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
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 £ —
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
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-
~\ 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 . 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
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 ; 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— 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 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 > 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—
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 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
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.
.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 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
— 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 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.
)
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 ".
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
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
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
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 -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 «» ^ 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 r'-sin,qp + (z— b)2 J$ ~ f„ [r2 sin2 — >' 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
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.
° 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
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 )
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—
'.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
//
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
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
■
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
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 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 ■\:
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 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
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.
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
:;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 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 .(',
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
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 ,
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 '
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
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 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
. 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 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
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. 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 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
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
:; 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
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NO
No. 40 appa
TES TO CATALOGUE.
rently the same star as
No. 39.
189 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