(a) Assume that (a, b) is a bounded open interval in R. Using Mean Value Theorem, prove that if f: (a, b) → R is an unbounded differentiable function (i.e., for every M > 0 there exists x e (a, b)...

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(a) Assume that (a, b) is a bounded open interval in R. Using Mean Value Theorem, prove<br>that if f: (a, b) → R is an unbounded differentiable function (i.e., for every M > 0 there<br>exists x e (a, b) such that |f(x)| > M), then f' is also an unbounded function.<br>(b) Give an example of a function f: (a, b) → R, where (a, b) is a bounded open real<br>interval, such that f is differentiable on (a, b), f' is unbounded on (a, b), but f is<br>bounded function on (a, b).<br>2.<br>

Extracted text: (a) Assume that (a, b) is a bounded open interval in R. Using Mean Value Theorem, prove that if f: (a, b) → R is an unbounded differentiable function (i.e., for every M > 0 there exists x e (a, b) such that |f(x)| > M), then f' is also an unbounded function. (b) Give an example of a function f: (a, b) → R, where (a, b) is a bounded open real interval, such that f is differentiable on (a, b), f' is unbounded on (a, b), but f is bounded function on (a, b). 2.

Jun 04, 2022

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(a) Assume that (a, b) is a bounded open interval in R. Using Mean Value Theorem, prove that if f: (a, b) → R is an unbounded differentiable function (i.e., for every M > 0 there exists x e (a, b)...

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