Prove that a continuous real-valued function on a compact metric space assumes its maximum value. I...

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 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 f be continuous on a closed interval. then f assumes its minimum and maximum values....

Let f be continuous on a closed interval. then f assumes its minimum and maximum values. Hint Construct a squence(xn) for which (f(xn) converges to the supremum M of f, apply the Bolzano-Weierstrass theorem to get a convergent subsequence of (xn), and invoke the continuity of f at the limit of that convergent subsequence. (Extreme Value Theorem)

A Uniform[0, 10] is a continuous random variable Y which assumes any value between [0, 10]...

A Uniform[0, 10] is a continuous random variable Y which assumes any value between [0, 10] with equal chance, with density f(y) = 1/10 for all y ∈ [0, 10] and zero everywhere else. Check that it satisfies the properties that a density function should have. Find its distribution function F(y) for all y ∈ (−∞,∞) and show that it satisfies the properties that a distribution function should have.

(i) Use the Intermediate Value Theorem to prove that there is a number c such that...

(i) Use the Intermediate Value Theorem to prove that there is a number c such that 0 < c < 1 and cos (sqrt c) = e^c- 2. (ii) Let f be any continuous function with domain [0; 1] such that 0smaller than and equal to f(x) smaller than and equal to 1 for all x in the domain. Use the Intermediate Value Theorem to explain why there must be a number c in [0; 1] such that f(c) =c

When using its associated dynamic-programming recurrence to compute the entries of wac(i, j), how many times...

When using its associated dynamic-programming recurrence to compute the entries of wac(i, j), how many times is entry wac(25, 32) used in order to compute other entries of wac that represent larger subproblems, assuming n = 76 keys? Explain and show work. 5b. The general form of a divide-and-conquer recurrence may be expressed as T(n) = Xr i=1 T(n/bi) + f(n), for some integer r ≥ 1 and real constants bi > 1, i = 1, . . . ,...

Please read the article and answear about questions. Determining the Value of the Business After you...

Please read the article and answear about questions. Determining the Value of the Business After you have completed a thorough and exacting investigation, you need to analyze all the infor- mation you have gathered. This is the time to consult with your business, financial, and legal advis- ers to arrive at an estimate of the value of the business. Outside advisers are impartial and are more likely to see the bad things about the business than are you. You should...