Prove that the Card C =Card R

Prove that R[x]/〈x2 + 1〉 ∼= C as rings.

Prove that R[x]/〈x2 + 1〉 ∼= C as rings.

If R is a UFD and f(x), g(x) contains R[x], prove that c(fg) and c(f)c(g) are...

If R is a UFD and f(x), g(x) contains R[x], prove that c(fg) and c(f)c(g) are associatives.

Prove: A nonempty subset C⊆R is closed if and only if there is a continuous function...

Prove: A nonempty subset C⊆R is closed if and only if there is a continuous function g:R→R such that C=g-1(0).

Use the combinations formula to prove that in general C(n, r) = C(n, n - r)....

Use the combinations formula to prove that in general C(n, r) = C(n, n - r). Use the permutations formula to evaluate for any whole number n, P(n, 0). Explain the meaning of your result. Use the combinations formula and the definition of 0! to evaluate, for any whole number n, C(n, 0). Explain the meaning of your result. Suppose you have 35 songs for a playlist consisting of only 5 songs. How many different playlists can you have?

let F : R to R be a continuous function a) prove that the set {x...

let F : R to R be a continuous function a) prove that the set {x in R:, f(x)>4} is open b) prove the set {f(x), 1<x<=5} is connected c) give an example of a function F that {x in r, f(x)>4} is disconnected

Prove that T : R 3 → P2 defined by T(a, b, c) = ax^2 +...

Prove that T : R 3 → P2 defined by T(a, b, c) = ax^2 + bx + c yields a vector space isomorphism

Let f : R → R be a bounded differentiable function. Prove that for all ε...

Let f : R → R be a bounded differentiable function. Prove that for all ε > 0 there exists c ∈ R such that |f′(c)| < ε.

Let R be a relation on A. Suppose that dom(R) = A and R^(-1)∘R⊆R. Prove that...

Let R be a relation on A. Suppose that dom(R) = A and R^(-1)∘R⊆R. Prove that R is reflexive on A.

Prove that 1 + r + r^2 + … + r n = (1 – r^(n...

Prove that 1 + r + r^2 + … + r n = (1 – r^(n +1) )/(1 – r) for all n ∈ N, when r ≠ 1

A card is drawn at random from a standard deck. Prove whether the following events are...

A card is drawn at random from a standard deck. Prove whether the following events are dependent or independent. a) the events "heart" and "black" b) the events "black" and "ace" c) the events "under 10" and "red"