98 Chapter 2 • SequencesThat is, Xn - Xn+l 2 0, from which it follows that Xn+l :S Xn·(c) By (a) and (b) together, {xn};;:"= 2 is a monotone decreasing sequence
that is bounded below. Therefore, by the monotone convergence theorem, {xn}
converges.(d) Let L = lim Xn· Then L 2 0, since Xn > 0 for all n. By taking the
n->OO
a
Xn+-
limit of both sides of the equation Xn+i = --
2- xn_
a
L+-
we haveL = __ L_ or 2L = L + !:_
2 ' L.That is, L = I , or L^2 = a
and thus, Lis a positive number whose square is a; i.e., L =JO,.(e) Suppose n 2 2. From the last line of (a) above, we see that Xn 2 JO,.
Thus,
a a- :S r;; = Va :S Xn, SO
Xn ya
0 < X - 'a < X - -a = x_ n^2 _ - a < x n^2 __ - a. Thus - n Vu - n Xn Xn - Va '
x^2 - a
Vn 2 2, 0 :S Xn - Va :S fa. •
*Example 2.5. 12 (Calculating y'a to Any Specified Degree of
Accuracy)The inequality (8) in Theorem 2.5.11 is very useful in practice, to find JO,
to a specified degree of accuracy. For example, suppose we wish to calculate
v's correctly to six decimal places, using the sequence { Xn} defined in Theorem
2.5.11. We want n such that
0 :S Xn - Va :S .0000005 ( = 5 X 10-^7 ).
By (2) it is sufficient to have
x^2 - 5
nv's < 5 x 10-^7 , for which it suffices to have
x_ n^2 __ - (^5) < 5 X 10- 7
2
x; - 5 < 10-^5
x;.<5+10-^6.