4. To divide 0.7438 by 12.9476.

log 0.7438 = 1.871456
log 12.9476 = 1.112189

Quotient, 0.057447 .. 2.759267 Here, the 1 taken from ī, gives 2 for a result, as set down.


13. The Arithmetical complement of a logarithm is the number which remains after subtracting the logarithm from 10. Thus,

10 – 9.274687 = 0.725313. Hence, 0.725313 is the arithmetical complement of 9.274687.

14. We will now show that, the difference between two logarithms is truly found, by adding to the first logarithm the arithmetical complement of the logarithm to be subtracted, and then diminishing the sum by 10. Let a=the first logarithm,

b=the logarithm to be subtracted, and

c=10—6= the arithmetical complement of b. Now the difference between the two logarithms will be expressed by a-b. But, from the equation c=10 – b, we have

C-10 = -b, hence, if we place for – 6 its value, we shall have

ab=a+c-10, which agrees with the enunciation.

When we wish the arithmetical complement of a logarithm, we may write it directly from the table, by subtracting the left hand figure from 9, then proceeding to the right, subtract each figure from 9 till we reach the last figure, which must be taken from 10: this will be the same as taking the Igarithm from 10.


1. From 3.274107 take 2.104729. By common method.

By arith. comp.

its ar. comp.

Diff. 1.169378

Sum 1.169378 after sub

tracting 10.

Hence, to perform division by means of the arithmetical complement, we have the following


To the logarithm of the dividend add the arithmetical com. plement of the logarithm of the divisor : the sum, after subtracting 10, will be the logarithm of the quotient.

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In this example, the sum of the characteristics is 8, from which, taking 10, the remainder is 2.

3. Divide 37.149 by 523.76.

log 37.149

log 523.76
Quotient, 0.0709273


ar. comp.


Divide 0.875 by 25.

Ans. 0.035.


10" = M. Raising both members of this equation to the nth power, we have,

10"X"=M", in which m X n is the logarithm of M" (Art. 1): hence,

The logarithm of any power of a given number is equal to the logarithm of the number multiplied by the exponent of the power. 16. Taking the same equation,

10" = M, and extracting the nth root of both members, we have

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in which is the logarithm of M": that is,

The logarithm of the root of a given number is equal to the logarithm of the number divided by the index of the root.

1. What is the 5th power of 9?

Log 9 = 0.954243; 0.954243 x 5=4.771215;
whole number answering to 4.771215 is 59049.
2. What is the 7th power of 8?

Ans. 2097152. 3. What is the cube root of 4096 ?

Log 4096 = 3.612360; 3.612360 = 3=1.204120; number answering to 1.204120 is 16. 4. What is the 4th root of .00000081 ?

Log .00000081 = 7.908485; But,

7.908485 = 8 + 1.908485 ; and,

8 + 1.908485 = 4= 2.477121, the number answering to which is .03, which is the rivi

When the characteristic of the logarithm is negative, and we divisible by the index of the root, add to it such a negative number as will make the sum exactly divisible by the index, and the prefix the same number to the first decimal figure of the logarithm.

5. What is the 6th root of .0432 ? Ans. .592353 +. 6. What is the 7th root of .0004967? Ans. .3372969,


17. Before explaining the method of constructing geometrical problems, we shall describe some of the simpler in 1truments and their uses.



18. The dividers is the most simple and useful of the instruments used for drawing. It consists of two legs ba, bc, which may be easily turned around a joint at b.

One of the principal uses of this instrument is to lay off on a line, a distance equal to a given line.

For example, to lay off on CD a distance equal to AB.

For this purpose, place the forefinger on the joint of the dividers, and

-В set one foot at A: then extend, with the thumb and other fingers, the

E D other leg of the dividers, until its foot reaches the point B. Then raise the dividers, place one foot at C, and mark with the other the distance CE: this will evidently be equal to AB.

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19. A Ruler of convenient size, is about twenty inches in length, two inches wide, and a fifth of an inch in thick


It should be made of a hard material, perfectly straight and smooth.

The hypothenuse of the right-angled triangle, which is used in connection with it, should be about ten inches in length, and it is most convenient to have one of the sides considerably longer than the other. We can solve, with the ruler and triangle, the two following problems.

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I. To draw through a given point a line which shall be paral

lel to a given line. 20. Let C be the given point, and AB the given line. Place the hypothenuse of the tri

Q 오 angle against the edge of the ruler, and then place the ruler and triangle


of on the paper, so that one the

B sides of the triangle shall coincide exactly with AB: the triangle being below the line.

Then placing the thumb and fingers of the left hand firmly on the ruler, slide the triangle with the other hand along the ruler until the side which coincided with AB reaches the point C. Leaving the thumb of the left hand on the ruler, extend the fingers upon the triangle and hold it firmly, and with the right hand, mark with a pen or pencil, a line through C: this line will be parallel to AB.

II. To draw through a given point a line which shall be per.

pendicular to a given line. 21. Let AB be the given line, and D the given point.

Place the hypothenuse of the triangle against the edge of the ruler, as before. Then place the ruler and

A D B triangle so that one of the sides of the triangle shall coincide exactly with the line AB. Then slide the triangle along the ruler until the other side reaches the point D: draw through D a right line, and it will be perpendicular to AB.

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