9.2 Uniform Convergence 549(See Figure 9.6.) Thus, l\fll is the distance between f and the 0 function.
y
y
y=g(x)xx y=f(x)Figure 9.5
Figure 9.6Thus, for a given E: > 0, a function g E B(S) is within a distance E: of a
function f E B(S) if its graph lies within a "band" E: units above and below
the graph off. See Figure 9.7.yFigure 9.7The "sup norm" has several important algebraic properties which make it
resemble the absolute value, and that form the basis of its usefulness.
Theorem 9.2.2 Given any f,g E B(S), and any real number r,
(a) llfll ~ 0, and llfll = 0 if and only if f = O;
(b) Iii+ gll :::; l\fll + 11911 (triangle inequality);(c) llr fll = lrl llfll;
(d) llfgll:::; l\fll 11911-
Proof. Exercise l. • (See also Exercise 2.)We are finally ready to state the definition of "uniform convergence" of a
sequence of functions. Although this definition seems complicated, we shall find
that by using the notion of "norm" we can make it more understandable.