If f is a differentiable, real-valued function such that f′(c) < 0 and f′′(c) < 0,...

Explain why if f is a differentiable function in and on a closed path C and...

Explain why if f is a differentiable function in and on a closed path C and Z0 is a point inside C, then the value of f(z0) is determined by the values of f(z) around C

PROVE USING IVT. Suppose f is a differentiable function on [s,t] and suppose f'(s) > 0...

PROVE USING IVT. Suppose f is a differentiable function on [s,t] and suppose f'(s) > 0 > f'(t). Then there's a point p in (s,t) where f'(p)=0.

Given that a function F is differentiable. a f(a) f1(a) 0 0 2 1 2 4...

Given that a function F is differentiable. a f(a) f1(a) 0 0 2 1 2 4 2 0 4 Find 'a' such that limx-->a(f(x)/2(x−a)) = 2. Provide with hypothesis and any results used.

Consider the piecewise defined function f(x) = xa− xb if 0<x<1. and f(x) = lnxc if...

Consider the piecewise defined function f(x) = xa− xb if 0<x<1. and f(x) = lnxc if x≥1. where a, b, c are positive numbers chosen in such a way that f(x) is differentiable for all 0<x<∞. What can be said about a, b,  and c?

Let f(x) be a continuous, everywhere differentiable function. What kind information does f'(x) provide regarding f(x)?...

Let f(x) be a continuous, everywhere differentiable function. What kind information does f'(x) provide regarding f(x)? Let f(x) be a continuous, everywhere differentiable function. What kind information does f''(x) provide regarding f(x)? Let f(x) be a continuous, everywhere differentiable function. What kind information does f''(x) provide regarding f'(x)? Let h(x) be a continuous function such that h(a) = m and h'(a) = 0. Is there enough evidence to conclude the point (a, m) must be a maximum or a minimum?...

Theorem 4 states “If f is differentiable at a, then f is continuous at a.” Is...

Theorem 4 states “If f is differentiable at a, then f is continuous at a.” Is the converse also true? Specifically, is the statement “If f is continuous at a, then f is differentiable at a” also true? Defend your reasoning and/or provide an example or counterexample (Hint: Can you find a graphical depiction in the text that shows a continuous function at a point that is not differentiable at that point?)

suppose f is a differentiable function on interval (a,b) with f'(x) not equal to 1. show...

suppose f is a differentiable function on interval (a,b) with f'(x) not equal to 1. show that there exists at most one point c in the interval (a,b) such that f(c)=c

Let f be a function differentiable on R (all real numbers). Let y1 and y2 be...

Let f be a function differentiable on R (all real numbers). Let y1 and y2 be pair of numbers (y1 < y2) with the property f(y1) = y2 and f(y2) = y1. Show there exists a num where the value of f' is -1. Name all theroms that you use and explain each step.

if the function f is differentiable at a, prove the function f is also continuous at...

if the function f is differentiable at a, prove the function f is also continuous at a.

Let f(x) be a twice differentiable function (i.e. its first and second derivatives exist at all...

Let f(x) be a twice differentiable function (i.e. its first and second derivatives exist at all points). (a) What can you say about f(x) when f 0 (x) is positive? How about when f 0 (x) is negative? (b) What can you say about f 0 (x) when f 00(x) is positive? How about when f 00(x) is negative? (c) What can you say about f(x) when f 00(x) is positive? How about when f 00(x) is negative? (d) Let...