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

4. Let f be a function with domain R. Is each of the following claims true...

4. Let f be a function with domain R. Is each of the following claims true or false? If it is false, show it with a counterexample. If it is true, prove it directly from the FORMAL DEFINITION of a limit. (a) IF limx→∞ f(x) = ∞ THEN limx→∞ sin (f(x))  does not exist. (b) IF f(−1) = 0 and f(1) = 2 THEN limx→∞ f(sin(x)) does not exist.

Let f:[0,1]——>R be define by f(x)= x if x belong to rational number and 0 if...

Let f:[0,1]——>R be define by f(x)= x if x belong to rational number and 0 if x belong to irrational number and let g(x)=x (a) prove that for all partitions P of [0,1],we have U(f,P)=U(g,P).what does mean about U(f) and U(g)? (b)prove that U(g) greater than or equal 0.25 (c) prove that L(f)=0 (d) what does this tell us about the integrability of f ?

Show all the steps and explain. Don't skip steps and please clear hand written f(x)=x^m sin(1/x^n)...

Show all the steps and explain. Don't skip steps and please clear hand written f(x)=x^m sin(1/x^n) if x is not equal 0 and f(x)=0 if x =0 (a) prove that when m>1+n, then the derivative of f is continuous at 0 limit x to 0 x^n sin(1/x^n) does not exist? but why??? please explain it should be 0*sin(1/x^n)

1. Differentiate the functions: a) f(x)=tan(1/x). b) f(x)=sin(x^2)sin^2(x).

1. Differentiate the functions: a) f(x)=tan(1/x). b) f(x)=sin(x^2)sin^2(x).

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

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

2. Define a function f : Z → Z × Z by f(x) = (x 2...

2. Define a function f : Z → Z × Z by f(x) = (x 2 , −x). (a) Find f(1), f(−7), and f(0). (b) Is f injective (one-to-one)? If so, prove it; if not, disprove with a counterexample. (c) Is f surjective (onto)? If so, prove it; if not, disprove with a counterexample.

1. For n exists in R, we define the function f by f(x)=x^n, x exists in...

1. For n exists in R, we define the function f by f(x)=x^n, x exists in (0,1), and f(x):=0 otherwise. For what value of n is f integrable? 2. For m exists in R, we define the function g by g(x)=x^m, x exists in (1,infinite), and g(x):=0 otherwise. For what value of m is g integrable?

Suppose f′(x) = √(x)*sin(x^2) and f(0) = 5. Estimate f(b) for: b = 0 : f(b)...

Suppose f′(x) = √(x)*sin(x^2) and f(0) = 5. Estimate f(b) for: b = 0 : f(b) ≈ 5 b = 1: f(b) ≈ b = 2 : f(b) ≈ b = 3 : f(b) ≈ (Only the square root of x is being taken.) (This is all the information the question provides. If it helps, the chapter is on "Theorems about definite integrals.")

Consider the function f : R → R defined by f(x) = ( 5 + sin...

Consider the function f : R → R defined by f(x) = ( 5 + sin x if x < 0, x + cos x + 4 if x ≥ 0. Show that the function f is differentiable for all x ∈ R. Compute the derivative f' . Show that f ' is continuous at x = 0. Show that f ' is not differentiable at x = 0. (In this question you may assume that all polynomial and trigonometric...

Let f : R \ {1} → R be given by f(x) = 1 1 −...

Let f : R \ {1} → R be given by f(x) = 1 1 − x . (a) Prove by induction that f (n) (x) = n! (1 − x) n for all n ∈ N. Note: f (n) (x) denotes the n th derivative of f. You may use the usual differentiation rules without further proof. (b) Compute the Taylor series of f about x = 0. (You must provide justification by relating this specific Taylor series to...