Let f : A → B and suppose that there exists a function g : B...

A function f : A → B is called constant if there exists b ∈ B...

A function f : A → B is called constant if there exists b ∈ B such that for all x ∈ A, f(x) = b. Let f : A → B, and suppose that A is nonempty. Prove that f is constant if and only if for all g : A → A, f ◦ g = f.

Let f : [1, 2] → [1, 2] be a continuous function. Prove that there exists...

Let f : [1, 2] → [1, 2] be a continuous function. Prove that there exists a point c ∈ [1, 2] such that f(c) = c.

Let f and g be functions between A and B. Prove that f = g iff...

Let f and g be functions between A and B. Prove that f = g iff the domain of f = the domain of g and for every x in the domain of f, f(x) = g(x). Thank you!

Let g be a function from set A to set B and f be a function...

Let g be a function from set A to set B and f be a function from set B to set C. Assume that f °g is one-to-one and function f is one-to-one. Using proof by contradiction, prove that function g must also be one-to-one (in all cases).

Let   f:   A→B   be   bijective.       Prove   that   for   each   b   in   B,   there   exists   a&

Let   f:   A→B   be   bijective.       Prove   that   for   each   b   in   B,   there   exists   a   unique   a   in   A   such   that   f(a)   =   b.

Let a > 0 and f be continuous on [-a, a]. Suppose that f'(x) exists and...

Let a > 0 and f be continuous on [-a, a]. Suppose that f'(x) exists and f'(x)<= 1 for all x2 ㅌ (-a, a). If f(a) = a and f(-a) =-a. Show that f(0) = 0. Hint: Consider the two cases f(0) < 0 and f(0) > 0. Use mean value theorem to prove that these are impossible cases.

Let a < b, a, b, ∈ R, and let f : [a, b] → R...

Let a < b, a, b, ∈ R, and let f : [a, b] → R be continuous such that f is twice differentiable on (a, b), meaning f is differentiable on (a, b), and f' is also differentiable on (a, b). Suppose further that there exists c ∈ (a, b) such that f(a) > f(c) and f(c) < f(b). prove that there exists x ∈ (a, b) such that f'(x)=0. then prove there exists z ∈ (a, b) such...

Let f : A → B, g : B → C be such that g ◦...

Let f : A → B, g : B → C be such that g ◦ f is one-to-one (1 : 1). (a) Prove that f must also be one-to-one (1 : 1). (b) Consider the statement ‘g must also be one-to-one’. If it is true, prove it. If it is not, give a counter example.

a) Let f : [a, b] −→ R and g : [a, b] −→ R be...

a) Let f : [a, b] −→ R and g : [a, b] −→ R be differentiable. Then f and g differ by a constant if and only if f ' (x) = g ' (x) for all x ∈ [a, b]. b) For c > 0, prove that the following equation does not have two solutions. x3− 3x + c = 0, 0 < x < 1 c) Let f : [a, b] → R be a differentiable function...

5. Let I be an open interval with a ∈ I and suppose that f is...

5. Let I be an open interval with a ∈ I and suppose that f is a function defined on I\{a} where the limit of f exists as x → a and L = limx→a f(x). Prove that the limit of |f| exists as x → a and |L| = limx→a |f(x)|. Is the converse true? Prove or furnish a counterexample.