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BINOMIAL THEOREM.

105. It is manifest, from what has been said above, that algebraic polynomials may be raised to any power merely by applying the rules of multiplication. We can however in all cases obtain the desired result without having recourse to this operation, which would frequently prove exceedingly tedious. When a binomial quantity of the form x+a is raised to any power, the successive terms are found in all cases to bear a certain relation to each other. This law, when expressed generally in algebraic language, constitutes what is called the "Binomial Theorem." It was discovered by Sir Isaac Newton, who seems to have arrived at the general principle by examining the results of actual multiplication in a variety of particular cases, a method which we shall here pursue, and give a rigorous demonstration of the proposition in a subsequent article of this treatise.

Let us form the successive powers of x+a by actual multiplication.

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x+6x6a+ 15 x5 a2+20 x1 a3 + 15 x3 a2 + 6 x2 a3 + x a

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a5 +6 xa¤2 + a2

2 5

6

a3 +7 x a® + a 7th power.

In order that these results may be more clearly exhibited to the eye, we shall arrange them in a table.

TABLE OF THE POWERS OF 2 + a

(x + α) x + a

(x+a)2+ 2x a +2

(x+a) 3 | x2 + 3 x2a + 3 xa2 + a3

(x+a) 1 x2 + 4 x 3 a + 6 x2 a2 + 4x a3+a1

5

(x+a) 5 x5 +5 x1a+10x3 a2+10x2 a3 + 5x a + a3

(x+a) ° x* + 6 x3 a + 15 x 1 a2 +20 x3a3+15 x2 a1+ 6xa3 +a®

2

3

(x+a)' x2 + 7 xo a +21 x 3a2 + 35 x1a3 + 35 x3 a1+21 x2a5+7xa® +aï

(x+a) 8 x8 +8x7 a + 28x6a2+56x5a3 +70x1 a2+56x3 a3 +28x2 a6 +8xa*"+a3

In the above table, the quantities in the left hand column are called the expressions for a binomial raised to the first, second, third, &c. power; the corresponding quantities in the right hand column are called the expansions, or, developements of the others.

106. The developements of the successive powers of x -a are precisely the same with those of x + a, with this difference, that the signs of the terms are alternately + and —; thus,

5

(x — a) 3 = x 3 — 5 x 1 a + 10 x 3 a 2.

and so for all the others.

2

3

-

10 x
a 3 + 5 x a1.

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107. On considering the above table we shall perceive, that

I. In each case the first term of the expansion is the first term of the binomial raised to the given power, and the last term of the expansion is the second term of the binomial raised to the given power. Thus, in the expansion of (x + a) 1 the first term is x and the last term is a 4, and so for all the rest.

II. The quantity a does not enter into the first term of the expansion, but ap pears in the second term with the exponent unity. The powers of x decrease by unity, and the powers of a increase by unity in each successive term. Thus, in the expansion of (x + a) we have, x o, x 3 a, x1 a 2, x 3 a 3, x 2 a 2, x a 3, a o. III. The coefficient of the first term is unity, and, the coefficient of the second term is in every case the exponent of the power to which the binomial is to be

5

4

3

5

4

raised. Thus the coefficient of the second term of (x + a) 2 is 2, of (x + a) © is 6, of (x + a)' is 7.

IV. If the coefficient in any term be multiplied by the index of x in that term and divided by the number of terms up to the given place, the resulting quotient will be the coefficient of the succeeding term. Thus in the expansion of (x + a) 1 the coefficient of the second term is 4; this multiplied by 3, the index of x in that term, gives 12, which when divided by 2 the number of terms up to the given place gives 6, the coefficient of the third term. Again, 6 the coefficient of the third term multiplied by 2, the exponent of x in that term, gives 12, which, when divided by 3, the number of terms up to the given place, gives 4, the coefficient of the 4th term. So also 35, the coefficient of the 5th term in the expansion of (x+a), when multiplied by 3, the index of x in that term, gives 105, which, when divided by 5, the number of terms up to the given place, gives 21, the coefficient of the succeeding term.

By attending to the above observations, we can always raise a binomial of the form (x+a) to any required power, without the process of actual multiplication,

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108. The labour of determining the coefficients may be much abridged by attending to the following additional considerations:

V. The number of terms in the expanded binomial is always greater by unity than the index of the binomial. Thus the number of terms in (x + a)1 is

4+ 1, or 5, in (x + a)10 is 10+ 1, or 11.

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VI. Hence, when the exponent is an even number, the number of terms in the expansion will be odd, and it will be observed, on examining the examples already given, that after we pass the middle term the coefficients are repeated in a reverse order; thus,

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VII. When the exponent is an odd number, the number of terms in the expansion will be even, and there will be two middle terms, or two contiguous terms, each of which is equally distant from the corresponding extremities of the series; in this case the coefficient of the two middle terms is the same, and then the coefficients of the preceding terms are reproduced in a reverse order; thus,

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109. If the terms of the given binomial be affected with coefficients or exponents, they must be raised to the required powers, according to the principles already established for the involution of monomials; thus:

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In like manner,

2 1

6 X 2 (2 x 3) 1 × (5 a2 ) 3

4 = 625 a 8

16x12+160x9a2+ 600x6a+ 1000x3 a6+ 625a3

Example IV.

3

(u3+3ab) = (a3)9+9(a3)o × (3ab)+36(a3)7 × (3ab)2 +84 (a3)6 × (3ab) 3 +126(a3)3 × (3ab)1 +126(a3)a × (3ab)5 +84(a3)3 ×(3ab)6 +36 (a3)2 × (3ab)' + 9a3 × (3ab)8 + (3ab)9

= a2+27a2b+324a23b2+2268a21b3+10206a1b4+30618175 +61236 a15b6+78732 a1367 + 59049 a11 b8+ 19683 a9b9

110. We shall now proceed to exhibit the binomial theorem in a general form I et it be required to raise any binomial (x+a) to the power represented by

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The whole number of terms will be n+1, and the coefficients be repeated

in a reverse order after the (2+1), or (2+1)th term, according as n is odd or

2

th,

even; moreover, the terms will all have the sign +, if the quantity to be expanded be of the form of x+a, and they will have the sign + and alternately, if the quantity be of the form x-a. Hence generally,

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In this last case, if ʼn be an even number, the last term, being one of the odd terms, will have the sign+; and if n be an odd number, the last term, being one of the even terms, will have the sign

Both forms may be included in one, by employing the double sign; thus,

(x+a)” = x2±nx2-1a+ xn-2 a2 +

n(n−1)
1.2

n(n−1)(n—9

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1 2 3

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Example V.

&c.

To exemplify the application of the theorem in this form, let it be required to raise xa to the power of 5.

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