Question #6

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1. Let , y ER. Determine if the following are metrics on R or not (a) d, (x, y) = V[x – y| (b) d2(x,y) = (x – y)* 2. Let E CX where X is a metric space. Let E° denote all the interior points of E. (E°is an open set-you don't have to prove this, but you can use this fact to prove the following) (a) Show E is open if and only iff E = E° (b) Show: If GCE and G is open, then G C E° 3. Let K,and K2 be compact subsets of a metric space X. Show K, U K2 is compact Show NaEa Ka is closed 4. Let {Ka}aea be a collection of compact subsets of a metric space, in X 5. (a) Consider the collection of open sets, {(-n,n)}"=1 in R with the usual metric d(x,y) = |x – y| . Use this collection of open sets to show R is not compact (make sure to prove R = Unej(-n, n) as part of your work). (b) Give an example of a collection of compact sets in R , say {Kn}n=1 such that U=1 Kn is not compact (Hint: consider part (a) ) 6. Let E C X where X is a metric space. Show the limit points of E are the same as the limit points of Ē , the closure of E. That is, show E'= (E U E')', 7. (a) Let A C X,B C X where X is a metric space. Show AnB CÃ O Ē (b) Consider A = [3,7),B = (7,9] as subset of R with the usual metric, dr (x, y) = | x – y| . Show Ā n B is not a subset of An B 8. Let X be a metric space. Let A and B be separated sets in X. Show either E CA or ESB where E is a connected subset of A U B