Prove that the function f(x) = x2 is uniformly continuous on the interval (0,1).

prove that this function is uniformly continuous on (0,1): f(x) = (x^3 - 1) / (x...

prove that this function is uniformly continuous on (0,1): f(x) = (x^3 - 1) / (x - 1)

prove that these functions are uniformly continuous on (0,1): 1. f(x)=sinx/x 2. f(x)=x^2logx

prove that these functions are uniformly continuous on (0,1): 1. f(x)=sinx/x 2. f(x)=x^2logx

Let f: (0,1) -> R be uniformly continuous and let Xn be in (0,1) be such...

Let f: (0,1) -> R be uniformly continuous and let Xn be in (0,1) be such that Xn-> 1 as n -> infinity. Prove that the sequence f(Xn) converges

show 1/(x^1/2) is not uniformly continuous on the interval (0,1).

show 1/(x^1/2) is not uniformly continuous on the interval (0,1).

Show that the function f(x) = x^2 + 2 is uniformly continuous on the interval [-1,...

Show that the function f(x) = x^2 + 2 is uniformly continuous on the interval [-1, 3].

a) Find a function that is continuous on the interval (3,6), but not uniformly continuous on...

a) Find a function that is continuous on the interval (3,6), but not uniformly continuous on the interval (3,6) and prove it.   b) Could a function be continuous on [3,6], but not uniformly continuous on [3,6]?  (You may give a one line justification for part b) using a theorem.)

We know that any continuous function f : [a, b] → R is uniformly continuous on...

We know that any continuous function f : [a, b] → R is uniformly continuous on the finite closed interval [a, b]. (i) What is the definition of f being uniformly continuous on its domain? (This definition is meaningful for functions f : J → R defined on any interval J ⊂ R.) (ii) Given a differentiable function f : R → R, prove that if the derivative f ′ is a bounded function on R, then f is uniformly...

Let f be a continuous function on the real line. Suppose f is uniformly continuous on...

Let f be a continuous function on the real line. Suppose f is uniformly continuous on the set of all rationals. Prove that f is uniformly continuous on the real line.

Let f be a continuous function. Suppose theres a sequence (x_n) in [0,1] where lim f(x_n))=5....

Let f be a continuous function. Suppose theres a sequence (x_n) in [0,1] where lim f(x_n))=5. Prove there is a point x in [0,1] where f(x)=5.

Prove that the function f : R \ {−1} → R defined by f(x) = (1−x)...

Prove that the function f : R \ {−1} → R defined by f(x) = (1−x) /(1+x) is uniformly continuous on (0, ∞) but not uniformly continuous on (−1, 1).