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What is the sum of the series 1, 3, 4, 7, &c. continued to an infinite number of terms?

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2. What is the sum of the series, 5, 5, 5, 7, &c. continued to an infinite number of terms?

3. What is the sum of the following series continued to infinity?

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4. What is the sum of the following series continued to in finity?

208, 26, 3, 1, &c.

5. What is the sum of the following series continued to infinity?

38, 42, 14, 3, &c.

6. What is the 10th term of the series

5, 15, 45, &c.?

7. What is the sum of 8 terms of the series

35, 175, 875, &c. ?

When three numbers are in geometrical progression, the middle term is called a mean proportional between the other

two.

Let three numbers, a, b, c, be in geometrical progression, so that

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S Find a mean proportional between 4 and 9.

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9. Find a mean proportional between 7 and 10. 10 rind a mean proportional between 2 and 3.

XLVIII. Logarithms.

Ans. 6.

We have seen, Art. XXXVIII, with what facility multiplication, division, the raising of powers, and the extraction of roots may be performed on literal quantities consisting of the same letter, by operating on the exponents. We propose now to apply the same principle, though in a way a little different, to numbers.

Multiplication, we observed, is performed by adding the exponents, and division by subtracting the exponent of the divisor from that of the dividend.

απ

Thus a' × a' is a2+ = ao. And — is a'→ = a2.

In the same manner 23 × 25 = 25+3 = 2o,

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Let us make a table consisting of two columns, the first containing the different powers of 2, and the second the exponents of those powers.

Observe first that ao

23

=

1, so also 2° 1, 22, 22 = 4, 26 27

= 93 = 8, 2* = 16, 2* = 32, 9 = 64, 2^ = 128, &c. 25

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Suppose now it is required to multiply 256 by 64. We find by the table that 256 is the 8th power of 2, that is 2a, and that 64 is 26. Now 2o × 26 28+6 — 214. Returning to the table again and looking for 14 in the column of exponents, against it we find 16384 for the 14th power of 2. Therefore the product of 256 by 64 is 16384.

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Finding these numbers in the table in the column of powers, and looking in the other column for the exponents, we find that 256 is the Sth power of 2, and 128 the 7th power. Adding the exponents 8 and 7, we have 15 for the exponent of the product. Now looking for 15 in the column of exponents, we find against it in the column of powers, 32768 for the 15th power of 2, which is the product of 256 by 128. Let the learner prove this by multiplying 256 by 128.

Divide 8192 by 32.

Looking for these numbers in the column of powers, and for

the corresponding exponents, we find 8192 is the 13th power of 2, and 32 is the 5th power.

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Looking for 8 in the column of exponents, and for its corresponding number, we find 256 for the 8th power of 2, or the quotient of 8192 by 32.

Divide 32768 by 512.

The exponents corresponding to these numbers in the table are 15 and 9. 15-96. In the column of exponents, 6 corresponds to 64, which is the true quotient of 32768 by 512 What is the 3d power of 32?

The exponent corresponding to 32 is 5.

Now to find the 3d power of a we should multiply the exponent by 3, thus a53a. So the third power of 25 is 25X3215. Against 15 in the column of exponents we find 32768 for the 15th power of 2. Therefore the 3d power of 32 is 32768.

=

What is the 2d power of 128?

The exponent corresponding to this number is 7. 14. The number corresponding to the exponent 14 which is the second power of 128.

7 X 2

is 16384,

What is the 3d root of 4096 ?

The exponent corresponding to this number is 12.

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The number corresponding to the exponent 4 is 16, which is the 3d root of 4096.

What is the fourth root of 65,536?

The exponent corresponding to this number is 16, which divided by 4 gives for the exponent of the root 4, the number corresponding to which is 16. The answer is 16.

Examples.

1. Multiply 512 by 256. 2. Multiply 8192 by 128.

3. Multiply 2048 by 256.

4. Divide 262,144 by 128.

5. Divide 1,048,576 by 512.
6. Divide 524,288 by 131,072.
7. What is the 2d power of 1024 ?
8. What is the 3d power of 64 ?
9. What is the 5th power of 16?
10. What is the 2nd root of 262,144 ?
11. What is the 3d root of 262,144?
12. What is the 4th root of 1,048,576 ?
13. What is the 5th root of 1,048,576 ?
14. What is the 6th root of 262,144 ?

The operations of multiplication, division, and the extraction of roots are very easy by means of this table. This table however contains but very few numbers. But an exponent of 2 may be found for all numbers from 1 as high as we please. For 21 2, and 22 4. Hence the exponent of 2 answering to the number 3 will be between 1 and 2; that is, 1 and a fraction. So the exponents answering to 5, 6, and 7, will be 2 and a fraction, &c.

XLIX. A table may also be made of the powers of 3, or of 4, or any other number except 1, which shall have the same properties. Exponents might be found answering to every number from 1 upwards.

3° = 1, 3' = 3, 3* = 9, 3* = 27, &c.

The column of powers will always consist of the numbers 1, 2, 3, &c. but the column of exponents will be different according as the numbers are considered powers of a different number.

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