142 CHAPTER 4 • SEQUENCES, JULIA AND MANDELBROT SETS, AND POWER SERIES00
t Corollary 4.2 If lzl > 1, the series I: z-n converges to f (z) = ,.: 1. That is,
n=l
if lzl > 1, then
00 1
I:
z - n = z - 1 + z -2 +... + z - n + ... = --,
z- 1n=l
or equivalently,00 1
-L...J'°"' z - n =-z -I -z -2 - ···- z -n - ···=
1- z.
n=l
If I z I ::; 1, the series diverges.
P roof If we let ~ take the role of z in Equation ( 4-11), we get
00
(1)" 1
I:; = 1 -!
n=O zif I ~I < 1.
Multiplying both sides of this equation by ~ givesl
00
(1 )" 1
;I: ; = z-1
n=O
which, by Equation (4-10), is the same asoo (!)n+l = _l
I: z z - 1
n=O
00But this expression is equivalent to saying that :[ (~)" =. : 1 if 1 < lzl, which
n=l
is what the corollary claims.
It is left as an exercise to show that the series diverges if lz I ::; l.t Corollary 4.3 If z :f. 1, then for all n ,1 2 n - 1 z"
--=l+z+z +···+z +--.1-z 1 - z
Proof This result follows immediately from Equation (4-14).- EXAMPLE 4.13 Show that f ci;r = 1 -i.
n =O
Solution If we set z =^1 2;, then lzl = :/f' < 1. By Theorem 4.12, the sum is
__ 1~ = 2 = _2_ = 1 -i.
1-^1 - i 2 2-l+i l+i