Building a Strong Street Machine

By: Jim Hand

Part 18: Practical Information

Have you ever wanted to do some "Gozintas" but you couldn't find your 6th grade "cypheren" book? Well, I have some help for you. The first page, "practical information", and data on the Metric was prepared by The Kendall Oil Company. The second page, drill sizes and fractions/decimals, is from the "71 Pontiac Shop Manual. I have found both to be very helpful and trust you will also, if you save them.

PRACTICAL INFORMATION FOR EVERY-DAY USE

To find the circumference of a circle, multiply the diameter by 3.1416.

To find the diameter of a circle, divide the circumference by 3.1416.

To find the area of a circle, multiply the square of the diameter by 0.7854.

To find the capacity of a cylinder, prism or box, multiply the area of the base by its altitude or height. reduce to cubic inches and divide by 231 to have the result in gallons.

A cubic foot. 1728 cubic inches. of water contains 7 1/2 gallons and weighs 62 1/2 pounds

A gallon of water (U.S. Standard) weighs 83 1/3 pounds and contains 231 cubic inches.

One horsepower is defined as the work required to lift 33,000 pounds. a distance of one foot in one minute

The unit of electrical output known as the watt is equivalent to 1/746 of a horsepower. 1,000 watts or 1 kilowatt is. therefore, equal to 1.34 horsepower.

The horsepower required to overcome the air resistance on a vehicle is estimated as the speed of the vehicle in miles per hour cubed, multiplied by the frontal area of the vehicle in square feet divided by 150,000.

The British Thermal Unit (B.T.U.) is the amount of heat required to raise the temperature of one pound of water l degree F. The metric counterpart of the British Thermal Unit is the Calorie. A Calorie is the amount of heat required to raise the temperature of one gram of water 1 degree C.

A vehicle's speed in miles per hour is the rolling radius of the loaded driving tire multiplied by the engine rpm and divided by 168 times the overall gear reduction of the power train.

To find the speed of a piston in feet per minute, multiply the length of stroke in inches by the revolutions per minute. and divide this product by 6.

To find the number of square feet of cylindrical surface lubricated per minute, multiply the diameter of the cylinder by 3.1416, then multiply by the length of the stroke in inches, then multiply by the number of revolutions per minute and divide that by 72.

Doubling the diameter of a pipe increases its capacity four times.

The grade resistance of a vehicle is 0.01 times the gross weight multiplied by the percentage grade.
 
 

EXPLANATION OF METRIC SYSTEM

The Metric System has been authorized by an act of Congress in the United States and by an act of Parliament in the United Kingdom. This system is in use in many countries with which the United States trades and it is being promoted for use in the United States as a replacement for the English System.

It is a decimal system, the meter being the basis of all measures, whether of length, surface, capacity, volume or weight. The meter measurers 39.37 inches, and is theoretically one ten-millionth of the distance from the equator to the pole. The unit of weight is the gram (15.432 grains), and is the weight of a cubic centimeter of water at its greatest density—about 39 degrees F. Multiples of the units are expressed by the Greek prefixes "deco", "hecto" and "kilo," indicating respectively tens, hundreds and thousands. Decimal parts of the units are indicated by the Latin prefixes "deci", "centi" and "milli", meaning respectively tenth, hundredth and thousandth.
 
 

METRIC WEIGHTS AND MEASURES

A table of the commonly used Metric Weights and Measures as well as a conversion table for common Metric Measurements to English Units follows:
 
 

Metric Weights

Milligram (1/1000 gm.) = 0.0154 gr. 

Centigram (1/100 gm.) = 0.1543 gr. 

Decigram (1/10 Rm.) = 1.5432 grs. 

Gram = 15.432 grs. 

Decagram (10 gms. ) = 0.3527 oz. 

Hectogram (100 gms.) = 3.5274 ozs. 

Kilogram (1000 gms.) = 2.2046 lbs. 

Myriagram (10,000 gms.) = 22.046 lbs.
 
 

Metric Dry Measures

Milliliter (1/1000 1.) = 0.061 cu. In. 

Centiliter (1/100 1.) = 0.6102 cu. In. 

Deciliter (l/10 1.) = 6.1022 cu. In. 

Liter = .908 qts. 

Decaliter (10 ls.) = 9.08 qts. 

Hectoliter (100 ls.) = 2.538 bu. 

Kiloliter (1000 ls.) = 1.308 cu. Yds.
 
 

Metric Liquid Measures

Milliliter (1/1000 1.) = 0.0338 fl. oz. 

Centiliter (1/100 1.) = 0.338 fl. oz. 

Deciliter (l/10 1.) = 0.845 gill 

Liter = 1.0567 qts. 

Decaliter (10 ls.) = 2.6418 gals. 

Hectoliter (100 ls.) = 26.417 gals. 

Kiloliter (1000 ls.) = 264.18 gals.
 
 

Metric Measures of Length

Millimeter (1/1000 m) = 0.0394 in. 

Centimeter (1/100 m) = 0.3937 in. 

Decimeter (1/10 m) = 3.937 ins. 

Meter = 39.37 ins. 

Decameter (10 ms) = 393.7 ins. 

Hectometer (100 ms) = 328.1 ft. 

Kilometer (1000 ms) = 0.62137 mi.

            (1 mile = 1.6093 km)
Myriameter (10,000 ms) = 6.2137 mis.
 
 

Metric Surface Measures

Centare (1 sq. m) = 1.550 sq.in.

Are (100 sq. ms) = 119.6 sq. yds.

Hectare (10,000 sq. ms) = 2.471 acres
 
 

METRIC AND ENGLISH

CONVERSION TABLE

Centimeters X .3937 = ins.

Meter = 39.37 ins.

Kilometers = .621 mi.

Kilometers X 3280.89 = ft.

Sq. centimeters X .155 = sq. ins.

Cu. centimeters X .06102 = Cu. ins.

Cu. meters X 35.3144 = cu. ft.

Liters X .2642 = gals. (231 cu. ins.)

Kilograms X 2.2046 = lbs.

    Kilograms per sq. millimeter X 1422.3 = lbs. per sq. in.

    Kilograms per sq. centimeter X 14.223 = lbs. per sq. in.

Watts div. by 746 = horse-power
 
 

Temperature Conversion

Degrees Centigrade X 1.3 + 32 = degrees Fahrenheit
 
  

DRILL SIZES
Letter Sizes
Drill Diameter Inches
Wire Gage Sizes
Drill Diameter Inches
Wire Gage Sizes
Drill Diameter Inches
Wire Gage Sizes
Drill Diameter Inches
Z
0.413
1
0.2280
28
0.1405
55
0.0520
Y
0.404
2
0.2210
29
0.1360
56
0.0465
X
0.397
3
0.2130
30
0.1285
57
0.0430
W
0.386
4
0.2090
31
0.1200
58
0.0420
V
0.377
5
0.2055
32
0.1160
59
0.0410
U
0.368
6
0.2040
33
0.1130
60
0.0400
T
0.358
7
0.2010
34
0.1110
61
0.0390
S
0.348
8
0.1990
35
0.1100
62
0.0380
R
0.339
9
0.1960
36
0.1065
63
0.0370
Q
0.332
10
0.1935
37
0.1040
64
0.0360
P
0.323
11
0.1910
38
0.1015
65
0.0350
O
0.316
12
0.1890
39
0.0995
66
0.0330
N
0.302
13
0.1850
40
0.0980
67
0.0320
M
0.295
14
0.1820
41
0.0960
68
0.0310
L
0.290
15
0.1800
42
0.0935
69
0.0292
K
0.281
16
0.1770
43
0.0890
70
0.0280
J
0.277
17
0.1730
44
0.0860
71
0.0260
I
0.272
18
0.1695
45
0.0820
72
0.0250
H
0.266
19
0.1660
46
0.0810
73
0.0240
G
0.261
20
0.1610
47
0.0785
74
0.0225
F
0.257
21
0.1590
48
0.0760
75
0.0210
E
0.250
22
0.1570
49
0.0730
76
0.0200
D
0.246
23
0.1540
50
0.0700
77
0.0180
C
0.242
24
0.1520
51
0.0670
78
0.0160
B
0.238
25
0.1495
52
0.0635
79
0.0145
A
0.234
26
0.1470
53
0.0595
80
0.0135
27
0.1440
54
0.0550

 
  
DECIMAL EQUIVALENTS
1/64 . . . 
.015625
17/64 . . 
.265625
33/64 . . 
.515625
49/64 . .
.765625
1/32 . . . 
.03125
9/32 . . . 
.28125
17/32 . . 
.53125
25/32 . .
.78125
3/64 . . . 
.046875
19/64 . . 
.296875
35/64 . . 
.546875
51/64 . .
.796875
1/16 . . . 
.0625
5/16 . . . 
.3125
9/16 . . . 
.5625
13/16. . .
.8125
5/64 . . . 
.078125
21/64 . . 
.328125
37/64 . . 
.578125
53/64. . 
.828125
3/32 . . . 
.09375
11/32 . . 
.34375
19/32 . . 
.59375
27/32. . .
.84375
7/64 . . . 
.109375
23/64 . . 
.359375
39/64 . . 
.609375
55/64 . .
.859375
1/8 . . . .
.125
3/8 . . . .
.375
5/8 . . . .
.625
7/8. . . 
.875
9/64 . . . 
.140625
25/64 . . 
.390625
41/64 . . 
.640625
57/64 . .
.890625
5/32 . . . 
.15625
13/32 . . 
.40625
21/32 . . 
.65625
29/32 . .
.90625
11/64 . . 
.171875
27/64 . . 
.421875
43/64 . . 
.671875
59/64 . .
.921875
3/16 . . . 
.1875
7/16 . . . 
.4375
11/16 . . 
.6875
15/16 . .
.9375
13/64 . . 
.203125
29/64 . . 
453125
45/64 . . 
.703125
61/64 . .
.953125
7/32 . . . 
.21875
15/32 . . 
.46875
23/32 . . 
.71875
31/32 . .
.96875
15764 . . 
.234375
31/64 . . 
.484375
47/64 . . 
.734375
63/64 . .
.984375
1/4. . . .
.25
1/2. . . .
.5
3/4. . . .
.75
1. . . .
1.0