We say that a set A is dense in a metric space (M,d) provided A bar...

Let (X, d) be a metric space, and let U denote the set of all uniformly...

Let (X, d) be a metric space, and let U denote the set of all uniformly continuous functions from X into R. (a) If f,g ∈ U and we define (f + g) : X → R by (f + g)(x) = f(x) + g(x) for all x in X, show that f+g∈U. In words,U is a vector space over R. (b)If f,g∈U and we define (fg) : X → R by (fg)(x) = f(x)g(x) for all x in X,...

Let (X, d) be a compact metric space and F: X--> X be a function such...

Let (X, d) be a compact metric space and F: X--> X be a function such that d(F(x), F(y)) < d(x, y). Let G: X --> R be a function such that G(x) = d(F(x), x). Prove G is continuous (assume that it is proved that F is continuous).

Let (X, d) be a compact metric space and let A ⊆ X. Suppose that A...

Let (X, d) be a compact metric space and let A ⊆ X. Suppose that A is not compact. Prove that there exists a continuous function f : A → R, from (A, d) to (R, d|·|), which is not uniformly continuous.

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y...

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y ∈ E ⇒ d(x,y) = 1. (a) Show E is a closed and bounded subset of X. (b) Show E is not compact. (c) Explain why E cannot be a subset of Rn for any n.

Let C [0,1] be the set of all continuous functions from [0,1] to R. For any...

Let C [0,1] be the set of all continuous functions from [0,1] to R. For any f,g ∈ C[0,1] define dsup(f,g) = maxxE[0,1] |f(x)−g(x)| and d1(f,g) = ∫10 |f(x)−g(x)| dx. a) Prove that for any n≥1, one can find n points in C[0,1] such that, in dsup metric, the distance between any two points is equal to 1. b) Can one find 100 points in C[0,1] such that, in d1 metric, the distance between any two points is equal to...

Determine whether the given set ?S is a subspace of the vector space ?V. A. ?=?2V=P2,...

Determine whether the given set ?S is a subspace of the vector space ?V. A. ?=?2V=P2, and ?S is the subset of ?2P2 consisting of all polynomials of the form ?(?)=?2+?.p(x)=x2+c. B. ?=?5(?)V=C5(I), and ?S is the subset of ?V consisting of those functions satisfying the differential equation ?(5)=0.y(5)=0. C. ?V is the vector space of all real-valued functions defined on the interval [?,?][a,b], and ?S is the subset of ?V consisting of those functions satisfying ?(?)=?(?).f(a)=f(b). D. ?=?3(?)V=C3(I), and...

Let us say that two integers are near to one another provided their difference is 2...

Let us say that two integers are near to one another provided their difference is 2 or smaller (i.e., the numbers are at most 2 apart). For example, 3 is near to 5, 10 is near to 9, but 4 is not near to 8. Let R stand for this is-near-to relation. (a) Write down R as a set of ordered pairs. Your answer should look like this: R = {(x, y) : . . .}. (b) Prove or disprove:...

Lever. We can make a lever by placing a bar on a pivot. Suppose the bar...

Lever. We can make a lever by placing a bar on a pivot. Suppose the bar is 5 meters long. A 20 kg kid and an 80 kg adult seat at two terminals of the bar individually. Initially, the bar is along horizontal direction. A. There are totally three forces exerted on the lever: the force exerted by the kid, the force exerted by the adult and the supporting force exerted at the pivot. What is the value of the...

1. Suppose we have the following relation defined on Z. We say that a ∼ b...

1. Suppose we have the following relation defined on Z. We say that a ∼ b iff 2 divides a + b. (a) Prove that the relation ∼ defines an equivalence relation on Z. (b) Describe the equivalence classes under ∼ . 2. Suppose we have the following relation defined on Z. We say that a ' b iff 3 divides a + b. It is simple to show that that the relation ' is symmetric, so we will leave...

2. Expected Values: a) What is the formula for Expect[X] for some data set X, when...

2. Expected Values: a) What is the formula for Expect[X] for some data set X, when X is continuous and when X is discrete? b) Must an expected value of a data set be an element of that set? Why or why not? c) How is the expected value similar to or different from other measures of center such as the median or mode? d) What is the difference between theoretical expected values and experimental (sample) means? i. When is...