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LABORATORY, FIELD AND PROJECT
GUIDE

IN
ELEMENTARY AGRICULTURE

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PapOnAlTORY; FIELD
AND PROJECT GUIDE

——___—__-IN
ELEMENTARY AGRICULTURE

k nd BY
Ge’ AY SCHMIDT, M.S.

ASSOCIATE PROFESSOR OF AGRICULTURAL EDUCATION, COLORADO STATE
AGRICULTURAL COLLEGE.
FORMERLY INSTRUCTOR IN AGRICULTURE AND PRINCIPAL OF
RURAL SCHOOL DEPARTMENT, STATE NORMAL,
WHITEWATER, WIS.

D. APPLETON AND COMPANY
NEW YORK CHICAGO
1920

CopyrRiGcHtT, 1920, By

D. APPLETON AND COMPANY

e.<

FEB -3 1920

PRINTED IN THE UNITED STATES OF AMERICA

©tlA559628

ahr ft) \

EMM 5 deb }42

TO THE TEACHER

Every sincere teacher of elementary agriculture is
striving to make his teaching so practical that it will lead
to worthwhile accomplishments. This means that he
must not neglect laboratory, field, and project work.
The purpose of this little book is to act as a practical
guide to such teachers. All the exercises are arranged
seasonally so that the various phases of the work may be
studied at a time when they will mean most to a child.

The exercises in this book are intended primarily to
cover two years’ work. They are equally adaptable,
however, to courses of shorter length where more time
per week is allotted to the subject. In both cases, a
teacher should consider the outline so elastic as not only
to change the order of the exercises when she considers
it wise to do so, but also to include others which she
considers better fitted to the particular needs of the com-
munity in which she teaches.

In the book will be found enough material for labor-
atory, field, and project work to meet the requirements
of most states. Throughout the book emphasis has been
put upon those topics in which a child in the 7th, 8th,
and oth grades can take part.

The book should be used’ in connection with some
good elementary argicultural text book. Although it is
primarily adapted to use in conjunction with “An
Introduction to Agriculture’ by Upham and Schmidt,
published by D. Appleton & Co., it can be used with any

Vv

EO Tae aC res

of the more recent text books on elementary agriculture.

All the exercises in. the book have been put to a
practical test by several years’ experience in the teaching
and supervising of young people who were being fitted
to teach in rural and state graded schools.

Every child in the class should possess a copy of the
book, as all the directions throughout the exercises are
given directly to him. Thus, much time and work are
saved for the teacher in the planning, the directing, and
the class room preparation for the work in agriculture;
also, much time is saved for the pupil by simplifying
the preparations of his outlines and notes.

Fach teacher should make use of the exercises and
projects best adapted to the community in which he
teaches. The aim of the book is to help teachers in all
communities to follow more intelligently the prescribed
course of study, not to supplant or supplement it. Each
teacher should, also, plan well in advance of the work of
the class, for all the field trips and projects he intends
the pupils to undertake.

vl

TABLE OF CONTENTS

SEPTEMBER
EXERCISE PAGE
I. Study ofa Potato pee Cah he, ee Poe POM aera A a I
Peeomimonm, Varieties of Potatoes $5070 2) it. ek a 3
Reece Potaroes 6) sci a a I ae ta eh ee a 5
BME NV GCUS. We tis, oa. thot badder te wea) ae 8
5. Selecting Seed Corn . . Bs We evac poe ae Be anos! play oe ee 10
6. Curing and Storing Seed Gott aT a 3 ARE oi Ts 1
Pepourhines trom Flowerme Plants)’ se eg
8. Digestible Nutrients in Common Feeds ... . 16
Bee iiiive Ratio of Common Meeds. ©. i100... 18
Meee ticoarm Belpotates o:/ 0s tah te Le ee ve a 20
Pele deca tole, <9), ow ter | eR cg sll Tyg) Gr i oat
Mert ye eiibilck vier a heed al a eb ee ae 2a
PROJECTS
Pioawienae and pcorimoSeedvCom *) 2.5. 43 72. 25
2. Harvesting and Storing WinterApples:. . . . . 28
Pmekosine Winter Veretdoles 0.0: 2, 2) es ee 30
EXHIBITS
. Corn Show sae ESN mtn eR WED St ee 30
2. Vegetable and Fruit Exhil os SPA vain hn Meee gery geeks t
THINGS TO OBSERVE
OCTOBER
EXERCISE
© Sj TRAST NST GG eS 61 inate ea Ae a 2
Beet CEN ISCCES tes a shea a yar oop we 88
Perea prom, 2) Ne Teta teil. Geo das ie) el. “Bq
a ooultry Houses. ...:-- ee ee eGR) st BO
5. The Nutritive Ratio ofa anon Mer Me alee d Men is. 3G
Pte cOstOlamabign oon alias tes 0 8 « . 40
paiates Nations for Poultry i 6's. ee 2
Peony mecOrds AUGsACCOURISS. 2". 3s. we 4B
RAGE OOeh@ reise ih rs a ae fe ee 8 AT
AN MVE on ete be he ce le et a. AO

Vil

TABLE OF CONTENTS

PROJECTS PAGE
1. Keeping Poultry Records . . a ae
2. Putting the Garden into a Good Winter Coalition : 52
EXHIBITS
t,Poultry Exhibit and Sale°*.) = 2 ie 2 ee
2. Project: Booklets 2! wae on, et
‘THINGS .TO OBSERVE . 000 (yor ae yy ae
NOVEMBER
EXERCISE
« study.of an Har ‘of Cor 77°.) %. ah eae 55
2. A. Learning to Know the Diferent Grins 2. i eee
B; ‘Grading Grains) j,i. oe ee
3; Judging a Dairy Cow e946 on i ee ee 59
4. Competitive Judging of Dairy ove ghia 62
5. Cost of a Pound of Digestible Nutrients in Decca
Feeds... °. a0) Aa eA ui
6. Haecker’s Feeding Stepan ME ROOM yoke 66
7. Balancing Rationsfor Dairy Cows :) ; » (2) .)) ee
8. Judging Poultry 9.) 0 ss ae! ee
9.. Datry Cattle Booklet. 2)... 4) | yee 73
10. Dairy Cattle Survey... Og ee i 75
Lane
. Sprouting Oats for Laying Hens. . «eat onan
2. Winter Management of a Small Flock of Pullets a as 78
THINGS ‘fO ‘OBSERVE? 042.0.) 0 OE a 79
DECEMBER
EXERCISE
1. Testing Milkfor ButterFat . . . ie 80
2. Testing Cream and Skim Milk for Butter Fat et 83
3, Dairy. Records and Computations .” 2). .72a ee 85
A. Placing Three, Bars of Com 2. 2 ios 87
Awl, pudsing, Comm ol *; oa cow \Muicy ae or
B. Market Grades of Cam aA wy ie lee ey errr
6. Stedeture’ot Seeds ye ee haa aes ies 94
7. Hxamination of Farm iSeeds}:° 0... wee, 95
8. Digestible Nutrients from an Acre of Land i ee
g. The Influence of Drainage on Plant Growth .. 1 ae
to. Grain Burvey 7a wes, sy veg S42 th bea ls

vill

TABLE OF CONTENTS

Sad PAGE
. Keeping Dairy Feed Records . . 99
2. To Keep Milk and Butter Fat Beasurde ne he Pate
IMP Meee eae ee mer eh had het oua. | OO
EEECH FEE VED rg tye. Ba Ly Me Sh se at ne LOT
JANUARY
EXERCISE
meitow pers Grerminate se MT Si a ee Ne LOZ
2. Candling Eggs ie BM RSC rat) are SPEER
3. To Study the Effect of gee on ine AOR a RR NR os
4. Rise of Waterin Soils ... 106
5. How Too Much Vegetable Matter ‘Chests Canalis
Rise of Water... 108
6. To Show How Soil Water Bites ihe Biosts of Plants 109
Poulan, food memoyved by/Cropsy ) 362 ee Gan PE
peetoee Mao adeno: SOSH i or a es a BE
Mean OLA ets! © 4 hats) ee ee meine > Ute fee! EES
Seeger atti TOD, BOOKMeE Se Ne eek ae AY AES
OSS ADE 00 gs eae ee RN 6
PROJECTS
Pet neciine tm the Homedterd: 9.0. ee a | BIG
ES ST ee a on a eH nee em flr
FEBRUARY
EXERCISE
1. Water Capacity of Soils. . . AY ee MMHG
2. Downward Movement of Water in Batis Sy ote Send EO
3. Moisture and Soil Temperature tre Dal an oO
4. Injurious Effects of Too Much Fertilizer . . . . 122
Pe etion Ofumcios on Limestone 7 [0 de 6 B23
Pemerieiriciacy reli A Ce PRE Mae Se ES
Semereirell MAAS: 8. cy ab hen Weds Aa hee ek a) EDS
PretieOl asec Catalog orien RAG e cw ne. EBO
meet ar tsrecds oF Cattic aie. (ee at ve ow E27
neoweenaine Alfalfa Growin@otates 0 .f es. we ew) 28
mmeertdetti Geedines im Plats. os ww we | 30
Tey res Wake kd dyes iw oy ESI
PROJECTS
1. Raising Flower Seedlings Rem AUR kaigs Seoyig, | Meme
mutenietia Wemetable Seedlings . . ‘2 «.« « 133
CC ORSIOR VE cal uyluein a.) <i) 2m 0) we oe EBA

ix

TABLE OF CONTENTS

MARCH
EXERCISE . PAGE
i. Testing Seed) Corn 095, 3h <0, eee
2., Planning the Home Garden... 1.5 (7s
3. Hotbeds = 2.0. gg ee ob? rr
4. A Cold Frame Pils ae te 6 POSS Ee
5. Tree Planting. . wet 0” cue tal Sa it eee
6. Preparing the Gardee Ee
7. Testing Soils for Acidity... < )° 1 2) eeenenes
8. Hard Wood Cuttings we es ee er
9. Root Grafting. 7 29 » kT a) eyS peigt ee
10. Garden Records and Recaate «et PS rrr
1. Horse Survey 7.0... 2 3: hn) 3) ee
nee
. Testing Seed Corn Velie. RU cay
2. Management of the Home Gard So hg ee
a) Pie sProject poole a Rel oe Se Se
THINGS TO OBSERVE: ..9 2/005 5. eee a
APRIL
EXERCISE
1. Checking Evaporation «=. << ". 3 S-. 3. eee
2: Cutting Seed Potatoes. 2) us... J ee Ss
3. Hatching Chicks .5%).( 5 oc 2) 2.9.0 3) nr
4. Gare of Chicks 0 3 js. <6 0404) a > 2 rl
5. Preserving Eggs . . . . | bce eee
6. Examination of Commercial Fertilizers o's 10, he ee
7. Mixine Commercial Fertilizers... . . | 3) eee
8. Staking’‘out the Garden. . . ". . ww “2 eee
9: Planting the Garden... .. 3 »).° 4 23 eee
To. Plan of the Home.Farm::- . . ... ..\ (ges eee
ir. Forage Crop Survey .. 6 2%. © 9.) 2. 00 ee
PROJECTS
i. Hatching and Raising Chicks’ @ 1). 30.20 0s ee
2. Raising a Calf Se tS re) coeey ee
BOOKLET ‘
1,. Garden’ Diary \ os...) neue tent phe os eet eae
THINGS TO: OBSERVE. <0 - <7) y, Soe le, Le

TABLE OF CONTENTS

MAY
EXERCISE PAGE
I. Effect of Light upon Plant Growth . 2. . . . 184
a ciucilation of Waterin Plants. =. . . ...°..185
Bee Paneer Cm nS a eM Apa So 8G
Peierls ie UES ee a le ME ye ae ek TS
PemOcilesandukeotines. 8. 46 ee BC Oe 189
Se Matti opiayine Somtons FY gt
fee -te-ew Com Pests sy i ee 93
eremadea esters’ Woy es) et A ks Bee 196
MeerOmEry UIE f Se. eg et kN 197
PROJECTS
I. Growing a Plot of Beans aA pak") eee WA Gm rage es a TS
mcaromanora, Potet-Corn,) <8. esti Se eee Pol |) BOD
THINGS TO OBSERVE 202
JUNE
EXERCISE ~
Peeve WolPaawyers’ ce eee a 203
2. A Study of Insects ; 204
3. The Life History of a Fly 205
4. Poultry Pests . 206
5. Study of a Garden 207
6. Spring Weeds . ; 209
7. Keeping Milk Sweet . 210
8. Swine Survey . ier Ue ace canes cae EG
Mapeesevebooer: Ho Sart. ee Be ony
PROJECTS
I. Summer Work Reem ol ema ans eS te al Beye a! OED
THINGS TO OBSERVE . 212

a

TABLE

= =
HK OO ON QAM PW NN &

=
Ww N

TABLE OF CONTENTS

APPENDIX

. Digestible Nutrients in Feeds ;

. Elements of Plant Food in Crops and Reeds :

. Plant Food in Commercial Fertilizing Materials .
. Location of State Agricultural Experiment Stations
. Legal Weight of Various Commodities .

. What Concentrated Feeds Weigh

. Approximate Capacity of Cylindrical Silos

. Modified Wolff-Lehmann Feeding Standard

. Laboratory and School Supply Companies

. Number of Trees, Shrubs, and Plants to an Acre

. Gardeners’ ‘Planting Table

. Score Card for Commercial Eggs

. Score Cards for:

Vegetables
Fruits .
Canned Fruits ae Vedetatiles..

X11

PAGE
214
214
215
216
217
218
218
219
220
221
222
225

225
226
226

CONTENTS

(Arranged According to Topics)
FIELD CROPS, SEEDS, AND WEEDS

POTATOES

Study of a Potato Plant

Common Varieties of Po-
tatoes . ‘

Judging Borates ree

Market Grades of Po-
tatoes .

Potato Survey

Cutting Seed Potatoes .

Potato Tests

WEEDS
Fall Weeds
Spring Weeds
FORAGE CROPS
Leading Alfalfa Growing
States .
Examination of Rann
Seeds :
Forage Crops Sever.
Nodules and Legumes

GRAINS
Learning to Know the
Different Grains .
Market Grades of Grains
Grain Survey
Crop Rotations .
Farm Crop Booklet .

Corn
Selecting Seed Corn .
Curing and Storing Seed
Corn

PAGE
I

113

The Corn Belt States

Corn Survey .

Corn Show

Study of an Ear of Gan

Placing Three Ears of
Corn

Judging Corn :

Market Grades of Copa

Silo Survey :

Testing Seed Corn .

Corn Testing—Project .

Ear-to-Row Corn Test .

Growing a Plot of Corn
—Project..

SEEDS

Structure of Seeds .
Examination of Farm
Seeds ;
How Seeds Germinate ;
To Test Seeds for Starch

MISCELLANEOUS

115

Xili

Plan of the Home Farm

Effect of Light upon
Plant Growth

Circulation of Water in
Plants .

Nodules and ee

-A Study of Flowers .

PAGE
20

24
30
So

87
89
92
116
135
156
193

200

94
95

102
125

176
184
185

189
203

CONTENTS

SOILS AND SOIL FERTILI

Study of Soils

The Influence of Drain-
age on Plant Growth

To Study the Effect of
Lime on Clay .

Rise of Water in Soils

How Too Much Vege-
table Matter Checks
Capillary Rise of
Water .

To Show How Soil Was
ter Enters the Roots
of Plants

Plant Food Ranpeed
Crops:

Plant Food Wdded fa
Soils

Crop Rotations .

PAGE

32

oF

106
106

108

109

MVE

112
113

Water Capacity of Soils

Downward Movement of
Water in Soils

Moisture and Soil Tem-
perature

Injurious Effects of Too
Much Fertilizer

Action of Acids on Lime-
stone

Testing Soils for ‘Asaiee

Checking Evaporation .

Examination of Com-
mercial Fertilizers

Mixing Commercial Fer-
tilizers .

Soil Tests ‘

Nodules and Legumes

FARM ANIMALS

POULTRY

Poultry Houses

Winter Rations for Poul-
GBY: 25d

Poultry erence maa Ne
eOuUmLS: ! 4's ee

Poultry Bookiee

Keeping Poultry Rec-
ords— Project ‘

Poultry Exhibit and eae

Judging Poultry

Sprouting Oats for Lay-
ing Hens—Project

Management of a Small
Flock of Pullets—
Project

Candling Eggs

7%

Hatching Chicks

Care of Chicks

Preserving Eggs

Hatching and Raising
Chicks—Project .

Poultry Survey .

Poultry Pests

MISCELLANEOUS

Horse Survey

Raising Pigs SProneet
A Study of Insects
Life History of a Fly
Keeping Milk Sweet
Swine Survey

PAGE |

118 |

}

155
159
204
205
210
210

CONTENTS

CATTLE {5
Judgingai ry Cow.
Competitive ee of

Cattle .
Feeding Sendard: for
Dairy Cattle . ,
Balancing Rations for
Cattle .
Dairy Cattle Booklet
Testing Milk 3
Testing Cream and Skim
Milk for Butter Fat
Dairy Records and Com-
putations .
Keeping Dairy Feed

Making a Cold Frame .

PAGE

59

62

66
69
73
80
83

85

FEEDS AND FEEDING

Digestible Nutrients in
Common Feeds

Nutritive Ratio of Com-
mon Feeds

The Nutritive Ratio of
a Ration

The Cost of a Ration

Winter Rations for Poul-
try .

Cost of Diccsabie cre
trients in Feeds

Feeding Standard for
Dairy Cattle .

Balancing Rations for

Records—Project 99
Keeping Milkand Butter Dairy Cattle .
Fat Records—Project 100 Sprouting Oats for Poul-
Checking up the Home try . NACA
Herd—Project 116 Digestible Nutrients
Origin of Breeds of Cattle 127 from an Acre of Land
Raising a Calf—Project 180 Keeping Dairy Feed
Keeping Milk Sweet 210 Records—Project
GARDENING
Storing Winter Vegetables Preparing the Garden .
—Project . 30 Testing Soils for Acidity
Vegetable Exhibit . 31 Garden Records and Ac-
Putting the Garden into a counts
Good Winter Condition Management of ae Han’
Project : 52 Garden—Project
Study of a Seed Chtaloe 126 Staking out the Garden
Raising Seedlingsin Flats. 130 Planting the Garden
Raising Flower Seedlings Garden Diary
| Project . 032° Fransplanting:
Raising Vegetable Seed- — Preparing Spraying esa:
lings—Project ee ie tions . .
Planning the HomeGarden 140 Growing a Plot a pee
Making a Hotbed . 142 Project ;
144 Study ofaGarden .

96

149
153

157
173
174
182
187

IQI

198
207

CONTENTS

PLANT DISEASES AND PESTS—SPRAYING

Scale Insects
Study of a Mold
Making Spraying Solutions

HORTICULTURE

Cuttings from Flowering
Plants en

Harvesting and _ Storing
Apples—Project

Fruit Exhibit

Pruning Trees .

Seed Corn

Harvesting and Storie

Winter Apples
Storing Winter Viewetatiles
Keeping Poultry Records
Putting the Garden into a
Good Winter Condition
Project Booklets
Sprouting Oats for Poultry
Management of a Flock of
Pullets
Keeping Dairy Heed Res
Ords\ 2.2:
Keeping Milk el Butter
Fat Records .

Corn

Potato
Dairy Cattle
Grains
Silo.
Orchard

PAGE
30
124
I9I

A Study of Insects .
Life History of a Fly

AND PLANT PROPAGATION

Orchard Survey

14 Planting Trees .
me Making Hard Wood Cut-
31 tings .
34 Root Grafting .
PROJECTS
25 Checking up the Home
Herd . G22 ;
28 Raising Flower Seediiues :
30 ~=6—Raising Vegetable Seed-
51 lings
Testing Seed Goce
52 Management of the Home
54 Garden :
76 Raising One or More Pies
Hatching and _ Raising
78 Chicks
Raising a Calf .
99 Growing a Plot of Beans
Growing a Plot of Corn
100) }=©9©Summer Work .
SURVEYS
24 Horse
49 Forage Crops
iG Poultry .
116 wine F
131 Survey Booklet

XVI

PAGE
204

205

131
145

150
I5I

116
132

133
156

157
159

Wy UF
180
198
200
212

155
176
197
210
eH i

Poultry .
Project .
Dairy Cattle

Corn Show .

Vegetable Exhibit .

CONTENTS
BOOKLETS

PAGE
47. Farm Crops
54 Garden Diary .
75 Survey Booklet

EXHIBITS
30. -Fruit Exhibit

31 Poultry Exhibitand Sale .

XVil

PAGE
115
182
Zt

31
S3

LABORATORY, FIELD AND
PROJECT GUIDE

SEPTEMBER

Exercise 1
STUDY OF A POTATO PLANT

Object.—To make a careful study of a potato plant.

Material —Each pupil in the class should carefully dig
up a potato plant and bring it to school. The tops and
roots should be intact and a few potatoes should be at-
tached to the plant. :

Procedure.—1. Carefully spread the plant out on a
piece of newspaper and notice its parts—roots, stem,
tubers, leaves, and flowers.

2. From what part of the plant do the tubers or po-
tatoes grow?

3. Describe the size and shape of the potatoes. What
is the color of the skin? Is the skin smooth, pimpled,
or netted?

4. Are there few or many eyes? How are they dis-
tributed? Are the eyes deep or shallow?

5. Were the stems or vines upright or spreading?
What is their color?

2. LABORATORY, FIELD AND PROJECT*GUIG®

A HEALTHY BUSHEL.—Courtesy Wisconsin Experiment Station

6. Has the potato plant any flowers? Are they abun-
dant? What is their color? Are the flowers essential
to the formation of potatoes?

7. What variety of potatoes did you study? See Ex-
ercise 2.

8. If laboratory notes and drawings are kept, draw a
tuber, natural size, showing the characteristics.

QUESTIONS

1. How do potatoes grow in size?
2. What is the composition of a potato?

SEPTEMBER 3

3. How does the plant make starch and how does the
starch get into the potato?
4. Are any of the potatoes diseased? With what disease?

Exercise 2
COMMON VARIETIES OF POTATOES

Object—To become familiar with the characteristics
of some of the common varieties of potatoes grown in
the locality.

Materials—Each pupil in the class should bring two
good specimens of each variety of potatoes grown on
the home farm.

Procedure.—1. The table given below shows the char-
acteristics of some of the more common varieties of
potatoes. The characteristics of the varieties common
to the community should be learned.

VINE AND TUBER CHARACTERS OF STANDARD VARIETIES.

Variety Tubers Vines Flowers
Rural New Round, flattened, oval] Late variety. Purple} Bluish purple
Yorker to oblong. Eyes un- tinged stems. Dark anid (tan ly:
evenly placed. Blue green foliage. Re- abundant.
to purple tipped sistant to tip burn.
sprouts.
Green Moun- Blocky to oblong.| Late variety. Stems] White and very
tain Flattened. Skin green. Foliage] abundant.

netted, Pairim. bright green.
Creamy buff color.
Sprout tips creamy
green, pink at base.

Burbank Long-oblong and flat-| Late variety. Light! White and fairly
tened. Pointed green color. Stems abundant.
tubers objection- silver green and
able. Eyes numer- abundant.

ous, evenly dis-
tributed. Skin
slightly netted.

4 LABORATORY, FIELD AND PROJECT (Uti

Variety

Peerless (Pearl)

Triumph

Earlyz,Ohio

Early Rose

Irish Cobbler

logs.

Tubers

stem
Flesh
Skin

Heart shaped,
end sunken.
very white.
slightly netted.

Deeprosecolor. Round
to flattened. Stem

end sunken. Eyes
numerous.

Oval. Oblong and
blocky. Skin pink,
pimpled. Eyes
prominent and
numerous.

Long and flattened.
Light rose color,
varying, eyes nu-
merous. Sprouts
yellowish green.
Pink base.

Round to flattened.
Fairly deep eyes.
Pink tinge to
sprouts. Skin
creamy buff color.

Vines

Late variety. Medium
dark green. Fairly
bushy.

Fairly dark green.
Leaves broad. Fair-
ly bushy. Early
variety.

Fairly dark green.
Stems dark green.
Upright, bushy
vine.

Light to deep green.
Thrifty.

Dark green and up-
right.

WISCONSIN BULLETIN 280
2. If there are varieties of potatoes grown in the com-

munity, but not mentioned in the foregoing table, their
characteristics may be learned by referring to seed cata-

Flowers

Very scarce, Sel-
dom blooms.
Buds yellowish
white.

Pale pink and
purple tinged.
Fairly abun-
dant.

Scarce, yellowish
white color.

Fairly abundant
and white.

Fairly abundant
and light pink
color.

3. Learn to identify each variety of potato at hand,
by studying both the table showing the characteristics
and the samples.

4. If scales are available, determine the weight in
ounces of a fair representative of each: variety of potato.
5. At the close of the exercise, mix up the potatoes

and test your ability in naming each variety.

SEPTEMBER 5

QUESTIONS

1. How many ounces does an average size potato weigh?
How many potatoes should an average hill yield?

2. How many averaged sized potatoes are there in a
bushel ?

To the Teacher.—Inquire and find out what are the com-
mon varieties of potatoes grown in the community. Make
an effort to have several good samples of each of these
varieties on hand. If any of these varieties are not listed
above, look up their characteristics in a seed catalog, or
garden book, and write these characteristics on the board
so that the pupils may copy them.

Exercise 3
A. Jupcinc PoTATOoEs

Object.—To practice judging potatoes by means of a
score card.

TYPES THAT BRING TOP PRICES.—Courtesy of Soil Improvement Committee,
Chicago

6 LABORATORY, FIELD AND PROJECT GUIDE

Materials —Samples of standard varieties of potatoes
grown in the community.

Procedure.—1t. Review exercise 2, paying particular
attention to the characteristics of the varieties of pota-
toes to be judged.

2. Score a sample of eight or ten potatoes of some one
variety according to the score card here given.

SCORE CARD FOR POTATOES

——

Salient Points Intrinsic Points Perfect | Student’s | Corrected

Score Score Score
TAS MONA Dara aris etree 25° Pete leve 0 cic 2 ROkE | eee renee
2H EOIZE sy eee ee 20) lakes oes | eee
Zire COlOT Sy inion eke LO’. Paes addon sqeleteo eee
Beit NEVES a rcjvvete dra, 0) elecehaee TO... «| sacc.3 e's: dels eilorene terete
rie altel! iG Aedes eh LO. yf a eavebth-e Stee owen Renee
6: Blemishes?=- 42. QS lose siete ccndovey'a hee eae
MOtale ee taste 100

In preparing the above score card the value of the potatoes for both
“Seed”? and market was kept in mind. From the standpoint of ‘“‘seed’’
alone the value of ‘‘shape’’ should be increased and the value of ‘‘blemishes”’
and possibly ‘‘size’”? decreased. The reverse would be true in judging from
the market standpoint alone.

1. SHAPE

The form should be typical for the variety. It should show strong
vitality. No signs of degeneration should be apparent. In varieties which
are naturally long, such as the Burbank, thickness of tuber is an indica-
tion of vitality. In varieties like the Early Ohio, the short oval form is
an indication of vitality. In varieties like Rural New Yorker No. 2, Sir
Walter Raleigh, Carman No. 3, Carman No. 1, and Norcross, the tubers
should be as nearly short as they are wide as practicable, and flattened.
Varieties like Triumph and Irish Cobbler should be fully as short as they
are wide, the former being slightly flattened and the latter more so, In
no variety should there be any indications of tapering at either end. They
should be uniform in shape. They should have as smooth and even a
surface as possible. Knobs and other roughnesses of the surface are
undesirable.

2) SSIZE

The tubers should be of good size. Size indicates vitality and is desir-
able for market, but, on the other hand, they should not be too large.
As a rule, people do not want extra large potatoes for kitchen use, and
they are also not as desirable for seed when too large. They should be
uniform in size.

3. COLOR

The color should be typical for the variety. It should be bright and
attractive, but not obtained by scrubbing the potatoes. Where different
varieties in a class of late potatoes are judged against each other the

SEPTEMBER -

white varieties should have preference over the red. In early varieties
there is no objection to the color of the Ohio as compared with white
varieties.

4. EYES
_ The eyes should be as shallow as practicable, and they should not be
in a depression, because it makes the surface of the tubers uneven.
The eyes should not be unduly numerous for the variety. An increase

in the number of eyes above normal for the variety is one of the indi-
cations of degeneration.

5 FLESH
The flesh should be a clear white and free from grayish or dull hues,

or dark colored streaks. There should be no hollowness, and a heavy cut
should be made for this fault.

6. BLEMISHES

Scab is the most common blemish, and a heavy cut should be made
for this fault, according to the amount present. The tubers should be
free from all other diseases and injuries caused by insects, bruises or
careless handling. They should aiso be in good marketing condition—
mature, solid, not greened by exposure to light, not sprouted, and free
from dirt.

It is preferable not to have them washed, They can be cleaned quite
well with a soft cloth, taking care not to injure the skin by rubbing too
hard. Some prefer washed potatoes because it improves the appearance
of the exhibit. In case they are washed it should be done by simply
rinsing them, without rubbing, until the dirt is removed, Scrubbing is
exceedingly objectionable.

ODE A ne BOSE ee Warising geoc Boaadcsoos Biatelalaletotela\ciclotetsiale

Student’s UN eT Weta cicterelare cio os alelels stn Sir aie aiaisate nieetareiets siatcvevevsicieisisielsleteioraye cree

3. Get the total or final score of the sample.

4. Discuss the results.

5. If time permits, score another sample.

6. Would the sample of potatoes you judged be of
grade 1 or grade 2? See directions for grading given
below.

B. Market Grapes OF Potatoes

The Department of Agriculture and the United States
Food Administration jointly recommend and urge the
adoption of the following grades, which, in their opinion,
will meet the needs of the Federal Reserve Board, as
well as those of growers, dealers, and consumers:

8 LABORATORY, FIELD AND PROJECT GUIE@

U. 'S:, GRADE UNO: <2,

This grade shall consist of sound potatoes cf similar varietal character-
istics, which are practically free from dirt or other foreign matter, frost,
injury, sunburn, second growth, cuts, scab, blight, dry rot, and damage
caused by disease, insects, or mechanical means. The minimum diameter.
of potatoes of the round varieties shall be one and seven-eighths (17%)
inches, and of potatoes of the long varieties one and three-fourths (134)
inches. In order to allow for variations incident to commercial grading
and handling, five per centum by weight of any lot may be under the
prescribed size, and, in addition, three per centum by weight of any such
lot may be below the remaining requirements of this grade.

US SaGRAD EEN Ox:

This grade shall consist of potatoes of similar varietal characteristics,
which are practically free from frost, injury and decay, and which are
free from serious damage caused by dirt or other foreign matter, sunburn,
second growth, cuts, scab, blight, dry rot, or other disease, insects, or
mechanical means. The minimum diameter shall be one and one-half
(1%) inches. In order to allow for variations incident to commercial
grading and handling, five per centum by weight of any lot may be under
the prescribed size, and, in addition, five per centum by weight of any
such lot may be below the remaining requirements of this grade.

Reference.—F. B. 753: Commercial Handiing, Grading, and Marketing
of Potatoes. )

Exercise 4
FALL WEEDS

Object.—To learn to know the names and character-
istics of the common weeds of the community.

Explanation.—There are two ways in which this exer-
cise may be taken up. One is to have each pupil in the
class bring to school weeds found on the way. These
weeds should then be studied in the class room. The
other and the better way is for the class to go out on a
field trip. Each member of the class should be supplied
with an old magazine and a lead pencil.

Procedure.—1. Learn the name of each weed brought
into the class room. Ask your teacher the names of those
you do not know. If a weed cannot be named, it should
be put aside and identified later. Insert a piece of each
weed if large, or a whole specimen if small, between two

SEPTEMBER 9

pages of the magazine and write the name of the weed at
the top of one of the pages.

2. Discuss the characteristics of each weed by answer-
ing the following questions: Is it an annual? Where
does 1t commonly grow?

3. In this manner all the weeds should be taken up.
List the weeds identified and opposite their names write
one or two of their characteristics.

4. If weeds are studied on a field trip, each weed
should be discussed as mentioned above, and each mem-
ber of the class should have a sample of each weed.

5. In storing the weeds in the old magazine, leave a
number of unoccupied pages after the place of inser-
tion of each weed. In this way the weeds will be kept
in good condition. Press them by putting several heavy
books on top of the magazine. In about a week the
pressed weeds should be dry enough to mount if you
wish to make a collection. They may be kept, indefi-
nitely, in the magazine.

6. Occasionally test your ability to name the weeds.
Cover the name, look at each weed, and see if you can
name it and give its characteristics. If you have for-
gotten these, refer to the list.

7. You should have no trouble in finding from 25 to
50 varieties of weeds in your community if several field
trips are taken, and this number will, without doubt, con-
tain all the common ones.

8. If time permits, collect samples of common weed
seeds. Put these in small vials or envelopes 144” x 2”
and learn to recognize them.

10 LABORATORY, FIELD AND PROJECT GUIDE

QUESTIONS

1. What weeds are most common in the community?

2. What are the worst weeds in the community?

3. Why are some weeds harder to hold in check than
others?

To the Teacher—This exercise succeeds best when the
work is done collectively by the class, the teacher holding
before the class a specimen of each weed, and following the
outline suggested.

Exercise 5
SELECTING SEED CORN

Object—To learn how to select, in the field, good ears
of corn for seed.

Explanation—The moisture content of corn is often
30% or more when
the seed is ready to
pick... Jf. trees
weather catches the
seed ears when they
contain a_ relatively
high percentage of

water, the corn is

RURAL STUDENTS SELECTING SEED CORN.—
Courtesy Iowa State Teachers’ College likely to be of no

value for seed pur-

poses. To get good seed the seed ears must be selected

before frost and from the plants in the field, and the

ears must then be properly stored. The following points

should be observed in selecting seed corn from the field:

1. The ears should be of good shape, but early ma-
turity must not be sacrificed for fancy points.

SEPTEMBER II

2. Ears of medium size only should be chosen.

3. Ears should be chosen which hang down, because
they shed water.

4. The kernels should be well dented.

5. There should be two good stalks in the hill from
which a seed ear is taken, if the corn was planted in hills.

6. Do not, in the field, be too particular about the
fancy points. Study the corn more carefully after you
have selected a considerable quantity.

Materials ——A field of corn from which seed ears may.
be selected, and a few good specimens of ears of corn
fit for seed.

Procedure.—1. Carefully read the explanation, and
listen to your teacher’s discussion.

2. Get a good, clear idea of the kind of corn that
should be selected.

3. When in the corn field be careful not to destroy any
of the corn. Select a row and proceed to gather a few
good ears from it.

4. Place the ears of corn you have selected in a row
with those which the other members of the class have
selected.

5. How do the ears you have selected compare with
the others? Would they make good seed corn?

6. Give the corn you selected to the owner of the
field.

QUESTIONS
1. Why is it preferable to buy seed corn on the ear

rather than shelled seed corn?
2. Why is field selection better than crib selection?

12 LABORATORY, FIELD AND PROJECYT GUase

To the Teacher.—Obtain from some farmer in the com-
munity a few good ears of seed corn of a variety commonly
grown. Briefly discuss with the class characteristics of
good seed corn, before you take the class out. See Exercise
5, December. Obtain permission from a neighboring farmer
to select with the class some seed corn. Try to get him to
assist and take part in the discussion after the class has
selected some corn.

Exercise 6
CURING AND STORING SEED CORN

Object—To study different methods of curing and
storing seed corn.

Explanation—The germinating power of seed corn
and the stand of corn in the field depend largely upon the
way the seed corn has been cured. This is illustrated
by the data given below, taken from the Wisconsin Ag-
ricultural Experiment Station, Circular 58.

STORAGE, GERMINATION AND STAND TESTS OF SEED CORN USED BY 350
WISCONSIN FARMERS.

Germination Average Number
Methods of Storage OT stands of
1909 | I910 | Average} 1909-1910 | Tests
igs “Ralnvdniedsemimnevere ots cpalcloute 93 90 QI.5 89 16
2. Purnace room y=... 2... 93 89 91.0 a 8
3. Room above latehenes. oa. 92 8I 86.5 8I II2
Ax (ARICS Halter te wiciokeke 92 ap 84.5 79 75
AVeragenecceonine amis ctine (O25 sO4 nal Moons 83 2I1
5. (Under porches hase. < <r) | 719 62 70.5 63 27
6° Granaries. 5. At ee eae 65 43 54.0 77 20
7. Barns, tool houses and other
Out-buildingseessenrneeieere 86 52 69.0 60 52
3.) Corn! cribs: cis vet eke ara 28 27 B75 49 26
9. Inshock during winter...... 81 eS | eye 4I 4
10. Windmills and outside of
walis of buildings:..-....-| 45 23 34.0 56 10
AVEGARG ss acitelacue atyaieas ie atepers O50). BOe4 5 s5rcO Ses 139 ”

SEPTEMBER 13

Seed corn at harvest time contains much water and
the corn should, therefore, be hung up or stored in some

PROJECT WORKERS CURING THEIR SEED CORN FOR NEXT YEAR’S CROP.—Courtesy
U. S. Department of Agriculture

way in which it may cure quickly. While curing, it
should be protected from freezing temperatures and the

14.. LABORATORY, FIELD AND PROJECT GUIDE

hot sun, but should be in a place where there is a good
circulation of air.

Materials —Binder twine, wire corn hangers, and ears
of corn.

Procedure.—1. Enumerate some good places in which
to cure seed corn. What are the characteristics of a
good curing place?

2. Practice stringing corn, and putting corn on hangers.

3. Visit some places where corn is being properly
cured and where it is well stored for the winter.

QUESTIONS
1. Why cure seed corn where there is a good circula-
tiOn, OF air’
2. Where have you seen farmers cure their seed corn?
Were these good or poor places? Why?

Exercise 7
CUTTINGS FROM FLOWERING PLANTS

Object—To make and root cuttings from such plants
as the geranium, the coleus, and the wandering Jew.

Materials —Plants from which cuttings are to be
made; a sharp knife; flower pots; clean, coarse sand;
and several glasses.

Procedure ——1. From the ends of fairly well matured
branches of geranium, coleus, or wandering Jew plants,
cut off pieces 3 to 4 inches long. Make the cuts about
¥% of an inch below the nodes, or joints. Cut off the
lower leaves from the cuttings and if the upper leaves
are large, cut off about 1% of each leaf. This will leave
on the cuttings only a few small leaves.

SEPTEMBER 15

2. Place the cut-
ting so deeply into
clean, sharp sand
that merely a little
of the top and a few
remaining leaves
show.

3. Keep the pots
in a moderately
warm room, and

water the cuttings

often to keep the a
sand moist. Shade i
the plants from the bP)
direct sunlight. bh?

4. Try rooting a GERANIUM CUTTING READY FOR PLANTING.—
i Courtesy H. Sahli, Whitewater, Wis.
some of the cuttings
in a glass of water. Change the water frequently to
keep it fresh.
5. After the roots are well started, pot the plants in
good, rich garden soil containing a little coarse sand.

QUESTIONS

1. Why root the cuttings in sand?
2. Why protect the cuttings from direct sunlight?

To the Teacher—Unless plants from which cuttings can
be made are easily available, it would not pay to take up
this exercise. The rooted cuttings make desirable plants for
the school room and for the home, and it is for this reason
that this exercise is here given.

16 LABORATORY, FIELD: AND PROJECT GUIBE

Exercise 8
DIGESTIBLE NUTRIENTS IN COMMON FEEDS

Object—To determine the total amount of digestible
nutrients in 100 pounds of common feeds.

Explanation—The three important nutrients in feeds
-are protein, carbohydrates, and fat. In addition to these’
we find mineral matter and water. The weight of any
feed, less the weight of water it contains, gives the
weight of the dry matter.

Fat produces 214 times as much heat and energy as
an equal amount of protein or carbohydrates. In finding
out the total amounts of digestible nutrients in feeds, it
is necessary, therefore, to multiply the amount of fat
by 214 to reduce it to carbohydrate and protein equiva-
lents, so that the three may be added together.

Procedure.—1. Find the total amount of digestible nu-
trients in the following feeds. Multiply the fat by 2.25
and add the result to the amount of digestible carbohy-
drates and protein, as illustrated with corn. If the third
decimal is less than 5, drop it; if 5 or more than 5, add
one to the second decimal.

2. Below are given the calculations for finding the to-
tal amount of digestible nutrients in 100 lbs. of shelled
corn. |

LBS. OF DIGESTIBLE NUTRIENTS IN 100 LBS. OF CORN

Protein Carbohydrates Fat
t 66.8 4.3

5 = 9.68 ,
.8 + 9.68 = 84.28, total digestible nutrients.

SEPTEMBER 17

3. Make similar calculations for all the feeds men-
tioned in the following table and record the results in
the last column.

_

TOTAL AMOUNT OF DIGESTIBLE NUTRIENTS IN 100 POUNDS

Feeding Stuff Dry Protein ; Carbohydrates Fat Total

Matter Nutrients
La Ss eS eee ee ee
Lbs. Lbs. Lbs. Lbs. | Lbs.
eHeled Corm.....0..6:. 89.4 (os 66.8 Ale) 84.28
ONG SGC a 890.5 8.8 67.25 TS uly eae,
AUS. AAS eee 89.6 8.8 49.2 TRIS (lp Bae
UVES ESTA 015. c coves (0 4 88.1 TEGO 42.0 PALS | A Lea aS
lulite (ohh toYe te er 88.8 i 45.7 Nie oe a ant
Ovi Nee a ae 90.2 30/2 32.0 GROW near ees
m@imothy Hay.......... 86.8 Ones 42.4 THESE. neue kee
Red Clover Hay....... 84.7 Gat 37.8 TA Shawllet i sree
ONDE ¢ | ih gaa ee 9O1.9 10.5 40.5 SQA) Meta renee
Wheat ottaw......... 00.4 8 a5. 2 SANs Wee acts
ORM OMA css. k ees 26.4 nA 14.2 Sop wie oe tae Dy
RAMS EIS. Sin clccis Steels eves 9.4 8 6.4 UTA en sateen
QUESTIONS

1. Which feeding stuff contains the most digestible nu-
trients?

2. Which the least?

3. Why does oats contain less than corn?

4. Why does corn silage contain less than timothy hay?

5. Which feed contains the most protein?

6. Which hay contains the most?

7. Why is wheat straw worth less per ton than. timothy

To the Teacher.—These problems may well be assigned
for work in arithmetic, and the results be discussed when
the class meets for agriculture. Using the results, other
problems may be worked out, such as getting the cost of Io
pounds of digestible nutrients in a few of the common feeds.
Use local market prices.

1 .LABORATORY, FIELD AND PROJECT GUige

Exercise 9
NUTRITIVE RATIO OF COMMON FEEDS

Object.—To calculate the nutritive ratio of a number
of common feeds.

Procedure.—1. The following formula is used in find-
ing the nutritive ratio of feeds.

Lbs. Digestible Carbohydrates + (Lbs. Dig. Fat & 2.25)
Lbs. Digestible Protein a

I; < = nutritive ratio.

2. The nutritive ratio answers the question, How many
parts, by weight, of digestible carbohydrates and fat,
the latter reduced to carbohydrate equivalents, are there
in a feed, to each part of digestible protein?

3. The table in exercise 7 shows that 100 Ibs. of shelled
corn contains,

.

® Digestible
Protein Carbohydrates Fat
Corn, 100 lbs. “8 Lbs. 66.8 Lbs. 4.34 Lbs.

Then ~'66.3 +-7@.3 X 2525) 76.475
7.8 7.8

The nutritive ratio of corn is therefore 1:9.8.

4. Copy in the first four columns of the table given
below, the nutrients in the feeds mentioned in the pre-
vious exercise,

5. Find the nutritive ratio of each of the feeds, in

SEPTEMBER 19

the same way as has been indicated for corn, and record
the results in the last column. Carry these calculations
to only one decimal place. If the second decimal is 5
or more, add one to the first decimal: if less than 5, drop
it.
TABLE SHOWING POUNDS OF DIGESTIBLE NUTRIENTS IN 100
POUNDS OF FEED AND THE NUTRITIVE RATIO OF THE FEED

Feeding Stuff She Protein | Carbohydrates Fat ee
Lbs Lbs. Lbs Lbs
Shelled Corn........... 89.4 7.8 66.8 4.3 1:9.8
EE 1 5bac.d CO BItIbIg © Bere
oS aaa e
Weheas Bran...........
Ba Medes. sees

dimothy Hay......:.:-
Red Clover Hay.......
MMPI TAGET AVE cc.c fac ccs +s
Wincatestraw.........s
Wormioilave...:....5...

QUESTIONS

I. Which feed in the list given above has the greatest
percentage of protein?

2. How can you tell?
Which has the least?
Which hay has the greatest percentage of protein?
What use is made of the nutritive ratios of feeds?

ae ie

To the Teacher—tThis exercise furnishes good practical
work in arithmetic. Assign the problems for arithmetic
work and discuss the results in the agriculture class. All
books on elementary agriculture give a good discussion of
nutritive ratios. Read Chapter 21, in “An Introduction to
Agriculture.”

go ‘LABORATORY, FIELD: AND’ PROJECT Gute.

Exercise 10

THE CORN BELT STATES

Object—To make an outline map of the United
States, shading the seven states comprising the corn-
belt states, and to show the number of acres devoted in
these states to corn, and their yields.

LL rh
uae

tyengcnumren

a ———

=f
ay
3
R

abe MES
EPRH aan

r class use in Geography, History, Civics, Economics, otc. Prepared by J. Paul Goode. Published by Tbe University of Chicago Pross,
Chicago, IIL = Copyright 1908, by Tho University of Chicago.

Materials —Last edition of the U. S. Agricultural
Year Book, or the last issue of Statistics of Grain Crops,
U. S. Department of Agriculture, Washington, D. C.
The. latteris sént free. on request:

Procedure——1. Make an outline map of the United
States and shade the corn-belt states. Write the name in
each state.

-

SEPTEMBER 21

2. Fill out the following table, getting the data from
the suggested references. |

Acres | _ Total Yield
State Devoted Yield in in Bushels
to Corn Bushels per Acre
oa eae "i
TE re alk
Pndiana.....
RMR See aie ik,
(US ore eh a
Vo Ge ly
rr 2
QUESTIONS °

I. What percentage of the corn grown in the United
States is grown by these seven states?
2. Why do these states raise more corn than other states?

Exercise 11

CULLING THE FLOCK

Object—To learn how to cull, or sort out, from a
flock of hens those which are poor layers.

Materials —At least 6 hens, better Io or 20.

Explanation.—Every flock of hens should be culled at
least once a year in order that the poor layers may be
weeded out. If a flock is culled only once a year, Sep-
tember is the best month in which to do the culling. The
good laying hen has a short strong beak, her eye is
large, bright and prominent. Her whole head is short
and strong, but distinctly feminine in appearance. Her
body is long and deep for the breed, with parallel top
and bottom lines. This gives her room for a large soft
abdomen with plenty of food capacity. She is a busy.

22 LABORATORY, FIELD AND PROJECT Guioe

hungry, happy, noisy bird. She is easily tamed and likes
to be petted. Hens that have the characteristics of being
good layers and are in good laying condition in Sep-
tember, are the hens which will prove the good layers
throughout the year. These should be kept, and all
others sold or eaten.

The points which should be given special attention in
separating the laying hens from the nonlayers are:

A GOOD TYPE OF LAYING HEN A TYPICAL NON-PRODUCER

I. Age of hens.—Hens belonging to the dual purpose
and meat breeds are rarely profitable as layers beyond
their second laying year, and hens of the egg type breeds,
beyond their third laying year.

2. Condition of birds.—Sickly looking, inactive hens,
with long slim heads and beaks, hens with dark or bluish
combs, hens with broken down abdomens, or hens with
small appetites, are poor layers. Get rid of them.

3. Color-—In all yellow skinned breeds, those hens

SEPTEMBER 23

with strong yellow shanks, yellow beaks and yellow
vents are not in laying condition. In all heavily laying
hens the yellow color has faded out.

4. Molting—tThe better laying hens lay late in the
fall, so molt late. Cull out those which begin to molt
during July or early August.

5. The comb.—Hens not laying often have small,
_shrunken, hard combs, sometimes covered with white
scales.

6. The appearance of the vent.—The vent of a hen
not in laying condition is small, contracted, dry, and yel-
low in color.

7. Condition of the abdomen.—A solid, fat, contracted
abdomen is characteristic of non-layers. Also the small
stringy abdomen denotes the poor layer. The good layer
has a large, soft abdomen.

8. The pelvic bones.—Thick, firm pelvic bones, firmly
joined together at the ends, separated by a distance of
less than the width of two fingers, and curved in badly
shows that the hen is not in a laying condition and is a
poor layer. |

g. Distance between pelvic bones and the end of the
keel—When this distance is less than the width of three
fingers in the smaller breeds and less than four in the
larger breeds, the hens are not heavy producers.

Hens having several of the characteristics just given
may safely be classified as poor egg producers, and
should be sold or eaten. |

Procedure.——1. Go with your teacher to study a flock
of hens. Watch closely while each point mentioned
above is demonstrated to you.

24 LABORATORY, FIELD AND PROJECT GUIDE

2. Take notes on each bird. Then, when the demon-
stration is completed, tell from your notes which birds
should be culled and which should be kept for the lay-
ing flock.

3. Practice culling with your home flock.

To the Teacher—Make arrangements for this exercise
with the father of one of your pupils who will keep at least
six suitable hens penned for this demonstration. Either con-
duct the demonstration yourself, or get the farmer to conduct.
it.

Reference—Culling the Flock, Bureau of Animal In-
dustry Cir. Division of Publications, Washington, D. C.
Wisconsin Bull. 261, College of Agr., Madison, Wis.
An Introduction to Agriculture, Chapter 22.

Exercise 12
CORN SURVEY

Object—To make a corn survey of the school district. °
Procedure—t. The following is a suggested outline
for a corn survey or corn census of the school district.

CORN SURVEY

Schools District NOt Mow Offi. tor treet COs odes Heo N ace eee
Date ean br cestyeas anak
ee Ne) ee a Se Ee eee
Total | Total | Acres Acres | Yield
Name of Acres } Acres of Total | Yield of in
Farmer in in Corn | Yield | per | Corn | Tons

Farm j} Corn | for Acre for per
Grain Silage! Acre

SEPTEMBER 2s

2. One member of the class should copy on the board
the outline for the survey, putting down as many num-
bers as there are farmers who raise field corn in the
school district. One representative of each farm family
in the school should copy the outline and take it home
to be filled out as accurately as possible. Members of
the agriculture class who have this book need not copy
the outline, but should enter the data in the book.

3. When a farm family in the district is not repre-
sented by children in the school, some member of the
school should try to get the data from that farm. An
effort should be made to get the data from every farm
where field corn is raised in the district to make the
survey complete.

4. Each pupil should write on the board the name
of the farmer assigned to him and the data he obtained.
The upper classes should then determine the totals. The
average yield of the district is obtained by dividing the
number representing the total yield in bushels or tons,
by the total number of acres devoted to the crop.

5. Each member of the agricultural class should have
a copy of the complete survey, to put into a survey
booklet of the school district suggested for June.

Project 1

GATHERING AND STORING SEED CORN

Object—A good seed corn project is one in which

the good corn, fit for seed, and raised by the pupil in
a corn growing project, is carefully gathered, selected,
cured, and stored for future use or sale.

26 LABORATORY, FIELD AND PROJECT Guipe

Preparation.—1. Read Exercise 5 on Selecting Seed
Corn. Learn the characteristics of the corn you have
planted so that you will be able to select seed true to
the breed or variety.

2. Roughly determine how many ears or bushels of
seed corn you can cure and store properly.

3. Study methods of curing and storing seed corn.

4. Determine how
you are soingatm
store the corn and
what materials you
will need for the pur-
pose.

5. Make all neces-
sary preparations to
conduct the project

properly.

THESE YOUNG PROJECT WORKERS WILL GET
GOOD RESULTS.—Courtesy Iowa State Procedure —
Teachers’ College

t.. Keep accurate ree=
ords of all the time you devote to this project. Pro-
vide yourself with a vest pocket note book.

2. Gather’ the’ corn; cure, and) store’ it properly:

3. Keep accurate records of all expenses incurred in
the project.

4. In the spring, test each ear of corn (see outline for
March), and sort it into two grades.

5. When you have disposed of the corn, fill out a
summary sheet as suggested below, and determine the
profit you have made in the project.

SEPTEMBER 27

SEED Corn ProyECT—SUMMARY SHEET

Number of bushels of corn gathered in the fall .......

Number of bushels of corn cured and stored ..........
Number of hours of labor in gathering the corn ......
Number of hours of labor in curing and storing corn..
Number of hours of labor in testing and grading ......
ER Ges rn ark ok redo en eine Lie Seek
EXPENSES
Value of
yee ote bushels of corn cured and stored (Ouse nr DEL DUS. De cco mis oe
Coa oe hours of labor i in gathering the corm —@s-.....-é per hr. | 2s... 2. <
5 ae ene thes 3 “curing and storing @ Shain Meme 4 zs iS oor eae

o Me eee “testing and grading @ ....... ae ets eee
Io ek ie ae « * other labor (DON iaie tenes 5 Rae ee

Other expenses incurred in the project (itgmize these)

Total expenses Serer Sea aan
RECEIPTS
Bees Ree bushels of seed corn sold OeSaner. 6 Pere Use Paistiasie cine
(Itemize your sales)
5 scan oe pecks of corn kept for own use Oars Se a one TICE
ABS Sere oe bushels of corn not sold for seed Oa “Nee cee
(Usually all corn cannot be sold for
seed)

Total Receipts OR AeA eat eee

WesswhovalelsxDenses! ©) os ociie ols -

Profit Bio f oeve

6. Write a brief discussion of the project.

References.—F. B. 229: Production of Good Seed Corn. F. B. 415:
Seed Corn.

To the Teacher.—It may be desirable, in some cases, to
bring the project to a close after the seed corn is cured.
‘In that case, the items on testing, and perhaps some of
those on grading, will have to be omitted from the sum-
mary. For a discussion of project work see Chapter 28 in
“An Introduction to Agriculture,’ published by D. Apple-
ton & Co., and also Bul. 385, School Credit for Home Prac-
tice in Agriculture, U. S. Dept. of Agriculture; F. B. 537,
How to Grow an Acre of Corn; F. B. 729, Corn Growing in
the South.

28 LABORATORY, FIELD AND PROJECT GUiie

One project, well done and carefully written up, is of
far more benefit to a child than a half dozen projects im-
perfectly accomplished. No child should be engaged in more
than one project at one time, as long as the project upon
which he is working is at a stage to require his regular at-
tention. The number of projects given for each month is to
allow a child a choice, and also to permit some variety of
interest in such work throughout the school.

Project 2
HARVESTING AND STORING WINTER APPLES

Object——To harvest and store winter apples or other
fruit, which may otherwise be wasted, to be later used
or sold. |

Explanation.—On many farms there are usually many ©
good apples going to waste which later in the season may
be sold to good advantage, if the sound apples have
been carefully gathered and stored. |

Preparation.—t. Determine if there is likely to be a
market for apples later in the season.

2. Find out if it will pay you to gather and store
surplus apples.

3. Study how to harvest and store fruit properly.

O peration—1. Carefully gather and store the fruit
for which you intend to be entirely responsible.
Measure it as you store it, and record the amounts in
a tabular form as suggested:

Fruit Stored Quantity Approximate Value

SEPTEMBER 29

2. Keep an account of your time and of other ex-
penses in connection with the project.

3. Record at each instance of use or sale, the amount
ema value of the fruit used or sold. Do this in a
tabular form as suggested:

Price

Home Use

Fruit Sold Quantity

4. When the project is completed, fill out a summary
sheet as suggested, and write a brief story or discus-
sion of the project and put in it all records.

Mortal value of fruit sold: ..2. 00002... Sie tt. ci eo

Mosel wale ot fruit used at home... = = 22. ...562
te TECHIES. oo 23 ve flrs bore hie ale og cite aha 03 2 a ae

MEMES Caspases fo oicid oR ee es Aa ee Gry att teky.

DEE ec chon Th Raha a AE et a ny a a
“ING BAI (28.4 0 (ic SYS a Senge RP Dileep ihenatct
Lit Oi i pahee ty Rare Ae De Pe Sen, Oe 2 aa Froth eh aac,

Reference.—F. B. 879: Home Storage of Vegetables. Any book on
Vegetable Gardening. Department Bulletin 579: Celery Storage of Vege-
tables, 5 cents.

To the Teacher.—Write to the States Relation Service,
Maerewept. ef Agriculture for Si R. S. Leaflet: . “How
Teachers in Rural Schools May Use Publications on Home
Storage of Fruits and Vegetables.” It will help you to di-
rect this and the next project. |

30 LABORATORY, FIELD AND PROJECT GUIBE

Project 3
STORING WINTER VEGETABLES

Object-——To store properly, for winter use, some of
the common garden vegetables.

Preparation.—Study methods of storing properly such
vegetables as beets, carrots, cabbage, celery, etc.

Procedure.—1. Put into proper order the place in
which you plan to store the different vegetables.

2. When soil and weather conditions are favorable,
dig and store the vegetables. Measure the quantity of
each vegetable as it is being stored.

3. Keep account of all the time you devote to the
project.

4. From time to time examine some of the vegetables
to see how they are keeping.

5. Make out a summary sheet showing the quantity
of each kind of vegetable stored, the value of each kind,
the total value of all the vegetables, and the time de-
voted to the project.

6. Write a brief story about the project and in it
put all records in a tabular form as outlined in previous
project.

Reference—F. B. 879: Home Storage of Vegetables. F. B. 847:
Potato Storage. Any Vegetable Gee Book.

EXHIBITS

1. Corn Show.

Have each member of the class bring to school the
best ten ear sample of corn from the home farm. Ar-
range this corn in an orderly and attractive way. Invite

SEPTEMBER 31

some one to judge the samples and to give a talk on
corn.

2. Vegetable and Fruit Exhibit.

Have all pupils who wish bring to school small sam-
ples of all the different vegetables raised on the home
farms. Number and display the samples, and some
evening invite the patrons to see them, and have some
one judge the vegetables.
eric, Teese GE B Gty,, School Lesasno’ on Com,
F. B. 870: The Community Fair. S. R. S. Doc. 55: Ext. N. Boys’ and

Girls’ Exhibits. S. R. S. Doc. A. I. 2: £Agricultural Exhibits and
Contests.

THINGS TO OBSERVE IN SEPTEMBER

Some good fields of corn Blight, rust, smut, mildews
The storing of vegetables The selecting of seed pota-
The filling of a silo toes

Injurious insects Good fall gardens

Winter cover crops A corn binder at work

Drying fruits and vegetables

To the Teacher—Read Table I in the appendix of “An
Introduction to Agriculture,” published by D. Appleton &
Co. It tells how to secure government publications.

Send to your State Agricultural Experiment Station
for a list of available bulletins and order in advance the
bulletins and circulars that pertain to any of the exer-
cises or projects in the book. See page 216 for the ad-
dress of your Experiment Station.

OCTOBER

Exercise 1
A SLUDY OF SOLES

Object—To make a simple study of the common soils
of the community and to collect samples of them.

Explanation—The four common classes of soils are
the sandy, loam, clay, and marsh soils. These have
characteristic proper-
ties. The U. S, Depe:
of Agriculture, in
connection with the
State Agricultural
Colleges, is making
county soil surveys.

These surveys de-
A RURAL TEACHER ACQUAINTING HER PUPILS scribe t h c different

WITH THE DIFFERENT SOILS IN THE COM- i
MUNITY.—Courtesy Iowa State Teach- sotls ona county and

ers’ College
on a map show the

location of the soils. If your county has been sur-
veyed, the survey map will make this study of soils very
interesting.

Materials —A spade, a half dozen quart Mason jars,
a Soil Survey map, if available.

Procedure.—1. Go with your teacher to visit places
near the school where the different soils can be found.

2. Describe each different kind of soil you examine,

to J

32

OCTOBER 33

stating its principal characteristics. Classify each soil.
3. The class should collect a quart jar full of each of
the different soils examined. These samples should be
preserved at school for future use.
4. Try to visit a place where a.cut or excavation has
been made. Note the color of the top soil; of the sub-
soil. How deep is the top soil?

To the Teacher—If you undertake this exercise locate
the different soils beforehand and take the class to examine
them. Write to your State Agricultural College and inquire
for a soil survey of your county, if it has been surveyed.
Table 4, Appendix gives address. Additional information
on the use of soil surveys write to the U. S. Dept. of Agri-
culture for S. R. S. leaflet, “How Rural Teachers May Use
a Soil Survey.” This publication is free.

Exercise 2

SCALE INSECTS

Object—To study and to be able to recognize some
of the common scale insects on trees.

Materials—Several hand lenses or magnifiers; prun-
ing shears or a sharp knife; one or two Mason jars.

Ex planation.—The oyster-shell scale, and the San José
scale are two common scale insects frequently found
on many kinds of fruit and shade trees. A careful
study of the dying branches of different trees usually
reveals the presence of some of these pests. These
scales are pictured and described in all agricultural
text books.

Procedure.—1. Examine the dying branches on some
fruit and shade trees. Can you see any scale insects?

34 LABORATORY, FIELD AND PROJECT GUIDE

Use the hand lens. Examine some of the living
branches. Are there any scale insects on them?

2. Collect and describe samples of the oyster-shell
scale. Cut off small pieces of the branch with the
pruning shears and put them in the Mason jar. Make
a drawing of a branch showing the scale as seen through
the magnifier.

3. Repeat the directions given in 2 for the San José
scale.

4. Tell how to get rid of each of these pests.

5. Examine the skins of grape fruit and of oranges
for the presence of scale insects.

QUESTIONS

1. How do scale insects do harm?
. Should they be controlled? Why?
3. What are good sprays for these pests?

To the Teacher—tLocate these pests on trees before tak-
ing the class to inspect them. Give the class an idea what
to look for. Some one in the community may be able to
help you locate infected trees. If you do not take the class
out, gather a few branches infected by each scale, to be
studied in class. These insects are fully described and well
pictured in “An Introduction to Agriculture,’ published by
D. Appleton & Co., and in other agricultural text books.

Exercise 3

PRUNING TREES

Object—To study the proper way to prune a tree.
Materials—Pruning shears; small cross cut saws;
ladders.

OCTOBER 35

Explanation—The class should be taken to a fruit or
shade tree which is in need of pruning. Here a demon-

stration on pruning should be
given, preferably by the own-
er of the tree or by the County
Agricultural Agent who will
gladly do this if requested.
Some of the boys may do the
work but they should be di-
rected.

Observe
how some broken, injured, or
diseased branches are re-
moved. Note that the cuts
are made as near the main

Procedure. — I.

branch of the tree as pos-

sible, and parallel to

METHOD OF CUTTING A _ LARGE
LIMB WHICH SHOULD BE AVOID-
ED.—Courtesy U. S. Depart-
ment of Agriculture

it. Why?

2. Assist in removing any limbs which injure, by

\\ é . ~
Wess

oS. Sy
r “XM
«
ys

RESULTS OF CORRECT AND INCORRECT PRUNING. A,

method; after two years; B,
Department

NY

A

Gy
»
AK)

¢
N sah Fe ae
\ Ny a A\H eA ara
N\\ : Sore
i AUP Se vitrngh iy sro h 7

i

TU

a

correct

incorrect method.—Courtesy
of Agriculture

36 LABORATORY, FIELD AND PROJECT GUIDE

rubbing other portions of the tree. Why should these
be removed?

3. Remove some water sprouts. Why should these
be removed?

4. Undesirable branches in the center of the tree,
which make the foliage too dense, should be removed.
Why?

5. If you are going to remove a large branch, where
should the cuts be made. Why?

6. Make drawings of all the different kinds of limbs
removed, showing where cuts have been made.

QUESTIONS

1. Why not chop branches off?

2. Why are the central parts of the trunks of so many
trees decayed?

3. Should horses be tied to trees?

4. When should needed pruning be done? Why?

5. During what season of the year should no pruning be
done?

To the Teacher—It may be possible that the trees on the
school grounds would be benefited by a little pruning. Ask
some farmer to bring a few ladders. The boys will bring
the saws and shears if asked. Write to the County Agricul-
tural Agent located at the county seat and ask him if he does
not want to assist. Ask farmers to attend the demonstra-
tion.

Exercise 4
POULTRY HOUSES

Object—To make a study of a few poultry houses.
Materials —Yard sticks, paper, and pencils.

OCTOBER a7

Procedure—t1. With your teacher make a study of
one or two good poultry houses in the community.

2. Measure the dimensions of the floor area of each
house inspected, the height of the house in front, and

in the rear.

FRONT VIEW OF AN IDEAL POULTRY HOUSE.—Courtesy Missouri Poultry
Experiment Station

3. Inquire how many birds are kept in each house and
determine the floor space per bird. How many square
feet of floor space should there be for each bird?

4. Study the interior of each house. Measure the
height above the floor of the dropping platform, and the

38. LABORATORY, FIELD AND PROJECT GUIpe

feeding platform. How many inches of roosting space
are there in each house for each bird?

5. Measure the size of the nests. How many nests
are there in each house? How many nests per bird?
How many should there be?

6. Note the floor in each house and the litter on it.
Have the hens a good place in which to scratch?

7. How is good ventilation secured in the houses?
Make three drawings, showing the front view, the sec-
tional view, and the floor plan of one of the good poul-
try houses studied. These plans should be drawn to a
scale and should be made accurately. A good scale is
one which allows, on the plan, ™%4 inch to each foot.
The drawings should not be made at the time of the
trip while notes are being taken, but should be care-
fully drawn at school or at home.

QUESTIONS

1. Why should there be a dropping board under the
roosts in a poultry house?

2. Why should the feeding platforms be raised?

3. Why is good ventilation essential in a poultry house?

References. —Consult any pcultry book. ‘“‘An Introduction to Agricul-

ture,” Chapter 22. F. B. 574: Poultry House Construction. Dept.
Bul. 464: Lessons on Poultry for Rural Schools. 10 cents.

To the Teacher—Find out where there are a few good
poultry houses near the school. Ask the owners to allow
you to take the class to make a study of these.

Exercise 5
THE NUTRITIVE RATIO OF A RATION

Object—To learn to calculate the nutritive ratio of
a ration.

OCTOBER 39

Materials —A table showing the amount of digestible
nutrients in feeding stuffs. (See Table 1 in Appendix.)

Procedure.—t. A ration is all the food an animal eats
in one day, or twenty-four hours, whether it is fed once
@ day, twice a day,.three times, or oftener. If an
animal is fed and eats 5 lbs. of timothy hay, 2 lbs. of
corn, and 1 lb. of oats three times a day, its ration will
consist of 15 lbs. of timothy hay, 6 Ibs. of corn, and
3 Ibs. of oats.

2. The formula for finding the nutritive ratio of a
ration may be stated as follows:

Total amt. dig. carbohydrates+(total amt. dig. fat XK 2.25 = x.)
Total amount of digestible protein

Therefore the nutritive ratio will be I : x.

3. The nutritive ratio of the ration, mentioned above
is here calculated to show how to use the formula.

Ration Digestible
Carbo-

Feed Pounds | Protein hydrates Fat
Lbs. ae Os Lbs.
mamimcmy Hay... 0c... 15 42 6.36 20
Pee ers sae «Wess 6 47 4.01 .26
Pear hel aie on vik 2 .26 1.48 tk:
Perens) ch | i 11.85 59

11.85 + (.59 X 2.25) 13.18
ras FES

Therefore the nutritive ratio of the ration is I : II.5.
In all these calculations it will greatly simplify and

40 LABORATORY, FIELD AND PROJECT GUE

unify the work if they are carried to one decimal point.
If the second decimal is five or more, add one to the first
decimal; if less than five, drop it.

4. Calculate the nutritive ratio of the following ration,
and put the work in tabular form as in 3.

Alfalfa hay, 15 lbs.; Corn, 6 lbs. ; Oats, 3 Ibs:

5. Calculate the nutritive ratio of the following
ration:

Clover hay, 15 lbs.; Corn, 6 lbs.; Wheat bran, 3 Ibs.

6. Find out some rations which are being fed to some
animals, and calculate the nutritive ratio of one or more
of these rations. Put the work in tabular form as in 3.

QUESTIONS

I. Why do these nutritive ratios vary?

2. Of what importance are nutritive ratios?

3. What is gained by using a leguminous hay in place of
timothy hay?

To the Teacher—These problems may be assigned for
work in arithmetic, and the results be discussed when the
class meets for agriculture. Many arithmetic books give
problems on ratios. In this exercise are given some prac-
tical problems.

Exercise 6
THE COST OF A RATION

Object.—To find the cost of a ration being fed to
some farm animals.

OCTOBER 41

Procedure.—t. If a horse is being fed 10 lbs. of tim-
othy hay and to lbs. of oats in one day, what will be the
cost of the ration if the hay is worth $20.00 per ton,
and the oats $.64 per bushel? One bushel of oats
weighs 32 lbs.

Cost of hay = 313, of $20.00 = $.10
Cost of oats = 43 of .64 20
Cost of ration $.30

2. In calculations such as the one given above, what
prices to attach to the different feeds is a debatable
question. All newspapers quote the wholesale prices
of the feeds and it will simplify the work to use the
prices quoted in the daily papers in figuring the cost of a
ration. Where prices are not quoted in the papers, use
those for which some neighboring farmer is willing to
sell the feed.

3. Find out a ration being fed to dairy cows; to a
horse ;.etc.; and figure the cost of these rations.

4. From the results in paragraph 3, find the cost of
the feed of each animal for a month, and for a year,
assuming that the rations and the cost of the feeds re-
main the same.

5. Ask some one what it costs to feed a horse or a
cow for a year, and compare your results in 4 with
these figures.

To the Teacher.—Assign the problems for work in arith-
metic. These are good practical problems. Make up other
similar problems.

42 LABORATORY, FIELD AND PROJECT GUIDE

Exercise 7
WINTER RATIONS FOR POULTRY

Object—To make a study of rations for winter egg
production.

Explanation.—The production of eggs in winter from
pullets, and to some extent from hens, may be greatly
stimulated by good methods of feeding. In most com-
munities there are some farmers who get many eggs
from their flocks during the winter. By studying their
methods of feeding much may be learned. Also by
studying the records of egg laying contests one may
get good ideas as to what feeds produce the best results.
In a recent egg laying contest the average pen of Io
pullets produced,—

53 eggs in November 94 eggs in January
75 eggs in December 122 eggs in February

(Fifth International Egg Laying Contest, Storrs, Conn.)

Procedure.—1. Find out what some farmer, who gets
many eggs from his flock in the winter, is feeding and
observe his methods of poultry management.

2. In a tabular form, write down the ration being fed.
If time permits calculate the nutritive ratio as sug-
gested in exercise 5. )

3. In like manner tabulate the ration being fed to the
poultry at your home. How do the two compare?

4. In a recent experiment at the Indiana Experiment
Station three pens of Leghorn pullets were fed the
following rations, and the average hen in each pen laid
the number of eggs indicated below:

OCTOBER 43

PEN 1 PEN 2
Scratch Feed Dry Mash Scratch Feed Dry Mash
10 lbs. corn 5 lbs. bran to lbs. corn 5 lbs. bran
10 lbs. oats 5 lbs. shorts to lbs. oats 5 lbs. shorts _
5 lbs. wheat | 31% lbs. beef scraps 5 lbs. wheat 50 lbs. skim milk
Eggs per pullet in one year, 135 | Eggs per pullet in one year, 133.5
PEN 3.
Scratch Feed Dry Mash
10 lbs. corn 5 lbs. bran
10 lbs. oats 5 lbs. shorts |
5 lbs. wheat no beef scraps nor milk

Eggs per pullet in one year, 36

QUESTIONS

1. Why was the number of eggs produced by the aver-
age pullet in pen 3 so much lower than that of the other two?

2. Why should some form of animal feed, like skim milk
or beef scraps, be used, especially in the winter?

3. Why are dry mashes fed to poultry?

References.—A poultry book. An Introduction to Agriculture, Chapter

22. F. B. 889: SBack-Yard Poultry Keeping. F. B. 287: Poultry Man-
agement.

Exercise 8
POULTRY RECORDS AND ACCOUNTS

Object.—To learn to keep accurate, systematic, and
business-like accounts of a small poultry flock.

Explanation.—t1. To learn to be able to keep accurate
and systematic records of any enterprise is an excellent
training for all boys and girls. Accuracy, neatness, and

44 LABORATORY, FIELD AND PROJECT GUS

regularity of entries spell success in this work. Never
put off recording any data until to-morrow.

2. The essential parts of a complete poultry roca
are the opening inventory, the egg record, the income,
the expenses, the closing inventory, and the summary
sheet.

The opening and closing inventories include the value
of the house, fencing, equipment, and poultry.

The egg record shows the number of eggs laid each
day in every month.

The income includes the value of the eggs used at
home, the cash sales of eggs, the sales of poultry, the
value of poultry used at home, and the value of the
eges used or sold for hatching.

The expenses include the value of the home feed used,
of the feed purchased, of the equipment purchased, of
the labor expended, and of the interest on the invest-
ment.

Procedure—tThe following is a year’s record of 12
White Leghorn pullets from Nov. 1, 1916 to Nov. 1,
1917. From the information given, fill out and com-
plete the monthly summaries, and the final yearly sum-
mary given at the end of this exercise.

Opening Inventory—Nov. 1, 1916:

Value of poultry house and fences.......... $12.00

Value of feed hoppers and feed troughs...... 2.00

Value of 12’ pullets2. ce ee ee ee 12.00
Totals cca ceeintie Ace eee eee eee

Enter these on the final summary sheet.
3. The Egg Record—NDaily egg records should always
be kept and from these the monthly egg yield may be

OCTOBER 45

determined. Below is given the monthly egg yields of
the 12 pullets for the year. Enter these statistics on
the sheet of monthly summaries.
Nov. 24 Feb. 229 May 274 eS IOI
ee; | 143 Mar. 267 june. 237 Sept. 180
Jan. 262 Apr: -.200 July 246 Oct. 103
4. The Income.—There should be an income sheet
for each month, showing the itemized sales, and the
number of eggs and fowls used in the home with a value
attached to each item. In the flock of 12 pullets whose
record is used in this exercise, the income consisted of
eggs sold and eggs used in the home. Copy these
records and the totals on the sheet for monthly sum-
maries. (Article 7.)
Nov. Dec. Jan. Feb. Mar. Apri

@asw salestofieggs....... <6 be $2023) 1 fOr28') S4501 0 23-20) | $4). 17
welds Ohieges used. so..). $.70 2.19 2a PEG 2.07 3.28
fotallincome... 6 . J.<<
May June July Aug. Sept. Oct.
Cash SalesioOfeges.4 . se $522). $4.45 $428" $300)" 7 $2.06: $2.47
Value of eggs used.......... I.40 1.67 1.95 I.30 2.59 -79

Motabincome. ,. <<. 2.

5. The Expenses—Below are itemized the expenses
for November, 1916.

Date Item From Whom Amount
Nov. I Y% bu. wheat Dadmun Bros. $.65
Nov.4r 1% bu. oats < 225
Nov. 1 14 bu. corn is i .20
Nov. 2 15 lbs. egg mash Warner’s AS

Total $1.55

The expenses for the remaining eleven months, all for
feed, were :—
Dec. $2.05 Mar. $1.78 June $2.77 Sept. $1.95

Jan. 2555 Apr. 2.53 July I.90 Oct. E75
Feb. 2.03 May 1.75 Aug. 1.65

Enter these on the sheet for monthly summaries. There
were no other cash expenses.

46. LABORATORY, FIELD AND PROJECT GUIR@

6. Closing Inventory.—Nov. 1, 1917.

Valtevot house andirencesseei in tees cee $12.00

= “ feed hoppers and feed troughs...... 2.00

La Sr? Hens EMF Osteen anes Secete 18.00
POtalinc 2 ca Moncks anes pee eee oe here een aN ae

Enter the total on the final summary sheet.
7. The Monthly Statement Sheet—Fill this out from
the data already given.

MONTHLY SUMMARIES

Eggs | Cash Value Total | Cost Profit
Month Eggs per Sale of | of Eggs Value of over
Laid Bird Eggs Used ‘of Eggs Feed Feed

Nov.

8. Final or Yearly Summary.—

Dr. Cr

tT? (OpeninerinventOny ste. ti- te eet XX

2», i MotalRecermtsies . We Meo ol ekateene ahem tere XX
(all sales and products used at home)

2.) ‘Total. expenses a. s-ece tenn. home as xx
(not including labor)

4. Closing Inventory.. XX
(value of everything at close of year) —

5. Interest on Investmient.. 22... 0-0. ----- XX

OF: SDobalse ie ete Cate iipearts ohn odbeieerenerasienes XX XX
Profit or Labor Tacoma... ae xox

9. Labor records, if kept, should be recorded similarly
to the daily egg records. The value of all the labor

OCTOBER | 47

subtracted from the profit over feed, will give the net
profit.

to. What was the average number of eggs laid per
bird during the year? What was the cost of feed per
bird for one year? What was the total profit over the
cost of feed for the entire flock? (Determine this last
item from the final summary sheet. )

To the Teacher—tThis is an excellent problem in arith-
metic and elementary bookkeeping. Assign it for arithmetic
work. This is an actual record taken from the book of a
young project worker.

Exercise 9
POULTRY BOOKLET

Object——To make an illustrated booklet showing the
common breeds of farm poultry and to describe each
breed.

Procedure——t1. Take a number of uniform sheets of
writing or laboratory note book paper, and plan to make
use of them as if they were blank pages in a book.

2: Devote the first sheet to the table. of contents, re-
cording the exercises contained in the booklet in a
columnar form as suggested :—

TABLE OF CONTENTS

Common Classes of Poultry.
. Asiatic: Glass:

. Mediterranean Class

. American Class

5. Our Flock.

hwWD

2. Write only on one side of the paper. On sheet 2
briefly discuss the classification of poultry, naming three

48 LABORATORY, FIELD AND PROJECT GUIDE

or four of the common classes, and illustrate each class
with a small picture cut from an old poultry journal.
When putting paste on the cut, add a very small amount

SAMPLES OF GOOD POULTRY BOOKLETS.—Courtesy Rural students, State
Normal, Whitewater, Ws,
only to the four corners; this will prevent the wrinkling
of the paper. Try to use one sheet only for each topic
mentioned in the table of contents, and put the namie
of the topic on the first line of each sheet.
3. Devote sheet 3 to the characteristics of the Asiatic

OCTOBER 49

class and in a tabular form show the names of the
breeds of this class and the varieties of each breed. In-
sert one picture for each breed if possible.

4. Devote sheet 4 to the Mediterranean class in the
same way as was suggested in 3 for the Asiatic class.

5. Devote sheet 5 to the American class.

6. Devote sheet 6 to the variety of poultry which
you have at home. Classify the birds of your own flock
and tell why your parents prefer that particular breed
and variety.

7. Cut two sheets of colored construction paper so
that they will be about one-eighth of an inch larger on
all four sides than the writing paper. Use these as
covers for the booklet. Bind the book with colored
cords. Give the booklet a name such as

Breeds of Poultry,

Poultry Booklet,
Classification of Poultry, ete.

Print the name neatly, or cut letters from construction
paper and paste these on the cover. Finally, paste an
attractive poultry picture on the outside.

8. Let the booklet be an example of your best work
in writing, language, drawing, and design. You are
judged, by people who do not know you, by the kind
of work you do.

Exercise 10
POTATO SURVEY

Object—To make a potato survey of the school dis-
trict.

50 LABORATORY, FIELD AND PROJECT Gris

Procedure.—1. The following is a suggested’ outline
for a potato survey of the school district.

POTATO SURVEY
SChooleDisinicteNos see ee PRowaio fateee eyes County... s-eeeenene

Totai | Yield

cres in in é
Name of Farmer in Early | Variety) Late |Variety; Esti- per
Pota- } Pota- Pota- mate Acre
toes toes toes

———— | | — |¥ _ |/J | |

|ja wn H

te;

2. One member of the class should copy on the
blackboard the outline for the survey. One representa-
tive of each farm family should copy the outline on a
sheet of paper and take it home to be filled out with
answers as nearly correct as possible.

3. When a farm family in the district is not repre-
sented by children in the school some member of the
school should try to secure the data. An effort should
be made to get the data from all the farms in the school
district. |

4. The data gathered should be written on the-board.
Get the totals. In getting the average yield for the
district, divide the number representing the total yield
in bushels by the number representing the total number
of acres planted to potatoes.

5. Each member of the class should copy all the data
to be saved for a survey booklet to be completed at the
end of the school year.

OCTOBER SI

Project 1
KEEPING POULTRY RECORDS

Object.—To keep accurate records of the home poul-
try flock for a period of six months or a year.

Explanation—This is an excellent project for a boy
or girl in either seventh or eighth grade. The project
need not involve any care of the flock; such a project is
outlined in November. Merely keeping the records of -
the flock is an excellent project in itself, involving arith-
metic and all the fundamentals of bookkeeping. There
is some recording to do every day, and this keeps up the
interest. The work also offers excellent opportunities
for comparing the home flock with other flocks, thus
allowing the owner to get an idea of how well his flock
is doing.

Procedure——1. Carefully read over exercise 8 out-
lined in this chapter. If you have worked this exercise,
completing the monthly and yearly summary sheets, you
should have a good, definite idea of how to complete
poultry records. If you have not, it will be to your
advantage to work the exercise.

2. Supply yourself with a ten cent composition book,
about 7 x 8 inches or a little larger.

3. Use the first page for the title and the purpose of
the project. Make all the work so neat that you will
never be ashamed to show the book to any one.

4. Use page 2 for the opening inventory. Write this
out on scratch paper first, check up all data and figures
to see that they are correct, and then enter these in the
book. Use page 3 for the closing inventory.

52. LABORATORY, FIELD AND PROJECT, Ceram

5. Use pages 4 and 5 for the daily records as sug-
gested in exercise 8 of this month.

6. Use page 6 for one month’s receipts, and page 7
for expenses of the same month. If you are going to
keep a six months’ record, you will need 12 pages for
receipts and expenses; if a year’s record, 24 pages.

7. Use two pages for the monthly sumrhary sheet, or
report. See exercise 8.

8. Use one page for the yearly or semi-yearly sum-
mary report.

g. Plan out your work and your book. Show your
plans to your teacher and parents to see if everything is
provided for. Get some one at home to put the valua-
tions on all the items for the opening and closing in-
ventories.

10. If labor records are to be kept, record the hours
‘of work as you do the daily egg records. Determine
the value of the work per hour and use these figures in
your final summary sheet.

References.—F. B. 889: Back-Yard Poultry Keeping. F. B. 562: Boys’
and Girls’ Poultry Clubs. Poultry Calendar, The Quaker Oats Co., Chi-
cago, Ill., Free. Bul. 464, U. S. Dept. of Agriculture: Lessons on Poultry
for Rural Schools, to cents.

Project 2
PUTTING THE GARDEN INTO A GOOD WINTER CONDITION

Object—To clean up the garden, to fertilize it, to:
plow or spade it so as to have it ready for spring garden
work.

Explanation.—This is a short time project which may
be well done by any boy in seventh or eighth grade.
Too many gardens are neglected in the fall and present

OCTOBER 53

an unsightly condition during the winter. To get a
garden into a good winter condition is a splendid project.

Preparation.—1. Make a study of the care of the gar-
den in the fall. Find out the value of preparing the
garden in the fall.

2. What vegetables may be left in the garden all
winter?

3. What is gained by manuring the tein | in the fall?
By plowing it in the fall?

4. Why should not the plowed garden be harrowed
in the fall?

Procedure——1. Accurately measure the garden and
make a sketch of the garden plan, showing in a general
way where the different vegetables were grown. This
plan may help in forming the plan for the coming year.

2. Remove all crops, not already harvested, which
are not to remain in the ground.

3. Remove all material not suitable for plowing under.

4. Fertilize the garden with manure.

5. Plow or spade the garden and leave it in a rough
condition during the winter.

6. Keep records of your time, other help, and horse
labor. Give all these a value per hour, and figure the
cost and value of the manure.

References.—F. B. 818: Home Vegetable Garden. F. B. 936: eo

and Suburban Garden. F. B. 937: Farm Gardening in the North. F.
934: Farm Gardening in the South

Exhibits
POULTRY EXHIBIT AND SALE

1. In some localities, where a number of boys and
girls are engaged in poultry raising projects, they hold

54 LABORATORY, FIELD AND PROJECT GUiae

an occasional poultry show or exhibit, and have a poul-
try sale.

2. Three or four school districts, or those of a town-
ship, combine to hold the poultry show. The entry list
includes cockrels and pullets of each of the common
varieties raised. Sometimes this list is extended to old
birds. Usually ribbons are given as prizes.

3. In the sale held in connection with the poultry
show, all surplus cockrels and pullets are scored and
valued by a good judge. It is assumed, of course, that
all the birds are pure bred. Farmers are then encour-
aged to buy the pure bred stock. In one rural school
poultry sale, the cockrels sold from $.50 to $10.00.

4. Each boy should make his own exhibition coops.

EXHIBIT OF PROJECT BOOKLETS

1. Each school should make occasional efforts to show
the community some of the work being done by the
pupils. Project and club work should always be empha-
sized. Exhibits of project booklets, together with other
agricultural booklets, make an interesting display.

2. A program for the benefit of the community, in
which the pupils give brief accounts of their project
work, and of their booklet making, will invariably prove
interesting to the community.

(See Exhibits in September.)

THINGS TO OBSERVE IN OCTOBER
Well housed poultry flocks Breeds of swine
Different breeds and varie- Winter crops

ties of poultry Alfalfa fields in good winter
Fall plowing condition
Mulching strawberry plants

NOVEMBER

Exercise 1
STUDY OF AN EAR OF CORN

Object—To make a study of a mature ear of corn.

Explanation—A good ear of dent corn should have
a nearly cylindrical shape. Its length varies with the
soil and season but should be from 8 to 10 inches. The
circumference of a good ear is about three-fourths of
its length. Most ears of dent corn have about 16 rows,
each row containing about 50 kernels of which about 35
should be fit for seed.

Materials —Each member of the class should have a
fairly good ear of corn of a variety grown in the com-
munity, and a ruler. A small household balance or
scales.

Procedure ——t. Determine the answer to each of the
following ten items by referring to the ear of corn you
have.

SNELL 5 eon ka vie ds wo 0 30 to plant ore acre when
PC rcuiiierence §.......5.. drilled at 3” 6" x-14”
epevigaber Of TOWS’....... (10,688 kernels are re-
a mcernels per TOW ..... quired)
5: lotal kernels on ear .... 10. Number of ears required
me Weicht of ear ......... to plant one acre when
7. Ears required for a bush- checked at. 3° 8" x: 3" 8”
pleat 70. 1bs. per bu. .... three kernels inahill ....
8. Kernels fit for seed .... (9,720 kernels are re-
9. Number of ears required quired )

33

56 LABORATORY, FIELD AND PROJECT GUIDE

2. The circumference is usually measured one-third
of the distance up from the butt, by encircling the ear
with a strip of paper and then measuring this paper
with a ruler.

3. Item 8, “Kernels fit for seed.” All the irregular
tip and butt kernels are discarded for seed. Count the
number of regular kernels on an average row and multi-
ply this number by the number of rows.

4. In item 7, a common estimate, generally used, is
L2Quears per bushel. Does the corn you studied run
above or below this average?

5. It is commonly estimated that it requires from 12
to 15 ears of corn to plant an acre. How does the corn
you studied compare with this estimate ?

QUESTIONS

1. Drilling corn in rows 3’ 6” apart and the kernels 14”
apart in the row would be equivalent to planting how many
kernels in a hill, if the hills are 3” 6” x 37 67?

2. What was the average number of rows on all the ears
studied?

3. What was the average weight of all the ears?

4. What would be the number of ears required for 70
lbs., using the average weight per ear?

5. How many average ears would be required to plant
an acre in hills 3’'8” x 3” 8”, three kernels per Inmite

Exercise 2

A. LEARNING TO KNOW THE DIFFERENT GRAINS

Object——To examine heads and threshed samples of
wheat, rye, barley, and oats; and to be able to identify
each.

NOVEMBER 57

Materials —Heads of wheat, rye, barley, and oats,
and threshed samples of each, balance, 1 pint measure
(dry).

Procedure-—1. Examine a head of wheat. Compare
it with a head of rye, of barley, and of oats, and note
how it differs from each of them. Compare threshed
wheat with threshed samples of all the other grains and
note how it differs from each of them.

2. Repeat 1 with rye. How do the threshed samples
of rye differ from those of wheat? .

3. Repeat 1 with barley. Separate the kernel from
the hull and compare it with the separated kernel of
wheat and of rye.

4. Repeat I with oats.

5. What is the legal weight per bushel of each of
these four grains in your state? What is the weight of a
bushel of shelled corn? Why is oats so much lighter
than the others? What is the present market price of a
bushel of each of these grains?

B. GRADING GRAINS

1. When car loads of any of these grains reach the
large markets, they are graded as shown under Market
“Grades. The prices of the various grades are quoted
in daily newspapers.

2. If time permits, practice grading some of these
grains. One pint, dry measure, of each sample is suffi-
cient. From the weight of a pint you can determine the
weight of a bushel. Spread the pint of grain out on a
tin pie plate and examine it. Then make up your
mind into what grade it falls.

58 LABORATORY, FIELD AND PROJECT <GUIRE

MARKET GRADES

OaTs

No. 1 White Oats—Shall be white, dry, sweet, sound, bright, clean,
‘se pom other grain and weigh not less than 32 lbs. to the measured
ushel,

No. 2 White.Oats—Shall be 95 per cent white, dry, sweet, shall con-
tain not more than 1 per cent of dirt, and 1 per cent of other grain and
weigh not less than 29 lbs. to the measured bushel.

Standard White Oats—Shall be 92 per cent white, dry, sweet, shall not
contain more than 2 per cent of dirt and 2 per cent of other grain and
weigh not less than 28 lbs. to the measured bushel. :

No. 3 White Oats—Shall be sweet, 90 per cent white, shall not contain
more than 3 per cent of dirt and 5 per cent of other grain and weigh not
less than 24 lbs. to the measured bushel.

No. 4 White Oats—Shall be 90 per cent white, may be damp, dam-
aged, musty or very dirty.

Note—Yellow oats shall not be graded higher than No. 3 White Oats.

RYE

No. 1 Rye—Shall be dry, sound, plump, sweet and well cleaned and
weigh not less than 57 lbs. to the measured bushel.

No. 2 Rye—Shall be dry, sound and contain not more than 1 per cent
of other grain or foreign matter and weigh not less than 55 Ibs. to the
measured bushel,

No. 3 Rye—Shall include inferior rye not unsound, but from any other
cause not good enough for No. 2 and weigh not less than 53 lbs. to the
measured bushel.

No. 4 Rye—May be damp, musty or dirty, and weigh not less than 50
lbs. to the measured bushel.

BARLEY

No. t Barley—Shall be sound, plump, bright, clean and free from
other grain, and not scoured nor clipped, shall weigh not less than 48 Ibs.
to the measured bushel.

No. 2 Barley—Shall be sound, of healthy color (bright or straw color),
reasonably clean and reasonably free from other grain and seeds, and not
Sean nor clipped, shall weigh not less than 46 lbs. to the measured

ushel.

No. 3 Barley—Shall include slightly shrunken or otherwise lightly dam-
aged barley, not good enough for No. 2, and not scoured nor clipped, shall
weigh not less than 44 Ibs. to the measured bushel.

No. 4 Barley—Shall include barley fit for malting purposes, not good
enough for No. 3.

No. 1 Feed Barley—Shall test not less than 40 lbs. to the measured
bushel, shall be cool. and reasonably free from other grain and seeds, and
not good enough for No. 4, and may include barley with a strong ground
smell, or a slightly musty or bin smell.

Rejected Barley—Shall include all barley testing under 40 Ibs. to the
measured bushel, or barley which is badly musty or badly damaged, and
not good enough to grade ‘‘feed’’ barley.

WINTER WHEAT

No. t Hard Winter Wheat—Shall include all varieties of pure, hard
winter wheat, sound, plump, dry, sweet and well cleaned, and weigh not
less than 61 Ibs. to the measured bushel.

No. 2. Hard Winter Wheat—Shall include all varieties of hard winter
wheat of either or both light and dark colors, dry, sound, sweet and clean,
and may contain not more than 25 per cent of soft red winter wheat, and
weigh not less than 59 lbs. to the measured bushel.

No. 3 Hard Winter Wheat—Shall include all varieties of hard winter
wheat of either or both light and dark colors, not clean or plump enough
for No. 2, and may contain not more than 25 per cent of soft red winter
wheat, and weigh not less than 56 lbs. to the measured bushel.

————E———

NOVEMBER &9

No. 4 Hard Winter Wheat—Shall include all varieties of hard winter
wheat of either or both light and dark colors. It may be damp, musty or
dirty, and may contain not more than 25 per cent of soft red winter
wheat, and weigh not less than 50 lbs. to the measured bushel.

—From “Grades of Grain’”’—Ill. Grain Inspec-
tion Dept., Chicago, Illinois.

QUESTIONS

1. What are advantages of grading grains?
2. Which grade of these grains is most abundantly found
on the markets? (See quotations in newspapers.)

Exercise 3
JUDGING A DAIRY COW ,

Object—To learn to judge a dairy cow by means of
a score card.

Materials—Score card for dairy cows, and a dairy
cow.

Explanation—1. A score card enumerates all the im-
portant considerations or points commonly considered
in judging a dairy cow. The score card also gives a
numerical value to each point; the sum of these numer-
ical values is 100, the score of an ideally perfect animal.
There are many different score cards for dairy cattle.
They differ very little; any one will do. The one here
given is applicable to all dairy cows.

SCORE CARD FOR DAIRY CATTLE

BCC vise 4 vine tax DARINE I 553 to ureieareset 4 Rearster, NOs .« <<:

General appearance.—A dairy cow should weigh not less
then 800 pounds, have large capacity for feed, a dairy tem-
perament, well developed milk organs, fine quality and per-
fect health, and be capable of a large production of milk and
butter fat.

6o LABORATORY, FIELD AND PROJECT Gui]

Points Perfect | Scorer’s | Corrected

Indication of capacity for feed, 25 points:
Face, broad between the eyes and long; muzzle
clean-cut; mouth large; lips strong; lower
jaws lean and sinewy. 5 | eae ek eee
Body, wedge shape as viewed from front, ‘side,
and top; ribs long, far apart and well sprung;

breast full and wide; flanks, deep and full... TO 5 +}... Seole eee eee
Back, straight; chine, broad and open; loin,

broadiandErcomyane eee eee WEE Oe ond ole one
Hips and thurls, wide apart and high........ 5 a 8S cell eee

Indication of dairy temperament, 25 points:

Head, clean-cut and fine in contour; eyes,
prominent tall vand ibrighteee eee ee 3. |. Oe ees

Neck, thin, long, neatly joined to head and
shoulders, and free from throatiness and
(Ken CAE NOW nt ei uel Mee Se eR aterir no Ashe MES tae 4, |.etsa tee eee

Brisket, lean and light t:2-:.,.ten sep aes ae 2

Shoulders, lean, sloping, nicely laid up to

body; points prominent; withers sharp..... A AAs. Ce eee
Back, strong, prominent to tail head and

Open FOMmbed.. ae cline ee ee een oie: 3. Jliaset ee eee
Hips, prominent, sharp and level with Back Bi Wl echo en cohahel eee
Thighs, thinvand ineurving. <0. lose sms. san 7 RPE Fe hig oc
Dathiinelandtapeninges «ae ce ariel { 02... 2:33
Legs, Straight shankmineueaene eerie iat I ||...315420n eee

Indication of well-developed milk organs, 25 points:

Rump, long, wide, and level; pelvis roomy... 3 Hick a See eee
Thighs, wide apart; twist, high and open.... 3 |i sete eee
Udder, large, pliable, extending well forward

and high up behind; quarters, full, sym-

metrical, evenly joined, and well held up to

OG /e eit See OE eer te eee EAT Spee TS. (| |. dckegete sll eee
Teats, plumb, good size, symmetrical, and °

well*placed: ti. 4A voce tae Oe eee oe A lasd. Ale] See

Indications of strong circulatory system, health,

vigor, and milk flow, 25 Regs
Eyes, bright and placid.. RELA othe avore sie 2 ls ee anecoseell ees eee
Nostrls larsevand openseeimrcre seiciniera ster 3 |ecate eee
Chest, Toomyen so coer eee eae EE RR Ras nA diac 6cc

Skin, pliable; hair, fine and straight; secretions

abundant in ear, on body, and at end of tail / ME SA ea esac ic.
Veins, prominent on face and udder; mam-

mary veins, large, long, crooked, and branch- {

ing; milk wells large and numerous........ YE PER se eye Gants occ
Escutcheon, wide and extending high up.... I |

SX 250 0c) ol <r ee PN Ann ey te ena MOORS oc GG re
Name lof: Scorer ni ae soon eee earner Dates ick. Joe. eee
Bul. 281, U. S. Dept. of Agric.

Procedure.—1. First, become thoroughly familiar
with the meaning of all the words mentioned on the
score card.

NOVEMBER 61

2. Then learn to locate accurately the parts of a cow
mentioned on the score card.

3. Form an ideal of a perfect cow in your mind.

4. Be able to describe the parts of a cow as they are
to be found in a perfect animal. .

5. Go, as a class, to a neighboring farm where per-
mission has been obtained to judge one of the cows.

—

wy

HIP BONE. ~~~ ~>- BACH +> >> > et
i chee

Bi ceeo te ' NECK FN eae

SY OWuzz2e£

eo cosonnte
oe
od
aS
Ze

S/DE \ ue
\ Par
ic /
\ LB"
‘
: at OEWLAP
dy
ue pe R
is “@) SnsKET
x e AM MARY ‘\
: @ VEIN <
: 3 :
ge = HN alia
= WW Lal Gol pice.
VALE : ie, L MyWAtiror ate

PARTS OF A DAIRY Cow.—Courtesy U. S. Department of Agriculture

6. With the ideal in mind, proceed to judge the cow.
View the animal from all sides and record the score for
each point in the proper place on the score card.

7. When you have finished, ask the owner of the cow
to score her. in the third
Compare your score

Write the owner’s score
column, called “corrected score.”
with his and note the differences.

8. Does the cow show a good capacity for feed? A

62 LABORATORY, FIELD AND PROJECT (GUtEe

good dairy temperament? Well developed milk organs?
Good health and constitution? Is she a good producer?
(Ask the owner.)

To the Teacher.—Make arrangements with some farmer
near the school to allow your pupils to judge a dairy cow,
and leave a score card with him. Drill the class in naming
and describing the parts of a cow before you go out to
judge the animal. When the pupils have finished their judg-

.

ing, get the owner to judge the animal, and have the pupils
write his score in the last column of the score card headed
“Corrected.”

Exercise 4
COMPETITIVE JUDGING OF DAIRY COWS

Object—To be able to pick out the first, second, and
third best dairy cow from a group of four or five cows,
and to state your reasons for your selections.

Explanation—There occur everywhere contests for
boys and girls in judging a group of animals,—that is,
picking out the first, second, and third best. This exer- .
cise is to help the pupil to learn how this judging is
done. To be successful in such contests you’ need to
practice this judging often. |

Materials —A group of four or five dairy cows.

Procedure ——1. The group of cows should be tied to
a fence or to separate posts far enough apart to permit
each animal to be studied. The animals should be
numbered in the group or class.

2. Carefully observe each cow in the group, bearing
in mind the four questions asked at the end of exercise
3, and also the most important points mentioned on the
score card. Decide which of the cows is the Bese

NOVEMBER 63

DEVELOPS GOOD JUDGMENT.—Courtesy International
Harvester Co.

JUDGING ANIMALS

Enter her number to right of “First Place,” and briefly
state under “Remarks,” why you consider her to be the

best.

STATEMENT FOR COMPETITIVE JUDGING.

RTM Te ae et Se ee Ne PATIO Roker orcs, stele s-< i

Remarks

BRC LaAGer oc eles ha. terete |

Remarks

64 LABORATORY, FIELD AND PROJECT GUIDE

3. Follow this same method in selecting the second
best cow in the group, and also the third. Under “Re-
marks” be sure to state the most important reasons,
omitting minor details.

To the Teacher—Make the arrangements for this exercise
with a nearby dairy farmer, before undertaking to carry it
out. This exercise may be carried out the same day you go
to judge a cow, and on the same farm. Clearly explain the
exercise to the class before you start out to do the work.
Chapter 23, pages 260-261, in “An Introduction to Agricul-
ture,’ gives good suggestions for this exercise.

Exercise 5

COST OF A POUND OF DIGESTIBLE NUTRIENTS IN DIFFERENT
FEEDS :

Object——To calculate the cost of one pound of diges-
tible nutrients, and the cost of one pound cof digestible
protein in a few common feeds.

Explanation—Review exercise 8 in September. The
formula for calculating the total amount of digestible
nutrients in a feeding stuff 1s :—

Dig. protein-+dig. carbohydrates+ (dig. fat2.25)=

total amount of digestible nutrients.

The value of any feeding stuff depends upon the total
amount of digestible nutrients it contains, and upon the
amount of protein.

Procedure—1. Below are four feeding stuffs, or
feeds. Find the total amount of digestible nutrients,
and the amount of digestible protein in 100 lbs. in each
of them. Exercise 8, September, shows these. The
last column is filled out to serve merely as an illustration.

NOVEMBER 65

!
Shelled | Wheat Oats

Wheat | Rye
Corn Bran
Total dig. nutrients in 100 lbs...... 81.60
Digestible protein in 100 lbs.. ah 9.50
Price per 100 lbs.. eee ie $ $ $ $2.50
Cost of 1 lb. of dig. nutrients...... .03
ect or © Ib. dig. protein.......... 26

2. Get the wholesale price of each of the four feeds
considered in I, as given in local newspapers, or use
prevailing local prices. Insert these figures in the proper
places in the outline given above.

3. Calculate the cost of 1 lb. of digestible nutrients in
each feed, and insert these figures in the proper places.
Carry your answers to two decimals. If the third deci-
mal is five or more add 1 to the second decimal; if it

is less than 5, drop it.
| 4, In like manner, calculate the cost of one lb. of
protein in each of the feeds, as in article 3.

5. If time permits, make similar calculation with other
feeds.

QUESTIONS

1. In which of the four feeds considered can you get
I lb. of digestible nutrients for the least money?

2. In which can you buy protein at the lowest cost?

3. What is the cheaper feed, corn or oats?

To the Teacher.—These are good practical problems in
arithmetic which 7th and &th grade pupils should be able to
work. Assign them for arithmetic and discuss the results
in the agricultural period.

Have the pupils extend all calculations to two decimals.
If the third decimal is 5 or more add 1 to the second deci-
mal; if less than 5 drop it.

66 LABORATORY, FIELD’ AND PROJECT Gute

Exercise 6
HAECKER’S FEEDING STANDARDS

Object.—To learn how to calculate the amount of
digestible nutrients dairy cows require, according to the
results or standards Prof. Haecker established from
experiments with feeding dairy cows.

Explanation—After feeding trials with dairy cattle,
Professor T. L. Haecker, at the Minnesota Agricultural
Experiment Station, deducted that an animal weighing
about 1,000 Ibs. needed

Digestible Nutrients.

For Maintenance Protein Carbohydrates Fat
1000 Lbs. sais aes nana | Sema es cen

Lbs. Lbs. Lbs.

Te 7.CO rie

per day to maintain its own weight, when the animal
was not producing milk. He called this amount of
required to00d, “food for maintenance: ”

If the animal was producing milk, he found that for
each pound of milk produced per day, the animal needed
the following additional amounts of food. This amount
varied with the butter fat test of the milk. He called
this additional amount “‘food for production.”

Additional food requirements for 1 lb. of milk testing:

Digestible Nutrients

Test of Milk Protein Carbohydrates Fat
ah et Lbs. Lbs. Lbs.
2% .047 .20 :O17
3°50 049 22 O19
4% .054 24 .O21
4.5% .057 .26 .023
5% .060 .28 .024
es, .064 | .30 .028

% .067 ie Re Ve) .028

NOVEMBER 67

A. Calculating the Food Requirements for Maintenance.

Procedure.—1. The food requirements for the main-
tenance of an 800 Ib. cow are:

Protein Carbohydrates Fat
.56 Lbs. 5.60 Lbs, . 80 Lbs.
.7 lbs. protein .7 lbs. carbohydrates .I Ibs. fat
x .8 <8 <8
.56 lbs. protein 5.60 lbs. carbohydrates .80 lbs. fat

This is so because 800 lbs. is .8 of 1,000 lbs.

2. Calculate in like manner the food for maintenance
required by a goo lb. cow; by a 1250 lb. cow. Give the
results in tabular form as shown above.

B. Calculating the Food Requirements for Production.

Procedure.—1. The feed requirements for the produc-
tion of 20 lbs. of 4% milk are:

Protein Carbohydrates Fat
1.08 lbs. 4.80 lbs. .42 Ibs.
.054 lbs. protein .24 tbs. carbohydrates .021
X20 X20 X20
1.08 lbs. protein 4.80 lbs. carbohydrates .42 lbs. fat

2. In like manner calculate the feed requirements for
the production of 20 lbs. of 3.5% milk; for 30 lbs. of
5.5% milk. Give the results in tabular form as shown
above.

C. Calculating the Food Requirements for Maintenance
and Production.

Procedure—t1. According to the calculations given
above an 800 lb. cow, producing 20 lbs. of 4% milk per
day, would require in one day the following digestible
nutrients :

68 . LABORATORY, :FIELD AND PROJECT GUIDE

Protein | Carbohydrates Fat

lbs. lbs. lbs.

Horamambenance, 600 bse mae eee .56 5.60 .80
For production, 20 Ibs., 4% milk.......:.... 1.08 4.80 242
Rotal requirements. sce eee 1.64 | 10.40 | Lez

2. Ina similar manner calculate the total feed require-
ments fora

goo-lb. cow producing 20 lbs. of 3.5% milk per day,
also for a

1250-lb. cow producing 30 lbs. of 5.5% milk per day.

3. The calculations given above are used to aid in
balancing, scientifically, rations for cows. Standards
for other animals are used in exactly the same way.
Another is given in Table 8, Appendix. If an animal
requires in a day

Protein Carbohydrates Fat
1.64 lbs 10.40 Ibs. 1.22 1ps:

its ration will be balanced when the feed it is fed in a
day contains these three nutrients in the proportions
given above.

QUESTIONS

I. Two cows weigh 1,000 lbs. each. One gives 20 Ibs.
of 4 per cent milk in a day, and the other 40 lbs. of 4 per
cent milk; which one should be given the most feed?

2. Of two cows, one weighs 800 lbs., and the other, 1,200
Ibs., and they both give the same amount of milk, testing 4
per cent; which is the more profitable cow?

To the Teacher—tThe problems in this exercise constitute
good work in arithmetic in the practical use of tables. As-
sign them for arithmetic work and discuss the results in ag-
riculture. For a further discussion of them, see Bul. 130,

NOVEMBER 69

Feeding Dairy Cows. College of Agriculture, St. Paul,
Minn., and Introduction to Agriculture, chap. 21.

Exercise 7
BALANCING RATIONS FOR DAIRY COWS

Object——To learn how rations for dairy cows are
scientifically balanced.

Explanation—A balanced ration is one which supplies
an animal with the proper amount of the three nutrients,
protein, carbohydrates, and fat, in the proper propor-
tions by weight. The feeding standards, based on many
feeding trials, one of which was described in exercise
6, are our best authority for finding out what the needs
of the animals are. If we know the needs, or total
amounts of the three digestible nutrients an animal re-
quires, and then feed that animal a suitable ration con-
taining these digestible nutrients in approximately the
same proportions by weight, the ration will be balanced.
_ Procedure—1. Let us suppose that we have a 1,000
lb. cow which is producing 25 lbs. of 5% milk per day,
and that we want to feed her a balanced ration according
to the Haecker Feeding Standards.

2. The feed requirements for this cow are:

NUTRIENTS REQUIRED

Total
Protein | Carbohydrates Fat Nutrients
bs. Ibs. Ibs. Ibs.
For maintenance, 1000 lbs........ .70 7.00 .10
Bormiesibs.-of 5% milk... 2... 5. I.50 7.00 .60
Total requirements.,........ 2.20 | 14.00 70 17.58

The nutritive ratio of the requirements is I : 7.0.

70 LABORATORY, FIELD AND PROJECT GUIDE

3. Let us suppose that we have on hand red clover
hay, corn silage, and ground barley, corn, and oil meal,
and that by the use of these feeds we wish to feed the
cow a balanced ration. As the data shows, these feeds,
taken in the following amounts, approximately balance
the requirements of the cow.

NUTRIENTS PROVIDED IN RATION.

: ; Carbo- Total
Feed Amount | Protein hydrates Fat Nutene

Lbs. Lbs. Lbs. Lbs. Lbs.
Cloverhay ss 13 92 4.91 24
Corn silage. os). 24 22 .40 4.54 22
Corn ground 1.5.22 2 .16 1.34 .09
Oilatea ly, weno es. I 30 n22 107
Barley, ground.... 2 oi 7) Lipee .03
Oats; ground... i. 3 32 15. 12

Nutrients provided. 7 2.25 13.93 77) Eo Gn

Nutrients required. 220, 14.00 FO 17.58

The nutritive ratio of the food provided is 1 : 7.0.

4. The nutrients in the ration provided, approximately
balance the nutrients required, and the ration is closely
enough balanced for ordinary purposes. Calculations
show that the total amount of digestible nutrients in the
ration slightly exceed the amount in the requirements.

5. In like manner balance a ration for an 800 Ib. cow
producing 20 lbs. of 4% milk a day.

A few hints may not be amiss here.

In formulating rations—

Allow about 1 Ib. of hay and 3% lbs. of silage for
every 100 lbs. of live weight, and 1 lb. of a good grain

NOVEMBER 71

mixture to each 3 to 4 lbs. of milk produced per day.
If no silage is fed, allow 2 lbs. of hay for every i100
Ibs. of live weight.

6. If time permits, balance a ration for a 1,200 lb. cow
producing 30 lbs. of 4% milk per day.

“An Introduction to Agriculture,” Chapter 21, gives.a discussion of
balanced rations. See Exercise 8, September, for calculating the total
nutrients. See Exercise 5, October, for calculating the nutritive ratio.

Exercise 8
JUDGING POULTRY

Object.—To learn how to judge poultry.

Explanation.—In communities which lay considerable
stress on poultry raising, and where poultry clubs exist
in the school, it will be advisable to take up this exercise.
The school should be provided with a copy of “Stan-
dards of Perfection,” published by the American Poultry
Association, Chicago. Price $2.00. It is the most au-
thoritative book on poultry judging, and gives full
directions, disqualifications, and score cards for each
breed.

Procedure—1. Learn the names of the parts of a
chicken as shown in the cut. Cover the names of the
parts, and see if you can name them correctly.

2. Learn to know the characteristics of the different
parts of a bird of the breed and variety you intend to
judge. These are given in “Standards of Perfection.”

3. With your teacher visit a farm where permission
has been secured to judge a bird of the breed whose
characteristics you have studied.

72, LABORATORY, FIELD AND PROJECT GUIPE

gs x

SADDLE
FEATHERS

Wh,
‘afin alu wl & aoe yak é
eae tie

"
Mae hy,
ee ign a iets
Dt > ae, See seas a. ee
c Wr yee =n, PRL ty

CUT SHOWING PARTS OF A GOOD MALE BIRD.—Courtesy Missouri State College
of Agriculture

4. With the ideal in mind, proceed to judge the bird.
Take up each point as it occurs on the score card.

NOVEMBER 73

PouLTRY SCORE CARD

The score card is a means of directing the attention
to the different parts of a chicken with the relative value
given to each part. It does not propose to give a list
of cuts, but rather to help one to judge by comparison.
The following score card divides the bird into ten sec-
tions.

We ne eine 4, cee oceh NUN TITEL gp See NE EAA
2 ee AU Lea Sl ed a acl
Allowed Cuts

Shape |} Color | Shape | Color

———— | eS OO EE OE eee

me ) Condition, weight and size:,...... Dri Meeeteetvee raee etter 5: 2,
REET US) yt a)! avai sd x chal n Vee Hk wbx A ee ALS Ne ir el
Bem AM IMMACES <2 uy. te ok es 2 8 7 tone ot | aan
vib, <1, 1S" 5 RSS elas anes Are ame a eae 4 SMe eet oda
ly BES ee IES Been ae ae pearrir eee 6 PEMA reeoe Sires asa »
La A a na Ee 6 Sa ee es
MAINES os fase. bos nas aio Sie wn ee els 5 Cal Dn oan
PPPS. hc aso edie Ses see 5 Ear WE WoL Paes Vins
(AE) 12 00 SEA ee ee en a oe 5 og Se) ae
pie Peers GOES. fee arcs es oil aes: 3 a eck ae) | ea
Pirate aden ye ta ete alas Sardis 60 ARERR, Beat eins 54)

To the Teacher.—Very often the score card method of judging poultry
is too difficult to undertake unless one has the assistance of a person who
has judged poultry in like manner. Much may be gained by taking the
class to places near the school where the pupils may observe and study
some of the breeds of the four common classes of poultry. Let the pupils
pick out in each flock a few birds which are good specimens of their breed.
If you take up this exercise in this manner, have the class observe, and
describe in their notes, the characteristics of each class and of each breed
of poultry studied.

74. LABORATORY, FIELD AND PROJECT GUIDE

Exercise 9
DAIRY CATTLE BOOKLET

Object—To make an illustrated booklet showing com-
mon breeds of dairy cows. }

Procedure.—i. Read again Exercise 9, October “Poul-
try Booklet.” The general plan of the dairy cattle book-
let will be similar to that of the poultry booklet.

2. Suggested table of contents for a dairy cattle book-
let.

SAMPLES OF GOOD DAIRY CATTLE BOOKLETS... TRY TO MAKE BETTER ONES.—
Courtesy Rural Students, Whitewater, Wis., Normal School

TABLE OF CONTENTS

I. General characteristics 4. Guernseys
of Dairy Cattle 5. Ayrshires
2. Holsteins 6. Brown Swiss,

3. Jerseys 7 7. Dutch Belted

NOVEMBER 7s

t F]

3. Devote page one of the booklet to the ‘‘Table of
Contents,’ and pages 2 and 3, the two pages opposite
each other at the same opening, to the general char-
acteristics of dairy cattle, merely mentioning the differ-
ent breeds in a columnar form. Illustrate your discus-
sions. |

4. Devote the next six pages to the six common breeds
of dairy cattle,—one breed to a page with one or two
illustrations for each breed.

5. Make a cover and bind the booklet as suggested in
Bx Q,;/Oct.

6. A beef cattle booklet may be made in a similar
manner.

Exercise 10
DAIRY CATTLE SURVEY

Object—To make a dairy cattle survey of the school
district.

Procedure —t. The following outline is suggested for
the dairy cattle survey.

DAIRY CATTLE SURVEY.

School District No. ...... MOWNGOle ate lake ets are (OTe ae et a a
DAL Were ee olen sien
Number of Cows Number of
Name of Farmer Pure Young : Breed

Bred Grade | Scrub | tock Sires

ot a le ae

76. LABORATORY, FIELD AND PROJECT, Guige

For articles 2-3-4-5, see Exercise 10, October, and
complete this exercise in same general manner as that
on potatoes.

6. A similar outline may be used for beef cattle.

To the Teacher.—lf the class makes a dairy cattle booklet,
as outlined in previous exercise, this survey would be an
interesting sheet to add to the booklet.

Project 1
SPROUTING OATS FOR LAYING HENS.
Object—To sprout oats for laying hens during the
winter months when no other green feed is available.
Explanation. — Green feed serves
as an appetizer for all kinds of poul-
try. It adds variety to the ration, has

mI

2

good effect upon the digestive system,
and also imparts a good yellow color
to the yolk of the egg. During the
greater part of the year, the free
range supplies ample green feed, but
during the cold winter months sprout-
ed oats form a good substitute for the

|
Ria
A

aT Pare
al

range. Do not undertake this project
unless you have a warm cellar which

contains a heating plant.
TRY YOUR HAND AT

MAKING A RACK FOR Preparation—1. Gather all the in-
TRAYS OF SPROUT- i s
ING OATS, formation you can about sprouting

oats.
2. Try to see some manufactured or home-made oat
sprouters. If it is possible, inquire also the method used
in sprouting oats.

NOVEMBER --

Procedure-—Make six or seven trays about 1% or 2
inches high. For the ends and sides use % inch or 34
inch wood strips. For the bottom of a tray use any
light lumber, such as found in orange or soap boxes.
A good size for the trays is 12 x 18 inches. This is
large enough to supply oats for 30 or 40 hens.

2. Soak enough oats in a bucket of warm water over
night to make a layer 34 to 1 inch deep when spread out
in a tray. The following morning drain off the water
and spread the oats out in the tray.

3. set the tray in a warm part of the cellar and
sprinkle the oats with warm water every morning and
night. Never let the oats get dry. In about two weeks
the oats will have sprouted enough to be used as feed.

4. Every three or four days start a new tray, and
keep the project going as long as you wish to feed
sprouted oats.

+5. If you start a tray every three days you will allow
three days to feed the oats held in a tray, and since it
takes about two weeks for these oats to get ready to
be fed, you will need from four to six trays.

6. A rack may easily be made which will hold all the
trays.

7. Keep accurate account of the amount of oats used
in a month, and of your time, allowing yourself 15 cts.
per hour. What does the sprouted oats cost a month?

Reference.—Poultry Production, Lippincott. Pages 353 and 354.

78 LABORATORY, FIELD (AND PROJECT (Guin

Project 2
WINTER MANAGEMENT OF A SMALL FLOCK OF PULLETS

Object.—To take entire charge of the management of
a small flock, 6 or 12 pullets, during the winter.

Explanation—This is an excellent project for an
enterprising boy or girl during the winter. A small
flock of March or April hatched chicks, fairly well ma-
ture by October, will
begin to lay in No-
vember and continue
to lay during the
winter if the flock is
properly fed and
housed.

Procedure.—1. Be-
fore starting this pro-
ject, one should have
a clear and definite
idea of the different
TWO GIRLS WHO FOUND MUCH ENJoyMent factors essential to

IN TAKING CARE OF THE HOME FLOCK.— -
Courtesy Iowa State Teachers’ College. the successful winter

management of a
flock of poultry. The following topics should be studied
and well understood and all preparations for housing
made before the project is started.

a. What kind of a poultry house and how large a house
do I need for my flock?

b. What interior fixtures should the house have?

c. What is a good winter ration? Is this ration balanced
for egg production? What is its nutritive ratio?

NOVEMBER zy

d. From what source are the birds going to get animal
protein?

e. How am I going to supply the birds with succulent
and green feed?

f. How much scratch feed should I feed the birds?

g. What records ought I to keep?

h. Where am I going to get the pullets? What should I
pay for them? How can I pick out good ones?

2. When all preparations have been made, get the
birds and start the project.

3. Make an account book from a 5,or 10 cent compo-
sition book. Start with the opening inventory. See
Exercise 8, October, and Project 1, October.

4. Keep accurate egg records and receipt and expense
accounts. See Exercise 8, October.

5. Be sure to fill out the monthly summary sheet as
suggested in Exercise 8, October.

6. At the close of the project, get the closing inventory
and fill out the final summary sheet.

7. Get some one to feed the birds at noon and evening
for you when in school.

8. Keep separate labor records, if you wish, and sub-
tract the cost of labor from the profit over feed to get
the net profit.

References.—F. B. 957: Poultry Diseases. F. B. 287: Poultry Man-
i ie cab on Paulity for Rilral, Schoo 10

- cents, Supt. of Public Documents.

See ‘An Introduction to Agriculture,
Publications.

”

Table 1, Appendix, Government

| THINGS TO OBSERVE IN NOVEMBER
Different Breeds of Cattle Winter Protection of Shrubs
Good Milk House Model Dairy Barn
Root Cellar [Grafting A Separator -

, Cuttings of Twigs for Spring Seed Corn Curing Room

DECEMBER |

Exercise 1

TESTING MILK FOR BUTTER FAT

Object—VJo find the per cent of butter fat in milk.

Explanat'on.—In testing milk for butter fat a definite
amount of milk is mixed with a definite amount of acid
in a graduated milk testing bottle. The acid dissolves
all the constituents of the milk except
the butter fat. The bottle containing
the mixture of acid and milk is re-
volved in a Babcock tester which
quickly separates the butter fat from
the mixture. Hot water is then added
to the bottle, and the mixture is re-
volved again. This action brings all
the butter fat up into the graduated
portion of the test bottle so that it
can be measured. This test, known
as the Babcock test, was invented by
rest BOTTLE GC. | CrOl S, M. Babcock. sor then ame

TEST BOM ee

Court D . .
Sepuneioe Je Laval sin State Agricultural College.

Materials—Babcock tester, milk test
bottles, pipette, acid measure, sulphuric acid, samples of
milk, two glasses, beaker, water bath, and thermometer.

Procedure.—1. The fundamental steps in testing milk
are:

80

DECEMBER . 81

a. Sampling e. Heating in a water bath
b. Pipetting f. Reading the test
ce. Adding acid [ing g. Cleaning

d. Whirling and water add-

2. Sampling.—Stir well the milk you are to bring to
school to test, before you take a sample of it. Use a
pint Mason jar in which to carry the milk. When you
are ready to test it, shake the jar gently to loosen the
cream which may stick to the sides. Remove the cover
and pour the milk back and forth in and out of a glass
several times. |

3. Pipetting—I m me dt-
ately draw milk into the pi-
pette by suction with your
mouth, to a point about ™%
of an inch above the circular
mark on the neck of the pi-
pette. Firmly press your

tongue against the opening
a SHOWING PROPER WAY TO ADD THE
of the pipette so that you can MILK TO A TEST BOTTLE.—Cour-
tesy De Laval Separator Co.

place the forefinger of your
left hand over the lower opening of the pipette and re-
lease the tongue. Then press the forefinger of the right
hand firmly over the top opening of the pipette, and
remove the finger at the lower end. A large drop of
milk will fall from the pipette. Now replace the finger
at the lower end, and remove the finger at the top for
a moment and then replace. Release the finger at the
lower end, as before. Continue this until the milk low-
ers to the mark. You have now 17.6 c.c. of milk, or 18
grams. Run the milk into the test bottle held at an angle.

82, LABORATORY, FIELD AND PROJECT, GUipe

4. Adding Acid. —Fill the acid measure to the mark,
with the sulphuric acid used to test milk. Pour it care-
oe and slowly into the bottle, holding the same at a
slant, ~Then miaxeiie
contents by a rotary mo-
tion, the mouth of the
: ate A eee See. | bottle being held away
“-B from the face. Keep on

mixing the contents un-
til all the curd has com-
pletely dissolved.
Read from A to D 5. Whirling and Add-
ing Water.— Place the
bottle in the tester, bal-
ancing with a similar
eae bottle filled with milk or
are water on the other side.
Whirl at the speed in-
dicated on the machine

for five minutes. Stop
ev BE READ.—-Courtesy Indiana Experiment te Machine, anialea ans

seats beaker or acid measure,
add boiling hot soft water to the bottle of milk you are
testing until the fat is raised to the base of the neck.
Whirl again for two minutes. Add more hot water
slowly to bring the fat into the graduated portion of the
neck of the bottle. Whirl for one minute.

6. Heating in a Water Bath—Set the bottle in a hot
water bath, having a temperature of 125° to 135°
Fahrenheit, for ten minutes. If no water bath is avail-
able, proceed at once to article 7, reading the test.

DECEMBER 83

x

7. Reading.—Read the fat column from the very bot-
tom of lower end to the very top of the upper as shown
in cut. Use dividers if you have them. Record the test.

8. Cleaning—Empty the bottles, while hot, with con-
tinuous shaking to loosen the sediment in the bottom.
Rinse the bottles with hot water.

QUESTIONS

I. Why is the testing of milk for butter fat important?

2. Why do many farmers weigh and test the milk of their
cows?

3. If 100 Ibs. of 3.5 per cent milk is worth $2.00, what
would 100 Ibs. of 5 per cent milk be worth if 4 cents is paid
for each 1/1o per cent fat over 3.5 per cent.

Exercise 2

TESTING CREAM AND SKIM MILK FOR BUTTER FAT

A. TESTING CREAM

Object.—To test cream for the per cent of butter fat.
Materials —Milk testing outfit, cream test bottles and
cream balance.

{
1

PEEPPTEPTT EEE PETER CEE PPT EEOTTTE
deme ne— 4 4 4

A CREAM TEST BOTTLE, A CREAM _ BALANCE.—
—Courtesy De La- Courtesy De _ Laval
val Separator Co, Separator Co.

84 LABORATORY, FIELD AND PROJECT (Guia

Procedure.—1. Cream is tested for butter fat in
almost the same manner as milk is. Cream test bottles
must be used, and exactly 18 grams must be put in the
bottles. -For this purpose a sensitive cream balance
must be used. Add the cream from a pipette to the
bottle on the balance until 18 grams have been added.

2. The test is read from the bottom of the column of
butter fat to the top of the meniscus,
or upper curved surface, of the but-
ter fat.

B. TESTING SKIM MILK

Procedure.—t. In testing skim milk
special double-necked bottles must be
used.

2. 17.6 c.c.. of the skim=miligis
* Gorm: Courtesy added to ithe bottle -withy ious

te Gg 8” _nette, but through the. large paieeme

and the test is read on the narrow

graduated neck.
3. Use 21 c.c. of sulphuric acid in testing skim milk.

QUESTIONS

1. Why is the neck of a cream test bottle larger than
that of a milk test bottle?

2. What is gained by testing skim milk?

3. Why does a skim milk test bottle have two necks?

4. How would you write decimally #95%

To the Teacher.—There are for sale pipettes which have
two circular marks around the upper portion. The lower
mark designates the amount of milk to use in making a but-
ter fat test, and the upper mark designates the amount of

DECEMBER 8c

cream to use. Such a pipette may be used in place of a
balance to get the approximate test of the cream.

Exercise 3
DAIRY RECORDS AND COMPUTATIONS

Object—To learn to keep dairy records and to figure
the profit over feed cost of one or more cows for a
month.

Materials —Miulk scales, and record sheets.

Procedure.—1. Make a milk record sheet as suggested
below.

Month Name Name Name Name

Lal

wW to
> | dp | wap

SS|55| 55

|

el
ef

Record the weight of the milk of each cow produced at

each milking.
2. Make a feed record sheet as suggested below.

Name of Cow Name of Cow
Dat Hay Silage Grain Hay Silage Grain
a8 Ibs. Ibs. Ibs. Ibs. Ibs. Ibs.

vie

2.

3

4. |

1 Da fee

Extend this form to the right according to the num-
ber of cows, and down for the number of days in the

86 LABORATORY, FIELD AND PROJECT GUIDE

month. Record the weight of the feed fed, weighing the
ration once or twice a week.

3. About the middle of the month, test the milk of
each cow by taking a little milk from the evening and
morning milkings. Determine the weight of the milk
produced during the first half of the month. Through
your test of the milk determine also the amount of butter
fat produced. Repeat at the end of the month. Get
the totals for the month for each cow.

4. Get the total weight of each kind of feed for
each cow for the month.

5. Make and fill out the suggested monthly summary
sheets.

VALUE OF MILK—MONTHLY REPORT.

Name of Lbs. of Milk Test Lbs. of | Value
Cow Produced Fat
I
2)
Be
Etc.
FEED COST—MONTHLY REPORT.
ts
Name of Lbs. Lbs. Lbs. Total
Cow hay | Cost silage Cost grain Cost | cost of
all feed
te
2. |
3- |
Etc, 3]
PROFITS OVER FEED—MONTHLY REPORT
Name of Value of Cost of Profit over
Cow Product Feed Feed

DECEMBER 87

To the Teacher.—The teacher should try to obtain milk
and feed records of a small herd for a period of one to six
months; and from these data have the class complete the
records outlined above. It may be possible for some mem-
ber of the class to get these records for the teacher, or to
get the data from a tester, if there is a Cow Testing As-
sociation in the district.

Exercise 4

PLACING THREE EARS OF CORN

Object—To place or rank three ears of corn for each
of the points mentioned on the score card.
Materials. —
Three ears of
corn and a score
card.
Procedure.—
raake > three
ears of some va-
Mery Jol “corn
and number
them 1-2-3. This
is done best by
placing a rubber
band around the
center of each

ear and then
opi d THE MIDDLE EAR HAS THE MOST BES EE Se
LENGTH, AND CIRCUMFERENCE.—Courtesy Waiscon-
s Ge under sin State Agricultural College
iiss -o anid. a

small piece of paper on which the number is written.
_ 2. In placing or ranking corn for all the points men-

8. LABORATORY, FIELD AND PROJECT sue

tioned on the score card, you want to know which is
the best, which is the second best, and which is the poor-
est, or in other words, how the ears rank,—first, second,
or third, for each point mentioned. If ear three has
the best tip, and ear one, the second best, the three ears

THE TIP ON THE RIGHT IS THE MOST DESIRABLE.—Courtesy Wisconsin State
College of Agriculture

would rank 3-1-2 under the point, tips, meaning ear
three has the best tip, and ear two the poorest.

3. As a guide for this work use the outline given for
judging corn, Exercise 5, of this month.

4. Proceed in manner suggested above for each of the
points on the score card and record your results in the
form suggested.

FORM OF RECORD FOR PLACING CORN

‘ Sample I Sample 2
Points to Consider ——

First | Second | Third First | Second | Third

Lol

Type and Uniformity.
Maturity and Market
Condition. . Ane
35) Puntty: (a) Kernel......

(DE Coban
A. ishapeof Har. tidcee ne.
5. Length of Ear..
6.
7
8

iS)

Circumference of Ear. . .
Shape of Kernel.. Ne
Uniformity of Kernel
. @haracterlof Germ: .-..
TO: UBUttiss see ae eae oe
TT. LTS ite, facet eee
I2. Space between Rows....
rsa “Sizerof) Cob: 22 sone

DECEMBER 89

5. Place another sample of three ears, in like manner.

Let the second sample be one that some other member

of the class placed. Compare and discuss your results

with his. Did you agree on all points?

6. Which was the best ear of each sample you placed ?
Tell why.

THE SECOND EAR IS THE BEST FROM EVERY STANDPOINT.—Courtesy Wisconsin
Agricultural Experiment Station

Exercise 5
A. JUDGING CORN
Object.—To judge by means of a score card a ten ear

sample of corn.

Materials—Ten ears of corn,

ruler or tape, and a
score card.

Explanation.—In judging corn, ten ears are generally

LABORATORY, FIELD AND PROJECT GUuiI@e

go

The defects of each ear for each point mentioned
on the score card are determined and charged against

used.

$8698

Bie eg
weer es penn

aia

ante

Ga
ee

ik bis

ee aeawee

F sgestinsuunn aa

Sa piss vatiiit Mi Ht

“ts
Loeas
af i eed

Soe

it, as deductions or cuts from the amount of the perfect:

SCOre.

nea ue seme

i Usa oy, rota
uaeeass bit ii sa

A WELL SELECTED AND WELL ARRANGED TEN-EAR SAMPLE.—Courtesy U. S.
Department of Agriculture

in a systematic

Procedure—t1. Arrange the ten ears

Number the ears I to I0.

order, largest ear to the left.

k together on one sample,

-

ils may wor

Two or three pup

one pupil recording the cuts, another the score, and the

he corn.

ing t

handli

’

ird

th

ARD

CORN SCORE C

o

_—
a,
=
a

n

No. of

SCALE OF POINTS

MINOMMNHO
Lon Lol

I00

‘ Che (ia . Se
Aa) sta sales A os
sa Ue ae ee Re
a niente 0) ep an.
Pen somes aC erect
Sf ete ee ae Meat ==] eaictos
Sp tet ae fe 2 ;
fo Speer Shy teary Wa =“ nee :
‘am ° See) ol ae) [ae 5
ee) ros
aq HO OU.
fy ea Oe On cers
: ~~ OM > : 1 BO
Uh -@ob0us 0 2 'OO FZ
apares cages: nO 8
Sel Sho pe Seco = BeGe = Poca aa = ey)
eyelets eS shasta (ai eh) (e) (a
Aen AW5 AH HP DO
BSUF SFeVessagse
Ha & BAOHDOMAAG
HA mM StHOKRDAGHANM
Ln ll oe Bl os I on)

DECEMBER 9!

VARIETY STANDARDS
Recognized Varieties:

Yellow Length Circumference
PRION SMC LOW: Def tcrs, 5 of oschcve 6 ore fanciers TOMOREOMD . coetonanasshiac eae oe 714%4t0o 7%
MESSE TATTIAM IRE cos cs c.ciare wigs evaveio le Cleve @ eiciw vin /ons TOYO MOM ene So cicic ete sieciee Gres 74'to 734
BEINN CLE cc. clos aleleqivs ais « icievelosexe TOWOVT OMG: Miles sucts taneietae)s 71%t0o7%

White :

Peone County White.....s!......6.5- EO a HOE We oinems Ae‘ weiers se 70a 7% to 7%4
PIRES WICC. 05 0. cae ie cee se LOLOMEO Vom aie rie eiataia sco ee 74% to7%
Other Varieties:

Yellow Length Circumference
1S EVP esti oe SS i So Oa Ost Oun Oe yet ares eat 74% to7%
SEM ATICSHNElOWice os sac os ose ce hese BOYS OME: faite o dels cote coos eo 7144 to 7%

White :

Silvermine...... RA as BAN poet see Oe OV COO Gate pine clehe eevee oe 7to7\%
Wamnson Co. White..../............:. TO LSstOUBE ae ee 6 oie ae eee 7144 to 73%
MTEL BPHILEICS ./o oes o Ac kee eeleeace oie’ OU POLO LG Mane tenon taht edotonavs 7144 to 7%

Se etiam ACME aT eer, (hoe aui iene cay aha Ta aecsl Stains a otis ai ahatetre Sansome sua oa late) 6) Sdeteteteteh oye ie

2. Use the guide in determining the cuts. Judge all
ten ears for the first point mentioned on the score card.
If ear 1 does not closely correspond in all particulars to
the variety or type of corn being judged, and if it does
not resemble in a general way the remaining nine ears,
it should be cut for “Type and Uniformity.” How
much? Use your own estimation. It may be cut all
the way from 1/1o of a point to 1 point. Study ear
two in the same manner, then ear three, and so on. Add
the cuts for the ten ears. Subtract this total from
the perfect score mentioned on the score card and record
the difference in the proper place on the score card.

3. In like manner judge the 10 ears for the second
point, “Maturity and Market condition”; then for the
third point and so on to the end.

4. If time permits, when you have judged a sample
of 10 ears, exchange your sample with some other mem-
ber of the class who has judged ten ears and then com-
pare results.

Q2

Io.

DL.

I2.

I3.

large markets.
sample is taken by a State Grain Inspector.

LABORATORY, FIELD AND PROJECT Guin

GENERAL GUIDE FOR JUDGING CORN

Things to Consider

All ears should be alike. Color of
kernels and of cob, and shape and
indentation of kernels should re-
semble the variety.

Corn should be mature and be of
grade 1. See grading corn at end
of this exercise.

a. True to variety.

No discolored kernels.

b. Cherry red for yellow corn.
Glistening white for white corn.

Should be cylindrical, not crooked
or tapering. See illustration.

See notes on score card.

See notes on score card.

Wedge shape, not pointed, deep.

Alike in size and shape. Uniform

on each ear.

Should be smooth and bright.

Not contracted or enlarged.
Kernels in regular rows.
Shank of medium size.

Rounded. Completely covered
with uniform kernels in regular
TOWS.

No space between kernels in the
row at the cob or at the crown of
the kernels.

Medium size. Large cob and shal-
low kernels gives a low percentage
of corn. Percentage of corn 86.

Guide for Cuts.

Cuts from_.1 to 1.0 for each ear show-

ing any differences.

Cut from .1 to 1.0 for each immature
ear and for each ear not good enough
for grade I.

Cut from .1I to .5 for each ear showing

discolored kernels.
Cut from .1 to .5 for each cob off color.

Cut from .I to 1.0 for each ear not

cylindrical.

Add excess and deficiencies of the ten

ears together and cut 1 point for each
inch.

Cut as for 5.

Cut from .t to .5 for each ear showing
poorly shaped kernels.

Cut from .1 to .5 for each ear showing

Cut from .I to 1.0 for each ear having

uniform kernels.

kernels whose germs are shriveled or
discolored.

Cut from .1 to I.o for each ear having
a defective butt.

Cut from .1 to .5 for each ear.

Cut from .I to .5 for each ear.

Cut from .1 to 1.0 for each ear having

a large cob.

4

B. MARKET GRADES OF CORN

Explanation.—Only shelled corn is shipped to the
When a carload arrives at a market, a

He sends

DECEMBER 93

this sample to the state laboratory where it is graded.
Then the whole carload, from which the sample has been
taken, is given the grade allotted to the sample. The
value of the corn is determined by the grade into which
it is put. Daily papers usually publish the current
wholesale selling price of each grade of corn. The
market grades of corn are here given.
RULES FOR GRADING CORN.

The following maximum limits shall govern all inspection and grading of corn:

MAXIMUM PERCENTAGES OF

Grade _
Classification Foreign material, “Cracked”
White, Yellow Damaged | including dirt cob | corn, not in-
_ and Moisture Corn other grains, fine- | cluding finely
Mixed Corn ly .broken corn, | broken corn.
etc.
LN oa tes ee I4.0 2 I 2
DN OM Steel cies £525 4 I 3
INO See cee T75 6 Fe 4
RU eM estar fet rena 19.5 8 2 4
AOU ESR areicie ae a 2E5 Io 3 5
IN Ge SOrcicp atc o.e" os 23.0 I5 5 7

“Sample’”’ See General Rule No. 5 for Sample Grade.

General Rules—1. The corn in grades No. 1 to No.
5 inclusive must be sweet.

2. White Corn, all grades, shall be at least 98 per cent
white.

3. Yellow Corn, all grades, shall be at least 95 per cent
yellow.

4. In addition to the various limits indicated, No. 6
corn may be musty, sour, and may also include corn of
inferior quality, such as immature and badly blistered.

5. All corn that does not meet the requirements of
either of the six numerical grades by reason of an exces-
sive percentage of moisture, damaged kernels, foreign

94. LABORATORY, FIELD AND PROJECT, GUtae

matter or “cracked” corn; or corn that is hot, heat dam-
aged, fire burnt, infested with live weevil, or otherwise of
distinctly low quality, shall be classed as sample grade.

6. Moisture percentages, as provided for in these
grade specifications, shall conform to results obtained by
the standard method and tester as described in Circular
72, Bureau of Plant Industry, U. S. Department of Agri-
culture. |

Procedure.—1. Grade a quart sample of shelled corn.
To do this, take a handful of the corn, spread this out
on the desk, and follow the directions given in the Rules
for Grading Corn, omitting the moisture test.

2. Into what grade did you put the corn? Why?

To the Teacher—A booklet on market grades of corn and
other grains can be secured, free of charge, from the IIli-
nois State Grain Inspection Department, Chicago, Illinois.

Exercise 6
STRUCTURE OF SEEDS

Object.—To make a study of a kernel of corn and of
a lima bean seed.

Materials —Soaked kernels of corn and soaked lima
bean seeds.

A. CORN

Procedure.—1. Make an enlarged drawing of a kernel
of corn with the germ, or depressed side, toward you.

2. Cut a soaked kernel of corn lengthwise through
the center. Draw a picture of the cut surface and label
the endosperm, cotyledon, stem, and root.

3. Cut another kernel crosswise in three regions,—one

DECEMBER 95

above the little stem, one through the stem, and a third
through the region of the little root. Make an enlarged
drawing of the lower surface of each of the first three
cut sections. Label all parts.

4. What is the function of each part of the kernel?

B,. LIMA BEAN

Procedure.—t1. Make an enlarged drawing of the side
view of a lima bean seed.

2. Carefully remove the seed coat of a soaked lima
‘bean, being careful not to break off of the seed, the
small, peg-shaped structure. Draw the seed as you see.
it now.

3. Carefully remove one of the cotyledons so as to
leave the little, peg-shaped structure, or root, and the
sma!l structures, or leaves, between the cotyledons, at-
tached to one cotyledon. Draw the inner surface of this
cotyledon showing the little immature plant attached to
if... Label. parts.

4. How does a bean seed differ from a kernel of corn?

To the Teacher—A few days before you take up this
exercise with the class, soak in a glass of water enough navy
bean seeds and kernels of corn to supply the class.

Exercise 7
EXAMINATION OF FARM SEEDS

Object—To become familiar with the characteristics
of a number of farm seeds, such as clover, alfalfa, tim-
othy, etc.

Materials—One ounce samples of three or four com-
mon farm seeds.

=

96 LABORATORY, FIELD AND PROJECT. GUIDE

Procedure.—1. Place a small teaspoonful of each seed
sample on a sheet of white paper.

2. Separate the large, plump seeds from the small,
shriveled, or broken seeds, and from other material.
Make four groups out of each sample as:—1. Large
seeds; 2. small or broken seeds; 3. weed seeds; 4. inert
matter as chaff, dirt, ete.

3. Briefly describe the sample you have examined.

4. In like manner examine other samples. Through
such exercises as this, learn to detect the difference be-
tween high grade and low grade seed.

QUESTIONS

I. Does it pay to buy low grade seed? Why not?

2. How are seeds commonly cleaned?

3. Should oats, wheat, and other large seeds be cleaned
before they are used for seed?

To the Teacher—Some of the members of the class may
be able to bring enough of two or three kinds of small farm
seeds for this study. If not, buy some from a local mer-
chant, or send to a seed dealer. See list, Exercise 8, Feb?
ruary.

Exercise 8
DIGESTIBLE NUTRIENTS FROM AN ACRE OF LAND

Object—To learn how to find out how many pounds
of total digestible nutrients an acre, sown to one of the
few common crops, produces.

Materials —Table showing the amount of digestible
nutrients in feeds. See table 1 in the Appendix.

Procedure.—t. If the yields of crops indicated below

DECEMBER 97

could be grown on one acre of land, which crop would
produce the greatest amount of total digestible nutri-
ents?

2. To answer this question review Exercise 8, Sep-
tember, and then fill out the following table:

bs: af Total Lbs.

IU
Yield Lbs. of : ‘ Lbs. of of Diges-
Crop per Lbs. | Digestible asec Digestible tible
Acre Protein hydrates Fat Nutrients
(Fat x 214)
Alfalfa hay 3 tons | 6000
Red clover hay | 1% :
Timothy hay eee
Corn silage 8
QUESTIONS

I. Which of the crops mentioned above gives the largest
amount of digestible nutrients per acre?

2. Which crop gives the largest amount of protein per
acre °

3. Can you suggest what crops it would be most profitable
to grow on a small dairy farm?

To the Teacher.—Consult Exercise 8, September, for cal-
culating “Total Pounds of Digestible Nutrients.” This ex-
ercise may be assigned for arithmetic work and the results
discussed in the agriculture class.

Exercise 9
THE INFLUENCE OF DRAINAGE ON PLANT GROWTH

Object—To illustrate how the drainage of free water
from the soil benefits plant growth.

Explanation.—This is a class exercise. Assist in pre-
paring the material. Describe each step under procedure
in your notes.

98. LABORATORY, FIELD: AND PROJECT sGutee

Materials —Four large empty tin cans.

Procedure.—1. Fill two empty cans, without any holes
in the bottom or sides, with a rich light garden soil and
plant in each can ten wheat or oat grains.

2. With a nail and hammer make eight or ten small
holes in the bottoms of the other two tin cans and a
few more holes around the sides of the cans near the
bottoms. Fill these cans with the same soil as you did
the first two cans. Plant the same number and the same
kinds of kernels in each of these cans that you did in
the others.

3. Keep all the cans in a warm room, and about twice
a week add exactly the same amount of water, % to
L cupfiul) to each can:

4. After three or four weeks, describe the results and
account for the differences.

QUESTIONS

1. Why is good drainage necessary for the best growth
of plants?
2. How are wet fields generally drained?

Exercise 10
GRAIN SURVEY

Object—The object of this exercise is to find how
much wheat, oats, barley, and rye are raised in the school
district.

Procedure.—t. The following outline is suggested for
this survey: )

DECEMBER | 99

GRAIN SURVEY
Wheat Oats Barley Rye

Farmer ———————_ | qjqKr pom —_—) mo ——
Acres | Yield | Acres | Yield | Acres | Yield | Acres | Yield
Bu. Bu. Bu. Bu.

2. Copy this outline on the board and proceed with
the survey as outlined in Exercise 10, October.

3. Finally fill out the following suggested record for
the totals of each crop.

4. How do the yields per acre of these crops in the
district, compare with the yields of the same crops per
acre in the county? In the state? Your state abstract
from the U. S. census will give the average yields per
acre of your county and your state.

Project 1
KEEPING DAIRY FEED RECORDS

Object.—To keep a feed record of one or more cows
for a month.

. Explanation—With the work thus far outlined in
feeding animals, Ex. 5 and 6 in October, and Ex. 5, 6, 7
in November, it should not be difficult to figure the
amount of the different kinds of feed fed one or more
cows in a month, and to ascertain the cost of the month’s
feed.

100 LABORATORY, FIELD AND PROJECT GUIDE

Preparation—1. Find out simple ways of weighing
the different feeds and provide milk scales or spring bal-
ances for weighing the feed.

2. Prepare simple record sheets for recording the
weight of each kind of feed as suggested in Exercise 3
of this month.

Procedure.—1. When the feed is measured out for
the animal, weigh it and record the weight of each kind
of feed. See Exercise 3, December.

2. It will not be necessary to weigh the feeds at each
feeding, if the proportions remain the same, but when- —
ever a change is made, be sure to get the accurate
weights of the changed feeds.

3. Calculate the total amount of each kind of feed fed
each animal during the month.

4. Calculate the cost of each kind of feed forma
month, using current prices.

5. Get the total cost of the feed for each animal for a
month. |

Reference.—S, R. S. Doc. 38: U.S. Dept. of Agriculture, Farm Records
and Accounts.

Project 2
TO KEEP MILK AND BUTTER FAT RECORDS OF THE HOME HERD

Object—To find out how much milk and how much
butter fat each cow in the home herd produces in a
month.

Preparation—1. Review Exercise 3 of this month.

2. Prepare a milk record sheet as suggested in Exer-
cise 3, and make preparations for weighing the milk.

DECEMBER Io!

3. Review Exercise 1 of this month, and make prep-
arations for sampling and testing the milk.

Procedure.—1. Weigh the milk of each cow at each
milking and record each weight in its proper place on the
milk record sheet.

2. On the fifteenth day of the month, take a sample
of the mixed morning and evening milk of each cow in
a bottle, and test this sample for the per cent of butter
fat. Review Exercise 1, December. Find out how
much milk and how much butter fat each cow has pro-
duced in the first half of the month.

3. Repeat the work for the last half of the month.

4. Determine the total records for the month.

THINGS TO OBSERVE IN DECEMBER

A good laying flock. Well protected farm imple-

A good producing herd. ments.

The making of butter and How snow protects winter
cheese. crops.

A good swine house. Action of ice in forming soil

particles.

JANUARY

Exercise 1
HOW SEEDS GERMINATE

Object—To see how seeds germinate and begin to
grow.

Materials—Two pie plates, two pieces of cloth, and
about five kernels each of corn, wheat, oats and five bean
seeds. |

Procedure.—t. Place several thicknesses of a clean
and damp cloth in the bottom of one of the pie plates.

2. Scatter a few of the four kinds of seeds over this,
and cover with another plate.

3. Set the plates aside in a warm place and keep the
cloths moist.

4. In about four or five days the seeds will begin to
germinate. Study them and learn how they begin to
grow.

5. Draw bean seedlings in different stages of growth.

6. Repeat 5 for corn or wheat.

QUESTIONS

1. Which of the seedlings studied would have had the
most difficulty in breaking through the soil?
2. Through what kind of a soil can beans break most
easily, a light soil or a heavy soil? Why?
102

JANUARY 103

To the Teacher—Have the class do this work at home
and bring the plates with the germinated seeds to school
to study the results and to make drawings.

ILLUSTRATING THE PLATE TESTER IN USE.—Courtesy Indiana Agricultural
Experiment Station

Exercise 2

CANDLING EGGS

Object.—To learn how to candle eggs and to be able
to tell a bad egg.

104. LABORATORY; FIELD AND) PROJECY GUIDE

Materials —An empty shoe box or a round Quaker
Oats box, or a special egg tester. Lamp or Electric:
light.

Procedure.—1. Make an egg tester as is shown in the
cut. An empty shoe box or a round Quaker Oats box,
which will fit over a lamp is all that is needed. Make
several holes in the bottom of the box, to admit air.
The hole in the side should be smaller than an egg and
on a level with the flame of the lamp. The top of the
box should extend above the top of the chimney. An
egg tester from an incubator may take the place of the
box.

2. If electricity is available, an electric light may take
the place of the lamp, and the bottom and top of the ©
box may be air tight.

3. Night is the best time to candle eggs.

4. Spoiled eggs and eggs having blood spots will show
dark masses in the region of the yolk. Good eggs will
appear clear before the light.

5. Practice candling fresh, stale, and bad eggs and
thus learn to tell fresh and good eggs from stale and bad
ones.

QUESTIONS

1. Why should eggs be tested?

2. How can you tell a stale egg from a fresh egg?

3. Are eggs showing blood spots suitable for cooking
purposes?

To the Teacher.—Demonstrate to the class how to test
eggs, so that they may be able to make practical use of this
exercise at home. Testers coming with incubators may be
used if available.

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105

106 LABORATORY, FIELD AND PROJECT GUIDE

Exercise 3 ;

LO STUDY “THE ERPECT OF LIMEVON, \CLAy

Object—To see how lime causes fine soil particles to
gather into small masses.

Materials —Two glasses or large mouthed bottles.
Samples’ of clay or loam soil. Lime or lime. water.

Procedure.—1. Add one or two tablespoonsful of a
clay or loam soil to each of two glasses or bottles of
water.

2. Stir or shake these well.. Add a teaspoonful of
powdered lime, or several tablespoonsful of limewater
to one of the glasses or bottles and stir well.

3. What difference do you see in the way the soil
particles settle, and the way the liquids clear up?

4. The lime causes the particles of clay in the soil to
form into tiny clusters and these settle more readily.
The process of forming these particles is called floccula-
tion. Clay soils are greatly improved by lime. The
clustering of the particles makes the soil more porous,
and this is a benefit both because it allows air and water
to enter the soil more readily, and because it tends to
keep the soil from baking, and, therefore, makes the
soil more suitable for plant growth. |

QUESTIONS
1. For what, purpose is lime usually added to soils?

2. What class of crops are most benefited by lime?
Exercise 4
RISE OF WATER IN SOILS

Object—To show how water rises in different kinds
of soil and in soil materials.

JANUARY 107

Explanation—This is a class exercise in which the
entire class should assist. Each member of the class
should follow the outline when writing up the experi-
ment.

Materials.—About six tall lamp chimneys, cheese cloth,
sand, fine gravel, and samples of different classes of
soils. Frame to hold the lamp chimneys.

DEVICE SHOWING THE MOVEMENT OF WATER IN SOIL.—Courtesy U. S. Depari-
2 ment of Agriculture

Procedure—1. Assist in making a rack as illustrated
in the picture, to hold five or six lamp chimneys.

2. Tie a piece of cheese cloth over the end of each
chimney.

3. Fill one chimney with fine gravel, one with sand,
and the others with different classes of soils, all air
dried.

4. Place the chimneys, cheese cloth end downward, in
the rack so that the lower end of each chimney sinks

—

108. LABORATORY, FIELD AND’ PROJECT GUIDE

about one inch into a pan of water or into a glass of
water under each.

5. Note the difference in the rate and extent of rise
in each chimney for one hour, two hours, four hours,
and aday. Record the results in tabular form.

6. How do you account for the differences in the rate
and extent of the upward movement?

7. This upward movement is due to capillary attrac-
tion and we commonly speak of the rise of the water
as capillary rise.

Exercise 5

HOW TOO MUCH VEGETABLE MATTER CHECKS CAPILLARY RISE
OF WATER

Object—To show how a layer of vegetable matter
separating two layers of soil checks the capillary rise
of water.

Explanation—This exercise should be worked by the
class as a whole, each pupil assisting the teacher in get-
ting the materials ready. Each member of the class
should write up the experiment, and answer the ques-
~ tions.

Materials—Same as used in previous experiment and
a handful of cut straw or hay.

Procedure.—t. Fill one chimney again with soil simi-
lar to that used in the previous experiment in which
the water rose to the top. .

2. Fill another half. full with the same soil and then
put in a handful of cut straw or hay to make a layer
about 1 inch thick. Upon this, pour enough of the

JANUARY 109

soil to fill the chimney. Set both chimneys in water as
before. : |

3. Note the difference in the extent of the rise of the
water in the two chimneys.

4. What may be the effect upon a field of plowing
under too much grass or undecayed vegetable matter?

QUESTIONS

‘I, What would happen in 2, under Procedure, if the
vegetable matter and soil were well mixed?

2. Describe instances when a farmer may plow under
too much vegetable matter.

Exercise 6
TO SHOW HOW SOIL WATER ENTERS THE ROOTS OF PLANTS

Object—To illustrate the process of osmosis, or how
soil water enters the roots of plants.

Explanation—Two or three pupils working together
should be able to set up the materials for this exercise.
Each pupil should follow the outline in writing up the
experiment. This process may also be illustrated by
putting a slice of a potato into salt water and another
slice into clear water. Here the movement in and out
of the potato is illustrated. |

Materials —1. Lamp chimney, Mason jar, skin of a
Bologna sausage, and a thick solution of molasses.

Procedure.—1. Remove the contents of a link of
Bologna sausage, being careful not to rupture the skin.
Soak the skin in water a few minutes to remove all the
meat particles.

110 LABORATORY, FIELD -AND PROJEGY. GUIRE

2. Tie a piece of the skin tightly over the small end
of the lamp chimney (as shown in the illustration).
Pour water into the chim-
ney to test how securely
you have fastened the skin.
It should not leak.

3. Empty the chimney
of water and half fill it
with a thick solution of
molasses, and place the
chimney in a Mason jar
nearly filled with water.

4. Set the apparatus to
one side and note the rapid-
ity and height to which the
liquid rises in the chimney.

5. The passage of wa-
ter through the skin into

DEVICE FOR SHOWING osMosts— the molasses is called osmo-
Courtesy Massachusetts Depart- : ,
ment of Agriculture sis. Soil water enters )ime

roots of plants by the process of osmosis. (Your physi-
ology book may explain this process. )

QUESTIONS

1... What would happen if the molasses solution were in
the jar and the clear water were in the chimney?

2. Would plants absorb water from a soil in which there
was an over-abundance of soluble plant food?

JANUARY III

Exercise 7
PLANT FOOD REMOVED BY CROPS

Object——To learn to be able to find out how many
pounds of nitrogen, phosphorus, and potassium are taken
by crops from the soil when a crop ts harvested.

Materials —Table ‘showing the amount of plant food
contained in farm crops. See Table 2, Appendix.

Procedure——1. Let us assume that during a period
of four years we are harvesting from one acre of land
the four crops mentioned in the following:

POUNDS OF PLANT FOOD REMOVED PER ACRE

‘ q Nitrogen Phos- Potas- | Value of
Cro Yield Weight phorus sium Plant
* eee Removed | Removed Food
Lbs Lbs. Lbs Lbs
1 | Corn 50 bu.
2 | Corn stover 114 tons
3 Total
4| Wheat 20 bu.
5 | Wheat straw I ton
6 Total
7 | Clover hay 11% tons
8 | Timothy hay | 1 ton

2. Determine the weight of these crops in pounds
and, with the aid of Table 2 in the Appendix, determine
the amount of plant food removed by each crop. Make
no charge for nitrogen in the clover crop because it is
assumed that the nitrogen it contains comes indirectly
from the air in the soil by the action of bacteria.

3. Find the cost of each element of plant food re-
moved by each crop, assuming that a pound of nitrogen
is worth 20 cents, a pound of phosphorus 6 cents, and a

pound of potassium io cents. Record your results in
the last column.

112 LABORATORY, FIELD AND PROJECT GUIDE

4. Which crop removed the most plant food?
5. How can this amount of plant food be returned
to the soil?
| QUESTIONS

1. Is it necessary to put plant food back into the soil?

2. What would ultimately be the result if no plant food
were put back into the soil?

3. What materials do farmers in your community add to
the soil to replace the plant food removed?

4. What is the approximate cost of a pound of each of
these three elements in a complete fertilizer. (Find out
from a local fertilizer dealer.)

To the Teacher—This is a good practical problem in
-arithmetic involving the use of a table. Assign the exer-
cise for arithmetic work and discuss the results in the ag-
riculture class.

Exercise 8
PLANT FOOD ADDED TO SOILS

Object—To learn to be able to find out how much
plant food is added to an acre of land.

Materials —Table showing the amount of plant food
in manure and in commercial fertilizers. See Tables 2
and 3 in Appendix.

Procedure.—1. Let us assume that a farmer adds 10
tons of average farm manure and 400 lbs. of phosphate
rock to an acre of land in four years. How much plant
food is added? Complete the following table. Refer to
Tables 2 and 3 in the Appendix.

JANUARY 113

POUNDS OF PLANT FOOD ADDED PER ACRE

Material Nitrogen Phosphorus Potassium

Lbs. Lbs. Lbs.

2. Does the amount of plant food added equal that
removed in the four years of cropping in the previous
exercise ?

3. Below are given the important factors necessary
for the maintenance of soil fertility:

1. Raise live stock

2. Rotate the crops

3. Grow clover, alfalfa and
other legumes

4. Save the barnyard manure

5. Pasture rolling lands to pre-
vent washing

6. Add humus—don’t burn
the stalks:

7. Supply needed elements.

—International Harvester Co.

In place of the elements of plant food nitrogen, N, phosphorus, P, and
potassium, K, the term ammonia NHs, “phosphoric acid’ P2,O;, and potash
K20, are often used. These last three substances are simple compounds
containing elements nitrogen, phosphorus, and potassium. To change:—

Nitrogen to Ammonia, multiply by 1.2
Phosphorus to ‘“‘phosphoric acid” multiply by 2.3
Potassium to potash, multiply by 1.2.

Exercise 9
CROP ROTATIONS

Object—To make an outline of a number of crop
rotations.

114 LABORATORY, FIELD AND PROJECT GUIDE

Ex planation.—

WHY CROP ROTATION IS PROFITABLE

1. Helps maintain soil fertility

2. Improves physical condition of soil

3. Combats weeds, insects and
plant diseases

4. Prevents washing of soil

5. Furnishes a variety of feed

6. Distributes farm work
throughout the year

7. Leads to live stock farming

8. Insures against crop failure

g. Means living on the farm.

ty es ae 3
A ‘A Calivaled a \3

A COMMON FOUR YEAR ROTATION

ore First Year Second Year Third Year Fourth Year
Clover Mixed Hay Corn ; Small Grain
B Mixed hay Corn Small grain Clover
Cc Corn Small grain Clover Mixed hay
D Small grain Clover Mixed hay Corn

Courtesy Wisconsin Agricultural Experiment Station

Procedure.—t. An outline for a common three year
rotation of corn, oats, and clover is:—

JANUARY 115

Field A. Field B. Field C.

Maes VEAL ss cae soa) Ree -« corn oats clover
PIEROMUL VGAT p 0 sates lees oats clover corn
PRIPOMYVCOT. S.A No 4 clover corn oats

2. Make a similar outline for a four year rotation.

3. For a five year rotation.

4. Make an outline of some of the rotations prac-
ticed in your community.

QUESTIONS
I. How does the rotation of crops help in maintaining
soil fertility?
2. How does crop rotation improve the physical condition

of the soil?
3. How does the rotation of crops combat weeds, insects,

and plant diseases?

Exercise 10
FARM CROP BOOKLET

Object—To make an il-
lustrated booklet describing
the common farm crops of
the community.

Materials — An old seed
catalog.

Procedure.—t. Read again
Exercise 9, October, “Poul-
try Booklet.” Follow these
directions, making them
applicable to a farm crop
booklet. Cut your illustra-
tions from an old seed cata- SAMPLE OF GOOD AGRICULTURAL

BOOKLETS.—Courtesy Interna-
log. Devote one or two tional Harvester Co.

116 LABORATORY, FIELD AND PROJECT GUIDE

pages to each crop, and include all the important crops
of the community.

Exercise 11
SILO SURVEY

Object—To find out how many silos there are in the
school district.

Procedure.—1. Read Exercise 11 in September and
Exercise 10 in October. Follow the same general direc-
tions and gather the data suggested below, in making
the silo survey.

SILO SURVEY
School District No...:....... Towmolaacaneiec che Co... he eee

| Kind Diameter | Height
of silo ft. rt.

—_———— | |

Name of Farmer

: A
Capacity | required
in tons to

HP ODA
o Siienus

Project 1
CHECKING UP THE HOME ‘HERD

Object——To find out the value of the milk which the
cows of a herd are producing in a period of six months
or a year, to find out the cost of the feed fed to these
cows during this same period, and finally, to find out the
profit each cow is making over the cost of her feed.

Explanation.—In this project we are going to try to
do exactly what a cow testing association does. There
are two parts to the project, keeping the milk and butter
fat records, and keeping the feed records. The work
of these parts has been explained in Exercise 3, De-
cember.

JANUARY hi7

Preparation—1. Study Exercise 1, December, again.
-2. Learn how to keep feed and milk records.

3. If possible, study the records of a member of a
cow testing association. Get a milk weighing scales for
weighing the milk and feed.

4. Make the feed and milk record sheets. See Exer-
cise 3, December.

5. Tack these up in a convenient place.

Procedure—1. Weigh the milk of each cow at each
milking and record the weight in the proper place on
the milk sheet.

2. Find out what the daily ration for each cow is and
record this on the feed’ sheet Get the current price
of each feed to make the proper charges.

3. Once or twice a month, test the milk, and deter-
mine the amount of fat each cow has produced, as sug-
gested in Project 2, December. Keep posted on the
selling price of milk or cream. With these figures, find
the value of each cow’s milk product for each month.

4. Determine, monthly, the cost of feed per cow.
Keep posted on the market value of feeds. See Project
1, December.

5. Determine the profit over the cost of feed per cow
for each month, also the profit over the cost of feed for
each cow for the entire period. See Exercise 3, De-
cember.

THINGS TO OBSERVE IN JANUARY

‘Silos and silage Care of farm manure
Ventilating systems in barns Wind breaks
Commercial egg candling A cow tester at work

Wintering of beehives

FEBRUARY

Exercise 1
WATER CAPACITY OF SOILS

Object—To show that different classes of soils vary
in the amounts of water they can hold and that decayed
vegetable matter increases a soil’s power to hold water.

Explanation —This is an exercise to be worked by the
class as a whole. Each member of the class is supposed
to assist in getting the apparatus ready and to help in the
working of the experiment. Each member, also, should
briefly write up an account of the experiment, fill out the
table, and answer the questions.

Materials—Samples of sand, loam soil, clay soil, leaf
mold or peat, five tin cans, a spring balance, a nail, and
a hammer.

Procedure—1. With a nail and hammer punch 8 to Io
small holes in the bottom of each of the five tin cans.
Also punch two holes in the tops on opposite sides. Run
a strong string between these top holes, that you may
be able to weigh the can. You may, in this exercise, use
the lamp chimneys used in Exercise 4, January, in place
of the tin cans if desired.

2. Weigh each can with a spring balance. Record
the weight in the tabulated suggested form. After:
weighing, fill each can two-thirds full, respectively, with

118

FEBRUARY 119

sand, loam soil, clay soil, leaf mold or peat, and with
one-half sand and half leaf mold or peat, and weigh each
again. Record weights.

3. Add water to each can until its contents are thor-
oughly wet. Allow all the free water to drain off; then
weigh each can again. Record weights.

Sand

Sand Loam Clay Peat and
Peat

PeAVWeISIGVOL GAT... occ. s «Secs sess
. Weight of can and soil........
meVeIeltOl SOll ccna ee el cas
. Weight of both with water...
. Weight of water retained.....
. Per cent. of water retained...

AunpBWN eH

5. Which material held the most water? What was
the per cent of increase in the amount of water held
when peat or leaf mold was added to the sand? Would
manure increase the water capacity of a soil?

Exercise 2

DOWNWARD MOVEMENT OF WATER IN SOILS

Object.—To study the rate of the downward movement
of water in soils and to show how this can be increased
and decreased.

Explanation.—tThis is a class exercise. Each mem-
ber should assist in getting the apparatus ready, and in
performing the experiment. Also, each pupil in the-class
should write up briefly the experiment, copy the table, in-
sert the obtained data, and answer the questions.

Materials —F¥ive lamp chimneys used in Exercise 4,
January, or five tin cans used in the previous exercise.
Sand, loam, clay, peat or leaf mold.

120 LABORATORY, FIELD AND PROJECT, GUImE

Procedure.—1. If lamp chimneys are used, tie a piece
of cheese cloth over the lower end of each. Fill the
five lamp chimneys about four-fifths full, respectively,
with sand, loam, clay; one-half sand and half peat or
leaf mold; and one-half clay and one-half peat. Where
two kinds of materials are used in one chimney mix the
substances well before putting them into the chimney.

2. Fill the lamp chimneys with water and note the
amount of time it takes for the water to pass through
each material. Record results in tabulated form.

Material | Time Material Time
Sez) 06 Baal Urn ghia Mog One Sand:and peat:. ol Seve
| Pre ene van het ace ae ek A Clay and peat’) (gee
Sy i un iies Ca reeee

3. Why does water move most rapidly through the
sand ?

4. Why does it move most slowly through the clay?

5. What was the effect of adding peat or leaf mold
to the sand? To the clay? Can this be done by a
farmer as a practical measure? How?

Exercise 3
MOISTURE AND SOIL TEMPERATURE

Object—To show that when moisture is evaporating
from ‘a substance, its temperature is lower than that
of a similar substance which is dry.

Explanation.—This is a demonstrational exercise. It
is to be performed by the class as a whole. Each pupil

FEBRUARY 121

should assist in conducting the experiments. Each pupil
should take notes, and should write up the experiment,
answering all questions.

Materials —Two thermometers, a drinking glass, two
jars of soil, a piece of cheese cloth.

Procedure.—1. Take a piece of cheese cloth about
four inches square. Roll this around the lower end of
a thermometer so that about one inch projects up around
the bulb. Tie the cloth to the thermometer.

2. Hang the thermometer over a glass of water in
such a manner that the cloth reaches into the water and
the bulb is a little above it.

3. Let another ordinary thermometer hang near the
first one but outside of the glass.

4. In about 30 minutes read both thermometers and
take the temperature of the water.

5. Why is the wet bulb thermometer colder than the
air and the water?

6. Put a thermometer in a jar of wet soil and one in
a jar of similar dry soil. After an hour read the ther-
mometers. Results?

QUESTIONS

1. How would you expect the temperature of low wet
soils to compare with that of dry upland soils in a field?

2. What kinds of soils are best suited for the production
of early crops?

3. Would clay and sandy upland soils, similarly located,
have the same temperature?

122 LABORATORY, FIELD AND PROJECT GUIDE

Exercise 4
INJURIOUS EFFECTS OF TOO MUCH FERTILIZER

Object—To see what will happen when too much
commercial fertilizer is added to growing plants.

Explanation—This exercise is not to be performed
individually, but by the class as a whole. Each member
of the class should write up the experiment and answer
the questions.

Materials —Three large flower pots, or large tin cans
with six or eight small holes punched in the bottoms and
around the sides near the bottoms. Loam soil, oats.

Procedure —1. Thoroughly mix enough soil to fill the
three flower pots or tin cans. Have the soil moist.
Fill the three pots or cans with this soil to within one,
inch of the tops. |

2. Plant eight or ten grains of oats in each of the
three pots or cans. Water and set aside in a warm place.
Keep the soil moist.

3. When the oats are about three inches high, add
merely a pinch of some complete commercial fertilizer
to one pot at each watering. To the second add a table-
spoonful of the fertilizer. Add nothing to the third.

4. After two or three weeks note and describe the
results as illustrated by the growth in each pot.

5. What was the effect of adding too much fertilizer?
How do you account for this? See Exercise 6, January.

QUESTIONS

1. If 1,000 lbs. of a commercial fertilizer were added to
an acre of soil seven inches deep, the estimate weight of

FEBRUARY 123

which is two million lbs., how much fertilizer at the same
rate would need to be added to the soil in the flower pot?

2. Are commercial fertilizers used in the community?
What kinds?

3. Where are commercial fertilizers extensively used?
Why?

4. Are all soils benefited by the same kind of commer-
cial fertilizers?

Exercise 5
ACTION OF ACIDS ON LIMESTONE

Object.—To study the action of acids such as vinegar
or lemon juice, on limestone, marble, and old plaster.

Materials —Acid, vinegar, or lemon; limestone, mar-
ble, or old plaster ; and drinking glasses.

Procedure.—t. Put a piece of limestone, marble, or
old plaster in a glass or a piece of each in three different
glasses, if you have them, and add a little acid to each.
Try the same, adding instead of the acid, vinegar or
lemon.

. 2. Does the solution bubble? The gas given off is
carbon dioxide and this shows that the material was a
carbonate.

3. Repeat, using tablespoonfuls of different samples of
soil, instead of the limestone marble or plaster. Re-
sults? When a soil gives off bubbles, on the addition
of an acid, it is a sign that it is not sour, because the
bubbling shows the presence of a carbonate and a car-
bonate will neutralize or destroy any acid in the soil.

4. Try the test at home with some of the soil from
your farm.

324 LABORATORY, FIELD: AND PROJECT (GUI

QUESTIONS

1. Why do farmers add ground limestone to their soils?

2. Do the farmers in your community lime their soils?

3. What is considered a good application of ground lime-
stone per acre?

Exercise 6
STUDY OF A MOLD

Object—To become acquainted with the different
parts of a mold and to see how molds produce spores.

Explanation—This exercise should be worked at
home by each member of the class. If the school has
a microscope, one or two pupils should bring the mold
to school for microscopic study.

Molds and mold-like plants, such as the blight, mil-
dew, smut, and rust are fungi. The plant bodies of
these fungi consist usually of many thread-like, branch-
ing cells. These cells spread out over and down into
the substances upon which they grow. In the smuts
and rusts the cells are entirely within the plants upon
which the fungi grow. These fungous plants produce
millions of very small, powder-like spores, easily carried
by the wind. Each spore is capable of developing into
a plant like the one which produced it, wherever the
conditions are favorable. This group of fungous plants
do many millions of dollars worth of damage each year
in destroying food and crops.

Materials—A drinking glass, a saucer, blotting paper,
bread, and bread crumbs.

Procedure—t. Cut two or three thicknesses of blot-

FEBRUARY | 125

ting paper to fit the bottom of the saucer. Moisten the
paper and put it in the bottom of the saucer.

2. From some bread, three or four days old, cut a
piece about two inches square and two inches high.
Moisten this with warm water and place it on the blot-
ting paper in the saucer.

3. Sprinkle a few fine bread crumbs, taken from the
bread box, over the piece of bread in the saucer, and »
cover the piece of bread with a glass tumbler.

4. Set the saucer in a warm place and examine it
from day to day. When the blotting paper looks dry
add a little water to it to keep it moist.

5. After a week. or so you will notice a growth of
very slender white threads forming on the bread. This
is the growing mold and the mass corresponds to the
root, stem, and leaves of higher plants.

6. A few days later little round black balls should be
seen on the outer ends of some of the thread-like struc-
tures. These black balls are the spore cases and contain
many little spores. In time the spore cases will become
so numerous as to give the mold a black color.

7. If the school has a microscope, mount some of the
spore cases on a glass slide and examine them. De-
scribe what you see. Make a few drawings.

Exercise 7
STARCH IN SEEDS

Object.—To test seeds for starch.
Materials—Al\cohol lamp, iodine solution, various
seeds, test tubes.

126: LABORATORY, FIELD: AND PROJECT, GUIG2

Procedure—1. Cut each of four or five kernels of
corn into two or three pieces. Place these in a test
tube containing a little water.

2, Heat the contents of the test tube for a few min-
utes; then slowly add a few drops of iodine solution.

3. If enough iodine solution is added, the liquid in
the tube will turn blue. The blue color obtained by means
of the iodine solution is a test for starch.

4. Test other seeds and substances for starch in a
similar manner.

QUESTIONS

1. What other foodstuffs are found in seeds? How
could you make a test for these? (See Chapter 13, “An In-
troduction to Agriculture,” or consult a physiology text book. )

2. What seeds are commonly used to make starch?

3. What seeds contain much oil? Protein? See Table
2, Appendix, in “An Introduction to Agriculture,” or Henry
and Morrison’s “Feeds and Feeding.”

To the Teacher—For 5 cents any druggist will sell you a
small bottle of a solution of iodine to use in this exercise.

Exercise 8
STUDY OF A SEED CATALOG

Object—To get familiar with the names of the good
varieties of the common vegetables.

Materials —Vegetable seed catalogs.

Procedure.—1. On the extreme left hand side of a
sheet of your note book paper, write in a vertical column
the names of all the kinds of vegetables grown in the
home garden last year. If necessary, get your parents
to help you complete the list.

FEBRUARY 127

2. Add to the list names of other common vegetables
that may be planted in your garden. .

3. Study a seed catalog and determine the names
of one or two good varieties of each of the vegetables
you have on your list. Write the names of these varie-
ties to the right and on the same lines with the names
of the vegetables. If there are early and late varieties,
list them as suggested.

1. Cabbage, Early Jersey Wakefield; Flat Dutch, late.
2) Teas, Nott’s Excelsior, early; Improved Stratagem,
main crop.

4. Take the list and the catalog home. Discuss the
list with your parents. Make changes if suggested.
5. Keep the list for use in Exercise 2, March.

To the Teacher.—Take one vegetable at a time and let the
pupils look up in the seed catalogs the descriptions of the
different varieties. The class should then decide which va-
rieties are best adapted to the soil and the climate of the
community.

Send to your nearest seed merchants for enough seed
catalogs to supply the class, or, better still, let each member
of the class send for one.

These firms issue good catalogs: Northrup and King,
Minneapolis, Minn.; Vaughan’s Seed Store, Chicago, III.;
W. Atlee Burpee & Co., Philadelphia, Pa.; Peter Henderson
& Co., New York City, N. Y.

Exercise 9
ORIGIN OF BREEDS OF CATTLE

Object——To draw a map to show where the different
breeds of cattle originated.

128 LABORATORY, FIELD AND PROJECT GUIDE

Materials —Geography.

Procedure-—1. From your geography, copy a. small
map of northwestern Europe. This map should show
Switzerland, Holland, Channel Islands, and Great
Britain.

2. On this map, shade those places, or portions of
places, where the following breeds of cattle originated :

Dairy Breeds

Holstein Ayrshire

Jersey Dutch Belted

Guernsey Brown Swiss
Meat Breeds

Shorthorns Galloway

Herefords Aberdeen-Angus

3. Briefly discuss the origin of each breed mentioned
above.

4. A similar map showing the origin of the breeds of
horses may be made.

To the Teacher—This would be a good exercise to add
to Exercise 9, November, “Making a Dairy Cattle Booklet.”

References.—F. B. 612: Breeds of Beef Cattle. F. B. 893: Breeds
of Dairy Cattle. ‘An Introduction to Agriculture,” Chapter 23. Breeds of
Light Horses, F. B. 952. Breeds of Draft Horses, F. B. 619.

Exercise 10
LEADING ALFALFA GROWING STATES

Object—To make a map showing the states leading in
the production of alfalfa.

Materials —Outline map of the United States, Agri-
cultural Yearbook.

Procedure—t. Enumerate in a tabular form the ten

FEBRUARY 129

states leading in the production of alfalfa. Consult the
latest Agricultural Yearbook.

State Acreage Total Yield Yield per Acre

mm |_|

SSS arreee BEESaapeST ere: 1
BRBUBBEEERGRUBONGQEY vf
BRUHT, SUMRBREEREE GABOR E GaSer AM y:

47 Ar) A
¢ Y WF ge so 40) !

TTA s
KEITTY iB x H 7 \\ | y

l han EE
HH seo, Wat

ieee

Chicago, Uk 9 Copyright 1908, by Tho University of Chicago.

2. On an outline map of the United States shade these
states and write in each the total acreage of alfalfa.

3. Discuss the map.

4. A similar exercise may be devoted to any of the
other crops grown in the community.

QUESTIONS

1. Why is more alfalfa grown in western than in eastern
States ?
2. Why is alfalfa an important crop to grow?

130 LABORATORY, FIELD AND PROJECT: GUIDE

Exercise 11
RAISING SEEDLINGS IN FLATS

Object—To learn how to raise plants in shallow plant
boxes or flats.

Materials—A number of flats of shallow plant boxes
2 tO" 2, aniches, deen, measuring I2 x 18 inches) anick
garden soil, sand, and seeds, coarse and fine sieves, fine
gravel, or cinders.

A FLAT WITH SEEDLINGS. WHY NOT RAISE YOUR OWN PLANTS?—Courtesy
U. S. Department of Agriculture

Ex planation—Many greenhouse men sow all the seed
for early plants in flats or shallow plant boxes. These
flats are then placed on the benches in the greenhouse or
in the hotbeds. Flats are easily carried about; they
make the sowing and transplanting easy, are of great
convenience in taking the plants to the field or to the
market. Flats are also used in planting seeds in the
house or cellar for early plants.

Procedure——1t. Spread a layer of fine gravel or sifted
cinders % inch deep in the bottom of the flats to aid
in draining off free water.

FEBRUARY 131

2. Mix good garden soil with a little coarse sand until
the soil is light and crumbly. Add water to the mixture
to get it moist.

3. Run this through a % inch sieve and fill the flat
with the sifted soil. Slightly press the soil in the flat
with a piece of 2 x 4.

4. Run some of the sifted soil through a finer sieve
made of window screening and almost fill the box with
the fine soil. Level this with a scraper.

5. Make little furrows 1g to 4 inch deep about two
inches apart. In these sow the seeds about ten to an inch.

6. Cover lightly the seeds. Press the soil and sprinkle
with a fine spray, being careful not to wash out the seeds.

7. Set the flats in a warm, light place, and keep the soil

FOR MAKING HOLES IN THE SOIL INTO WHICH THE SEEDLINGS ARE SET.—
Courtesy U. S. Department of Agriculture

8. When the plants have their second leaves or about
four weeks after the seeds were planted, thin them to
stand about two inches each way.

g. Plant those plants you have removed in other flats.
(Read Exercise 4 in May.)

References.—F. B. 818: The Small Vegetable Garden. Any vegetable
garden book.

132° LABORATORY, FIELD AND PROJECT GUIRE

Exercise 12

ORCHARD SURVEY

Object—To make an orchard survey of the school
district.

Procedure.—1. The following is a suggested outline
for an orchard survey of the school district.

Orchard Survey

school, District No....... --) - TownJory steer CO! ase wenden
Date Cereal
Number Yield in Number Yield in f
Farmer of apple bushels of cherry bushels Spraying
trees last year trees last year

—— | | | |S |

2. To the list given above may be added other fruit
trees if they are common to the community.

3. For general directions in gathering the information,
see Exercise 11, September.

4. In column headed spraying, state whether or not
orchard was sprayed.

Project 1

RAISING FLOWER SEEDLINGS

Object.—To raise flower seedlings for home use.
Explanation—Any boy or girl who loves flowers can

FEBRUARY 133

grow many of them by starting the plants indoors late
in February, or early in March.

Preparation.—1. Make a study of seed boxes or flats.
Try to see some.

2. Make a study of the best soil for seed boxes and
of how this is mixed.

3. What common flowers should be started indoors
at this time of the year?

4. Where are good places in which to keep the seed
boxes? How often should they be watered?

5. When should the plants be transplanted?

6. Read Exercise 11, February, and Exercise 4, May.

Operation—1. Order the seeds.

2. Make the seed boxes.

3. Prepare the soil and fill the flats.

4. Sow the seeds, water the soil.

Eewake proper-care ofthe plants: .Transplant’ to
proper intervals.

6. Sell surplus plants.

7. Keep accurate account of all your time and ex-
penses and determine the cost of raising the seedlings.

References.—‘‘An Introduction to Agriculture,” Chapter 17. Any vege-
table garden book. F. B. 255: The Home Vegetable Garden. F. B. 818:
The Small Vegetable Garden.

Project 2
RAISING VEGETABLE SEEDLINGS

Object.—To raise vegetable seedlings for the home
garden.

Explanation—Any boy or girl in the upper grades
should be able to raise tomato, cabbage, cauliflower,

134 LABORATORY, FIELD AND PROJECT GUIDE

head lettuce and other seedlings for the home garden.
This may be done in seed boxes or in hot beds, or better
still, by a combination of both these methods.

Preparation.—1-5. Review articles 1-5 in previous
project.

SMALL SEEDLINGS TRANSPLANTED INTO PAPER BANDS.—Courtesy Indiana Agri-
cultural Experiment Station

6. Make a study of hot beds and cold frames. Decide
which you want to use.

O peration.—1-6. Review the similar articles on the
previous project.

References.—See previous exercise.

THINGS TO OBSERVE IN FEBRUARY

The scales covering buds Common blemishes on horses
The buds of some common The birds that stay with us
trees all winter

How frost helps in soil for- How some animals spend the
mation winter.

MARCH

Exercise 1
TESTING SEED CORN

Object—To learn how to test seed corn.
Explanation—Why seed corn should be tested.

Testing enables one to discard weak and dead
ears.

Weak and dead seed means a poor stand.

A poor stand means a poor crop.

To plant a dead ear means 500 to 700 missing
stalks.

It is only good business to know what we are
planting.

Like tends to produce like.

If we want good corn we must plant good corn.

We cannot guess how corn will grow.

Testing shows how the corn will grow.

Materials.—Seed corn testers, muslin, sawdust, corn.

A. Sawdust Box Method

Procedure—1. From any old lumber make a box 4
inches deep and 19 inches wide and 24 inches long,
inside measurements. The bottom boards should be
1g of an inch apart to permit good drainage. This box
will be large enough to test 48 ears of corn. A box
30 x 30 inches will test 100 ears.

135

136 LABORATORY, FIELD AND PROJECT GUIDE

2. Half fill the box with clean sawdust which has been
thoroughly soaked in hot water. Pack this firmly and
level the surface. |

TACKING THE MARKED CLOTH FIRMLY OVER
THE SAWDUST TO THE CORNERS OF THE
TESTER.—Courtesy International Harves-

ter Co.

3. Take a piece of
firm muslin. Mark
off on it, with a soft
pencil, 48 two and
one-half inch squares
and leave a two inch
margin on all four
sides. Number the
squares 1 to 48. Wet
this muslin and tack

it at the four corners of the box so as to hold the cloth
tightly in place, so that the corn will not be disturbed.

4. Number 48 ears
of corn, or place them
so that you can keep
track of the number
of each ear. Take
six kernels from ear
one, two from near
the top, two from the
center, and two from
near the bottom, and
place these in square
1. Have the germ
sides up and all the

tips pointing in one direction.

Carts;

COVERING THE KERNELS WITH THE SECOND

IT, TOO, SHOULD BE TACKED TO
TESTER. — Courtesy International
Harvester Co.

Continue this with all 48

5. Cover the kernels with another piece of moistened

MARCH 137

muslin and tack this in the
four corners.

6. Over this place still
another piece of muslin
large enough to overlap by
10 inches on all four sides
of the box. Pour into this
cloth enough moistened
sawdust to fill the box.
Pack the sawdust and turn
in the ends of the cloth.

7. weep, the: box. in a
warm room and raise it
about an inch at one end

SPREADING THE LARGE CLOTH OVER
THE TESTER TO HOLD THE TOP
LAYER OF SAWDUST.—Courtesy In-
ternational Harvester Ca,

so that the tip of the kernels point downward.
8. After seven or eight days, remove the cloth with
the sawdust, then carefully remove the second cloth, and

FOLDING THE PROJECTIONS OF THE LARGE
CLOTH OVER THE TOP LAYER OF SAWDUST.
—Courtesy International Harvester Co.

record the results of
the test.

9g. Write numbers
‘ont 3. 10 46. or: a
sheet of paper, and
after each number,
write figures such as
6-0-0, 0-6-0, or 0-0-6,
the first
dicating the number

figure in-

of strong kernels, the
second, the number
of the weak ones,

and the third, the

138 LABORATORY, FIELD AND PROJECT GUIDE

dead ones. Only the ears testing 6-0-0 should be used
for seed.

WHAT A PORTION OF THE TESTER LOOKS LIKE AFTER THE CORN IS UNCOV-
ERED. DID IT, IN THIS CASE, PAY TO TEST THE CORN ?—Courtesy Wisconsin
Agricultural Experiment Station

QUESTIONS

1. What is gained by testing shelled seed corn?
2. Which kind of seed corn is the better to buy, ear corn
or shelled corn?

3. Why should the cloths and sawdust be scalded the
second time the tester is used?

B. The Rag Doll Method

Procedure.—\. Procure a piece of well washed, tightly
woven muslin about Io inches wide and 28 inches long.

MARCH 139

In the center of this, mark off ten 214 inch squares, five
on a side. This will leave a 2%4 inch margin at each
side, and a 734-inch margin at each end: Number the
squares from I to Io.

2. Arrange 10 ears of corn so that you can keep track
of the numbers. Place 6 kernels from ear I in square I,

ROLLING UP A RAG DOLL TESTER.—Courtesy University of Wisconsin

tips pointing to one side and germs sides up. Continue
this for the ten ears.

3. Place two handfuls of soaked sawdust on the lower
end of the cloth and roll up the cloth loosely.

4. Tie a string around each end and around the
center. Make an arrow to indicate the direction the
tips are pointing.

5. Put the rag doll in water over night. The next morn-
ing, pour off the water and cut the strings. Put the doll
in a bread pan. Raise one end an inch so that the tips

140 . LABORATORY, FIELD AND PROJECT GUtpE

point downward. Keep the pan in a warm room and
keep the doll moist by occasional watering. Keep the
pan partly covered.

6. After seven or eight days, carefully unroll the
doll and record the results as suggested in the sawdust
box method.

7. If you wish to test very many ears of corn by this
method, make the cloth 13 inches longer, and then you
can tést 20 ears at atime:

8. A bread pan will easily accommodate three rag.
dolls. If a pail is used in which to keep the dolls instead
of a bread pan, you can accommodate many more.

QUESTIONS

1. Which method of testing corn do you prefer? Why?
2. With which method must you be most particular?
Why?

To the Teacher—Demonstrate these exercises in the
school room, getting the pupils in the class to assist you.
Encourage the class to test seed corn at home. F. B. 948,
The Rag Doll Tester gives good suggestions.

Exercise 2
PLANNING THE HOME GARDEN

Object—To plan the home garden so that the work
may be systematized, no space wasted, and all the dif-
ferent desired varieties of vegetables given the proper
amount of space.

Materials —Ruler, tape, or rod stick.

Procedure—1. Determine the exact size of the home
garden by careful measuring.

MARCH 141

2. Consult your parents and obtain both a list of the
various vegetables to be grown in the garden, and also
an idea of the amount of space in rows, to be devoted to
each kind of vegetable. Exercise 8, February.

3. Look up the cultural directions given for each
variety in a seed catalog and in Table 11, Appendix.
Find out how far apart the rows should be and how
far apart the seeds are to be planted in the row, accord-
ing to the method of cultivation you are going to use.

4. Make an outline of the garden, drawn accurately
to some scale, such as making % or % inch on paper
equal to one foot of the garden.

5. Indicate, by light lines on the garden map, the rows
of vegetables. Have the proper distances between the
rows. Place on the plan the names of the vegetables to
be grown and give to each its proper proportion of space.

6. Show the plan to your parents, discuss it with
them, and make suggested changes. If necessary, make
a revised plan.

7. Determine the number of linear feet for each kind
of vegetable, and the quantity of seed required.

8. Determine, with your parents, having the notes
from Exercise 8, February, with you, the variety and
amount of each kind of seed to order. Order the seeds
early.

g. Keep the plan to use in staking out and planting
the garden.

142 LABORATORY, FIELD AND PROJECT, GUlpee

SUGGESTIVE PLAN OF A GARDEN
Corn or Potatoes
Spinach or Onion Sets

Corn or Potatoes

Beans follow with Turnips

Beans follow with Lettuce
Spinach or Onion Sets

Spinach follow with Tomatoes

Early Beets and Carrots

Swiss Chard or Parsnip

Peas follow with Beans

Peas follow with Beans

Radish and Lettuce follow with Beets

Suggestive Garden Plan, Scale 4” = 1’.
Garden is 24% ft. wide. Rows may be as long as desired.
Exercise 3
HOTBEDS

Object—To make a hotbed.

Materials —Lumber, nails, tools, fresh horse manure,
soul.

Explanation.—This is a splendid exercise for the boys

MARCH 143

of the agriculture class; they should build a hotbed either
on the school grounds or on the home farm of one of the
boys living near the school.

Procedure.—1. Study the sectional view of a hotbed
shown below.

2. Plan to locate the hotbed on the south side of some
building. Make it to fit the sash you are going to use.
A storm window will answer well.

; =] SAS H
— is

‘GROUND LEVEL. CATT. : | GROUND LEVEL
SS SSS | =
SSS —— = = = >

HOTBED SHOWING PLAN OF CONSTRUCTION.—Courtesy Pennsylvania State
Board of Agriculture

3. Make the frame 28 inches high in the front, 34
inches in the back, and a few inches shorter and narrower
than the sash. Fit the sash to the frame before you nail
it together permanently.

4. Make an excavation about two feet deep and a few
inches longer and wider than the frame; then set the
frame in it as shown in sketch.

5. Fill the hotbed with fresh horse manure and tramp
this down firmly to make a layer 18 inches deep. Level
the surface and place about 4 inches of a rich garden
loam upon the manure.

144 LABORATORY; FIELD AND PROJECT GUIDE

6. Bank the outer sides with manure.

7. Cover with the sash and place a thermometer in
the hotbed, inserting it a few inches in the soil. After
the heat has reached its maximum and subsided to about
80°, plant the seeds in rows about 4 inches apart.

8. Water often enough to keep the soil moist but only
in the morning. Regulate the temperature by raising and
lowering the sash. On clear warm days remove the sash
entirely.

QUESTIONS

1. Why use only horse manure?
2. What is the danger of keeping the soil too moist?
3. How can you protect the hotbed during cold weather?

Exercise 4
A COLD FRAME

Object—To make a cold frame.

Materials —Lumber, nails, tools, sash or muslin.

Ex planation.—The cold frame is used to harden plants
grown indoors, and to raise plants after the soil and
weather have become mild. No manure is used in a cold
frame.

Procedure—1. Decide how large the frame is to be.
Make a frame 8 inches high in the front, and 14 or 16
inches high in the rear, and just a little shorter and nar-
rower than the sash or muslin to be used.

2. Place the frame in a sheltered position facing the
south. Spade the soil within it, and, if necessary, add
some good rich soil.

3. Bank the outer sides with manure or soil.

4. Plant seeds in the soil as directed in previous ex-
ercise.

MARCH 145

5. Cover the frame with muslin during cold nights and
chilly days.

To the Teacher—As a demonstration get several of the
boys in the class to build a cold frame, to be used either

on the school grounds, or at the home of some member of
the class.

Exercise 5

TREE PLANTING

Object—To learn how to transplant properly a tree.

Materials —Spade, ee shears, a tree.

Explanation, — :
Each year the teach-
er and the class
should plant a tree on
or near the school
grounds. This exer-
cise should be carried
out by the class as a
whole.

Procedure, — 1.
Careiully dig up a
small tree from a
wood lot, being care-
ful to disturb the
roots as little as pos-
sible.

2. Dig a hole large
enough to take all the

A CUT SHOWING HOW LARGE TO MAKE THE
= = HOLE AND HOW TO SPREAD THE ROOTS
roots in their natural ba bo PLANTING TREES ae ey rer.
*,° ourt Neosho N o., Neosho
position and d eep Ties osho Nurseries S

146‘ LABORATORY, FIELD AND PROJECT GUree

enough to allow the tree to be planted a few inches
deeper than it has been. If soil appears to be dry pour
a bucket of water in the hole.

3. Cut off any bruised or broken roots, and the rough
ends of the large roots, with smooth cuts.

4. Place the tree in the hole and press the dirt very
firmly about the roots so that the roots come into close
contact with the soil. Fill the hole and leave the top
few inches of soil loose.

5. Prune back the top of the tree fully one-half, and
cut out all unnecessary branches to give the transplanted
tree a good shape.

QUESTIONS

1. Why cut off about % of the top of the tree after
transplanting?

2. When is the best time to transplant trees?

3. Why leave the top few inches of soil unpacked?

Exercise 6
PREPARING THE GARDEN

Object——To prepare the garden soil.

Materials —Spade or garden fork, rake, manure.

Explanation—Each spring the pupils should assist
their teacher in all the different operations of prepar-
ing a garden. This may be done on or near the school
grounds or at the home of one of the pupils who lives
near by. In writing up the exercise each member of the
class should follow the outline given below.

Procedure.—1. See that all rubbish which will not
readily decay is removed from the garden spot.

MARCH 147

2. Apply some well rotted manure, if available, to the
garden. Usually 20 loads or tons per acre is considered
a good application. According to this scale, how many
loads or tons would be a good application of manure for
the intended garden?

3. If the garden is large enough and conveniently
located, it should be plowed and harrowed. If it must

AFTER THE MANURE IS EVENLY SPREAD, SPADE AS DEEPLY AS POSSIBLE WITH-
OUT BRINGING ANY RAW SUBSOIL TO THE SURFACE.—Courtesy W. Atlee
Burpee & Co., Philadelphia, Pa.

be spaded, spade 8 to Io inches deep. As soon as a
spade full of earth is turned over it should be broken
up by blows with the implement.

4. After a strip three or four feet wide across the
garden has been thus broken, fine and smooth the surface
with a garden rake.

5. Take a handful of the soil from each of several
places to be tested for acidity. (See following exercises. )

6. If commercial fertilizer is to be used, apply half the

148. LABORATORY, FIELD AND PROJECT GUIBE

proper amount now to the prepared soil, and rake it in.
Apply the other half, between the rows, after the plants
are started. Fifteen hundred pounds of an average com-
plete fertilizer is a good application when no manure is
used and 300 to 500 lbs. when manure is used. According
to this scale how much could be safely applied to the
garden which has been prepared?

‘THE HANDFUL OF FERTILIZER BEING DROPPED INTO EACH. HOLE WILL BE WELL
MIXED WITH THE SOIL BEFORE THE PLANT Is SET.—Courtesy W. Atlee
Burpee Co.

7. Wood ashes make a good fertilizer and 1000 lbs. of
unleached wood ashes per acre is a good application.
According to this scale how much could safely be applied
to this garden?

8. If the soil is sour, this is a good time to sweeten it.

g. After every rain, or whenever many weeds begin
to show, cultivate or rake the garden. This process also
conserves moisture as shown in Exercise 1, April.

MARCH 149

QUESTIONS
1. Which is the best time to plow or spade a garden, the
fall or spring? Why?
2. Why add lime or fertilizer after plowing or spading,
instead of before?
3. Why add manure before plowing?
4. When is the soil in a good condition to plow or spade?

Exercise 7
TES TENG JISOTLES FOR ACIDITY,

Object——To learn how soils may be tested for acidity.

Materials —Blue and red litmus paper, vinegar, lime,
sample of garden soil, piece of glass about 4 inches
Square, several drinking glasses.

Procedure.—1. Review Exercise 5, February. To half
a glass of water add a tablespoonful of vinegar. Thrust
into the liquid a piece of blue litmus paper and note the
change of color. (Litmus paper may be purchased at
drug stores.)

2. Add a tablespoonful of lime to another glass of
water and into this liquid place a piece of red litmus
paper and note the change of color.

3. Acids turn blue litmus paper red and alkalies turn
red litmus paper blue.

4. With as little handling as possible gather a little
soil from several places in the garden and put this into
a clean tin can.

5. Place a piece of moistened blue litmus paper on
a piece of glass. Moisten in a saucer some of the soil
you have gathered. Get it so wet that a little mass just
stays in a pile. With a spoon place this moistened

150 LABORATORY, FIELD AND PROJECT GUTEE

soil over the blue litmus on the glass, and let it stay
there for I0 or 15 minutes.

6. Look up through the glass and note the color of
the litmus paper. If the soil is sour the paper will have *
turned red.

7. Laboratory supply companies, see Appendix, sell
the Truog Soil Testing Apparatus. With it you can tell
just how sour a soil is.

8. If the soil is sour make a few other tests to con-
firm your first results. Add a little vinegar to some
of the soil as directed in Exercise 5, February. Results?

g. One thousand pounds of slaked lime, or one to two
tons of finely crushed limestone, are applied per acre to
sweeten a soil. According to this scale, how much does
your garden need?

10. Test at home with red and blue litmus paper :—
soap, milk, Dutch cleanser, coal ashes, wood ashes, orange
juice, and other substances.

QUESTIONS

I. Why do soils get sour?
2. What kinds of soils get sour?
3. Does it pay to sweeten soils? Ask your father.

Exercise 8
HARD WOOD CUTTINGS

Object.—To learn how to propagate plants like grapes,
currants, gooseberries, and shrubs, such as the privet, by
means of cuttings.

Materials.—Access to plants to be propagated, knife.

Procedure.—1. From last year’s growth of any of the

MARCH 1St

plants mentioned, cut off pieces having about three buds.
Make each cut just below the third bud.
2. Plant these indoors, or directly outdoors, in a light

sheet yate

“Fs eta ghey

vive
Wai }.¢

ac 4
pl Shee

sity
2 mn

CUTTINGS SET IN TRENCH
Department of Agriculture
soil, so that only one bud appears just above the ground.
The buried buds will develop roots and make new plants.
3. Later in the season when the new plants have de-
veloped, they may be transplanted whenever desired.

QUESTIONS

1. Why cut off the pieces just below a bud?

2. Should or should not the portion of the branch from
which the cutting was made be cut back to a bud? Reasons?
See Exercise 3, October.

3. Why should all cuts be made as smooth as possible?

Exercise 9
ROOT GRAFTING

Object—To learn how to make a root graft.

Materials —Willow twigs and roots, sharp knife,
string.

Explanation.—The principle of grafting is simply the

1s2 LABORATORY, FIELD AND PROJECT GUIDE

bringing together of two portions of two different in-
dividual plants of the same species, so that the cambium
layers, or growing portions, will be brought into con-
tact with each other. That portion of the plant which
contains the root is known as the stock, and the upper
part which is grafted on to this, is known as the scion.
seth ? Procedure. —1. Dig

|

up a young willow
tree and use it to
b learn how to graft.
Wi 2. Cut off from the
i Hh branches a number of

Wg scions, 6 or 8 inches
i long.

¢ it q 3.. Cut from ‘tite
i roots, stocks or pieces
aay three to four inches
long, and of the same
thickness as the
scions.

ROOT OR WHIP GRAFTING. A, STOCK; 8B,
SCHON: MOOR ARR S010H ED 7 4 oe ar
ihe end of the scion and

the upper end of the stock as is shown in the illustration.

5. Fit these together and fasten the twe with string.

6. Practice this joining several times and, as an ex-
periment, plant some of the joined scions and stocks to
see if they will grow.

7. Apples are propagated in the manner described.
The scions are taken from trees having the desired fruit
and these are grafted to the roots of apple seed-
lings.

MARCH 153

QUESTIONS

1. Why are apple trees propagated by grafting?
2. Why is it necessary to have the cambium layer of the
scion come in contact with the cambium layer of the stock?

Exercise 10
GARDEN RECORDS AND ACCOUNTS

Object—To learn how to make and use garden records
and accounts. |

Explanation—Garden records afford excellent op-
portunities for training in elementary bookkeeping. The
garden record should show all the time devoted to the
work, all expenditures, all receipts, and monthly and
final summaries.

Procedure.—1. Procure a composition book ; one meas-
uring 7x8 inches will do. . Use the first page for the
index.

2. Use the second page for the labor records of the
first month and the third page for expenses and receipts
for the same month, as here suggested.

Labor Records. Dera Ee wee ate eet as eo
Date Hours Kind of work.
I I Clean up the garden.
2 2 Hauling and spreading manure.
3 etc.
4
etc.

Insert all hired labor under expense. Put down what
you paid for this labor if you had to pay for it.

154 LABORATORY, FIELD AND PROJECT GUIDE

Miron ls aa. va.scok cere baat
Date Expenses. Dr. Amount
Item
I Seeds—(specify kinds) $.25
Bir Team and man—hauling manure .80
Etc. 2 hours @ 4o¢

Enter all expenses. If you did not pay in cash for any
item, enter its worth. If you buy any tools especially
for your own use, enter % of their value; this assumes
they will last 3 years.

Recerpis.. Cr.

Date Vegetables or Vegetables used Amount
plants sold at home
20 3 doz. tomato plants steees $. 30
30 BA 2 bunches onions .10

Estimate value of all vegetables used, at price they
would bring if sold.

3. For each remaining month, you will need two pages
of your note book, preferably two that open together.

4. Somewhere near the back of the book have a: page
for the monthly summary sheet as suggested :—

Monthly Summary

Month Hours of Total Expenses Cash Other
labor value receipts receipts

March se) $1.00 $2.50 $.50 $.75

April

May

Ete.

5. Under “Hours of Labor” insert totals from your
monthly labor records. Charge 10 to 15 cents per hour,
according to what you are worth. Insert the value of this
labor under ‘Total Value.” Under “Expenses 7 msert
monthly totals. This should include cost of seed, special
garden equipment, hired or donated help, etc. Under
“Other Receipts,” enter value of vegetables used at
home. Under “Cash Receipts” enter your cash sales.

MARCH 155

6. Close tne year’s work with a summary sheet as
suggested. ;
Yearly Summary

Peteatial labore oy sa.) Eb ss an eee

oo DFE SIN RS NER ae a oe ee ee
fas PECSUIS oy )ro os acfarerss a ese Cae ena
Pret tecettna: naa keane lin we. ee lee oa we

To the Teacher—In many states rural teachers are sup-
posed to teach some form of cash accounts in the upper
grades. Why not start this exercise with the seventh grade
pupils? Let them carry it through the season and bring it
to a close in the fall.

Exercise 11
HORSE SURVEY

Object——To make a horse survey of the school district.

Procedure.—1. In making this survey, or census re-
port of the number and kinds of horses in the school
district, follow all the directions given in Exercise I1,
September.

2. In this survey use the following, suggested, tabu-
lated form.

HORSE SURVEY.

mcuee! Dist. ING. 2. os 21s. Mferyray OLN. 127, 351-0 wfe,si6 Osho IA Rae Desk aoe Hee
REC ra tice Mics sae sts
Number Number of
Name of Farmer horses over | colts under Breed ta

3 yrs. of age | 3 yrs. of age

—_— | |

Pe be

156 LABORATORY, FIELD AND’ PROJECT Gouge

3. If there are any mules in the district include an-
other column and head it ““Number of Mules.”

Project 1

TESTING SEED CORN

Object—To make a germination test of the corn to
be used at home for seed. :

LET THE BOYS AND GIRLS TEST THE SEED CORN.—Courtesy Wisconsin Agricul-
tural Experiment Station

Preparation —1. Study different practical methods of
testing seed corn.

2. Read Exercise 1, March.

3. Decide upon the method to be used, and prepare
the testers. |

4. Be sure that you have a proper place in which to
keep the testers.

MARCH | 1s7

5. If possible, try to see how some farmer in the
neighborhood tests corn.

6. Learn to know the difference between weak and
strong germinating powers.

Procedure.—t1. Arrange the corn so that you can keep
track of the number of each ear, or number the ears.

2. Prepare the tester. Number the squares.

geal the tester, all eer up and tips all pointing
in one direction.

4. Properly cover the corn and raise one side of the
tester an inch so that the tips point downward.

5. After 7 or 8 days note the results and keep for
seed only those ears testing 6 strong.

6. Figure the percentage of strong, of weak, and of
dead ears.

7. Keep a record of your time, and figure the cost
of testing 100 ears of corn.

Reference.—F. B. 948: The Rag Doll Tester. Seed Corn. Do you
Know That It Will Grow? Ext. Dept. International Harvester Co., Har-
vester Bldg., Chicago, IIl., 3 cents.

Project 2
MANAGEMENT OF THE HOME GARDEN

Object—To take complete charge of the manage-
ment of the home garden and to keep accurate garden
accounts.

Preparation.—1. Secure permission from your parents
to take charge of the garden this year, and solicit their
cooperation.

2. Make a study of garden records and accounts.
Read Exercise 10, March.

158 LABORATORY, FIELD AND’ PROJECT GUIDE

3. Study how to make a garden plan, how to get the
soil rich in plant food, and into an ideal tilth.

4. Become familiar with the names of good varieties
of vegetables. Read Exercise 8, February.

Procedure.—1. Procure a composition book. One
about 7 x 8 inches, the size commonly used in school,
will answer. Use this for your record book. Devote
the first page to a ta-
ble of contents, and
the following pages
to the records as out-
lined in Exercise I0,
March, 7

2. Make the garden
plan. See Exercise 2,
March, . Tage
planning over with
your parents. Ask

them what to plant

A CONFERENCE BETWEEN PUPIL AND
TEACHER IN THE GIRLS’ GARDEN. SUCH and the amount of
CONFERENCES BRING GOOD RESULTS.—Cour- \
tesy lowa State Teachers’ College the space to give to

each variety of vege-

table. Consider rotation of crops in the plan.

3. Keep accurate record of your time, of all expenses,
and all receipts.

4. Prepare the garden. See Exercise 6, March.

5. Stake out the garden, and at proper time begin to
plant.

6. Seek your parents’ advice from the beginning to
the end of the project.

7. Make an effort to sell all surplus vegetables.

MARCH 159

8. Be sure to make out your monthly summary at the
close of each month, and your final yearly summary.

9g. Use the last four or five pages of your record book
for a story of your project. Give a little history of it,
telling the interesting things about the work and some-
thing about the final financial statement.

Project 3
PIG PROJECT

Object.—To raise one or more pigs and to keep very
accurate records of the cost of raising one or more
pigs.

Explanation.—Pig projects are popular because of the
great number of boys’
and girls’ pig clubs.
If a number of boys
and girls in the school
start this project they
should form a pig club
and get into commu-
nication with the
State Leader of Boys’
and Girls’ Club work.
This project is best
started with weaned

Pp i gs from 8 to I2 some oF ouR MosT SUCCESSFUL PIG PROJECT
WORKERS ARE_ GIRLS.—Courtesy Iowa

weeks old. These — State feachers’ College

must be purchased

and the records must show the purchase price. The

project should be started sometime in May and be con-

160 ‘LABORATORY, FIELD. AND PROJECT GUIDE

tinued from 4 to 8 months. Each pupil taking up this
project must feed his pigs, care for them, and keep
his own accurate records.

Preparation.—1. Get permission from your father to
start a pig project and solicit his advice on all important
matters.

ALL THE MEMBERS OF A BOYS’ PIG CLUB. THESE BOYS HAVE LEARNED HOW
TO RAISE PIGS.—Courtesy U. S. Department of Agriculture

2. Carefully consider and study the following ques-
tions:—a. How many pigs shall I attempt to raise?
b. Shall I get grades or pure breds? What breed?
c. Where and how am I going to get the pigs? d.
Where can I keep and house them? e. What should I
feed them and where am I going to get the feed? f.
Should I grow special forage crops? What kind and

MARCH 161

how large an area shall I need? g. How shall I be able
to weigh the pigs? What records should I keep?

Procedure-—1. Get a composition book, similar to
those you use in school, and use it for your record book.

2. Use page 1 for the table of contents.

3. Use page 2 for the following, devoting one line to
each item:—a. Number of pigs in project? b. Breed?
c. Grade or pure breds? d. Date project started? e.
Age of pigs at start? f. Value at start? g. Weight at
start?

4. Use page 3 for recording at close of each month
the weights of the pigs, if the pigs can be weighed each
month. Use suggested form. If no scales are at hand
merely record initial and final weights.

Record of Weights by Months

Month Weight in Pounds Gain in Pounds
First (insert dates)
Second
Etc.

5. Use sheets 4 and 5 for one month’s labor and feed
records. Record the hours spent each day on the
project. If, while at school, the pigs were fed for you,
get the time and add it to your time.

6. On page 5 record the feed purchased during the
month as suggested :—

Monthly Feed Record

Date Kind of Feed Pounds Cost

162 LABORATORY, FIELD‘ AND PROJECT €uige

Weigh and make charge for skim milk if used. Make
charge for foraging, at actual cost or at so much per day
for pasturing. Use 2 pages for the same uses for each
following month. Allow about 16 pages for these
monthly records. Get totals for each month.

7. Transfer monthly totals to a summary sheet as
suggested.

Month Hours of Labor Feed Cost Other Expenses
1

Fae:

8. Formulate the ration you are going to feed.

g. Make preparations for housing the pigs before
starting the project.

10. Get the totals of the summary sheet (item 7) and
fill out the following summary :

| Expenses
a.) Costiokpigs at besinnine of project. - 2.4. Ds. sae
bu Lotal feed costs sag) oe Ss oo oe
c.. ‘Total labor cost, @. to¢ per*hour: -. 0.5...)
als Other“expenses 0074. A250 o. sn ee ieee
etal expense. Uew..cteeug2 ne hie ete A Ps
Receipts
a. ' Final weizhtiof a2... DISS AH As nem lbsss. (3 tee
bi Value of pigs'@*\.... 70. ¢ per pound $..) 25 eee
Rotalreceipts...o! See ne eee ae Go. a ae
Total expenses, c. 24,25 b abe ne an ee
Promte: aoereenee oe ee ee Se ee
Other Data
a. . Weight of pigs at beginning of project... ©. :n.eeeee lbs:
b. Weight of pigsiat close of project... 2... 0... . 8. ase ee lbs:
C BUR co ig Gi GIS LE cee eo sea NST ado orca Do lbs
d. "Number of days ‘fed ....23../5.4 5) om ccs 0 cere ee
e. ~Average daily gain. oo: 600.9 ee oa occ ee
f..+ Cost per potind ‘of eam: .. fos. ee koe ee

MARCH 163

11. Write a story or discussion of your project on
some of the remaining pages of the record book.

F. B. 765: Breeds of Swine. F. B. 874: Swine Management. F. B.
909: Self Feeder for Hogs. F. B. 951: Hog Pastures for Southern States:
Yearbook Separate, 667 Boys’ Pig Club Work, 5 cents. F. B. 566: Boys’
Pig Clubs. Cir. 6: Swine, Armour’s Research Bureau, Stock Yards, Chi-
cago. Dept. Bul. 646: Lessons in Pork Production for Rural Schools,
5 cents.

THINGS TO OBSERVE IN MARCH

Good plowing Grafting work
Treating oats for smut Results of freezing on fall
Treating potatoes for scab plowed land

Fanning mill cleaning seeds

APRIL

Exercise 1

CHECKING EVAPORATION

Object.—To see how a dust mulch acts in checking
evaporation.
Materials ——Two pieces of lump sugar, teaspoonful of
powdered sugar, saucer.

A DUST MULCH CHECKS EVAPORATION.—
Courtesy International Harvester Co.

Procedure.—t. Put
enough water in two
saucers to make a lay-
er of about % of an
inch deep, and add a
few drops of ink to
the water in each
saucer. |

2. Put a heaping
pile of powdered su-
gar on a piece oer
lump sugar and care-
fully set this in a

saucer containing thecolored water.
3. In the other saucer, place an ordinary lump of

sugar.

4. How high does the water rise in each lump of
sugar? Why does it not rise to the top of the powdered

sugar?

164

APRIL 165

QUESTIONS

1. If the powdered sugar is regarded as the light mulch
on a soil, explain how it checks evaporation. (See “An In-
troduction to Agriculture,” page 44.)

2. What effect would hoeing a garden and leaving it
rough and lumpy have upon evaporation?

3. How could one establish a fine dust mulch on the
garden soil?

SEED CUT IN BLOCKY PIECES LIKE NUMBERS 3, 4, 6, AND 8, IS PREFERRED.
POTATOES LIKE NUMBER 5 SHOULD NOT BE USED.—Courtesy Wisconsin Ag-
ricultural Experiment Station

Exercise 2
CUTTING SEED POTATOES

Object——To learn how to cut seed potatoes.

Materials —Knife, a number of potatoes.

Procedure.—1. Study the pictures and practice cutting
a number of potatoes.

166 LABORATORY, FIELD AND PROJECT Guia

2. Cut them any way, provided that each piece has
two eyes and a good portion of the flesh of the potato.
Remember that until the roots can develop sufficiently
to begin to take raw plant food from the soil, the young
potato draws its food from the cutting.

3. Many potato growers dust the cut pieces in land
plaster to check wilting. If land plaster is available
dust a few cut pieces and expose them with undusted
pieces a few days and notice the difference.

To the Teacher—tThis exercise should be worked a day
or two before potatoes are planted in the community, so
that the cut pieces need not be wasted. Some one living
near the school may be glad to have the class cut a bushel
of seed for them.

Exercise 3
HATCHING CHICKS

Object-—To observe different methods of hatching
chicks.

Procedure.—1. With your teacher visit some farms
near the school where chicks are successfully raised
both by means of hens and by means of incubators.

2. Where eggs are hatched by means of hens, each
member of the class should observe the following :—

Location of nest, kind, size, how kept free of lice,
number of eggs in nests, the breed of the hen, feed given
to the hen, source and kind of eggs used, testing for in-
fertile eggs.

3. Where incubators are used observe the following:
Temperature and moisture, condition of the room, capac-

APRIL 167

ity of incubators and number of eggs in each, care of
the incubator, the turning and testing of the eggs, the
circulation of heat through the incubator, the tempera-
ture in the incubator.

4. No child should hesitate to ask any questions.

SUMMER HATCHED CHICKS NEED SHADE. THE COOPS HAVE NO BOTTOMS AND
ARE MOVED TO A NEW SPOT EVERY DAY.—Courtesy Wisconsin Agricultural
Experiment Station

There are always important points arising in observation
trips not mentioned in the outline. ‘The trips are made
to gain information.

5. Briefly write up where you went, and what you
saw.

To the Teacher.—Locate places where these observations
may be made, and secure permission to take the class to
study the methods.

168 LABORATORY, FIELD AND PROJECT GUIDE

Exercise 4
CARE OF CHICKS

Object—To observe the care given to chicks when
hatched by means of hens, and by means of incubators.

Explanation—The hatching of chicks is a simple
matter and easily accomplished. The raising of chickens
is a more difficult problem. The critical period is the
first month of their lives. How they may be brought
through this period successfully is the subject matter of
this exercise. |

Procedure-—1. With your teacher visit one or two
places where chicks are successfully raised with hens,
and note the location of the coops.

2. How are the coops kept clean? How often are
they moved? How protected in bad weather?

3. Inquire what ration is being fed and how often
the chicks are fed. |

4. How is the drinking water kept clean?

5. If possible visit a place where chicks are artifi-
cially raised.

6. Examine the brooders. Where are they kept?

7. How are the brooders kept warm? How many
chicks are put in a brooder?

8. Find out what and how often the chicks are fed.

9. How often are the floors of the brooders cleaned?
Is any material used as litter on the floor?

10. Make a drawing of a coop and of a brooder.

11. Briefly write up where you went and what you
saw. |

APRIL 169

To the Teacher.—Make arrangements beforehand with
successful poultry raisers for a class demonstration.

Exercise 5
PRESERVING EGGS

Object——To learn how to preserve eggs.
Explanation—There are two common methods of

preserving eggs at home. These are the water-glass
method, and the lime solution method.

=

RESY ATES
SSE on

n Cart»
—saen ES
» Z}:!)

re

J = >)

COMMER CIAL WATE
WATER GLASS 8B0/L£08 ANDO COOLED

4£GGS
1N DILUTED WATER GLASS!

IT PAYS TO PUT DOWN EGGS WHEN THE PRICE Is Low.—Courtesy U. S.
Department of Agriculture

Materials —Two quart Mason jars, a little water glass,
and lime, and one dozen eggs. Water glass may be pur-
chased in any drug store.

Procedure.—t. In this demonstration, the class should
preserve 6 eggs in a Mason jar containing the water-

- glass solution and 6 eggs in the lime solution. If they
cannot be kept in a cool place at school, one of the

170 LABORATORY, FIELD AND PROJECT GUIDE

pupils should take the jars home and put them away in
a cool, dark place for a period of four to six months.

2. Water-glass method.—Add one part of water glass
(about 4% of a glass) to nine parts of boiled water
(about a quart) which has been allowed to cool. Stir
the mixture thoroughly and almost fill a quart Mason
jar with it. Put six eggs in the jar and lightly screw on
the top. Keep the jar in a cool cellar and see that the
eggs are always covered with about two inches of the
liquid.

3. Lime solution method.—In this method, one pound
of quick or stone lime is used with one gallon of water
and a half pound of salt. Weigh out enough lime and
salt for 1 quart of the solution. How much of these
will be needed? Slack the lime with a little hot water.
Mix the slacked lime with the required amount of water
and add the salt. Stir the mixture thoroughly and allow
to settle. Pour off the clear solution into a Mason jar
and use it for preserving the eggs. Put six eggs into
this and keep the jar covered. Also keep it in a cool
place.

4. After a period of 4 or 6 months, use eggs from
both jars. Did they keep equally well in both solutions ?
When may eggs be preserved in these solutions ?

5. Large earthenware crocks should be used for pre-
serving eggs for home use.

6. In your notes briefly describe these two methods
of preserving eggs.

APRIL 171

Exercise 6
EXAMINATION OF COMMERCIAL FERTILIZERS

Object.—To get familiar with the appearance, compo-
sition, solubility, and reactive action toward litmus of
commercial fertilizers.

Materials —Samples of commercial fertilizers, several
glasses of water, blue and red litmus paper.

Procedure.—1. The results of this exercise should be
tabulated in the form suggested below:

Solubili idi
Name of Formula Color Form a Wate Seas:

|

2. Examine different kinds of commercial fertilizers,
especially those used in the community. Note their
color and form and record these in suggested forms.

3. Add a little of each to some water in a glass and
stir well. Are they soluble? Record results. Test the
water containing them with a small piece of blue and
red litmus paper and note and record the results.

To the Teacher—Litmus paper may be purchased in
drug stores, or from laboratory supply companies. Samples
of commercial fertilizers also may be purchased from lab-
oratory supply companies, or from dealers. (See Appendix,
Table 9.)

Exercise 7

MIXING COMMERCIAL FERTILIZERS

Object—To learn how to compound a certain ferti-
lizer.

172 LABORATORY, FIELD AND PROJECT Gui

Explanation.—Complete or mixed commercial fertil-
izers are sold on the percentage composition basis. A
4-8-2 fertilizer contains 4 per cent nitrogen or ammonia,
8 per cent soluble “phosphoric acid,’ and 2 per cent pot-
ash. Where much fertilizer is used, there is economy in
buying the ingredients and mixing these at home in the
proper proportion to get the raw plant food.

Materials—Table showing composition of fertilizing
substances. See Appendix, Table 3.

Procedure.—1. All commercial fertilizers are figured
on a ton basis. The following method shows how to
mix a 2-8-2 fertilizer.

2% of nitrogen equals 40 lbs. in a ton
8% of phos. acid equals 160“ ““ “
2% of potash equals op Kk &

These ingredients may be obtained from the following:

250 lbs. of 16% nitrate of soda will give 40 lbs. of nitrogen
1000 “ “ 16% acid phosphate «© 60 “ “ phos. acid
go “ “ 50% chloride of potassium “ “ 40 “ “ potash

1330 ‘© ‘* material required, and the remainder

670 Ibs. in a ton will be filler containing no raw plant
food. |

2. In a similar manner show how a 4-6-4 fertilizer
may be mixed.

3. Show how a 2-6-8 fertilizer may be mixed.

To the Teacher.—This is a good problem in arithmetic.
Assign it for arithmetic and discuss the results when the
class meets for agriculture.

APRIL 173

Exercise 8
STAKING OUT THE GARDEN

Object—To learn how a garden is staked out accord-
ing to a plan.

LEARNING THE PRACTICAL APPLICATION OF ARITHMETIC.—Courtesy Massachu-
setts State Board of Agriculture

Explanation.—This is an excellent observation lesson
in which many of the boys and girls in the school may
take part. |

Materials—Tape line, yard sticks, and small stakes.
Two stakes will be required for each row on the plan

174 LABORATORY, FIELD AND PROJECT ‘GUI@2

and four for the corners of the garden. Narrow strips,
about an inch wide, made from cedar shingles will
answer.

Procedure.—1. This exercise may be best demon-
strated at the time the first planting is to be done, at
the home of a member of the class who has made an
accurate plan of his garden, as outlined in Exercise 2,
March.

2. Place the four corner stakes.

3. At each end of the garden place a stake at the
proper distance to mark each row. The distances be-
tween the stakes should be equal to that designated- on
‘the plan.

4. What is gained by staking out the garden before
planting?

5. Briefly write up how you staked out a garden.

QUESTIONS
1. What is gained by staking out a garden before doing
any planting?
2. Need a large garden, cultivated with horse-drawn im-
plements, be staked out? How are the rows to be planted,
indicated in such gardens?

Exercise 9
PLANTING THE GARDEN

Object.—To observe how to plant the seeds in a gar-
den properly.

Materials——Garden plan, garden line, required seeds.

Procedure.—1. This is another demonstrational exer-
cise, and, if possible, should be conducted at the home

APRIL 175

farm of some pupil where an accurate plan of the gar-
den has been made and the garden has been staked
out, and made ready to be planted.

2. Stretch the garden line between the two stakes of
the first row to be planted.

3. With a stick or hoe, make a furrow directly under

FOR SMALL SEEDS USE THE HANDLE OF THE HOE FOR MARKING OUT THE ROW
ALONGSIDE OF THE LINE.—Courtesy W. Atlee Burpee Co., Phila., Pa.

the stretched line and deep enough for the kind of seed
to be planted.

4. Plant the seeds according to directions.

5. Cover seeds to the proper depth. Remove the line
and stretch it between the stakes of the next row to be
planted. |

6. Firm the soil above the planted seeds with the back
of the hoe or with the foot. Why?

7. In like manner, plant all seeds to be planted at this
time.

8. Briefly write up the different steps in planting seeds.

176 LABORATORY, FIELD AND PROJECT GUIBE

QUESTIONS

1. What are the advantages of straight rows?
2. Why are some seeds planted deeper than others?

Exercise 10

PLAN OF THE HOME FARM

Object—To draw an accurate plan of the home farm
and to find the number of acres in each field.

Procedure ——1. The plan here given is of a I00 acre
farm. It shows the fields,

80 Rods 40 Rods 80 Rods
n n
us)
E A. eo D.
iPS 20 acres I5 acres 20 acres
1S Corn Wheat S Meadow
| 4
© ae
2 B Cc mae: E.
1S 20 acres aly ee
Oats Orchard o eacem

E acaae
4 Garden |

the orchard, garden, grounds, and buildings. On this
plan the scale used is,—5 rods equals % of an inch.

2. Draw a plan of the home farm getting the distances
on all sides of the fields from your father and, wherever
in doubt, actually measure them.

3. If time permits, make a large plan of the farm in
which the scale is 5 rods equal to one inch, and indicate
the crops grown on each field for the last 5 years. This
will show the rotation on each field.

Exercise 11

FORAGE CROPS SURVEY

Object—To make a survey of the number of acres
devoted to forage crops in the school district.

APRIL E77

Procedure.—1. The following outline is suggested for
this survey.

Forage Crops Survey

School Mist. Nossssccoss gece PROWIMOLS ae cre oie ctel se cies Cones fcc oar ie
DAGet en orserte Ook
Acres in Acres in
Name of Acres in | Total Clover { Total other | Total
Farmer Timothy | Yield _and Yield }| Forage | Yield
Timothy | Tons Crops | Tons
T:
2.
3%
4-—
Etc.

2. For directions in conducting this survey, see Exer-
cise I1, September.

3. In place of the column headed “Other Forage
Crops” alfalfa may be used, or the name of any other
crops raised for forage purposes in the community.

Exercise 11
GARDEN DIARY BOOKLET

Object—A garden booklet for young boys in which
they may keep any or all of the following items:

Dates on which different vegetables were planted.
The first vegetables to appear.

List of vegetables planted.

List of flowers planted.

Insects seen in the garden.

Birds seen in the garden, dates.

First flower to bloom.

First flowers picked.

First vegetables used. Date.

178 LABORATORY, FIELD AND PROJECT GUIDE

To this may be added other items. This material will
offer excellent language and composition lessons.

THINGS TO OBSERVE IN APRIL

Incubators in operation Spreading fertilizers
Brooding of chicks The birds
Preparation of a seed bed Opening of buds
Liming soils

Project 1

HATCHING AND RAISING CHICKS

Object—To hatch one or more sittings of eggs from
pure bred stock and to raise the chicks.

Explanation.—This project should be started early in
April and continue until November 1. The pupil should
do all the work necessary in hatching and raising the
chicks except that which must be done while he is in
school, when the necessary work may be done for him.
Accurate records of cost of eggs, feed, and other cash
expenses should be kept. If desired, labor records may
also be kept.

Preparation.—Study the matters related to se project
as outlined below.

1. What breed of poultry shall I raise?

2. Do I want to raise the chickens for meat, eggs, or
both?

3. Where can I get good eggs from pure bred stock at
reasonable prices?

4. What hens can I get for hatching the eggs?

5. Where should I put the nest? How feed the sitting
hen?

6. Where and how should I keep the hen and chicks?

AN ORCHARD IS AN IDEAL PLACE TO RAISE YOUNG CHICKENS.—Courtesy Mis-
sourt Poultry Experiment Station

7. What and how often should I feed the chicks?
8. How should I manage the growing chicks?

Procedure—1. Get a clear idea of all the points in-
volved in the project, and get everything ready to start
the project. :

2. Keep records in an ordinary composition book such
as you use in school.

3. Use the first page for the table of contents. Use
the second page for the following:

Breed of poultry raised.

Number of eggs and cost.

Date eggs were set.

Number hatched? Percentage?
Number raised up to November If.

—
e

PEN

4. Reserve two or three of the following pages for
expenses, recording these in the order they occur.

s. If labor records are kept, use one page for each
month and record as accurately as possible the number
of minutes devoted to the project each day.

18 LABORATORY, FIELD AND PROJECT GUIRE

6. Use one sheet for receipts, recording what birds,
if any, were sold. Sell all the cockerels.

7. November Ist, make out a summary sheet showing
cost of chicks, not including labor, as suggested.

“Cost Of ‘eersis. Seed oa eee
Cost: ‘of feedas. SG auctk aa eee
Other «cash “expenses sc eee

PoOtal (Cost ceiteeteh wns eee eee

Deduct from this all the sales.

8. If possible, sell all the cockerels. If they are pure
bred you should get a good price for them. Use the
pullets to start, on November Ist, an egg laying project
as outlined in Project 2, November.

References.—F. B. 562: Boys’ and Girls’ Poultry Clubs. F. B. 808:
Mediterranean Class of Chickens. F. B. 806: American Class of Chickens.
F. B. 530: Hints to Poultry Raisers.- F. B. 624: Brooding Chicks:
F. B. 889: Backyard Poultry Keeping. F. B. 957: Poultry Diseases.

To the Teacher——A few similar projects are goose, duck,
and turkey raising. Hints for these projects can be found
in: F. B. 767: Goose Raising; F. B. 791: Turkey Raising;
F, B. 200: Turkeys, 5c., F. B. 697: Duck Raising. Dept. Bul.
464, Lessons on Poultry for Rural Schools, Ioc.

Project 2
RAISING A CALF

Object—To raise a calf.

Explanation.—Calf clubs for rural school boys and
girls have been organized in practically every state, and
any boy or girl may take up this project and, if desired,
enter a club. In this project, as in all others, all the
work must be done by the pupil, except that which must

APRIL 181

be performed when he is in school or is sick. The calf
should preferably be a pure bred or grade female. The
project should be started in the spring and continue until
the fall. If possible, the calf should continue to be the
property of the pupil and later be used in a milk pro-
ducing project. Before starting the project get a clear
idea of what is necessary to conduct it successfully. The
calf should be your property, paid for out of your own
pocket, and not given to you. You should either pay
cash for it, or have your father loan you the money
to buy it, or you should work out its cost. The records
should show the value of the calf when the project is
started.

Preparation.—1. Where and how am I going to get a
good calf?

2. What breed of calf should I get?

3. Where and how am I going to keep it?

4. Where am I going to get the feed? Have I money
to buy it? Shall I ask father to loan me the money? Can
I do work for him for the feed?

5- How can I weigh the calf occasionally ?

6. What shall I feed it to make it grow well and keep
healthy ?

7. Where and how can I manage to keep it when I close
up the project in the fall?

Procedure.—1. Prepare to keep records. Read Proj-
ect 1, April, and Project 2, December, Enter in your
record book the following:

1.. Breed of calf. 3. Age when taken.
2. Date of birth. 4. Pure bred or grade.

182 LABORATORY, FIELD AND PROJECT GUIDE

b Site 6 NAME). 62 No... 7. From whom purchased.
6, .Dam’s name *..... No... 8 Purchase price.

2. Open a feed expense account in your record book,
and charge all items of feed,—weight and value,—as you
purchase them, in order, including the whole and skim
~ milk.

3. Enter all other items of expense.

4. When you close up the project, fill out a summary
feed table as suggested:

SUMMARY FEED TABLE

Price per Lb.

Feed Pounds Fed | Hundredweight} Total Cost
of ton

Tt aWihole milk: se eee
oH AS} steayecad ll ESE dam omni oar
Be Grain’ Ae Aa eee
Pras, ae
SS PCE eS Se eeeea ate SC eee
Os ay cere cates cee meester
F MAOIUAGE te eit ere
Sue Pasture see oe eee

Motals cect dler etre whe

For pasture put down what your father would charge
for pasturing a calf for a neighbor.

5. Finally fill out the following summary:
. Date when project started.

. Date when project closed.

. Weight when entered on project.

. Weight at close of project.

. Total gain in pounds.

. Average daily gain.

Cost of feed.

. Cost of 100 Ibs. gain in weight.

CONT Ov On Gor i

APRIL 183

6. Prepare to do the work well. Enter all expenses
promptly, and if scales are available, weigh the calf
every 30 days.

References.—F. B. 7: Feeding and Management of Dairy Calves.
F. B. 893: Breeds of eee Cattle. F. B. 612: Breeds of Beef Cattle.
F. B. 811: Production of Baby Beef.

To the Teacher—The State Leader of Boys’ and Girls’
Club Work, located at your State Agricultural College, will
gladly mail you leaflets pertaining to calf projects. Write
to him.

MAY

Exercise 1
EFFECT OF LIGHT UPON PLANT GROWTH

Object.—To study the effects of light upon a growing
plant.

Explanation—This is a demonstrational exercise in
which the class, as a whole, should assist. Each member
should briefly write up the experiment and answer the
questions.

Materials—Two tin cans with holes punched in the
bottoms and around the sides near the bottoms; oats.

Procedure.—1. Mix two parts of a rich garden soil
with one part coarse sand, and fill the two tin cans with
the mixed soil.

2. Plant about ten oat kernels in each pot. Water the
soil regularly and put the cans where the plants will
grow well.

3. When the oats are about three inches high, put one
of the cans in a dark place for three or four days, then
compare its plants with those of the other can. What
changes were caused by the absence of sunlight?

4. Keep the two cans in the lighted place for several
days longer and note the effect the sunlight has upon the
plants which have been in the dark. What are some of
the effects of sunlight upon plant growth?

184

MAY 185

QUESTIONS

1. Of what use is the green coloring matter of plants?

2. Would this coloring matter be of any use to plants
deprived of sunlight? |

3. Why is sunlight essential? See Chapter 2 in “An
Introduction to Agriculture’ or how plants make food, in
any agricultural text book.

Exercise 2
CIRCULATION OF WATER IN PLANTS

Object—To show how water circulates in a plant.

Explanation—See previous exercise.

Materials —Glass of water containing a few drops of
red ink, one or two white flowers with long stems such
as the lily of the valley, or white carnation.

Procedure.—t. Insert the freshly cut ends of one or
two of the flowers mentioned, in the colored water in the
glass.

2. At intervals of about one half an hour examine the
plants to discover how far up the stems the red solution
has moved.

3. Did the red solution color the white petals? How
long did it take?

4. Hold a few of the petals and leaves up to the light
and see if you can see the veins in which the water circu-
lates? Are they very numerous?

QUESTIONS

I. Does much water circulate through plants?

2. Why does the water go up into the leaves of plants?

3. Does the water circulating through plants have any
particular uses? (See Chapter 4, “An Introduction to Agri-
culture.”)

186 LABORATORY, FIELD AND PROJECT GUIDE

Exercise 3
SOIL TESTS

Object.—To study the effects of commercial fertilizers
and of lime upon plant growth.

Materials —About a pound of each of the following:
nitrate of soda, acid phosphate, chloride of potassium,
and 2 pounds of slaked lime.

Explanation—This is a demonstrational exercise in

ON THE LEFT, CLOVER ON UNFERTILIZED PLOT. ON THE RIGHT, CLOVER ON
SOIL TREATED WITH GROUND LIMESTONE AND ACID PHOSPHATE.—Courtesy
Kentucky Agricultural Experimental Station

which the whole class should take part. The demon-
stration should be carried on in a field near the school,
and should be started a day or two before the crop,
which may be wheat, oats, potatoes, corn, alfalfa or
clover, is planted.

Procedure.—1. Assist your teacher in laying off four
strips of ground, 10 feet square, with a space of three
feet between them, on one edge of the field.

MAY 187

2. Broadcast over these four strips, respectively, one
pound of nitrate of soda, one pound of acid phosphate,
one pound of chloride of potassium, and two pounds of
slaked lime.

3. Rake the materials into the soil.

4. While the crop is being planted the stakes may be
temporarily taken out and later, after the planting, be
put back in some places. .

5. The demonstration plats should be a regular part
of a field and should receive the same treatment in plant-
ing and care as the rest of the field.

6. Note carefully the rate of growth, the vigor, and
the color of the crop on each plat, and compare it, in
each case, with the strips between the plots on which no
fertilizers were applied.

7. This is a good practical method of determining
what elements of plant food, if any, do not occur in
sufficient quantities in the soil.

8. Briefly write up the tests that were made; and the
results obtained.

To the Teacher—Secure permission to conduct such a
test and have all the materials on hand.

Exercise 4
TRANSPLANTING

Object——To learn how to transplant seedlings into the
garden.

Materials—A flat of tomato, cabbage, or cauliflower
plants.

18. LABORATORY, FIELD AND PROJECT GUI

Explanation—This is a demonstrational exercise in
which the whole class should take part, the pupils doing
just as much of the work as possible.

No plant should be taken directly from a warm room
or hotbed and exposed suddenly to open weather con-
ditions. The change should be made gradually by ex-
posing the plants on warm days, then. on warm nights,

4

PROPER THINNING IS ESSENTIAL FOR GOOD RESULTS. DON’T JUST PULL THE
PLANTS UP BUT USE A STICK TO LOOSEN THE SOIL AROUND THE ROOTS BEFORE
REMOVING. Courtesy W. Atlee Burpee Co., Phila., Pa.

and finally on cool nights. Besides exposing the plants
to the open, they should also be made accustomed to the
dryer conditions of the outdoor air, by giving them
during the week before they are transplanted only
enough water to keep them healthy. The plants should
be watered an hour or two before transplanting to fill
their tissues with water. The best time to transplant
is on the evening of a cloudy day, either before or after
a rain.

MAY 189

Procedure.—1. Transplant some plants following di-
rections here given.

2. Remove the plants with as much soil adhering to
the roots as possible.

3. Make a hole in the ground deep enough to allow
the plants to be set down to the first leaves, and insert
the plant to the proper depth.

4. Cover the roots with some fine soil. Press this down
firmly to fill up all air spaces and to bring the soil in
close contact with the roots.

5. Add water to moisten the soil thoroughly and when
this water has disappeared fill the rest of the hole with
loose soil. Do not firm this, as it should act as a mulch
to check evaporation.

6. Tomato plants with long stems should be trans-
planted differently. Make a hole deep and long enough
to lay the roots in the trench and turn up the tops of
the plants.

7. The tops of beets, tomatoes, celery, etc., may be
partly sheared to reduce the evaporation from the plant.

8. If the following day is bright and warm, protect
the plants.

9. In your notes briefly tell how you transplanted some
seedlings.

Exercise 5
NODULES AND LEGUMES

Object.—To study the nodules on the roots of legumes.
Materials —Several different legumes, spade.

190 LABORATORY, FIELD AND PROJECT GUIDE

Explanation—This is an observational exercise and
should be taken up on a field trip.

STEN IER IS

Procedure. — I.
Carefully dig up a
number of different
leguminous plants
such as sweet clover,
“fed. clover, ~aliamas
and garden peas. Be
careful not to break
off the tiny roots.
2. Gently shake the
soil from the roots
and notice the small
onus, on A anor \cievae Gor Coke. ) swellin ye ie
the _ roots. These
are called nodules or tubercles. Draw and describe
them.

QUESTIONS

I. Where do they occur on the roots? How do those of
different varieties of plants differ?

2. What use have these nodules?

3. What is in them?

4. What may be the results if a legume had no nodules?
(See Chapter 8, “An Introduction to Agriculture.” )

To the Teacher.—When you take this exercise up with the
class, take the pupils out and have one or two of the boys
dig up some legumes for study.

MAY IgI
Exercise 6

MAKING SPRAYING SOLUTIONS

| Object—To make a gallon of each of the different
spraying solutions.

RE ee cues) sda Oe mepaciment Of Agriculture)
Materials —Copper sulphate, quicklime, arsenate of
lead, Paris green, small scales.
Procedure-——See A, B, C, for formulas for different
mixtures.

192 LABORATORY, FIELD*\AND PROJECT GUIDE
A Preparation of Bordeaux Mixture.

_ The formula for common Bordeaux mixture is: 4-4-50,
meaning,

4 lbs. of copper sulphate
4 lbs. of quicklime
50 gal. of water

1. How many ounces of the ingredients are needed
for I gallon of water?

2. Weigh these out.

3. Good lime for this purpose should be lumpy.
Slake the lime with hot water. Add the water no faster
than it is taken up. When the lime has formed into a
light powder, slowly add two quarts of water to get it
into solution.

4. Dissolve the required amount of copper sulphate in
two quarts of water.

5. Mix the two solutions, and test the mixture with
an iron wire slightly filed at one end. If the amount of
lime is insufficient, copper will be deposited on the bright
part of the wire. In this case, add more lime until the
copper no longer deposits on the wire.

B. Paris Green Solution.

The formula for the standard Paris Green solution is

Patish-@reena. sa near I pound
IS estas ek Fogo Seg ern ghee 2 pounds
Watenn sid: tee ete es een 200 gallons

1. How many ounces of these two ingredients are
needed for 5 gallons of the solution?
2. Make the Paris green into a paste with a little

MAY 193

water, then dilute the paste with more water. Mix the
lime as for Bordeaux mixture.
3. Do not prepare this solution unless it can be used.

C. Arsenate of Lead Spray.

The most common formula for arsenate of lead is
2-50; that is,

2 pounds, of arsenate of lead
50 gallons of water

1. How many ounces of lead arsenate are required for:
5 gallons of water?

2. If the solution can be used, make it. Add the
arsenate to a little water to make a paste; then add the
rest of the water. ;

3. Paris green or arsenate of lead may be combined
with Bordeaux mixture if a combined fungicide and
insecticide is desired. Generally % lb. Paris green or 2
Ibs. of arsenate are added to 50 gallons of Bordeaux
mixture.

To the Teacher.—Let the class working in one or more
groups prepare small quantities of these spraying solutions.
Do this at a time when you can take the class to a farm
near by to demonstrate with several types of small sprayers
the use of the solutions, spraying such plants as potatoes,
cabbage, melons and tomatoes with the proper solutions.

Exercise 7
EAR-TO-ROW CORN TEST
Object.—To plant short rows of corn from different
ears, each row representing one ear, and to note the
results.
Materials —Ears of corn, hand planters or hoes.

194 LABORATORY, FIELD AND PROJECT GUIDE

Explanation.—This is a demonstrational exercise re-
quiring the work and cooperation of the entire class.
The demonstration should be conducted in a field near

LEFT. ROWS PLANTED FROM EARS WHICH GREW LOW ON PLANTS.

EARS WHICH GREW HIGH ON PLANTS. .

PLANTS IN THE FIELD.—Courtesy Ohio Agricultural Experiment Station
the school about to be planted to corn, and should be
started about ten days before the owner of the field
intends to plant it. The test consists in planting the

ends of 10 to 20 corn rows nearest the road, to corn, in

RIGHT, FROM
IT PAYS TO SELECT CORN FROM

MAY 195

such a way that about 50 feet in each row is planted with
corn from individual ears. The end of each of these
rows should represent a single ear. The ends of the
rows used in the test should be cultivated by the farmer
whenever he cultivates the corn. The corn should be
given to the farmer in return for the permission to run
the test.

Each member of the class should briefly write up the
demonstration and should make a plan of the test plot.

Procedure—1. About two weeks before the corn is
to be planted secure and test about 50 ears of corn of the
same variety as that which the farmer is going to use in
planting the field.

2. When the tester is opened, select a variety of ears
if possible, some testing very weak, some weak, and some
strong, but only as many ears as there are rows in the
test.

3. Plant the end of row one to corn from ear one and
so on, and keep the data about the test of each ear.

4. Observe from time to time the growth of the corn.

5. Which row seems to have the largest and most
vigorous plants? How did the corn planted in this row
test? Which row has the weakest plants? How did the
corn used in this row test?

6. The stalks of the poor corn may be detasseled to
prevent crossing without any effect upon the plants.
This will eliminate any possibility of injury to the quality
of the corn the farmer plants in the field.

To the Teacher.—Secure permission from a farmer near
by to conduct this test.

196 LABORATORY, FIELD AND PROJECT GUIDE

Exercise 8
POTATO TESTS

Object——To plant a few dozen hills of potatoes from
each of three or four varieties grown in the community,
to see which variety gives the best results.

CUT ILLUSTRATING HILL SELECTION OF SEED POTATOES, IT PAYS TO SELECT
POTATOES FROM THE BEST HILLS FOR SEED.—Courtesy U. S. Department of
Agriculture

Materials —Eight to ten good seed potatoes from three
or four standard varieties.

Explanation—tThis exercise should be conducted on
a potato field of a near-by farm as was the corn exercise
outlined in the previous exercise. The only work this
will make for the school will be the cutting and the
planting of the potatoes. It is assumed that these
potatoes will finish out rows of a regular potato field

MAY 197

and that when the field is cultivated and sprayed the
experimental plot will receive the same treatment as the
rest of the field. The crop should go to the farmer
for the use of the land. A spraying demonstration may
be introduced if desired.

Procedure.—1. Cut the potatoes on the day the farmer
1s going to plant the field. See Exercise 2, April.

2. Plant them at the same distances apart as the regu-
lar field of potatoes is being planted.

3. Observe, at occasional intervals, the characteristics
of the plants and flowers and the growth of each variety
planted.

4. In the fall, have the potatoes dug by hand, digging
and weighing separately the marketable potatoes of each
variety, from an equal number of hills, to determine
the comparative yields.

5. Weigh the crop from an equal number of hills
from the farmer’s potatoes. Discuss the results. Was
there any noticeable difference in yield? In favor of
which variety ?

To the Teacher.—This is an excellent method of getting
samples of common varieties of potatoes for study in Exer-

cises 2 and 3 outlined for September.. See F. B. 533: How
- to Produce Good Seed Potatoes.

Exercise 9
POULTRY SURVEY
Object—To make a poultry survey of the school dis-
trict.

Procedure.—1t. The following is a suggested outline
for a poultry survey, or census of the school district:

198. LABORATORY, FIELD AND PROJECT GUIG@

POULTRY SURVEY

School Dist: Nios: . aceon oe Rowmiiol, jem erertarsre eh COS t sate eee
Date st eycrae@isirors ates
Name of Number Number Number Number
Farmer 0 Breed oO Oo fc)
Chickens Ducks Geese Turkeys

eee | ce | Ee | ER | a | | ED

2. Conduct this survey exactly as outlined for the
Corn Survey, Exercise 11, September.

Project 1
GROWING A PLOT OF BEANS

Object—To grow a plot of navy beans.

Explanation—The growing of navy beans is always a
good project because there is a constant demand for the
crop at good prices. Beans keep well, the crop is easily
handled, and, with the exception of preparing the land, a
boy or girl can do all the work himself. A patch cover-
ing about 1/10 of an acre, if well cared for, should yield
from one to two bushels of shelled beans.

Preparation.—Some of the more important factors en-
tering into this project are enumerated below. Study
them before you start the work.

1. What kind of a soil is best adapted to beans?

2. Will beans grow well on a sour soil?

3. Where on our farm is the best place to grow the
beans?

4. Should the field be fertilized? With what?

5. What variety of beans is best adapted to our locality?

6. Where can I buy the best grade of seed, guaranteed
free of disease? Should I test. the seed? How?

MAY 199

7. How should I plant the seed? How thick? How
deep?

8. How much seed shall I need?

9. How should the seed bed be prepared?

10. When should I plant the seeds?

11. How, when, and how often should beans be culti-
vated?

12. How should I harvest and cure the crop?

13. How should I thresh them?

Procedure——t. Prepare a record book in which all ex-
penses and time devoted to the project may be recorded.
pce Frayect3, March.

2. In the record book, draw to an accurate scale the
plot, indicating number of rows and the distance be-
tween the rows. Give the dimensions of the plot. De-
termine the number of square rods in it. Determine what
part of an acre it is.

3. Devote several pages to the expenses which should
include

1. Land rental 5. Cost of any fertilizer
2. Cost of seed used
3. Cost of preparing field , 6. Other expenses

4. All labor not your own

4. On separate sheets keep track of your time.
5. When the project is completed fill out a summary
sheet as directed.

PS rey SS Gea tcecl gle Acie rch edsas eh Sik soe im «024 ¥ eakesaiais
MEME AGAGIES ORPENSES J sik saa i ls.¢ sic ccd'e es cceiae nea
. Total expense, not including your time........
Pee ite thE Ohler CLIP) 5 c's 2 srw sek oh 8b ia face erare'a a o's
Rerodene BOL COUmtine VIADOT ).% o.).000.'s 00s aie sae

mh WN &

200 LABORATORY, FIELD. AND PROJECT -QUiIBz

6. Value. of: labore. o. ace ea ee eee eee
7. Net :profit : ss 0. Saeten kindawisale coe oh eer

Under value of crop give value of the beans sold and
of those kept for home use; also record the yield.

6. Start all work at the proper time.

7. Pay attention to the points you learned about grow-
ing the crop.

8. Record all expenses and all time items on the days
they occur.
Beas Production, gublished fy ‘Soil Uaproyerent Commitee aimee atime

graph Building, Chicago, Illinois. Free.

To the Teacher.—See the next project. Other similar
projects are growing a plot of pop corn or sweet corn. In
helping a child to select a project of this kind the market
demands must be carefully considered. The parents may
be able to help you to decide what crops would be most
profitable to grow.

Project 2

GROWING A PLOT OF CORN

Object—To grow a plot of corn.

Explanation.—The size of a land plat for a corn proj-
ect for rural schools varies from 1/10 of an acre to
one acre. The aim of the project is to raise the largest
quantity and the best quality of corn at the cheapest cost
of production. Nothing but pure bred corn of a variety
grown in the community should be used)\for seed.

Preparation—1. Before starting this project make a
study of the following questions :

1.. What kind of soil is best adapted to corn?

2. Where on our farm may I get the best piece of land
for my corn project?

MAY 201

3. Should I fertilize it? When? With what?

4. What variety of
buy pure bred seed?
for seed.

pea omould IT test th

corn should I plant? Where can I
Shall I get shelled corn or ear corn

e seed?

6. How should I plant the corn? How thick?
7. How should I plant the seed?
8. How and how often should I cultivate the crop?

Procedure.—1. Purchase and test the seed.

2. Make preparations to have the land fertilized and

plowed.

3. Keep accurate records of the project. See Proce-

dure under Project 1,

4. Prepare the seed
bed. Plant the crop.

Pro eu iti vate
the crop.

6. Keep accurate
records and record all
items each day.

7. Close up the pro-
ject with a summary
sheet as suggested in
Project 1, May.

S.. In’ a’ project of
this sort, in which
horses and imple-
ments are used, charg

May.

PLANNING TOGETHER FOR A BUMPER_CROP.—
Courtesy Iowa State Teachers’ College

e 10 or 15 cents per hour for your

time, 10 cents per hour for the time of each horse used,

$2.00 per acre for rental of implements, and $5.00 per

acre for rent of land.

202 LABORATORY, FIELD AND PROJECT GUIDE

Other projects of this kind are :—

Growing a plot of potatoes
Growing a plot of tomatoes.
Growing a plot of onions.
References.—F. B. 948: The Rag Doll Tester. F. B. 400: Methods of

Planting Corn. F. B. 414: Corn Cultivation, F. B. 415: ‘Seed Cor:
F. B. 537: How to Grow an Acre of Corn.

THINGS TO OBSERVE IN MAY

Tillage implements Weeds in the garden
Spraying machines Some well planned home
Good gardens » gardens

Planting of farm crops The opening of buds
Planting of a garden Insects pollinating flowers.

The birds and insects of the
garden

JUNE

Exercise 1
A STUDY OF FLOWERS

Object—To make a study of the different parts of a
flower. |

Materials—Several simple flowers, hand magnifier,
knife.

Procedure.—1. Procure one or two simple flowers in
blossom at this time.

2. Note the shape of the flower. Has it an odor?
Where is the odor produced? Why?

3. What is the color of the flower? Why are some
flowers brightly colored? What flowers have no color?
Why not?

4. The lower, outer set of parts of the flower, just
below or surrounding the colored parts, are called the
sepals. How many sepals are there? What name is
given to all the sepals taken together?

5. The colored parts of the flower, just inside or above
the sepals, are the petals. How many petals are there?
What collective name is given to the petals?

6. The group of small structures inside of the petals
are called the stamens. How many stamens are there?
Of how many parts does each consist? What use have
the stamens? Shake the flower over a piece of paper.

203

204 LABORATORY, FIELD AND PROJECT GUiae

Does a powdery mass drop from the flower? What is
this?

7. In the center of the circle of stamens is the pistil.
It has three parts. What is the use of the pistil? The
swollen lower part of the pistil is the ovary. In it the
seeds develop. Cut an ovary cross-wise and look at the
cut section with a hand magnifier. Can you see the little
seeds?

QUESTIONS
1. How do flowers form seeds?
2. Why do not all flowers have colored petals?

3. What part of a flower is the silk on an immature corn
plant?

Reference.—Any botany book.

Exercise 2
ASSTUDY TOR SINSEGIS

Object—To study a few insects.

Materials.—June beetle, and other insects.

Procedure.—1 Notice the body parts of the insects ;—
the head, thorax, and abdomen.

2. What is attached to the thorax?

3. How many pairs of legs have the insects? To
what part of the body are these attached?

4. How many pairs of wings have the insects? To
what part of the body are these attached? What is
the difference between the two pairs of wings?

5. How many parts or segments has the abdomen?

QUESTIONS

1. How do insects breathe? Can you see their breathing
pores?

THE LEGS AND WINGS ARE ATTACHED TO THE THORAX

2. Could you drown an insect by putting its head under
water ? ,

3. Can you give an account of the complete life history
of a June beetle?

4. If possible, examine some of the grubs and pupe.

References.—F. B. 543: Common White Grubs. F. B. 747: Grass-

1 F. B. 76; The Common Cabbage Worm. Any zoology text
ook.

Exercise 3
THr LaFrkE HiStorRy OF A FLY

Object—To make a study of the life history of a fly.

Materials —An empty cigar box or old bucket, a piece
of fresh meat, a piece of cheese cloth.

Procedure—1. Half fill an empty cigar box or old
bucket with some moist soil and place upon the soil a
piece of fresh meat.

2. Expose the meat to the open air for a few hours, or
until you have seen some flies hovering about it.

3. Observe the meat carefully and notice if you can
see any small eggs deposited by the flies upon it. If so,

206 LABORATORY, FIELD AND PROJECT GUIDE

cover the top of the receptacle with a piece of cheese
cloth and keep it in a warm place.

4. Examine the meat daily for little maggots or larve.
How long has it taken the eggs to change to larve?

5. Several days after the maggots have all disappeared
stir up the soil two or three times, at intervals of a few
days, and see if you can see any pupe. How long has
it taken a larva to change to a pupa?

6. Keep the receptacle covered. Examine it daily for
flies? How many days has it taken the pupe to change
into flies? Flies undergo a complete metamorphosis in
their development. Name each stage in the complete
life cycle.

7. Mention other insects which undergo a complete
metamorphosis.

8. Do grasshoppers undergo similar changes in their
development °

References.—F. B. 459 and 851: House Flies. F. B. 540: The Stable
Fly. Any zoology text book.

To the Teacher—Have each member of the class perform
this experiment at home, or else let one or two of the boys
work it at school to demonstrate it to the class.

Exercise 4
POULTRY PESTS

Object—To study poultry pests and to learn how to
exterminate them.

Explanation—The common poultry pests are mites
and lice. The most troublesome is the mite, a little gray
insect which becomes red after it has sucked blood from
the poultry. Poultry lice have a pale dull yellow color
and when seen under a hand magnifier show a segmented

JUNE 207

body. Lice gnaw the surface of the infected animal and
eat the blood and tissue. The body of mites is not seg-
mented.

Materials —Poultry, hand magnifier.

Procedure——1. With your teacher visit a nearby poul-
try house to study mites and lice. Examine also the
poultry house and the chickens at your home.

2. Look carefully in the cracks and crevices of the
perches and nests for mites. Brush some on a piece of
paper and look at them with a hand magnifier. Mites in
general infect the poultry only at night or when a hen
is brooding or laying.

3. Lice are usually found on the poultry, between the
feathers, about the thighs, and rear of the body. Ex-
amine several hens for lice. Put one or two on a piece °
of paper and observe them with a hand magnifier.

QUESTIONS

I. How can mites and lice be exterminated?
2. What harm do lice and mites do? See F. B. 8o!;
Mites and Lice on Poultry. Any poultry book.

To the Teacher—Make arrangements for the class with
a farmer where it is possible to see these poultry pests or
have the pupils do the work at home.

Exercise 5
STUDY OF A GARDEN
Object——To observe and study a well planned, well
planted, and well cared for garden.
Explanation—Near all schools one should be able to
find at least one really good garden. Much may be
learned about gardening by observing a really good gar-

208 LABORATORY, FIELD AND PROJECT GUEBE

den. The class should go with the teacher to study
a garden as suggested below.

Procedure.—1. Make a plan of the garden, indicating
dimensions, each row of vegetables, and distances be-
tween the rows.

A WELL PLANNED GARDEN. TOMATOES ARE BEING TRAINED TO STAKES.—Cour-
tesy Indiana Agricultural Experiment Station

2. Get the intervals between corn, potatoes, tomatoes,
etc., in the row.

3. Ask when and how the garden was prepared.

4. Ask when and with what the garden was fertilized.

5s. Ask why certain crops were planted in certain
places.

6. Find out if any spraying has been done. If it has,
what was used, and for what purpose?

7. Ask any questions which you think will help you
in your garden work. }

JUNE 209

A WHEELED HAND CULTIVATOR MAKES GARDEN WORK EASY AND PRODUCES
EXCELLENT RESULTS.—Courtesy W. Atlee Burpee

Exercise 6
SPRING WEEDS

Object—To get familiar with the names and char-
acteristics of some of the early summer weeds.

Procedure-—t. Read over Exercise 4, September, Fall
Weeds.

2. In studying spring weeds follow either one of the
two suggested ways of studying weeds given in Exer-
cise 4, September.

3. Make a list of the common weeds found in the
garden at this time.

Exercise 7

KEEPING MILK SWEET

Object—To learn what effect temperature has upon
keeping milk sweet.

210 LABORATORY, FIELD AND PROJECT GUIDE

Explanation—Each member in the class should try
this test at home. :

Materials —Two pint Mason jars each half filled with
sweet milk.

Procedure—1. Keep one of the jars of milk in a
warm place and the other in a cold place, ice box if pos-
sible.

2. Examine both samples daily and find out which one
sours first.

QUESTIONS

1. What causes milk to sour?

2. Would dirty milk and clean milk kept in the same
warm place sour at the same time?

3. Why does a low temperature check souring ?

Reference.—F. B. 976: Cooling Milk and Cream on the Farm.

Exercise 8

SWINE SURVEY
Object-—To make a swine survey of the school dis.
trict.

Procedure.—The following is a suggested outline for
a swine survey of the school district:

SWINE SURVEY.

Schools Dista NOs meni. MROwni Oli. see. COvaue.scctiolostee eee
Daten. oocccedkaldo we. lanseald ds cease eee
Name Number Number Number
of of Breed fe) Breed
Farmer Sows Boars igs

——— | | | | | |

JUNE 211

2. Conduct this survey exactly as outlined for the
Corn Survey, Exercise 11, September.

Exercise 9
SURVEY BOOKLET

Object.—To combine all the different surveys made
of the school district into one booklet and to draw a map
of the district on which some of the important agricul-
tural facts are recorded.

Explanation. —The
survey booklet, if it
contains the surveys
suggested for each
month, will be a piece Xs
of wark which will pit.
reflect great credit P
upen. the. pupil. It
will show the agricul- 9 Qweuine Hf Housreins

® ScHoow
@ SiLo SCHOOL CLERK

tural conditions of

Ge edistict,- anid, |: Aree get unee

should interest the - ae ae SURVEY MADE BY RURAL
Winer ee community. / Toews Eepoines sonon
Many counties throughout the United States have been
surveyed by the school children, and one entire state.

Procedure—1. Make an index of the surveys in the
booklet.

2. Draw a map of the school district as suggested,
and on it indicate the most important facts deducted
from the survey.

3. Neatly bind the material together with colored con-
struction paper to form a neat booklet.

rf

212 LABORATORY, FIELD AND PROJECT GUIDE

Project 1
SUMMER WORK

Object.—To keep record of any definite piece of work
done during the summer which has not been taken up
under the heading of any projects listed in this book.

Explanation.—lf during the school year, no definite
projects have beén started, which will run into the sum-
mer months requiring some definite summer work from
the pupils, every boy or girl should think of what he
can and would like to do and should talk over this matter
with his parents. No boy or girl among you should
aimlessly while away a whole summer. Let part of
your time be devoted to some worth-while project which, .
when carried on regularly and in a good business-like
manner, will show that your summer vacation has not
been wasted.

Procedure.—t. Read over some of the projects which
have been outlined.

2. Think of what you can do and would most enjoy
doing and being responsible for. Consult your parents.

3. Plan the work. Keep records of what you do, be
able at the close of the summer to show a neat booklet,
giving all the information about your project.

THINGS TO OBSERVE IN JUNE

Some good stands of corn Injurious insects
Some well managed chicks Good cultivation
A good alfalfa field Well pruned trees
Leaves of common trees A bee hive

The work of earthworms

APPENDIX

Table Page
I. Digestible Nutrients in Feeds. .. . eee)
2. Elements of Plant Food in Crops and Feeds ow eta
3. Plant Food in Commercial Fertilizing Materials 215
4. Location of State Agricultural Experiment Sta-
HONS ))) >: SARS 216
5. Legal Weight of ee Csluniediies’ eed Soesehae eb
6. What Concentrated Feeds Weigh . . aan
7. Approximate Capacity of Cylindrical Silos AA Sie
8. Modified Wolff-Lehmann Feeding Standard . . 219
9. Laboratory and School Supply Companies . . . 220
10. Number of Trees, Shrubs, and Plants to an Acre 221
Pee aerdeners. Planting, Table. 2.42... 222-223
ierscore: Gard tor Commercial Kegs... 2... .' 224
tee mecore Cards for:
SECON GE AUNT MAM mevriper rans wk oe Se a B25
Fruits ees Roi ae es
Canned Fruits “ne eet at les Me eta a ee as

213

APPENDIX

Table 1

AVERAGE- NUMBER OF POUNDS OF DIGES ETE NUTRIENTS
IN ONE.-HUNDRED LBS. OF FEE
(From Henry’s “Feeds and Peeding}>

Total Dry Digestible
Name of Feed lees in
100 Lbs. : Carbo-
Protein hydrates Fat
Concentrates Lbs. Lbs. Lbs. Lbs.
GCorm—eTrain none eis cient ice eee 89.4 7.8 66.8 4.3
Cormanealey eer eee hick os cetacee 85.0 6.1 64.3 3.5
Cormnandicobmuealen i. 40 ee nine 84.9 4.4 60.0 2.9
Gluten: fear se eect). 305s nsec 90.8 2153 52.8 2.9
Wiheat—-prainiy secon ois wv se ciette aes 890.5 8.8 67.5 tS
Wiheati brates sitscs cateleten ce 88.1 II.9 42.0 265
Wiheatemiddllingseerecisre sects cence 88.8 I3.0 Ala 4.5
Barley--orainenn ovis sc.cye i netetnieee 89.2 8.4 65.3 140)
Oats=erain vet cceeres 2.6 eve einte oie anes 89.6 8.8 49.2 4.3
OatS— Grounds s Femie wus slerecs hehe ee aie 88.0 TOME S2e5 Say)
LO ilimnealls as acre ee coa ee orenteratote 90.2 30.2 32.0 6.9
Cottonscedimealiereecee ce sae. 92.6 35.8 Bane 8.0
Cows miles, foseatin. Oaeneeeewc 128 3.4 4.8 3.7
Dlcimcrnalic es pectat atari sce egcen or ween 9.4 2.9 es} 33
Butterumille Se .5.25 Poe cee sas ree ete 9.9 208 3.9 1.0
CY: sch se adettiicl si cueteuchenebavarevecebebecetaeees 6.2 .6 5. ae
IMGAEISCrADS= seieooe tetera ay okie ee 89.3 66.2 ee rig han!
PATA SE ate, ove uycvetere fer tere e Chen Korean 93.0 50.1 : Awe (S
Roughages
SPIT OLL Ys (seve a ereyeatate eyes ele a eueuste Sater 86.8 2.8 42.4 ges}
Redicloverwhayaaos nme oor 84.7 Ghat 37.8 1.8
Alfalta hay.tien cicemcnraliniine een eee 91.9 10.5 40.5 .9
Corn Stover {acne sae eh ers eee 59.5 TA! Zhe2 a7)
Wheatistraw..c. otic cence 90.4 8 S552 -4
Oatistraw: if sac cme a ro cereione oie ee 90.8 m3 39.5 .8
Barleyistra wine eo socoGhic oon lee 85.8 9 40.1 .6
Corn silage...... airctaveeron tetere leonora 26.4 esl 14.2 a7
Table 2

The table below shows the number of pounds of dry
matter and the number of pounds of the three elements
of plant food contained in 1,000 pounds of grains, seeds,

214

APPENDIX 2s

.

cured hay, stalks, stovers, silages, and miscellaneous sub-
stances.

: Dry : Phos- Potas-
Materials Nfattor Nitrogen phovus aie
Grain and Seeds Lbs. Lbs. Lbs. Lbs.
COTDy ci eet ee RS SE ek ers rea 894 16.5 Bhi And
PAV ereicralesereata icy evciscel v ceevoleo efeiapsienas a1 913 18.1 3.8 4.8
Wileatt yee siesta cj ave a s).<s, Siow eerstate 895 19.0 3.8 4.6
WATS ert rcoe citiere wisfe,s oleatelsie e shee 806 18.2 354 4.0
PRAT CURE ete cht seein alae oTOGie eStore 892 TO)}.2 Zigt! 4.0
PSMCISWIEAG Ge cise ace cnkit head eo areas 866 T7553 3.0 Fels
SOAS GENTS yin OO RR ae Doerner 883 53.6 4.5 10.5
WWOULOMNSEEOL icc oe cles che. erste fe eialere 8907 29.4 4.6 9.0
BOW DEAS ioe ce cle arn oe ineigis neh stele oe 854 32.8 4.4 10.0
Cured Hays
Tbnrsoi any 35 Eh ee ee eno Ie Tein rOr 868 9.4 I.4 tr. 8
Redi Tope 22.3-' Rrstatassheonetay Sratel ous voperals OIL DZnG 1.6 8.5
PRE CMICRGVEE aah ets c's) Fhe izjm ee 's) ove le: hort 847 19.7 2HAl TS. 5
ISIE GIO VET cists s10icys 2 aciw sie piece es 903 20.5 Ae Tes
Shieiaists (COMES Gag GERI Oe 908 27 Bhs 15.2
LAL EIEG oo Os CORD RI EOE DO ee aera 919 22. 2.7 14.8
Labihbe) WG) tol 0p) See ee ee 887 2722 An 20.2
(CEG erate Were) 0s, a ena a eee ee eee 850 20.5 2.6 10.5
Cured Straws and Stovers
Vil BT) Boe SOC I OE ROR ee RS Re Eee 904 5.0 1.0 rae}
02 codiko Rees CORenEe ORC oer 929 5.0 DR 6 Wer
DAIS A558 BASIC R ID cin IERIE 908 5.8 t23 14.7
BASIE Vee sah eee 2 ahciole a ieee eia-enit 858 7.0 0.9 8.7
Biucewheatsecce es ecient eo got 8.0 0.6 9.5
Corn Stover (no ears)............. 595 6.1 G7 9.0
Miscellaneous
BOC AVOMEDENSIan eis 3.cii aia che are Obie Cane 209 34.8 fy 4.8
RUTAM CEES A i acia tiie cvclelicveeieuete 2 135 24.6 4 Bak
SOGTMES APE Raa. sci noe cele ee 264 5.8 5G 3.0
NOVDeAMSUAGE Ey .,.)5% )«/orelareie clea's 258 25.0 I.0 Te7
PRO DACCOMMEAVIES:. <0 ociss SoS slp era's 850 34.8 3.0 35.4
PRODACCOMOUEINS ac oscie'. se cle maa 850 24.6 4.2 24.4
AVR rr Lee cestes so) et «1 s3< 1 6,0 e%e ale «cto ie 128 5.8 I.9 Ted
Bi aGteerilen tec tare siscoiecs’ 6 eve die si Gudlabers 100 6.5 I.0 Tey
LS ;ONMAS Cok Gages AOE BSE eon aitte 2.0 a5 -25
Ate aubiC wr eae oc stiere ntarote ak oer 25.0 7.0 I.0
StL OP Sie Nota custens casey ores a ears Res 18.0 3.0 1.0
Ragivard. IVianitnrerisits «ce 0) icles eine 250 5.0 ras 4.0

To change the wt. of Nitrogen, N, to ammonia, NH3, multiply by 1.2.
To change the wt. of phosphorus, P, to Phos. acid, P2O;, multiply by 2.3.
To change the wt. of potassium, K, to potash, K,O, multiply by 1.2.
: 8 Chapter 7 for discussion of this table, compiled from Feeds and
eeding. ;
—From “Soil Fertility and Permanent Agriculture,” by Hopkins.

Table 3
This table shows the average amount of plant food
contained in 1,000 pounds of common fertilizing ma-
terials.

216 “LABORATORY, FILEDTAND PROJECT GUIDE

f Phosphorus
Material Nitrogen Potassium
Soluble | Insoluble
Barnyard mame hate er\siaissle «sale itnicrere 5 Ta5 Sse 4
SOG MET ALE a. as Soci chee oreys laieeerene 150 ohare =)
Ammonitim sulphates... sect ele 200 Sie Saw
Raw bone: meal i cohaes. & cles ee hele 40 HSK: 90
Steamed bone!meall: o.oo. cea - melons 10 bars 125
Raw phosphate rock). souenc sera een 125
AGide phosphates, «ccidewlese aie eee 70 10
Basicisla ge wana sctevceuc coat bin cise an 80 eave
Wioodtashest tert crs.aic aes cre where cholerae 5 Jas 50
Reaaite cinta cnet tora cies ee ate es aires Sooner aha Aste 120
Potasstim chloride mess sci ete 400
Potassium) sulphates gee. cise cleo 400

—Compiled from Hopkins’ “Soil Fertility and Permanent Agriculture.”

Table 4

LIST OF STATE EXPERIMENT STATIONS

(Post-office address in italics.

ALABAMA—
College Station: Auburn
Canebrake Station: Uniontown

ARIZONA—Tucson
ARKANSAS—Fayetteville
CALIFORNIA—Berkeley
COLORA DO—Fort Collins
CONNECTICUT—
State Station: New Haven
Storrs Station: Storrs
DELAWARE— Newark
FLORIDA—Gainesville
GEORGIA—Ex periment
IDAHO—Moscow
ILLINOIS—Urbana
INDIANA—Lafayette
TOW A—Ames
KANSAS— Manhattan
KENTUCKY—Lexington
LOUISIANA—

State Station: Baton Rouge

Sugar Station: Audubon Park,
New Orleans
North La. Station: Calhoun

MAINE—Orono
MARYLAND—College Park
MASSACHUSETTS—4Amherst
MICHIGAN—East Lansing

MINNESOTA—University Farm:
St.- Paul
MISSISSIPPI—Agricultural _Col-
lege
MISSOURI—
College Station: Columbia

Bulletins are free to residents of a State)

Fruit Station: Mountain Grove
MONTANA—Bozeman
NEBRASKA—Lincoln
NEVADA—Reno
NEW HAMPSHIRE—Durham
NEW JERSEY—New Brunswick
N. MEXICO—Agricultural College
NEW YORK

State Station: Geneva

Cornell Station: Jthaca
NORTH CAROLINA—

College Station: West Raleigh

State Station: Raleigh
N. DAKOTA—A gricultural College
OHIO—W ooster
OKLAHOMA—Stillwater
OREGON—Cornwallis
PENNSYLVANIA—State College
PORTO RICO—Mayaguez
RHODE ISLAND—Kingston
S. CAROLINA—Clemson College
S. DAKOTA—Brookings
TENNESSEE—K noxville
TEXAS—College Station
UTAH—Logan
VERMONT_Burlington
VIRGINIA—Blacksburg

Truck Station: Norfolk
WASHINGTON—Pullman
WEST VIRGINIA—Morgantown
WISCONSIN—Madison
W YOMING—Laramie

APPENDIX 217

Send for the list of available bulletins of your State
Experiment Station.

Table 5

LEGAL WEIGHT OF VARIOUS COMMODITIES
(Minimum weight, by U. S. Statute)

Pounds per Pounds per
Bushel Bushel

PIES HOTIC™ <5, c%- 6 visi orste eae 26 Aime mcimMSlaked ccc) ss «2-6 30
RAE ie erate aictins 1 Soviets a ead 48 AURA oR Rae a i 38
EHRs MeISLOL yo) cles Geese 46 MEMS tRS@E Cit. evetecrive 1c, cise cm 50
eanSewihttes.siccs occ cs eis ss e « 60 OAS Eee tates aires, bievonsy eteas s 32
BI ePrass SECU a). ce ce cities sic 44 OnionsSie& socio ee ata 57

RELL VR MEE PR soos te forcie areccreweer She 20 IDEASR eae St iehiiee cian eco 60
PTC MWI EV bleetie/1s wuensueieceis helene’ 48 Peas, ground pea meal..... 42
R@lonenv SEM )ac cers Cuda ate Ciel es 60 Popatoeslirishek sclecisc arses 60
OE ee I re 80 Potatoes, sweet........... 55
ROE SMeMeO 256. walnssae sus 56 LEASE Th Artes a A eee 50
@orne im the Gavi ts. «6s 8 70 Salteiihiemeerrciesien «carte oes 167
AVGuApIMeAl ec teieeie ic clove g eree swale 48 PP OAlG COATSE Mette cate seie ele I51
BTRGEEC rig ark ch clevsceiaw ere o <6 56 Timothy SECU re re.s iste tders one 46
Pieri SCQU cet isle cee eesateiaiee.e 44 Sletten tp Sveracieratert itn oh ob slays e 55
Hungarian grass seed......... 50 WIC ALA A ae atten tots tetichalcuatera.s 60

Rule for Estimating Hay

Hay is often sold in the mow or stack where the
weight has to be estimated. For this purpose 400 cubic
feet of hay is considered a ton. The actual weight of
400 cubic feet of hay will vary according to the
quality of the hay, time of cutting, position in the
mow, etc. For making an estimate in a given case mul-
tiply together the length, breadth and height of the mow
or stack in feet and divide the product tise 400. The
quotient will be the number of tons.

Measuring Corn in Bulk

Two cubic feet of sound, dry corn in the ear will make
a bushel shelled. To get the quantity of shelled corn in

218 LABORATORY, FIELD AND PROJECT GUIDE

a crib of corn in the ear, measure the length, breadth and
height of the crib, inside of the rail; multiply the length
by the breadth, and the product by the height; then
divide the product by two, and you have the number of
bushels in the crib.

Table 6
WHAT CONCENTRATED FEEDS WEIGH
pS fs ee
Weight of Pound
FEED One Quart Measures
Pounds Quarts
Driedibeet pull pee tsts oriole rower eerste eel enerenes afore -55 1.8
Weds brewers TeralnSeeyetene eerie eters) Siete ie .6 Te7
CGormiandicobimealens ere ere er ie sir 1.4 54/
Cormandtoat, feeders reuterom siete eral reteleleiere rei ay | I.4
(Oras aulloy czholeeetina a. sesoid tales Ci OC. OND Ole. O CURE C -5 2.0
Gornumieall 5 praca ere rere to ekore ene eas Sic, ooh atage res 29
GOrnswholenctesrtorrcterece clatetescuelelelenete ers rs few tela teie £27 .6
Gottonseedimmeal beers wis s cheval cet cs ele ora eeosereitete 1.5 oF
(Brenrepneciobnn MAR Sea oes Meee Ob De oe 1.0 I.0
Germ oilimealOare yest eniss cc coke cisielas cic ecnale 10s 71 .7
Gltiten eed ia tctere rere oe hauersasrishoe ote sos cis ate oreiens 13 .8
Glaten aneal cry cceyecicho ekerees es ensheneteeworc inca victens To) .6
Hominy meale ost sta ten atereieue sista seo) siee epatietslens nae 8 .9
RGahir ri Gall ok che totale die: et sete evel be Guakedene ie isnetsie ease 1.6 .6
Linseed meal (new process)........-.---++-008 .9 Tat
Winsecasmealu( Old) process) his. cieclsemitesel elie ibe me)
IMIBihe GoobUS oyun Hoe eewobocaéupdacaguousocc Mo) ri7
Wiheati brates. 2008 scene steve cr enrerieeeclelovcfevenelele a 2.0
Wiheata enone eicre cletitetcnstel t= hele) al- te Dey, .6
Wheat middlingss(loun)aco---oceeieeeee ier = r2 8
Wiheatunddiines:(Standard))k ej -miier-ioi- ore tele 1.9 a5
Wiheat: wholeeccmes serie crore ree revel ciete .8 133
Table 7
APPROXIMATE CAPACITY IN TONS OF CYLINDRICAL SILOS
Pee of Inside Diameter of Silo—Feet
Feet ro | 12,| 14. | 15 |. 16°| 18 ,| 20 || 2t | 22 1 23°) °24 eee
PO eT a Sete 26 | 38 51 59 | 67 85 || 205 | 1rS | 127 1 1385) DSS aes,
DB eer’ nee he 28140| 55| 63 42|, OF | TL2'|\ 123 | 135+) 148}, 10m | ones
DD a awepette eter 30 | 43 59 | 67 fal 97 || 120] 132 |} T45 | 158) | u72a esa eos
2S cis stahefakedete Z2|-AOn| poz 72 82 | 103 | 128 | 141 | 154 | 169 | 184] 199 | 216
DAR eee: 34|49| 66] 76] 87] 110] 135 | 149 | 164] 179 | 195 | 212 | 229
DS Fi atc oie xy 36152| 70| 81} 90] 116 | 143] 158] 173 | 190 | 206 | 224 | 242
2On pe kasveeecte 38 | 55 74) 85] 97] 123] 152 | 168 | 184 | 201 | 219.| 237 | 257
DY ataree eres 40 | 58 78 | 90 | 103 | ©30 | 160} 177 | 194\| 2E2 | 231 25h) S272
DB sober tane al eee 42 |6r| 83] 95 | 108 | 137] 169 | 186 | 204 | 223 | 243 | 264] 285
710 eae Beees 45 | 64] 88 | 100 | 114 | 144 | 178] 196] 215 | 235 | 256 | 278 | 300
SOn salsa 47 | 68] 93] 105 | 119 | 151 | 187 | 206 | 226] 247 | 269 | 292 | 315
Bi Tivpctarie aust s 49| 70] 96] 110 | 125 | 158 | 195 | 215 | 236 | 258 | 282 | 305 | 330
K PA Crees 51 | 73 | ror | 115 | 131 | 166! 205 | 226 | 248 | 271 | 295 | 320 | 346

APPENDIX 219

Table 8

MODIFIED WOLFF-LEHMANN FEEDING STANDARDS FOR
FARM ANIMALS

: : Total
: Digestible Digestible
Dairy Cows Protein Netriente
Lbs. Lbs.
I. Dairy Cows:
For maintenance of 1,000-lb. cow.......... 0.700 7.925
To allow for maintenance add:

For each lb. of 3.0 per cent. milk...........] 0.047-0.057 0.286
= Se at EES eT ee Can aneeisanvern|) | O040-0-00L 0.316
G eae SA On = SHy Sahec ealetorcncteren Fotos 0.054—-0.065 0.346
< pee aes. Sa plese. OF057=02000 0.376
- SEO eI EEG = LOR AD aS 0.060—0.073 0.402
« My oft Faas £ SPO peated 0.064-0.077 0.428
lees 0.0", § Me Saige heh sialin 0.067—-0.081 0.454

Per Day per 1,000 lbs. Live Weight

‘Animals Dry Digestible Total
Steers, Horses, Colts, Sheep Matter Protein Digestible
and Swine Nutrients
. Lbs. Lbs. Lbs.
2. Growing, fattening steers:
Wreteite SOO! 1S i crcreiic one folate re-av< 23.9 Zt 15.8
S GOO Siarscionrs meee 23.2 2.0 15.4
“ TOON GEN steno rere 22.6 2.0 14.8
. 800 * 21.4 2.0 14.3
€ QOGUUS Hirse is catn ws 20.2 2.0 13.6
= TFOOOMi ae racine ae tawaes 19.7 1.8 105
S TEOO Men ones cites oniee 18.1 1.6 12.6
. TH20Ob Moh eteon ona ita a5 1253
3. Horses
LUGE is Be ey hae ee A I3.0-18.0 0.8-1.0 7.0-9.0
PG MehtiwOrkes. cies sa sesnle ws I5.0—-22.0 I.I-1.4 I0.0-13.I
At mediim work... o< 62:6 se 16.0-24.0 I.4-1.7 I2.8-15.6
At heawy, Works * 22.2.0. !cee. 18.0-26.0 2.0-2.2 I5.9-19.5
4. Growing colts over:
Ginionths eee cise oer 18 .0-22.0 I.6-1.8 II.0-13.0
5. Fattening Lambs:
Wreirht, SO0—r7OnlbS:.hn ccc ok. 27.0-30.0 3.1-3.3 I9.0-22.0
& FO=AOO® Wier raten te aoe ts 28.0-31.0 2.5-2.8 20.0-23.0
« GU—LUOW ns eel edna ok 27.0-31.0 2.3-2.5 I9.0-23.0
6. Fattening Pigs:
Weight 30— 50 Ibsi..32....0.:. 46.2-51.0 7.8-8.5 4I.0-45.4
- BO—TOOON It at tiiece ee 37.0-40.8 5.5-0.0 32.9-36.4
§ HOO—US5O Nee eee os ot. 32.4-35.8 4.4-4.9 28 .8-31.9
& MSO 200) dice si ade ih cys 29 .0-32.0 3.5-3.9 25.8-28.5
= Cte es Tg ee eR 25.5-28.1 3.0-3.4 22.7-25.0
: SSO—SOOS WS) ws aise eateidn 22.4-24.8 2.6-2.9 fa)

| 20.0-22.

220 LABORATORY, FIELD AND’ PROJECR GUI

Per Day per 100 lbs. Live

Weight
Digestible Total
Poultry _ Protein Digestible
Nutrients
Lbs. Lbs.
7- Wheeler Standards for poultry:
For maintenance—
Hensior5 tOW7 lbsweilshitent ie tes wert ie 0.40 2.85
Hensiois3) tors lbseaweipiic ner sere te elec 0.50 iy
For hens in full laying—
Hens\oiis tors bsiweilehte. cso. sence 0.65 335
HienstonestorselbStawelahGee nt sce) aaeterae fe I.00 5.54

—From ‘‘Feeds and Feeding Abridged,’”’ by Henry & Morrison.
Exercises 8, Sept., 6, Nov., and 7, Nov., explain the use of the above
table. To illustrate the calculation for determining from the table, the
nutritive ratio of any of the requirements, let us take the requirements
for laying hens weighing 3 to 5 lbs.
5-54 — > 1.00 = 4.54 lbs. of CH -- (Fat x‘2:25)
A.S4) =) 1.00) = 4.54. =) nutritive) ratio —1 a 342545
(See exercise 5, October).

Table 9
LABORATORY AND SCHOOL SUPPLIES
The following school supply companies and manufac-

turers have much material pertaining to agriculture for
sale. From them may be purchased milk testing outfits,
specimens of grains and weed seeds, charts of animals,
score cards, litmus paper, chemicals, and in fact most
anything needed in the school room. Write for their
catalog, stating what kind of material you desire.

CentraliScientitier Come vere ce ee ee Chicago, III.

WM WelehtSererntificsConss.cicsins.c ole oitrcicie reteincin tice eid Chicago, Ill.

Chicago Apparatits oe ca nsete fx sietecs)a © misietisede oa einen Chicago, Ill.

Industral Batueationalt( Gorin eee ee encore Indianapolis, Ind.

The Columbianjschooltsupply (Conse eee eee eee Indianapolis, Ind.

ThevkKauttman-lathimern CoO:oatn« as eivasee ole meee eta Columbus, Ohio.

Lobe KnottpApparatucn Osc) cn oceitan ee tooteoeene re Boston, Mass.

The CreameryaPackaperCoste. sect oon ele eevee sete Chicago, Ill., and
(Milk testing supplies only) Philadelphia, Pa.

They American Morcandultoes Coyne ecee acre tiaae Cleveland, Ohio.

Sal: (Allens G2 Comioee ec tic SNORE Aaron ee ea TE eo Cleveland, Ohio.
(These two companies handle garden implements.)

Ther PranvaGosiers ocd cee) hares eee ee EP es Chicago, Ill., and.
(Colored construction paper for agricultural booklets.) New York City

Gaylord Brose rect svaeeis Sale cua a Te pep lee eaaotaie Lae tee Syracuse, N. Y

(Index cards, note book covers, bulletin covers, and
gummed letters and numbers.)

University.of Chicago Press.55.0.45 su. aes dae Sw ae bere Chicago, IIl.
(Outline maps for note books.)
Modern Mito GON fy uate ah tae i Re arr a On lee ot bet Lees 543 N. Lawrence St.,

4
(Paper pots and bands.) Philadelphia, Pa.

APPENDIX es.

Table 10
NUMBER OF TREES OR SHRUBS REQUIRED TO SET ONE ACRE
pega MMU tes ATM o's s eens 60 rahe sw lea 0-0 11,880 OMEN LESMEC pate ots ois eica-s She d.ales, 6 363
Pee StS IMs «ss ss, s dies af aie 5,940 TEA UGS SEAMED se ty sxey-sier sis st wiero 6 1s 302
SUNOM EMRE Sa crs'-fs, 6 0:4! shei e's 9 #8 4,356 Tis Pinte: 119 84 Barat eg ee a 226
PEEPS ener Rs fei cians pica o's es as 4,840 NOMEN PN OWL ECs tate cir attest ov'erele >.c 170
Ae 33) 0), 1 ee 2,420 Lips} 92,6." eal Fl Cave tenCR an ee asa ee ee 134
RUNES sic dusters nenaa tava ane 1,815 ZO DOmut ee eieleteials ececes sai)» 108
PKA Loic ick siotes ss iecalh Mies o%6 2,722 BOa KG SO Milas wucietsters lene, she afd ove ts 2 72
PRESTIGE. cs sare bd a'ote <a! 8 08s Tess Damo Titi ere oS Beek os os al a 75
2) Se. BPR es oes ee eeeere ae 1,742 Bis a SSO TR lee ee a 69
EPS Cosatickenaia ates: sre.ssi'e. cveuerers 1,089 BOueRd 6a Ol chbrterctelounsre eters Cie ia\letise 49
Pimpae OM Ears ayers «re o's areitce boos I,210 BOERS ES Benes tanmente aac 4 6 «bts & 42
Res a tliiere la disyec sls. c\els efeies eas 907 ZAMS USAW ete efor ay faeier Sel of alia! 2 « 37,
OMECMN SIA alata cic so wie ls jie scie elea"e 680 GB Gea a OmeN ttre bies le) aieiets oo esi g. die 33
RENAME EG eye tle rs 5,5 eis. eXe¥eis' diss BAAN 3 OUEReIS Gu lit ethane Sis) oeese o.s¥ei's: oust 30
MOMANOMO ec exciee Sieidie’s « a.eie a 435 ADAG "AOL Wtacrctorc castors cies » s Z.ev0 27,

To determine the number of trees per acre for any
given distance, multiply the distance between the trees
in the row by the width of the row. Take the resulting
answer and divide 43,560 by it. The resulting figures
will give you the number of trees per acre.

For example: To determine the number of trees, plant-
ed) 30. x 30; required to set one acre: 30 x 30 — goo.

43,560 —— 900 = 49 trees per acre.
NUMBER OF PLANTS REQUIRED TO SET ONE ACRE

AT anes fea Wo (0 | ee aa 43,560 ee ome EGET Clon ial oyei o's, she so 7,260
Reet atOOt Oe INehes. o.. ss 29,040 Bixee eteete Oiitenes).|. <2: «\. 8,712
Dep SM CCUsr esse ores aps,c bie 0:3 21,780 Sree eet On HTCMESs..4 so. <5 6,22
1). 32 ge PCa SA oben GeeosiaNs 14,520 a meXMe AML OC trae ate ercnsiecel s eons sane 8 5,445
Hie a HEGk ea hieteisiolere te caress 10,890 are. EGA BS ao See ec eee 4,840
ee L EOL thal cletateiesois a's shee: is 10,890 aoe Xo AML CELensierefeieis)s steit os Sere a 3,630

To determine the number of plants per acre for any
given distance, multiply the distance between the plants
in the row by the distance the rows are apart. Take the
resulting answer and divide 43,560 by it. The result-
ing figures will give you the number of plants per acre.

For example: To determine the number of plants,
planted 2 feet by 4 feet, required to set I acre: 2x4=8;
43,560 -- 8 = 5,445.

—From Stark Bros, “More Profitable Fruit Growing.’”

LABORATORY, FIELD AND PROJECT GUIDE

222

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223

APPENDIX

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224 LABORATORY, FIELD AND PROJECT GUIDE

Table 12
SCORE CARD FOR COMMERCIAL EGGS

Perfect ; Student’s | Corrected

SCALE OF POINTS Score Score Scare REMARKS
Ty) (WeIPRE. Fas scesa desea BO! be Sood hes oafaewly mein We elles Br
2, Uniformity of Size...... TO: ) Worece cece s duce [leg o-e/clgpyanenet all os Ore eee
3. Shaper. tssicedve cence od ee DRE,
4. Strength and Smooth-
MESSTOL nelle eie eee TO Wave ta eyasdye oe of Sate aS reagekes ol] \ngetels eee
Condition of Shell...... TO! i | csjew cece cael oleate slate Ri ell eke oes er
Uniformity of Color.... EO, asda cong: eiedevesa | ete ciecang tots pelten| ee ape eee
7. Quality (a) Fullness :
(Small Air Cell)... TS © Was eles mus Sill ne mcevae 6 toll rears ee
(b) Clearness.. . TS hada Sccedsvatell e efo aeaa eee OR
Potala. seers. 7 TOO: |e eres cegce = os Ifo eAR ove & foretell hol eee eee
DISQUALIFICATIONS

Double yolk, cracked and extremely dirty shells, extremely shrunken,
spotted or loose contents in any one egg of the dozen.

1. WEIGHT

24 to 28 ounces per dozen. Cut two points for each ounce over or

2. UNIFORMITY OF SIZE

All eggs should be of the same size.

ay Saves

Should be typical egg shape, free from ridges, and should be uniformly
the same for the entire dozen.

4. STRENGTH AND SMOOTHNESS OF SHELL

Shell should be free from wrinkles, cracks and rough places.

5. CONDITION OF SHELL

Free from dirt or stain, and free from gloss, showing that the egg is
fresh and unwashed.

APPENDIX 225

6. UNIFORMITY OF COLOR

If white, the eggs should be all pure white and of the same shade; if
brown, the color may be any shade, but should be uniformly the same for
the entire dozen.

7. QUALITY

Test with candler. A very small air cell not larger than a dime indicates
freshness. The egg must appear clear and free from dark-colored spots,
the white thick, the yolk barely visible. Large air cells or floating yolks
are disqualifications.

PSUR MM MAEINOL |e diy x's sa 8 aia mine a: «ale ga ea wade Wester Gare even iaiate sicvord «sie % \s ela eran Wuetatone
Preece bemOw Sic: scale ciosielers esate c ClacsHUBTOWA TOI VWHILG) e cclcie 20.0 5.010 er a
Reid dedee tubeste NATE pated lee ate sc ycinise Ware iacast. 84 Ser ayaievees a ane Belt. > Ap A AAR SOND DAC ate OF
HBL eRHEM te iat. a ts\ Sra ats w choke dreneeer sieeve Sree wleie o SUING TE DY ohare Cetera etiahai aera efene tel s eiele %

Table 13

SCORE CARD FOR VEGETABLES.

Ree e ia setsctcta sod oils Bheln «araveiw at cratekele Me iomwral G-araice Wariety. cs. ateichatarej crass
Sars ENE ERR ara rie asi sewers auaietelt Gere inane Exhibit Nels. ..%,.
Points Perfect Scorer’s Corrected
1 UEPIREP ACTA See 2S, ees a a eet eee Pa Zo |. @l Peiee Rite epmetnes oar
SRNR Se Gero Sed siete She areas pte oo wie a tome ates» TG PEt | ick. ts ahaha eke coll ocecactone cde
Ona TIN ye oe fot aan Mae ee eee eae ree iF aetna yee cl lena tminte? a; Sta eae
TRESS HSER ES A ae Oe ee et eS A EO Were tae ache th clan obec cereal cents
Beeemomlitand WlenMiISheS, 5.06.66 cn ets oak oss LISD Soe ea iepeaai en ab eee hea ake
Commercialor table, value... 2... 25 sc. ss... 6 > 3 DOPE les edie nie | era nes aectare
tales coers yh eR ee ee era ie Sa. ears SS TOO teres eat sro ene Wauhecm aracete
Pe TCC Sloe Peete tenn Le aw PMN ert eee yy ee rode Schr ie\a\ty sieve ciae ool be diese’ aes 66 Sea's

226 LABORATORY, FIELD, AND PROJECT “GUIDE

SCORE CARD FOR APPLES—PLATE.
OR OTHER FRUITS.

Widittetyicc cae sivetors vite tive SERS Soi. o ot ROL Exhibit NOsccoce cere ae
Point Perfect Scorer’s Corrected

Size (Normal: Neither too large nor too small) TOW © i|isietdceyerdetarecallostereeee tetas
Colorstypicalaeas.- Peg om Myo cist ano a eee 215 FP Saute slevare oll hereon ne erane :
Mreedomtromy/blemishs. ce. sone eeisien es. 200° finde Tepe eee A
Memtire e MawOr woinclaanctaters scteveiie eyaleinely's,; 10 a PRES Peme eah e Si cine
Uniformity and trueness to type.............- 25). . |tuaceSieiereierae | Reon renee
tales a ietei-aces tye ieaneumeoic ie yarePalakel nie asada Seca aie TOO! * [ccc cekals terete tovotebere greece
Remarks 9 8 SiS e. Oe, 8) Oe 6 8S OS 10! 'S 'U Ole) 8 @ 6) 8 6''8 6.B eeeeeeneeeveneeteeeeeeeeveeeeeeveee eeee ° eevee
NAME VOLISCOTET. Sisters sterarcie cyere Citta! ovecc ace'siavojslele sis-evetsretere7s Date waco eee cketetetate ae

SCORE CARD FOR CANNED FRUIT OR VEGETABLES.
AUG tec keer are Wariety sous sues Caenaee ne eee Exhibit. No... eer

Points Perfect Scorer’s Corrected

Flavor: The flavor should be agreeable and as
nearly as possible that of the fresh, perfect

fruit or vegetable. ....: 2.2... ; Parad lecaieoeetenve Oe V1 ie SPINOR (Coe ie +
Texture: Well cooked—so that it is tender, yet
MOCIOVERCOO KER Hare pareve arenes eel nae IN, SOM PA RO (oD Ooo oc

Condition: Liquid clear. No sign of decom-
position. Product should be uniform in size,

well arranged in can, and of good color..... TO). |iciececeve dels S03] pe are
Purity: Free from foreign material, preserva-
HIVES VOL AartinClalcolorentam nase. sere en TO [ode sc. Seare: chal eeorreeeeaeiene

Package: Cans should be uniform and of
quality, shape, and size practicable to the
average home. The labels should be suitable,

(hhavhiorpaols Gholol so PN ANS Se Blo oleh oo Ra oa OOO GE bo De PPR RM (ee clic ouster
Mo tale cts ave stearate ee eee eae ene TOO. | [2S LOSI eee
FRSA ATES Gs ras a, thee eke ey carr RHeE OP eee whe fis ie Tal ee Aoas oS cao ae
Name of SCOPET ications Coaa ata eter anie ohare ictal leer ee ee as Date cick eos

—From Bul, 281—U. S. Department of Agriculture.

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