1550251515-Classical_Complex_Analysis__Gonzalez_

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200 Chapter4


By taking in (4.10-2) a fixed value of n > max(N 1 ,N2), we obtain,

using (4.10-3) to (4.10-5),


lf(z)-Ll<E


provided that z E N 0 (zo) n B. This proves that limz_.zo,zEB f(z) = L ..


Remark We have shown that


lim lim un(z) = lim f(z) = L = lim Ln = lim lim un(z)

z-+-zo n-+oo z-+zo n-+oo n---+-oo Z-tZo

Thus Theorem 4.16 establishes conditions under which the inversion of the
order of the limits is permissible.


Corollary 4.4 Suppose that the set B in the preceding theorem is open,
that z 0 E B, and that the functions un(z) are continuous at zo. Then it


follows that f ( z) is continuous at z 0 • In other words, the limit function

of an uniformly convergent sequence of continuous functions is again a
continuous function.


Note The conclusion of the corollary still holds if B is not open, z 0 E B,
and the continuity at z 0 of the functions involved is taken in a restricted
sense, i.e., as z -;. z 0 through the set B.


Definidons 4.11 Let


00
L Un(z) = uo(z) + u1(z) + · · · + un(z) + · · · (4.10-6)
n=o

be a series of functions un(z ), all of them having a set D "# 0 as a common
domain of definition, and· let


Sn(z) = uo(z) + u1(z) + · · · + un(z) (4.10-7)


be the partial sums of.the series ( 4.10-6). We say that C C Dis the conver-

gence set of the series, or that the series converges (pointwise) on C, if that
set is the convergence set of the sequence {Sn(z)}. Iflimn_. 00 Sn(z) = F(z)
for z EC, the function F(z) is called the sum of the series, and we write


00
F(z) = L un(z), z EC
n=o

On D1 = D - C the sequence {Sn(z)} diverges and we say, accordingly,

that Z::un(z) diverges on D 1. On any nonempty subset B of C where
Sn(z) =+ F(z) the series I: Un(z) is said to converge uniformly to F(z).

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