MATH 140B - HW 5 SOLUTIONS

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1 MATH 140B - HW 5 SOLUTIONS Problem 1 (WR Ch 7 #8). If I (x) = { 0 (x 0), 1 (x > 0), if {x n } is a sequence of distinct points of (a,b), and if c n converges, prove that the series f (x) = c n I (x x n ) (a x b) converges uniformly, and that f is continuous for every x x n. Solution. Let k f k (x) = c n I (x x n ). By the Weierstrass M-test (Theorem 7.10) with M n = c n, {f k (x)} converges uniformly to f (x). Let E = [a,b] \ {x n : n N}. Since each f k (x) is continuous on E, then by Theorem 7.12 we know that f is continuous on E. Problem 2 (WR Ch 7 #9). Let {f n } be a sequence of continuous functions which converge uniformly to a function f on a set E. Prove that lim f n(x n ) = f (x) n for every sequence of points x n E such that x n x, and x E. Is the converse of this true? Solution. Since f is the uniform limit of continuous functions, it is continuous (Theorem 7.12). Since f is continuous and x n x, we know that f (x n ) f (x) (Theorem 4.2). Set ɛ > 0. Then there is some N 1 N such that f (x n ) f (x) < ɛ 2 for n N 1. Since each f n f, there exists some N 2 N such that f n (t) f n (t) < ɛ 2 for n N 2 and for all t E. Putting this together, for n N = max(n 1, N 2 ) we have f n (x n ) f (x) f n (x n ) f (x n ) + f (x n ) f (x) < ɛ 2 + ɛ 2 = ɛ. 1

2 The converse is If {f n } is a sequence of continuous functions for which f n (x n ) f (x) for every sequence x n x in E, then f n f on E. This is not true by the following counterexample. Let f n (x) = x n. This sequence of functions converges pointwise to 0 but not uniformly, since f n (x) f (x) = x n > ɛ for x > ɛ n. The other property we need to check is that f n (x n ) f (x) for every sequence x n x. Since {x n } is a convergent sequence, it is bounded, so x n < M. Then given any ɛ > 0, we choose N > M ɛ, so that for n N we have This proves that f n (x n ) f (x). f n (x n ) f (x) = x n n 0 = x n n M N < ɛ. Problem 3 (WR Ch 7 #10). Letting (x) denote the fractional part of the real number x, consider the function f (x) = n 2 (x real ). Find all discontinuities of f, and show that they form a countable dense set. Show that f is nevertheless Riemann-integrable on every bounded interval. Solution. First notice that the function g (x) = (x) is discontinuous on Z and continuous on R \ Z. This means that g n (x) = is discontinuous at all x such that nx Z, which means only at rational numbers of the form m n (where m,n Z and gcd(m,n) = 1). Let E = R \ Q. As n ranges over all positive integers, we see that g n (x) only has discontinuities at points which lie outside E, so that if we let k g n (x) k f k (x) = n 2 = n 2, we see that each f k (x) is continuous on E. By the Weierstrass M-test (Theorem 7.10) with M n = 1 n 2, we know that {f k (x)} converges uniformly to f (x), and thus by Theorem 7.12 we know that f is continuous on E since each f k (x) is continuous on E. What remains is to prove that f is discontinuous at all rational points. Let x = a b for a,b Z, gcd(a,b) = 1. Then g b (x) is discontinuous at x, or more specifically lim y x g b (x) = 1 and lim y x+ = 0. More generally, at any discontinuity of g n, we will have that the limit from the left will be larger than the limit from the right, meaning that lim f k(y) lim f k (y) 1 y x y x+ b 2 for k b. Since f k (x) f (x) pointwise (the series is bounded by 1/n 2 ), there exists some N N (N > b) such that < 1, so that n 2 3b 2 ( ) ( ) lim f (y) lim f (y) = y x y x+ lim f N (y) lim f N (y) y x y x+ > 1 b b 2 = 1 3b 2 > 0. + lim f y x lim f n 2 y x+ n 2 2

3 Therefore f is discontinuous at every rational point. The fact that f is Riemann integrable follows directly from Theorem Problem 4 (WR Ch 7 #11). Suppose {f n }, {g n } are defined on E, and (a) f n has uniformly bounded partial sums; (b) g n 0 uniformly on E; (c) g 1 (x) g 2 (x) g 3 (x) for every x E. Prove that f n g n converges uniformly on E. Solution. Let A n (x) = n k=1 f n. Choose M such that A n (x) M for all n. Given ɛ > 0, by uniform continuity there is an integer N such that g N (x) (ɛ/2m) for all x E. For N p q, we have q q 1 f n (x)g n (x) = A n (x)(g n (x) g n+1 (x)) + A q (x)g q (x) A p 1 (x)g p (x) q 1 M (g n (x) g n+1 (x)) + g q (x) + g p (x) = 2M g p (x) 2Mg N (x) ɛ. Convergence follows from the Cauchy criterion for uniform convergence. Problem 5 (WR Ch 7 #15). Suppose f is a real continuous function on R 1, f n (t) = f (nt) for n = 1,2,3,..., and {f n } is equicontinuous on [0,1]. What conclusion can you draw about f? Solution. We can conclude f is constant on [0, ). The fact that {f n } is equicontinuous means that for every ɛ > 0, there exists a δ > 0 such that s t < δ = f n (s) f n (t) < ɛ for all n N. For any x [0, ), set ɛ > 0 and find a δ > 0 so that the above inequality holds. Then choose N to be the smallest integer such that N > x/δ (so that x/n < δ). Then if we set s = 0 and t = x/n, we have s t = x/n < δ, so by the inequality above we have f (0) f (x) = f n (s) f n (t) < ɛ. But our choice of ɛ was arbitrary, so that means f (0) = f (x) for all x [0, ), proving our claim. 3

4 Problem 6 (Supp. HW2 #4). Given an example of a metric space X and a sequence of functions {f n } on X such that {f n } is equicontinuous but not uniformly bounded. Solution. Let X = R and f n (x) = n. Then for any ɛ > 0, choose any δ > 0 and we have f n (x) f n (y) = n n = 0 < ɛ whenever x y < δ, so {f n } is equicontinuous. If it were uniformly bounded then there would be some M > 0 such that f n (x) < M for all n N and x R, but this is clearly not possible by taking n > M. Problem 7 (Supp. HW2 #5). Give an example of a uniformly bounded and equicontinuous sequence of functions on R which does not have any uniformly convergent subsequences. Solution. Let 2(x n) n x n f n (x) = 2(n + 1 x) n < x n otherwise. For example, we graph f 3 (x) below. In loose terms, f n (x) is zero everywhere except for a triangle of height 1 on the interval [n,n + 1]. From this definition it s clear that f n (x) 1 for all n N and x R, so the sequence is uniformly bounded. To prove equicontinuity, set some 1 > ɛ > 0 and choose δ = ɛ/2, so that if 4

5 x y < δ and x < y we have 0 2(y n), 2(x n) 2(y n), f n (x) f n (y) max 2(x n) 2(n + 1 y), = 2 x y < 2δ < ɛ. 2(n + 1 x) 2(n + 1 y), 2(n + 1 x) 0 The reason this sequence doesn t have any uniformly convergent subsequences is that the sequence converges pointwise to 0, so any subsequence must converge pointwise to 0, but f n (n ) = 1, so if we have some subsequence {f n k } and we set ɛ < 1, then sup f nk (x) f (x) 1 > ɛ for all k. x R 5

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