Define f: R (all positive real numbers) -> R (all positive real numbers) by f(x)= sqrt(x^3+2)...

Define H: R->R by the rule H(x) = x2, for all real numbers x. c) Is...

Define H: R->R by the rule H(x) = x2, for all real numbers x. c) Is H one-to-one correspondence? Explain b) Define K: Rnonneg->Rnonneg by the rule K(x) = x2, for all nonnegative real numbers x. Is K a one to one correspondence?

Let x and y be real numbers. Then prove that sqrt(x^2) = abs(x) and abs(xy) =...

Let x and y be real numbers. Then prove that sqrt(x^2) = abs(x) and abs(xy) = abs(x) * abs(y)

(b) Define f : R → R by f(x) := x 2 sin 1 x for...

(b) Define f : R → R by f(x) := x 2 sin 1 x for x 6= 0, and f(x) = 0 for x = 0. Does f 0 (0) exist? Prove your claim.

Let f(x) be a function that is continuous for all real numbers and assume all the...

Let f(x) be a function that is continuous for all real numbers and assume all the intercepts of f, f' , and f” are given below. Use the information to a) summarize any and all asymptotes, critical numbers, local mins/maxs, PIPs, and inflection points, b) then graph y = f(x) labeling all the pertinent features from part a. f(0) = 1, f(2) = 0, f(4) = 1 f ' (2) = 0, f' (x) < 0 on (−∞, 2), and...

3. The function f(x) = x2(x2 − 2x − 36) is defined on all real numbers....

3. The function f(x) = x2(x2 − 2x − 36) is defined on all real numbers. On what subset of the real numbers is f(x) concave down? (a) (−2, 3) (b) (−3, 2) (c) (−∞, −3) ∪ (2, ∞) (d) Nowhere (e) (−∞, −2) ∪ (3, ∞)

Prove the statement " For all real numbers r, if r is irrational, then r/2 is...

Prove the statement " For all real numbers r, if r is irrational, then r/2 is irrational ". You may use any method you wish. Be sure to state what method of proof you are using.

Is the function f : R → R defined by f(x) = x 3 − x...

Is the function f : R → R defined by f(x) = x 3 − x injective, surjective, bijective or none of these? Thank you!

Prove that for all real numbers x, if x 2 is irrational, then x is irrational.

Prove that for all real numbers x, if x 2 is irrational, then x is irrational.

Let f : R → R be defined by f(x) = x^3 + 3x, for all...

Let f : R → R be defined by f(x) = x^3 + 3x, for all x. (i) Prove that if y > 0, then there is a solution x to the equation f(x) = y, for some x > 0. Conclude that f(R) = R. (ii) Prove that the function f : R → R is strictly monotone. (iii) By (i)–(ii), denote the inverse function (f ^−1)' : R → R. Explain why the derivative of the inverse function,...

1. Let f be the function defined by f(x) = x 2 on the positive real...

1. Let f be the function defined by f(x) = x 2 on the positive real numbers. Find the equation of the line tangent to the graph of f at the point (3, 9). 2. Graph the reflection of the graph of f and the line tangent to the graph of f at the point (3, 9) about the line y = x. I really need help on number 2!!!! It's urgent!