7.1 • UNIFORM CONVERGENCE 251y108 f<Xo)6/
,, ,/
=======~~-~~~~...- ,,
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-'=--=--=-"'-"'-"'-"'-=-=-=-=-::".!-!:-:-"'-"'-=----=F----.._----.--~ x- I --0.5 \ 0.5
y=j(x)-£
Figure 7.1 The geometric series does not converge unilormly on (-1, 1).
such that, no matter how large n is, we can find xo E ( -1, 1) with the property
that Sn (xo) lies outside this bandwidth. In other words, Figure 7.1 illustrates
the negation of Statement (7-2), which in technical terms we state as:
There exists e > 0 such that, for all positive integers N,
there are some n ;::: N and some zo E T
such that ISn (ZQ) -f (Z<>)I 2: e.(7-3)In the exercises, we ask you to use Statement (7-3) to show that the partialsums of the geometric series do not converge uniformly to f (z) = 1 ~ .. for points
z E D1 (O).
A useful procedure known as t he Weierstrass M-test can help determine
whether an infinite series is uniformly convergent.