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

Prove that the function f(x) = |x| is not differentiable at zero, and show that the...

Prove that the function f(x) = |x| is not differentiable at zero, and show that the function g(x) = |x|*x is differentiable at zero.

I=interval with rl #'s which has x=0. f(x) is an odd function that is differentiable on...

I=interval with rl #'s which has x=0. f(x) is an odd function that is differentiable on I. show that f(0)=0 and f'(x) is even. for part 2, f(x) is an even function with the same characteristics as part 1. show f'(x) is odd. please show all the work for a thumbs up.

Suppose that f is a differentiable function and define g(x)=e^(2*f(x)+5x). Suppose that f(-2) = 1 and...

Suppose that f is a differentiable function and define g(x)=e^(2*f(x)+5x). Suppose that f(-2) = 1 and f ' (-2) = 2. Find g ' (-2).

Suppose f(x)=x6+3x+1f(x)=x6+3x+1. In this problem, we will show that ff has exactly one root (or zero)...

Suppose f(x)=x6+3x+1f(x)=x6+3x+1. In this problem, we will show that ff has exactly one root (or zero) in the interval [−4,−1][−4,−1]. (a) First, we show that f has a root in the interval (−4,−1)(−4,−1). Since f is a SELECT ONE!!!! (continuous) (differentiable) (polynomial)   function on the interval [−4,−1] and f(−4)= ____?!!!!!!! the graph of y=f(x)y must cross the xx-axis at some point in the interval (−4,−1) by the SELECT ONE!!!!!! (intermediate value theorem) (mean value theorem) (squeeze theorem) (Rolle's theorem) .Thus, ff...

Let f : E → R be a differentiable function where E = [a,b] or E...

Let f : E → R be a differentiable function where E = [a,b] or E = (−∞,∞), show that if f′(x) not = 0 for all x ∈ E then f is one-to-one, i.e., there does not exist distinct points x1,x2 ∈ E such that f(x1) = f(x2). Deduce that f(x) = 0 for at most one x.

(a) Show that a differentiable function f decreases most rapidly at x in the direction opposite...

(a) Show that a differentiable function f decreases most rapidly at x in the direction opposite the gradient vector, that is, in the direction of −∇f(x). Let θ be the angle between ∇f(x) and unit vector u. Then Du f = |∇f| Correct: Your answer is correct. . Since the minimum value of Correct: Your answer is correct. is -1 Correct: Your answer is correct. occurring, for 0 ≤ θ < 2π, when θ = Correct: Your answer is correct....

Let f be continuously differentiable function on the Reals with the following characteristics: - f(x) is...

Let f be continuously differentiable function on the Reals with the following characteristics: - f(x) is increasing from intervals (0,2) and (4,5) and decreasing everywhere else - f(x) > -1 on the interval (1,3) and f(x) < -1 everywhere else Suppose g(x) = 2f(x) + (f(x))^2. On which interval(s) is g(x) increasing?

Suppose f is differentiable on a bounded interval (a,b) but f is unbounded there. Prove that...

Suppose f is differentiable on a bounded interval (a,b) but f is unbounded there. Prove that f' is also unbounded in (a,b). Is the converse true?

Consider the function g(x) = |3x + 4|. (a) Is the function differentiable at x =...

Consider the function g(x) = |3x + 4|. (a) Is the function differentiable at x = 10? Find out using ARCs. If it is not differentiable there, you do not have to do anything else. If it is differentiable, write down the equation of the tangent line thru (10, g(10)). (b) Graph the function. Can you spot a point “a” such that the tangent line through (a, f(a)) does not exist? If yes, show using ARCS that g(x) is not...

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...