode in the bore, be not rammed home, or
the powder partake of the character of a fulminate in quickness, the best guns must yield.
The laws of matter are immutable. No gun can stand everything. And yet, the failure of a
good gun from causes which would break any gun, is as likely to destroy confidence in all guns
of the same kind as the failure of a bad one under legitimate tests, and just as likely to pro-
duce a prejudice as a well-founded conviction. It is, therefore, quite as important to know
how to treat guns as to know how to make them. The circumstances attending the failure of
a gun are rarely ever known, ami the verdict of those charged with the investigation of the
causes of failure is almost always tainted with uncertainty.

It ought to be too late for the question of gun failure to come up. The country should
possess, at this late day, an eflicient and safe system of artillery, with a body of officers snffi-
41 (313)

ON RIFLED GUNS.

ciently instructed in its principles and use to avoid the risk, much more the certainty, of
failure. We have no such system. Of the principal guns now in use, some have come from
individual enterprise at home, while others have been imported from abroad. These guns are
various in pattern, and require different modes of treatment, As a system, they are wanting
in that degree of uniformity, and consequently in that simplicity which comes from uniformity,
essential to efficient concert on the part of large bodies of men of various grades of intelli-
gence, that must act together in their use. In the transfer of a gunner from one station to
another, he should never be conscious that he has changed his piece, except in its character
of gun, howitzer, or mortar; otherwise, just that kind of disaster which has characterized some
of our artillery practice during the present war must be expected.

While the investigation hero proposed is intended to be general, and applicable to all
rifled guns, yet, as the object is numerical results, and as these results must vary with the
character of the twist, someone class of these guns must be taken as a type. Take those
constructed by Mr. P.areott.

The calibres of these guns vary from two and nine-tenths to' ten inches, and the weights
of the missiles range from ten to three hundred pounds. As before remarked, they, like all
rifled guns, are subjected to three strains. The first stretches in the direction of the circum-
ference, the second in the direction of the length, and the third twists around the axis. The
object is to find the second and third in terms of the first. The first being known from
experiment, the latter become known. The known shape and dimensions of the guns, and the
strength of the material of which they are made, complete the requisite data, and the applica-
tion of the formulas will be eas}\

LAW OF THE TWIST.

(1) — The twist is increasing, starting with nothing at or near the bottom of
the bore and reaching a maximum at the mouth, and determined in this wise,
viz: C A B D represents the development of so much of the cylindrical bore as is
G traversed by a single groove on a plane tangent along an element of the cylinder
which coincides with the groove where it begins at the bottom. A C is the
development of that part of the circumference, at the bottom, into which the
entire groove is projected; A N E is a quadrantal arc, described with C as a centre
and C A as a radius. The quadrant A N E is divided into any number of equal
parts. A B, which is the length of the groove in the direction of the axis of the
gun, is divided into the same number of equal parts. Lines are drawn through
the points of division on the quadrant, parallel to A B. and through those of A B
c p jl parallel to A C; where these lines meet, taken in their order from A, give points
in the developed groove. P M and G M are two of such lines, and M is a point on the curve
sought.

EQUATION OF THE DEVELOPED GROOVE.

">)-Draw the radius C N, and denote the angle A C N by f. Call the radius C A, r; take
(314)

ON RIFLED GUNS. O

the origin at A; AB as the axis y and AC as that of x; then will AG =y aud AP = se. Ami
because the arc AX and AG must, from Mi'' construction, bear to one another a constant ratio,
call this ratio m. and we hive

V

*' ■ ' mr.

0— £)■ w

xz=r — r cos y> .:= r I — cos

EQUATION OF A HELIX OF THE GROOVE.

(3) — Now wrap the developed surface around the cylinder of the bore; denote tho radius
of the latter by p. Conceive a plane through the axis of the gun to revolve about that line
and to start from a position in which it contains the element of the cylinder upon which the
groove starts at the bottom. Denote the variable angle which this plane makes with its
initial position by W; then will

x=p W.
and Eq. (1)

* ,.r=iYi-coB^) (2)

whence

(Pw\
1 1'

and denoting the length of the groove in the direction of the axis by I, and recollecting that
for y = I we have r == p W, we get,

l=mr. cos-" (1 — 1) =r J -. mr.

or

21
mr = —•

Denote by n the ratio of the circumference of the bore to that portion of the same into which
the entire helix is projected, then will

n
and these substituted in Eq. (2) give

P-¥~-P-\}~™Q*-j)}\ (3)

// = constant J

for the equations of a helix of the groove, with the origin on the axis of the piece; or

j<> — constant. j

(4)
P=t

(4) — Differentiating Eq. (3), dividing by dt, and making

dy

=V= velocity of the projectile,

(315)

4 ON RIFLED GUNS.

we have

dW jr2 TT . / , y\

Differentiating again, and dividing b}r (//, we find

>--0*9+&*0^

dl2 2n.lr ' ■"""" Va" lj^n.l"""\2"' I J dt2' ^G)

(5) — Dividing equation (5) by 2 -, and denoting the number of turns of the missile in a
unit of time by v, we find

At the mouth of the piece, y = l, and

" = ST/V <7)

(6) — Denoting the distance passed over by the projectile while turning once on its axis
by d, we have

7 V 2 n. I
*=.-_=-—. (S)

(7) — The passage of the missile from its place of rest to the mouth of the piece is a caso
of constrained motion, and the conditions of constraint are given by Eq. (4.)
Make the following notation, viz:

P = intensity of the force on back of the projectile in direction of axis.
M — mass of the projectile.

I = moment of inertia of the projectile with reference to axis of piece.
N z= normal pressure on edge of land.
/= Coefficient of friction.

6 = Angle of inclination of an element of the twist to axis of piece.
s= Any indefinite arc of the helix.
Then will

(P-M.^).^-I.^.^-/.N.,g=o. ) (A)

3 j — j). sin 0 3. '1'' -\- cos 0. 3 y; j

which latter substituted above gives

(P. - M. ?— f . -/. N cos o\ Sy — (l. '-— +f. N. p. sin o\ 3 W= 0.

From Eq. (4) we have

Mr+ [r- ^(l-cos(i ,.?))] ,, _■* ,. sin (i ,f). ^=0.

or, Eq. (4),

p- * r- £^. ,>. sin (i *. ^ Vy = o.

(5/1 = 0.
(316)

ON I51FI,KD GUNS.

Multiply the first by A, second by /.', and addiug to the equation above,

i.-F+/N./..?i,1o-;.,j.;f f

+ /l. 8 p \

whence,

.2

" /"

1=0.

P - M.-^| -/ N. cos 0 - 1. ^-j P. sin (4^- f)=0; (9)

/'. = 0; (II')

;.>=o (io)'

I.(^+f.'K.p.smO-Lp.==0-,

From Eqs. (9) and (10) we have

P - M. -^ -/ N. cos 0
A = __ ^ ;

t-t P. sin (i ,. f )

I.^+/N.^.8m0

/>

Equating these values, we get,

P-M.^-N.[/eoSH/,,5in^,iU(i,^)]-I.g^.-(l^)-0. (11)
Make

Wi+^-shi2(H) (12)

then will

d? W

L T^2" +/ N' ''■ 8iD °

N=ifl= ■ a

I'

T ,72 '/'•
I. -^^-. «

N= ^

/i (l-«./smC)
Substituting this in Eq. (11,) we find

Make

A1^

and the above becomes

y #vf£ (cos 0 + r- 8in °- £? sin 0 * ?)) t_ , , lY|=o

<^2 L /> tl-a./.Bin0) w.J V" '/J

/> (1-a./ sin tf) ».< \ '/

(317)

ON RIFLED GUNS.

dt2 dt2

d2 ¥

Substituting the value of — -g-, as given by Eq. (G), we find

,2 P - A1. 1. -^- cos (\ -. ? \ X2.

M + Ai.L^rinA*.?) '

n.l

Multiplying both numbers by M, and subtracting from P= P,

P-M.

d2y
dt2

^•L^0«-i)

P + H.V2. ^.cotA-. 0

(14)

d2y

Again, substituting the value of -j:f, as given in Eq. (G), we find

di2

d1 '/-• -2 .

-TV = ,• SHI

dt2 n. I

I d2 <F _ I X3

/< di? j> n. I

(15)

Before the value of A1 can be employed, it will be necessary to find cos 8, and sin 6, in
functions of y. For this purpose we have

sin 0 :

V^-hv Vi+^ V1^-— (H)'

<fy 1 1

V

COS 0 :

>-* ,/1+^ 7i+^^(*.o'i

(16)

which substituted in the value for A1, a will disappear, and give

i , ,*,.m &.

f+P-

7:2 ■ ( x y

,. Sill I + 7T. -

,(l-/,.^.Sin(^.0)
and making A=A'/), the formula will stand

!-/.„.£. sin (**?)

(17)

(318)

ON lilKLKP GUNS.

P_M^=I.

v p-+ m. v.- - .,'uiYj, „.y\
-'■" v •^m + i.a.-;'-..„(,,5)

». /. p V" 1/

(19)

(8) — Ifp, denote the pressure of the gas on one square foot of surface, then

V=lh.-.l,\ (20)

and denoting the weight of the projectile, in pounds, by W, and the principal radius of
gyration of the missile in reference to the axis of rotation by /,',, then will

W W

I = — lc?. ; M = — (21)

g S '

and Eqs. (IS) and (19) become

df p.n.l.g \- ' / , » , -> ~ • / , '/ \ (22)

' ° 1 + A. k^. — — . sin S h - ■ J v

I *r_ jaw. . / , _ ,\ p^-^-/''+w.v.f/.cot.(^.-?)

?tf P.n.l.g: K* V 1 + A.tf *-(*«. »^

(23)

(9) — Denote by C the strain in direction of circumference of the bore, then

C =Ih. 2 p. (y + c) (24)

in which c is the distance from the bottom of the bore to the beginning of the groove.
At the mouth of (he gun, y = l, and the working formulas become

_2

A= —, (25)

1 ~^ST~ n.l. ' . ^kl (26)

1 +A. T

n. p. I,

I (P'F^Xf yx.-.p

p-JF~TT\ , A **•*? (27)

1 + A. r

n. />. I
C = 2 Pl. p (/ + c) (28)

The value of /' being zero, Eq. (10)' shows 110 action to draw the expanding ring of the
projectile outward, on the part of the edge of the land.

Equation (24) gives the circumferential, equation (22) the longitudinal, and equation (23)

(319)

8 ON RIFLED GUNS.

the torsion strain, all expressed in pounds, and the lever arm of the latter being the radius of
the bore. The strength of the gun material will readily suggest the figure and dimensions
necessary to resist these strains. The strength of the material should be ascertained by care-
ful experiments, so conducted as to subject cylinders of the metal simultaneously to the three
kinds of strain, the intensities of the strains bearing to one another the proportions suggested
by the formulas.

(10)— To apply these formulas, it will only be necessary to find, experimentally, the value
of jOj, and that of V, for different values of y, and to compute from the known figure and
dimensions of the projectile the value of Jcv The values of pv corresponding to given values
of y, may be found by a modification of Rodman's process of plugs. To find V, for the same
value of y, let a gun of each of the calibres employed in service, be successively reduced in
length, and the initial velocity at each reduction determined by the electro-ballistic pendu-
lum, observing to keep the charges of powder, as well as the projectiles, as nearly alike as
possible in the several trials.

(11) — Let us illustrate the mode of computation by applying the formulas to a probable
case.

In Major Rodman's work, entitled "Experiments on Metals and Gunpowder," page 200, it
appears that in a 42-pounder, 8 pounds of powder behind a solid shot and sabot gave a pressure
of the gas on a square inch, at 14 inches from the bottom of the bore, equal to 46,100 pounds;
at 28 inches 12,200; at 42 inches 5,500; at 5G inches 5,350; at 70 inches 4,970, and at 84 inches
5,700; showing a pretty rapid decrease after the projectile begins to move, and from which it
may be assumed that the missile acquires half its initial or maximum velocity at about one
third the distance from the starting point to the mouth of the piece.

In a little pamphlet by Mr. Tarrott, entitled "Ranges of Parrott Guns and Notes for
Practice,1' we find, at page 9, that with 10 pounds of powder, a shell, of which the weight
was 101 pounds, was projected from his 100-pounder witli an initial velocity of 1,250 feet;
and at page 10, that the same charge of powder, in same gun, gave, with an 80 pound missile,
a pressure, according to the plug process, of 81,000 pounds to the square inch. It is assumed
that the pressure behind the 101-pound shell was not less than this, and that this pressure
occurred soon after the projectile began to move. Then, assuming, according to the sugges-
tions of Rodman's experiments, that this pressure was reduced to one-third at one-third the
distance from the point of the projectile's departure to the mouth of the gun, and taking the
dimensions of the 100-pounder from the pamphlet, page 19, the data for computation will
stand :

/
P = 0.2C6 pi = J X 81000 X 144 = 3SSS00O.

7=10.833 .J -.y-. = 90° X J — 30°

n = 3.5 V = 625

Af = 0.035378 c=\

(320)

ON Kiri.KD GUNS.

Eq. (24)

Pl =

2/,=

g = 32
- = 3.1416
W = 101.

Nos
3888000;

0.532
4.611

y = 361

f z=0.217 friction between brans and cast iron.

Logs

6 5897203

9.7259116

0.6637951

C =

9537457 lbs

6.9794330

Logs

Eq. (17)

P =

r2 =

n =
1 =

n. I

sin 30°

0.217 + 0.03462
1 - 0.00751

Eq. (23)
W
V2

cot. I ff. ^ =
2Z

0.206

9 4248S16

9.4248816

(3.1416)2

0.4971509x2

0.99430 IS

3.5

0.5440680

a c

9.4559320

10.833

1.0347487

a c

8.9652513

0.06924

8.8403667
9.6989700

0.03462

S.5393367

0 217

9.3364597

0.00751

7.8757964

0.25162

9.4007452

099249

a c

0.0032739

0.2535

101

(625)2

3.1416

cot. 30°

21.666

9908341

2 795S800X2

9.4040191

2.0043213
5.5917600
0.4971509

0 2385606
8.664210

6.996013S

42

(321)

10

ON RIFLED GUNS.

Pi- g- *■ p2

W. V3. £■ cot. 1 ir. ?

7>i. £. -. /v2 + W. V2. - cot. 30° :

A =

*13

_2

sin 30°
n

I
P

1 + A. A-j3. — — -. sin 30°
n. 1. 1>

Pi 8- -■ l'2 + W. V2. £- cot. 30°
siu 30°

/• 2
''1

P

n
I
S

I fP >F

3S8S000

6 5897263

32

1.5051500

3.1416

0.4971509

(0.266)2

9.4248S16X2

8.8497632

2765610

7.4417904

9908341

12673951

0.2535

9.4040191

0.035378

8.5487333

(3.1416/

0.4971509x2

0.9943018
9.69S9700

3.5

0.54406S0

a c

9.4459320

10.S33

1.03474S7

a c

8.9652513

0.206

9.4248S16

a c

0.5751184

0.004389

1

7.6423259

1.004389

a c

9.99S09S5

12673951

7.1029121

9.69S9700
8.5487333
0 9943018

a c

0.57511S4

a c

9.4559320

a c

8.9652513

6841,7 lbs

a c

8.4948500

3.S351674

1734,5 lbs

9.4040191

3.2391865

(12) — Let us now compute the strains when the missile has reached the mouth of the
gun. For this purpose Eqs. (25), (26), (27), and (28) are applicable.
(322)

ON RIFLKD GUNS.

11

Eq. (25)

/ + />. - =0.217 + 0.0070 = 0.2840
n.l

1 — /. p. — , = 1.000 — 0.C1 47 = 0.98,53

71. I

Eq. (27)

I #'F
~p~diF

P-M

d»i

0.28884

A

_2
A,2

I

P

A. — j— :
W. f . /O

1+0.01:

0.01

1.01

P!=%X S1000 X 144 = 1458000

^2

7T"
ft

10.S33

llllOlba
A

" dt2

C*-.Vl_>,i7 1UI

H (28)

2

Pi
/>
(£ + c) = 10.833

C =

8422050 lb;

9.4542349
a c 0.0004315

9.4600604

9.4006664

0.9943018

8.5487333

a c

9.4559320

a c

8 9652513

a c

0.5751184

8.0000032

a c

9.9950786

9.4248816

0.4971509

6.1637575

8.5487333

0.994301S

a c

9.4559320

a c

8.9052513

4.0456870

9 4600664

3.5003534

0.3010300
6.1637575
9.4248816
1.0347487
6.9254178

(13) — Next, compute the effective work the torsion strain performed on the projectile
during the passage of the latter to the mouth of the piece. For this purpose we have Eq. (5),
making y=zl.

2\ dt ) ~2g l'nllr '

(323)

12

ON RIFLED GUNS.

V2=(1250,2
-4=(3.1416)4
h2

W = 100
2 §- = 64
»2 = (:{,5)2
P= (10,833 )2

3.0969100x2

I •(Z'/'Y
2\dt)

f)S52fi',5

6.193S200

1.9886036

8.5487333

2.0000000

fl c

8.1938200

a c

8.911S640

a c

7.9305026

3.7673435

The work of the torsion strain will be that required to raise 5852,5 pounds through a
vertical distance of one foot in the time required for the projectile to pass from rest to the

mouth of the gun.

(14) — To compute the work in the missile, due to its motion of translation, we have

W = 100 lbs

# = 32

2 = 2
V2 = (1250)2

a c
a c

MV2 _ W
2 ~2g-

V2

2441406fP

(15) — The torsion strain at mouth, orT- 11110

Circumferential or C = 8422050

log
a c

T
C

0,001319

2.0000000
S.494S500
9.6989700
6.1938200

6.3S76400

4.0456870
3.0745822

7.1202692

So that the strain which twists the gun is but a little more than one one-thousandth part of
that which acts to split it.

And again,

Longitudinal strain, or L = 320S.9
Circumferential or C — S422050

Ion

L

c:

0,000381

3.5063534
3 0745822

0.5809356

and the longitudinal strain is not quite four ten-thousandths that which acts to split.

(16) — To integrate Eqs. (18) and (19) it will be necessary to have the law of continuity
that connects the different values of pv which is, as we have seen from Major Rodman's
experiments, variable. The integral function would enable us to find the actual work per-
formed by the torsion and longitudinal strains during the motion of the missile within the
gun. The work performed by the expansive action of the gas against the base of the pro-
jectile would also result from the integration of the expression

jr. f>2.Pl. di/=-. />2- F (>/) dy.
(324)

ON RIFLED GUNS.

13

in which

P\ = F (»/);

and we should have all the data to ascertain with certainty whether the results, as regards
intensity of action, furnished by the plug experiments of Major Rodman, are true estimates of
the expansive energy of the gas within the gun. Unfortunately, the experiments thus far
have not been sufficiently numerous nor conducted in a way to evolve this desirable law. Nor
will its precise mathematical expression be matter of easy attainment, since so much
depends, not only upon the devices of the experiments, but also upon the nature and char-
acter of the powder as regards the proportions of its chemical ingredients, the size and com-
pactness of its grains, and the mode of manufacture.

(16) — But we are not without the means of a fair proximate test of Major Rodman's
results. Take at random any one set of them, say the first, on page 196, as given by a -Im-
pounder, smooth bore, with a cylindrical missile, of which the weight was 75.44 pounds, the
charge of powder being 5.13 pounds, viz:

Initial velocity 904 feet.

Pressure in pounds at different distances from bottom of the bore on square iuch.

At bottom
36420 lbs.

14 in. = If, 1660
15850

28 in. =21,3333
8370

42 in. =3f,5000
6470

56 in. =4f, 6666 , 70 in. =5f,8333
6850 8050

84 in. =7f.0000
6720

In the Ordnance Manual, page 18, we find the diameter of the bore to be 7 inches = 0f,5833;
the length of the bore 110 inches = 9f, 1666; and, at page 288, the length of the cartridge for
each pound of powder 0,98 inch. The length of the cartridge will be 5,13x0,98 = 5,0274
inches=0,419 feet; and the path over which the gas worked on the projectile 9f, 16G6 —
0,419= 8f, 7476. The table gives the intensities of this action at the beginning, then at a
point whose distance from it is 1,1666 — 0,419 = 0,7476, and then at equal intervals of 1,1666
of a foot to the distance 7 feet. At the mouth of the piece it will be assumed that the
pressure is 6000, suggested by the apparent law of decrease. The work, denoted by Q, will
come from

36420 + 15S50

\

Q = *.r.2 iu{ +

-X 0,7476

(15850

6720

8370 + 6470 + 6S50 + S050 )x 1,1666

)

+

6720 + 6000

X 1,7476

in which

whence

0.5S33

= 0f,2916;

Q = -. (,? 144^ 26135X0,7476X41025X1,16066 + 6360X1,7476 >

(325)

14

ON RIFLED GUNS.

26135

0,7476

4.4172225
9 S736G93

4.2908918

025

1,16666

4.6130486
0.0669220

4.6799706

360
1,7476

3.8034571
0.2424420

4.045S991

144
P2 = (0.2916)2

4.8949416
2.1583625
8 9295750
0.4971509

Q = 3020160fP

6.4S00300

19538

47S60

11115

78513

Next, estimate the work with which the missile and gas leave the gun. Denote this

by Q'; then

in which

MV2 W
2 2g

W = 75,44 + 5,13 = 80,57
V2=(904)2 5 9123368

W = 80,57 1.9061734

2, ? = 64 ac 8.1938200

Q' 1028790fP,

6.0123302

Then the work of friction between the projectile and gun. Call this Q",

Q" =/ W. I

in which

/=0,13S; W = 75,44; I = 9,1666 - 0,419 = 8,7476
/= 0,138 9.1398791

W = 75,44 1.8776017

/ = 8,7476 0.9418889

Q'' 91,^068

1.9593697

Next, compute the work of the atmospheric resistance. For this purpose take the for-
mula of Piobert for spherical projectiles, viz:

(326)

ON RIFLED GUNS. 15

*-*.«. *(v>+!£)

in which A is the resistance, in pounds, on a square foot of cross section of the projectile for
a velocity equal to one foot a second; V, the velocity which would make the two terms of the
binomial factor equal to one another; and R the entire atmospheric resistance. For spherical
balls, A = 0,000514; and for pointed missiles one-third less, or

A = 0,000342
and

Vi = 1427 feet.

While the actual velocity of the projectile increases rapidly from the point of starting to
the mouth of the piece, the decrease in the elastic pressure shows a diminution in the acceler-
ation. The law which connects the actual velocity of the missile with its distance from the
point of starting may, with reasonable approximation to the truth, be assumed to be that
which connects the ordinate of a parabola of suitable parameter with its corresponding abscissa,
the curve being referred to its vertex and axis. This would give

Y* = 2Py;
at the mouth of piece y = l; and F==V = initial velocity. Whence

\2 = 2]>.l,
or

V2

2P-r

which substituted above gives

/V2

This substituted in Piobert's formula gives

R-A-'-'J\Y-T + v1-n)

whence, denoting the work of the atmospheric resistance by Q'",

or

Q'» = A.n.f?.l.V>.(i_+l^)

V = 904

Vj = 1427

2

5

0.2534

0.5000

2.9561684
6.8455760
0 3010300
9 3010300

9 403S044

0.7534

(327)

1G ON RIFLED GUNS.

0.7534

9.S770256

V2 = (904,2

5.9123368

7=8.7476

0.941 8S89

p*= (0.2916)*

8.9295750

- = (3,1416)

0.4971509

A = 0,000342

6.5340261

Q"' = 492,fi'05

2.6920033

Q"

Q'

Q' + Q" + Q"'

a c

3.9874272

Q

6.4800300

Q

1 — 9 C\r>±

fl £R'7AJi*t9

492.fi'05
91.07
1028790.00

1029373.'i'12

Q' + Q" + Q''

Thus showing the work performed b}' the forces indicated by the plug experiments to be
nearly three times as great as that with which the missile leaves the gun, augmented by the
work of friction and of atmospheric resistance.

Taking one-third of the circumferential, longitudinal, and torsion strains, as they existed
at the instant the missile left the piece, in the example of the 100-pounder, these strains will

stand — ■

C=2S07350lbs
T = 3703.3
h— 10G9.6

giving the same ratios as before, and from which it is obvious that the failure of rifled guns,
with the Parrott twist, must be sought in some cause other than the superadd ition of the
pulling and twisting strains to that which acts to split the piece; and, so far as the principles
of rifling are concerned, this gun may be made as safe as the common smooth-bore.

(17) — The values of C, T, and L, will vary with the character of the twist. An increas-
ing twist which develops into the arc of a circle, tangent to a rectilinear element of the bore
at the bottom of the piece, is suggested in Captain Benton's book on ordnance and gunnery;
and the uniform twist is in common use. The equation of the first is

y2 = 2 ax — x3 ; x=p. ¥

whence

L=/-2«./i. ¥+(?.&* = ()

ji = constant

} (4)'

o —

in which a is the radius of the circle. Making y = l, and ¥= — , we have

4-2

1* + /.

2

n

(29)

(18) — The Equation of the second or uniform twist is
(32S)

ON RIFLED GUNS. 17

!/ = "■'■ x = !>'!'.

whence *

L—1/ — /1. p. '7=0 > ,4>„

p = constant J

in which a is the cotangent of the angle which an element of the helix makes with the axis of

the piece. Making y=-l,

a = ll <30>

Equations (4)' and (-1)" treated after the manner of Eq. (4) and combined with Eqs.
(A), will give new values for T and L.

(19) — But why are the indications of the plug, in excess of the pressure measures? Let
us see. The circumstances of the experiments are these, viz: A hole is made in the barrel of
the gun, in the direction of a line intersecting at right angles the axis. In this hole is
inserted a plug, tight enough to permit freedom of motion and yet prevent the sensible escape
of gas. The outer end of the plug terminates in an obtuse lanceolate cutter. In contact
with the point of this cutter is firmly secured a piece of thick copper plate, with its plane
face at right angles to the axis of the plug. When the gun is fired the expanding gas acts
upon the head of the plug and drives it into the plate, and the intensity of the action is
inferred to be measured by a dead weight which, by its simple pressure and without sensible
motion, will produce an equal cut.

Denote by x the distance the cutter has penetrated the copper; by F^x) the corre-
sponding pressure of the expanding gas on the end. of the plug, in pounds; by F2(x) the corre-
sponding resistance of the copper; by W the weight of the plug and cutter, and by V their
common velocity; then will

fl\ (x) dx - fF2(x) dx - —. V2 = 0.

The value of F,(x) begins with zero and when x is zero; it rapidly increases to a maximum,
and then rapidly diminishes as the missile progresses and x increases. The function denoted
by Fi must have a maximum. Such a function is

Fi (.-) = A. sin Q >--^)i

in which A denotes the maximum elastic force; a the value of x or copper penetration when
it occurs. And although this may not be the precise function which expresses the law in
question, it will be sufficient for the purposes of the illustration.
Let the law of copper resistance be

F2(a;) = Ba;m,
and the work becomes

f A. sin ( i n. X\ dx - f B a? dx - ^-. V2 = 0 ;

A.^ri-cosfi,.nl-B^.-^--^.V2 = 0.
- | V." «.'J m + 1 2g

43 (329)

18 ON RIFLED GUNS.

At the instant the plug stops, V = 0; and

A = B xn

2(m + l) 1-cos (i k.-\

or

B;

a 2(m+l) 1- cob (**.?)

The first member is the ratio of the maximum elastic force of the gas to the copper resistance
at the instant the plug stops, or at the instant of greatest penetration; and it is apparent that
we can neither take the first member equal to unity nor x=za, since x has already been taken
to satisfy the condition of V — 0. The penetration or width of the cut cannot, therefore,
indicate, directly, the maximum gas pressure.

If we make m=l, that is, the copper resistance proportional to the plug penetration,
then will

A _ ~ x 1

B* ~ 4' a ~

-cos (A,.*)

still indicating the same difficulty.

It seems to have been taken for granted, in Major Rodman's experiments, that the gas
pressure is constant during the time the cutter is making its way to the stopping point. This
certainly cannot be true; but if it were, then would

f A dx — / B xm dx- — . V2 = 0 ;

2g

or

B W

Ax xm + 1 . V2 = 0 ;

m+l 2g

and the instant the plug stops, V=0, and

(m + 1) A — B xm = 0

or

»v<

A

and making m=l, which supposes the resistance to vary directly as the penetration,

A

or

Bx = 2A,

That is, the resistance of the copper at the stopping point of the cutter is twice the pressure
of the gas.

(20) — Major Rodman seems not to have recalled the distinction between the measure for
inte.nnity and that for its work. The real difficulty lies in our ignorance of the laws which connect

the intensity of copper resistance and of gas elasticity with the plug penetration. If these
(330)

ON RIFLED GUNS. 10

laws were accurately known, it would be easy to find the maximum of gas pressure, by tbo
Rodman process, from the known depth of ping penetration and the resistance due to the unit
of penetration. In the absence of these laws, it would be better to modify the experiments
bv inserting a number of plugs around the circumference of the same cross section of the gun,
made at different distances from the mouth, and keep the plugs in their places by suitable
dynamometers strained to different degrees; and after firing, find that plug which has made but
a faint indentation on the copper. The indication of the dynamometer on this plug would be
the measure of the maximum elastic force of the gas.

(21) — These objections to Major Rodman's results are made in no spirit of criticism; they
are unavoidable, and belong to the discussion which was proposed at the outset. The labors
of that distinguished officer have been beset with difficulties, and, considering the range and
nature of his experimental researches, it would be matter of surprise if he had made no
mistakes. The spirit of professional improvement which seems to have animated him from his
entrance into the ordnance corps, has given the country much valuable information, and to
find fault with it because it is not all that could be desired, would be unreasonable and unjust.
(22) — Let us next find the number of turns the projectile makes in a second of time, on
leaving the piece. For this end, take Eq. (7).

tc 0.4971509

V 3.09G9100

2 a c 9.6939700

u a c 9.4559320

/ a c 8.965:2513

u = 51.S 1.7142142

(23) — The ladius, denoted by pu of the interior surface of the shell, is 0,266—0,094, equal

to 0,172 of a foot; and the actual rotary velocity, denoted by Vi, of this surface around its

axis, is given by

V1 = 2tt./0i.x.

2 0.3010300

■k 0.4971509

p1 9.2355284

v 1.7142142

Vx = 55f.9 1.7479235

That is, on leaving the piece, the velocity of rotation of the interior surface of the shell is

nearly fifty-six feet; half of which would be sufficient to ignite a wooden or heat to redness an

iron axle, if rubbed under moderate pressure by the turning shell without a lubricant; and it

is not necessary to attribute the frequent explosions of rifle shells within the gun to any other

cause. The powder thrown by centrifugal action against the inner rough surface of the shell

before it has taken the rotary motion of the latter, would be subjected to friction enough to

explode it. Here is a real source of failure with rifled guns.

(331)

20 ON RIFLED GUNS.

Again, in the Parrott missile, the sudden rotation is produced by a force of torsion
applied at one end; it is resisted by the inertia of the projectile which it develops, and to
which it is equal. At the mouth of the piece, in the case of the 100-pounder, that resistance
is equal to about thirty-six hundred pounds. If the shell had an incipient defect, this strain
would not fail to develop it, and probably open an avenue for the inflamed gas to enter.

Taking the velocity of the projectile at one-third the distance from its starting point to the
mouth to be equal to half its initial velocity, and denoting the radius of the inner surface of the
shell by p1, we shall have for the velocitj' of rotations of this surface, by making ?/ = | ?, Eq. (5),

whence,

v i dw

= /•

_2

X

1250

— — x sin

i - .

/,' =0.172

9.2355284

-2 = (3,1416)2

0.9943018

V = 625

2.795SS00

Sin 1 - = sin 30°

D

9.6989700

n = 3,5

a c

9.4559320

/= 10,833

a c

8.9652513

V! = 13'.99

1.1 458635

Giving at this point a rotary velocity of about fourteen feet a second.

It is understood to be the habit of Mr. Parrott, latterly, to coat the interior of all his
shells with a mastic, which presents a very smooth and yielding surface. This has the effect
to lessen the friction, close any very fine apertures arising from imperfect casting, and to
diminish greatly the chances of explosion, if it do not wholly remove them.

There is, however, another source of premature explosion from excess of mechanical
action. Every sudden compression is attended by development of heat, and there can be no
doubt this may be sufficient in degree to explode powder. Can it, in any case of practice, be
enough to fire the exploding charge of the shell? A knowledge of the law which connects
the velocity of the projectile with the distance of the latter from its starting point would
enable us, by the aid of the equation next preceding that numbered (14), to find the pressure
upon the powder of the shell at any point within the gun, and therefore the maximum pressure.
But, as before remarked, this law is unknown. It is easy, however, to find the average
pressure in any case, from the initial velocity.

Denote the weight of the exploding charge of the shell, in pounds, by W ; the initial

velocity by V; the length of the projectile's path in the gun by /, and the average pressure

upon the powder by p; then will

W V3

For the 100-pounder,

AV = 5

V = 1250

7=10,S33

v332) g = 32;

whence

ON RIFLED GUNS. 21

W 0.6989700

V2 6.1938200

I a c 9652513

g ac 8.4948500

or

2;> = 22537lbs 4.3528913

^>= 1126S.fi lbs., over five and a half tons,
which, being an average, is much below the maximum. It is the pressure upon that layer of
powder in contact with the bottom of the shell. The inner diameter of the shell is about
three-tenths of afoot, and the area over which the pressure is exerted is, therefore, about
seven-hundredths of a square foot. The pressure is found to be sufficient to destroy all
granulation and to reduce the powder to a compact indurated mass at the bottom of the shell
hard enough to resist all effort by the finger-nail to impress it. Of course, in all this there is
much friction among the particles of the powder, and great condensation of air at the base of
the projectile's cavity.

The pressure is greater in proportion as the bursting charge is greater and the area of
the cross section of the shell's cavity is less. It is found that the explosions within the gun
are much more frequent for larger than smaller charging. Fuze charges — that is, charges just
sufficient to blow out the fuze plug without breaking the shell — are rarely attended with inter-
nal explosions.

PART II.

MATERIALS AND DIMENSIONS OF GUNS.

(1) — It has been shown that the principle of rifling is, of itself, no sufficient cause of the
disasters which have characterized some of our artillery practice, and that if these disasters
did not wholly arise from sh eer carelessness, as many doubtless did, the source of trouble
must be sought outside of the mere fact of rifling.

(2) — It does not appear that the propagation of molecular disturbance, by Avhich alone
the forces of resistance to the expanding action of gases are developed and hrought into action,
has ever been duly considered in the choice of the material and adjustment of the dimensions
of guns, and yet it is of all considerations the most important.

In the preceding pages an attempt has been made to construct a set of formulas by which
to compute the strains upon rifled guns. It is now proposed to indicate the influence which
the rate of molecular disturbance has upon the capacity of a gun to resist the more important
of these strains, called the circumferential.

(3) — It is well known that the velocity of molecular distur bance is in nowise dependent

upon the intensity of the initial forces which produce it, but results wholly from peculiarity

of molecular structure that determines elasticity and density. This velocity is always the same

in the same body; and a body to preserve its identity, in this connexion, must preserve its

temperature and the external pressure upon it unchanged. The material of a gun after

(333)

22 ON RIFLED GUNS.

repeated firing, by which it becomes heated and thrown into a new set, is not the same as
before the firing began.

(4) — It is by the propagation of molecular disturbance that the forces of resistance are
developed and brought into action, and the rate of this propagation is measured by the velocity
of sound in the gun material.

(5) — When powder is burned behind a projectile, the first action of the expanding gas is
to enlarge the bore and compress the metal in the direction of the radius, and this action may
be so intense and sudden as to break up the molecular structure within, before the outer
portion can come to its support, and tear the gun as an ordinary force would a piece of cloth
applied to its edge. This would be the case, for instance, with an active fulminate, in which
the limits of stable equilibrium of the chemical forces are very narrow.
(6) — -Take the following notation, viz:
M = Modulus of the gun's material.
p = Pressure of the gas on unit of surface.
ft = Radius of bore.
c = Thickness of gun.
I = Length of bore on which p is exerted.
V = Velocity of sound in the gun material.

t — Time since the beginning of the explosion to the instant of greatest action.
Qr = Quantity of work of gun resistance.
Qp = Quantity of work of the expanding gas on gun.
(7) — Take the axis of the gun for the axis of y; a line at right angles thereto for that of .''.
The circumference of the bore before firing will be

2*.p;
and at any time after the explosion begins

2 * (p + dp)
in which dp is the increase of p. And the expansion of the circumference will be

2- ((> + dp) - 2 tz p = 2 it. dp
and on a unit of length

2 ~ (">p S/>
2r.,,=J

Conceive a circular ring of radius x, and of which the plane is perpendicular to the gun's
axis, and let the area of a section of this ring, by a plane through the axis, be dx. dy.

When the circumference of the bore is expanded by 2 tz dp, that of this ring will be
2 7z. ox; and on a unit of length

2 -x x '
By the principles of wave propagation,

(334)

ON RIFLED GUNS. ^d

with the condition that,

Vt + p>x, (2)

without which the disturbance will not move fast enough to develop resistance by the time

it is needed.

The molecular resistance on a unit of surface, supposing every element of the unit to
exert a resistance equal to that on dx. dy, will be

Sx

and on the element dx. dy,

M.

x

M. ' . dx. dii.

x J

The elementary quantity of work of this resistance, on a unit of length of the ring, will be

Sx ,Sx
M. — . d — . dx. dy.
x x

St* ox o c

which integrated between the limits — =0 and — =— , will give the work of resistance in a

unit of length of the ring. This integration gives

ami in the entire ring

dx2 St?

2- x.h M. -^-. dx. dy. = -. M. — T. xdx. dy.
ar xr

Sx ...

Replacing — by its value in the wave function (1), and indicating the integration within the

limits of I and c, we get

= 9 + c

or

3)

(8) — In the incipient state of powder inflammation the gas pressure is zero, and this
pressure reaches a maximum when the bore is most enlarged. Denoting by p the varying
value of the pressure upon a unit of surface; by P its maximum value, and by (dp) the varying
value of dp, we may write

,-p. *(»*!£)

The pressure upon the interior surface of which the length is I is

2,./,.;.i, = 2,.(,?.P.Sm^.|)).
and the work of this pressure from the beginning till the bore has its greatest expansion is
QD = fli °°2 tt. p. I. P. Bin ( I * (4^ d {dp) = 4. P. Sp. I. P

J(i9)=ip V "." /

5)

24 ON RIFLED GUNS.

But Qr and Qp must be equal. Hence after omitting the common factors and multiplying by
p, we have

M. Sj [i (p + c)*-i p* + i (p + c). ^. sm (.. ^7) - ( -jy. sin2 (l *. y,)] = J- f. P (4)

(9) — Make ^ the variable ratio of the sine to its arc; that is,

(^)

c
Vt

(5)

y'=Y ^V- («)

v ' v*y

and we have,

M. ^ [i (/> + of - i /,2 + i- (/> +c) c. <p - i u v] = i. , "P. (7)

(10) — The least value possible for y is zero, and this will occur when

or when the molecular disturbance only reaches the outer surface of the gun at the instant
of greatest action on the bore, in which case the outer layer of molecules will afford no aid
whatever.

If

c

Vt>1

then the disturbance would fall short of the outer surface at the instant of greatest action,
and all that part of the gun beyond the wave front would be useless.

(11) — The greatest value for <p is unity, and this will happen when the arc is so small that
the sine may lie taken equal to the arc; that is, when the molecular disturbance moves with
great rapidity and the powder burns very slowly.

(12) — The velocity of sound through cast iron is about 18,673 feet a second; and it is

stated in Benton's* Ordnance and Gunnery, page 48, that a grain of powder of a particular

kind, and having a diameter of 0,056 inches, will burn up in 0,056 of a second. Making,

therefore,

V=18673f

t = 0,056s

Vt = 1045f.7
we find

Vt = 1045f.7

^- = 0,003.
Vt

(13) — So that in ordinary practice <p and <p\ may be taken as equal to unity, and Eq. (7)

becomes

(330)

ON RIFLED GUNS. 25

K*

[<^ + Se^=?Py (S)

T. W "/' OX./' , .

or

Sp _ S P. />2

/j 7r" c1 + 2 c ^

The first member is the tensile strain upon a unit of surface of a section through the
axis, each element of the surface having the same strain and equal to that on a cross section
of the circular filament in the surface of the bore.

(14)— Solving with respect to P,

1 M 0?. c(c + 2 '")
V , p*

r.=i-M.^.-^^ (io)

which gives the internal pressure just sufficient to produce the tensile strain M. — .

(15) — Solving with respect to dp, we have

8 P p3

dp=*-M:*+2p-c (11)

which gives the enlargement of the bore.

(1G) — Dividing both members of Eq. (9) by P. there will result,

M'7_s ,

P. tt'c2 + 2Pc ^

which gives a direct relation between the tension of the gas, as measured by its pressure on
unit of surface of the bore, and the tensile strain upon the material of the gun on an equal
extent of section through the axis. This for the same gun is constant.
(17) — Solving Eq. (9) with respect to c, we find

e^i+---z5) <i3)

This will give the thickness necessary to resist the pressure P. which develops the

tensile strain M — -, the radius of the bore being p, and the upper sign being taken to satisfy

the inequality (2).

(18)— On the other hand, if the powder be excessively quick, Yt would become com-
paratively small. Let us, for illustration, suppose it equal to c, which would bring the wave
front only to the outer surface of the gun when the gas has its greatest action; then would

4
ip = 0, and <fi — —2

and Eq. (7) would become, writing cx for c,

M.^.[d-(.+tlr-n^-i^]='-i>-^

or

44 (337)

26 ON RIFLED GUNS.

and solving with respect to c,

~- m- I "2 — 4 P -,

(14)

/>
which is much greater than the value for c, as given by Eq. (13), and which shows that a gun
having its dimensions properly adjusted to slow powder might fail under the action of one
much quicker. Indeed, there can be no doubt that many good guns have been broken by the
use of powder rendered unfit for cannon practice by reason of its superior quickness. Quick
powder gives no better range, often crushes the projectile in shell firing, and unnecessarily
taxes, if it do not destroy, the gun. Its use should be avoided.

The velocity of molecular disturbance increases with an increase of elasticity and
diminution of density. Gun metal should, therefore, possess the greatest elasticity and least
density consistent with high tenacity.

(19) — In the report of Major Wade on the metals for cannon, page 269, the tenacity of

the Greenwood gun iron is given at 35,538 pounds. This is the value of M — at the breaking

point for this quality of iron. Taking the case of the 42-pounder, we shall have

M — = 3553S lbs
P

,9 = 0f.29166

c = 0f.70S33.

which, in Eq. (10), give

P = 150100 lbs

for the pressure on a square inch of bore, which would be sufficient to break a gun made of
the Greenwood iron and having the dimensions of the 42-pounder.

(20) — In his report upon gun metals and powder, page 200, Major Rodman gives, as the
mean of five experiments, 51800 pounds to the square inch, as the pressure due to 8 pounds
of powder, (grain 0,1 inch in diameter), a solid shot and sabot, fired in a 42-pounder. Hence,
making

P — 51800 lbs

// = 0'.29166

c — 0f.70S33
and substituting in Eq. (9), give

M. — =35541 lbs

t>

for the tensile strain on a square inch.

(21) — From the experiments of Major Rodman, of which the results are given at page
158 of his work on the properties of metals and qualities of powder, it appears that cast
iron — of the kind tested — when subjected to a tensile strain of 5,000 pounds to the square
(338)

ON RIFLED GUNS. 27

inch, was elongated 0, 0002171th part of its entire length, and that where the si rain exceeded
this, the metal took a now sot and altered its mplecular structure, for beyond 5000 it did not
recover the dimensions of which it had been deprived. Moreover, it appears, at page 1(5(5 of
same work, that the repeated application of a tensile strain equal to 15000 to the square inch,
gave a constantly increasing extension, showing a decreasing power of resistance. Thus, the
first application gave an extension 0,00127S; the 100th, 0,001510; and the 250th, 0,001537.
The moduli, computed from these data, are for the

1st, M = 11737100 Log = 1,0095000

100th, M= 9933770 Log = 6,9971 144

250th, M== 9759270 Log = 6,9894174

and computed from the extension 0.0002171, produced by 5000 pounds,
M = 23030S00 Log = 7,3623102

Every variation in the modulus requires a corresponding variation in the value of c,

Eq. (13). And that a gun may be uninjured by firing, the value of M — should never exceed

P

the maximum tension from which the gun may recover its dimensions ; and keep its
molecular structure unaltered. This, in the present case, is 5,000 pounds, and which in Eq.
(10) will give, in the case of any gun made of this iron and whose radius and thickness are,
respectively, p and c, the maximum gas pressure to which such gun should be exposed. This
prescribes a rule for the treatment of guns in actual service.

(22) — If the exigencies of an occasion require a greater pressure, then the gun, after a
certain number of rounds, should be thrown aside, broken up and recast.

(23) — But if it be the question to construct a gun to bear a given gas pressure, and of which

the material will bear the tensile strain M — without change of molecular structure, we have

P

onlv to substitute the given pressure P and the tensile strain in Eq. (13), to find the necessary
thickness.

It is quite apparent that all guns have their limits of endurance, and that these limits are
somewhat narrow. Those charged with their use have ever at hand the means of pushing
them beyond these limits, and these means they are very apt to apply unless restrained by
well defined and very positive rules. These rules require a knowledge of the relations which
connect the proportions of the constituents of powder, density, size of grain and volume, with
the pressure which the gas arising from its combustion exerts upon the bore of the gun.
This knowledge we do not possess. In the first part, upon the strains of rifled guns, were
given the objections, founded upon the principles of mechanics, to Major Rodman's inferences
from his plug experiments in this regard.

(24) — In support of those objections, the following table, giving the results of a series of
experiments by Mr. Parrott, with one of his 100-pounders, is appended:

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28

ON RIFLED GUNS.

Pressures and ranges; 100-pound gun.
[No. 7 i* the powder used in rihvy heavy guns; No. 5 in army 8 and 10-inch columbiads. No. 5 is slower than No. 7.]

No.

Elevation.

Charge.

Projectile.

Pressure — lbs.

Range — yds.

1

2

3

4

5

C

7

8

9
10
11
12
13
14
15
16
IT
18
19
20
21
22
23
24
25
2G

27

28

29

30

31

5 degrees --

...do

...do

...do

...do

...do

•

1 0 degrees .

...do

...do

...do

15 degrees .

....do

....do

....do

....do

....do

....do

....do

....do

....do

....do

....do

20 degrees .

....do

....do

....do

....do

....do

....do

....do

....do

10 lbs. Dupont 7

... do do

10 lbs. Hazard 7

.. .do do

10 lbs. Perm 5

10 lbs. Doremus comp.

10 lbs. Dupont 7

do -do

10 lbs. Hazard 7

...do do

10 lbs. Dupont7

...do do

...do do

10 lbs. Hazard 7

do do

do do

10 lbs. PennS

do do

do do

10 lbs. Dupont 7

10 lbs. Hazard 7

10 lbs. Denn 5

10 lbs. Dupont 7

do do

do do

10 lbs. Hazard 7

do do

do do

10 lbs. Penn 5

do do

do do

Shot, 99^ lbs

do

do

do

do..

do

Shell, 101 lbs

do

do

......do

Shell, 101 lbs

Shot, 99J lbs ■

Shot, 82 lbs

Shell, 101 lbs

Shot, 994 lbs

Shot, 82 lbs

Shell, 101 lbs

Shot, 99|lbs

Shot, 82 lbs

Round shot, 32 lbs.

do do . ...

do do. ...

Shell, 101 lbs

Shot, 991 lbs

Shot, 82 lbs

Shell, 101 lbs

Shot, 994 lbs

Shot, 82 lbs

Shell, 101 lbs

Shot, 994 lbs

Shot, 82 lbs

38, 000
45, 300
80, 000
86, 000
27,500
114,000
66, 400
69, 300
70,200
87, 000
60, 350
64,000
66, 000
99, 020
102,980
89, 000
61,750
40,200
41,600
27, 250
39, 300
20, 000
65,800
48, 650
81,000
102,900
102,000
98,000
50, 000
91,500
39, 300

2,078
2,180
2, 251
2,308
2,221
2,370

Not taken.

4,796
5,030
5,190
4,735
5,iil5
5,254
4,808
4,70<;
5, 038
*3,701
*3, 352
*3, 195
5,853
6,125
6,338
5,762
5,972
6,273
5, 698
6,2-111
5,991

* Wild in direction.

It is sufficient simply to run the eye over the last two columns and note the almost entire
absence of correspondence between the plug indications and the ranges, to be satisfied of the
little reliance to be placed upon the former.

(26 — It is of importance to gun practice that the pressures of gases arising from the
burning of different kinds of powder be accurately ascertained, and a series of experiments,
free from all objections, and having for its object to supply this information, is desirable.

(27) — To find the greatest gas pressure to which a gun of given dimensions should be

subjected without impairing its quality of endurance, substitute in Eq. (10) for M - the

(340)

P

ON RIFLED GUNS

29

greatest tensile strain from which the material may recover its former figure after being
relieved. In the case of the Greenwood iron 42-pounder, this is 5000. We find

P = 21165 lbs.

(28) Again, let it be required to find the thickness of a 42-pounder to be subjected to a
gas pressure double this, and yet the tensile strain not to exceed 5000. Then Eq. (13)

c = l'.0625,
which is the thickness necessary to resist a pressure equal to twice 21165 without incurring a
tensile strain greater than 5000 pounds. It is quite apparent how these numbers will vary
with the nature of the gun metal. In the testing of a new gun, means should be provided for
measuring the pitch of the sound with which it responds to a blow from a light hammer on the
face of the muzzle after every discharge. Altered tone will indicate altered structure.

(29) — To determine the gas pressure let A B C D represent the
edge of a block of copper; KGH the cutter of the plug apparatus

in the position to which it is pressed by a dead weight, without ^ — -
velocity, so that the resistance of the copper may measure the weight. *jf
Make this notation, viz:

"W = Weight equal to copper resistance.

x = Depth of penetration, G O.

y = Distance E F, or length of cut.

<p = Angle H G K.

A = Copper resistance for unit of penetration.

(30) — Assume as the law which connects the resistance with the penetration,

W = Aa;m, (15)

in which m is a constant, as well as A; both to be found by experiment. For any other

weight as Wi and penetration xlt we have

WI = A. xLm (16)

Taking logs, in both equations, and subtracting first from the second, we find, after solving

with respect to m,

Log Wj — Log W

and from Eq. (15)

From the figure

or

Log xi — Log x

W
A:

w

'xm

(17)
(13)

y = 2 x tan J <f

y

2 tan J <p

which substituted for x in Eqs. (17) and (18) gives, after reduction,

Log Wi - Log W
Log yi — Logy

(19)

(20)

(341)

60 ON RIFLED GUNS.

(2 tan £ „)■*. W

By repeated trials with different weights but with the same cutter and copper, a series of
values for m and A may be found, and these being treated by the principle of least squares,
will give the most probable values for the constants m and A. The copper should not be
beaten or rolled, but simply cast and planed to a smooth surface with a very sharp tool.

(31) — To apply these preliminaries to the finding of gas pressures, it is to be observed
that when the powder begins to burn, the pressure is nothing, and at the close of the action it
is also nothing; that is, the initial and terminal values of the pressure are zero, having a
maximum value somewhere between. The simplest law of continuity which connects these
varying values with each other is expressed by the equation

i = P. sin

(* •') <">

in which p denotes the pressure, in pounds, upon tho plug head, P the maximum pressure
upon the same, and I the greatest value for x, or the entire penetration.
The quantity of work of this pressure will be

Jr»x = 0 / x\ 2 1

^ P. Bin. (*.?) <** = -. P;

The quantity of work of the copper resistance will be

Jf*z=o A
Ai". dx = -. lm + l;

(32) — But these quantities of work must be equal; whence

2 I t, A ,

— .P = -. lm + l

iz m 4- 1

or

A. lm (23)

' re, the maximum value of ?/, or the
have, Eq. (19),

■ 2(m+l)

and denoting by re, the maximum value of y, or the entire length of the cut, answering to I, we

1-.

2 tan ^ <p'
which in Eq. (23) gives

P = . k.( V. (24)

2(m+l) \2tani p/ V ;

A and m are known, Eqs. (20) and (21); re may be measured by the Filar Micrometer
with great accuracy; whence P becomes known. The value of P, multiplied by the ratio of the
area unity to that of the plug head, gives the pressure on unit of surface, or P in Eq. (7).

(34) — At page 38 of Major Rodman's work is a table giving a series of actual pressures,
varying from 1.000 to 14,000 pounds, and the cuts produced, ranging in length from 0,21 to
1,11 of an inch. These, by Eq. (17), give a mean value for m— 1,5957; say

m = 1,G.
(342)

ON RIFLED GUNS. 31

(35)— The angle made by the inclined edges of the cutter does not appeal* to be given.
For the sake of illustration, this angle will be supposed equal to that given in the figure on
the plate fronting page 299; so that

i <!> — Sl°.45'.

(36) — Take at random from the table any weight and its corresponding cut; say

W = S000 lbs., and a = 0,78 in.

These data in Eq. (21) give

A = 792S10 lbs. Log 5.8991090.

(37) — Now, suppose this cut of 0,78 in. to be produced by the action of the expanding gas
in the gun; Eq. (24) will give

P = 5005 lbs.

(38) — -It may be objected that the function in Eq. (22) gives the maximum pressure P at
the middle point of the penetration. The objection is of little worth, for the object being to
find the maximum pressure to which the gun is subjected, it matters not where it occurs, so
that it be found. That function is employed to find the work of p over the distance 1;
and this work being measured by the area included between the curve of which Eq. (22) is the
equation, the extreme ordinates, which are nothing, and the path 7, that area will be sensibly
the same wherever the maximum ordinate P may be found.

(39) — The several values of m, as deduced from the table and tested by the method of
least squares, give the mean error equal to 0,4411; the probable error in any one determina-
tion 0,299G; and the probable error in final result 0,0831. But among these values there
are three remarkable for discordance with the others. If these be rejected, as having been
influenced by something extraneous to the recognized agencies of the experiments, we find
the mean error 0,2G81; probable error in any one determination 0,1816; and probable error
pi final result 0,0572 — a sufficient proof that the method proposed for evolving the law of
copper resistance will lead to the desired result.

(40) — As before remarked, the copper should be neither hammered nor rolled, as these
processes break up the homogeneousness of the material and develop unequal resistance at
different points and in different directions.

The form of Major Rodman's cutter seems to be objectionable. It would be much better
to use a conical point, and rely upon a Filar Micrometer, with great magnifying power in the
eye-glass, to measure the surface diameter of the penetration.

West Point, 1865.

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