give an example of a continuous and differentiable function at a point x = a, with...

Prove or give a counter example: If f is continuous on R and differentiable on R...

Prove or give a counter example: If f is continuous on R and differentiable on R ∖ { 0 } with lim x → 0 f ′ ( x ) = L , then f is differentiable on R .

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?...

generate a continuous and differentiable function with the following properties: f(x) is decreasing at x=-5, local...

generate a continuous and differentiable function with the following properties: f(x) is decreasing at x=-5, local minimum is x=-3, local maximum is x=3

Continuity, differentiability questions: • Give an example of a function f: R → R that is...

Continuity, differentiability questions: • Give an example of a function f: R → R that is continuous everywhere on its domain but has at least one point at which it is not differentiable. • Give an example of a function f: R → R that is not continuous at 0.

Give an example or explain why the request is impossible. A function f(x) that is continuous...

Give an example or explain why the request is impossible. A function f(x) that is continuous at 0 and g(x) that is not continuous at 0 such that f(x) - g(x) is continuous at 0.

Prove or give a counterexample: If f is continuous on R and differentiable on R∖{0} with...

Prove or give a counterexample: If f is continuous on R and differentiable on R∖{0} with limx→0 f′(x) = L, then f is differentiable on R.

4a). Let g be continuous at x = 0. Show that f(x) = xg(x) is differentiable...

4a). Let g be continuous at x = 0. Show that f(x) = xg(x) is differentiable at x = 0 and f'(0) = g(0). 4b). Let f : (a,b) to R and p in (a,b). You may assume that f is differentiable on (a,b) and f ' is continuous at p. Show that f'(p) > 0 then there is delta > 0, such that f is strictly increasing on D(p,delta). Conclude that on D(p,delta) the function f has a differentiable...

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?)

If the first derivative function is f '(x) = (x −2) 4 ⋅(x −1) 3 it...

If the first derivative function is f '(x) = (x −2) 4 ⋅(x −1) 3 it follows that the parent function, f, has A. a relative minimum at x=1 only B. a relative maximum at x=1 C. both a relative minimum at x=1 and a relative maximum at x=2 D. neither a relative maximum nor a relative minimum E. None of the above

Give an example, with justification, of a function that is not differentiable.

Give an example, with justification, of a function that is not differentiable.