o prove that if p(x) ∈ F[x], and a ∈ F, then p(a) = 0 if...

Prove If F is of characteristic p and p divides n, then there are fewer than...

Prove If F is of characteristic p and p divides n, then there are fewer than n distinct nth roots of unity over F: in this case the derivative is identically 0 since n=0 in F. In fact every root of x^n-1 is multiple in this case. Please write legibly, no blurry pictures and no cursive.

prove following P(x < X ≤ y) = F(y) − F(x) P(X = x) = F(x)...

prove following P(x < X ≤ y) = F(y) − F(x) P(X = x) = F(x) − F(x−) where F(x−) = limy↑x F(y); P(X = x) = F(x+) − F(x−).

28.8 Let f(x)=x^2 for x rational and f(x) = 0 for x irrational. (a) Prove f...

28.8 Let f(x)=x^2 for x rational and f(x) = 0 for x irrational. (a) Prove f is continuous at x = 0. (b) Prove f is discontinuous at all x not= 0. (c) Prove f is differentiable at x = 0.Warning: You cannot simply claim f '(x)=2x.

suppose that f is riemann integrable on [a,b] and f(x) >=0 for all x a) prove...

suppose that f is riemann integrable on [a,b] and f(x) >=0 for all x a) prove that integral from a to b of f(x) dx >= 0 b) prove that if integral from a to b of f(x) dx = 0 and f is continous the f(x) =0 for all x in [a,b] c) Find a counterexample which shows that the conclusion of part b may not hold if the hipothesis of continuity is removed

Let f be defined on the (0,infinity). Prove that the limit as x approaches infinity of...

Let f be defined on the (0,infinity). Prove that the limit as x approaches infinity of F(x) =L if and only if the limit as x approaches 0 from the right of f(1/x) = L. Does this hold if we replace L with either infinity or negative infinity?

Prove that if f is differentiable and monotonically increasing on D , then f′(x) ≥ 0...

Prove that if f is differentiable and monotonically increasing on D , then f′(x) ≥ 0 for all x ∈ D.

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 ?

Consider function f (n) = 3n^2 + 9n + 554. Prove f(n) = O(n^2) Prove that...

Consider function f (n) = 3n^2 + 9n + 554. Prove f(n) = O(n^2) Prove that f(n) = O(n^3)

8.4: Let f : X → Y and g : Y→ Z be maps. Prove that...

8.4: Let f : X → Y and g : Y→ Z be maps. Prove that if composition g o f is surjective then g is surjective. 8.5: Let f : X → Y and g : Y→ Z be bijections. Prove that if composition g o f is bijective then f is bijective. 8.6: Let f : X → Y and g : Y→ Z be maps. Prove that if composition g o f is bijective then f is...

Prove that f(x) = (10x3 + 25x + 63) / (4x – 3) is O(x2) directly...

Prove that f(x) = (10x3 + 25x + 63) / (4x – 3) is O(x2) directly from the definition of big O. In lecture we did a big O proof for a similar rational function. To do your proof, bound the numerator from above by a simple function on x3 and bound the denominator from below by a simple function on x. That will allow you do bound f by a simple function on x2 . If you do your...