Prove that f(z) = ez is continuous everywhere.

Prove Dirichlet Function is not continuous everywhere using the claims: f is not continuous at c...

Prove Dirichlet Function is not continuous everywhere using the claims: f is not continuous at c in D if (x_n) is in D and (x_n) converge to c, then (f(x_n)) does not converges to f(c).

Use each definition of a continuous function to prove that every function f: Z --> R...

Use each definition of a continuous function to prove that every function f: Z --> R is continuous

prove f(z) = sin(7z) is uniformly continuous with the use of mean value theorem.

prove f(z) = sin(7z) is uniformly continuous with the use of mean value theorem.

Find the values of a and b that make f continuous everywhere. f(x) = x2 −...

Find the values of a and b that make f continuous everywhere. f(x) = x2 − 4 x − 2      if x < 2 ax2 − bx + 3      if 2 ≤ x < 3 2x − a + b      if x ≥ 3

An everywhere continuous function f satisfies f''(x)= x2 -4x -5. Find the intervals where f is...

An everywhere continuous function f satisfies f''(x)= x2 -4x -5. Find the intervals where f is concave up and concave down.

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?...

Part I) Prove that if f and g are continuous at a, then f+g is continuous...

Part I) Prove that if f and g are continuous at a, then f+g is continuous at a using the epsilon-δ definition. Part II) Let a, L ∈ R. Prove that if a ≥ L− ε for all positive, then a ≥ L.

if f is continuous on [c,d], f(z) is equal to or greater than zero for all...

if f is continuous on [c,d], f(z) is equal to or greater than zero for all z belongs to [c,d], and the integration of f(z) from c to d equals zero, then prove that f(z)=0 for all z belongs to [c,d].

1.49 Two particular solutions of the equation 4f''(z)+f(z)=4f'(z) are f1(z)=ez/2 and f2(z)=zez/2. a) Show that any...

1.49 Two particular solutions of the equation 4f''(z)+f(z)=4f'(z) are f1(z)=ez/2 and f2(z)=zez/2. a) Show that any linear combination Af1(z) + Bf2(z) is also a valid solution to the differential equation. b) Find the particular solution that satisfies the conditions f(2)=14e and f'(2)=12e.

if the function f is differentiable at a, prove the function f is also continuous at...

if the function f is differentiable at a, prove the function f is also continuous at a.