12.5 Taylor formulas with remainders 635and use the integral form (12.54) to obtain(12.581) R..(x) =q(q - 1)(q - 2)...
(q-n)
n!
fx
(1 +t)4-1 (---:)' AThe function 0 for which 4,(t) = (x - t)/(1 + tt)is monotone over the
interval from 0 to x and O(x) = 0, so j4(t)( must attain its maximum
over the interval from 0 to x when t = 0. This maximum is therefore
jxi. Hence(12.582) IR,.(x)l < jq(q - 1)(q - 2)
. (q - n)l
1xI" fox (1 + )q-1 dtIn case q is a nonnegative integer or x = 0, it is easy to see that(12.583) lim R (x) = 0,
because Rn(x) = 0 for each sufficiently great n. When q is not a non-
negative integer and 0 < jxj < 1, an application of the ratio test gives
(12.583). This establishes the binomial formula (12.58) for the case
in which lxj < 1.Problems 12.59
1 With the aid of Taylor formulas with remainders, obtain the expansions
off in powers of x - a when(a) f (x) = ex, a = 0 (b) f (x) = e=, a = 1(c) f(x) = sin x, a = 0 (d) f(x) = sin x, a =(e) f(x) = cos x, a = 0 (f) f(x)=cosx,a=
2 Supposing that jxi < 1, write two more terms in each series appearing in
the calculations
sin-' x = fox 11-
t?dti i s
(1-x)-3j=1+ (-x)+i
1-3=1r+ix+2.4xa+ ...1 1-3sin-' xOx [1+Zt2+2.4t4+ +
sin-,x=x+213xs+.2145xs+214.657x7+ ...