Let Z[x] be the ring of polynomials with integer coefficients. Find U(Z[x]), the set of all...

Let R[x] be the set of all polynomials (in the variable x) with real coefficients. Show...

Let R[x] be the set of all polynomials (in the variable x) with real coefficients. Show that this is a ring under ordinary addition and multiplication of polynomials. What are the units of R[x] ? I need a legible, detailed explaination

Let Z_2 [x] be the ring of all polynomials with coefficients in Z_2. List the elements...

Let Z_2 [x] be the ring of all polynomials with coefficients in Z_2. List the elements of the field Z_2 [x]/〈x^2+x+1〉, and make an addition and multiplication table for the field. For simplicity, denote the coset f(x)+〈x^2+x+1〉 by (f(x)) ̅.

In the ring R[x] of polynomials with real coefficients, show that A = {f 2 R[x]...

In the ring R[x] of polynomials with real coefficients, show that A = {f 2 R[x] : f(0) = f(1) = 0} is an ideal.

problem 2 In the polynomial ring Z[x], let I = {a0 + a1x + ... +...

problem 2 In the polynomial ring Z[x], let I = {a0 + a1x + ... + anx^n: ai in Z[x],a0 = 5n}, that is, the set of all polynomials where the constant coefficient is a multiple of 5. You can assume that I is an ideal of Z[x]. a. What is the simplest form of an element in the quotient ring z[x] / I? b. Explicitly give the elements in Z[x] / I. c. Prove that I is not a...

Let P be the vector space of all polynomials in x with real coefficients. Does P...

Let P be the vector space of all polynomials in x with real coefficients. Does P have a basis? Prove your answer.

Prove that the set of all the roots of polynomials with rational coefficients must also be...

Prove that the set of all the roots of polynomials with rational coefficients must also be countable. (Note: this set is known as the set of Algebraic numbers.)

5. Let S be the set of all polynomials p(x) of degree ≤ 4 such that...

5. Let S be the set of all polynomials p(x) of degree ≤ 4 such that p(-1)=0. (a) Prove that S is a subspace of the vector space of all polynomials. (b) Find a basis for S. (c) What is the dimension of S? 6. Let ? ⊆ R! be the span of ?1 = (2,1,0,-1), ?2 =(1,2,-6,1), ?3 = (1,0,2,-1) and ? ⊆ R! be the span of ?1 =(1,1,-2,0), ?2 =(3,1,2,-2). Prove that V=W.

Find a basis for the set of all third degree polynomials which contains the set {x...

Find a basis for the set of all third degree polynomials which contains the set {x + 1, x2 - x + 1}.

Let V be the set of polynomials of the form ax + (a^2)(x^2), for all real...

Let V be the set of polynomials of the form ax + (a^2)(x^2), for all real numbers a. Is V a subspace of P?

Let (X, d) be a metric space, and let U denote the set of all uniformly...

Let (X, d) be a metric space, and let U denote the set of all uniformly continuous functions from X into R. (a) If f,g ∈ U and we define (f + g) : X → R by (f + g)(x) = f(x) + g(x) for all x in X, show that f+g∈U. In words,U is a vector space over R. (b)If f,g∈U and we define (fg) : X → R by (fg)(x) = f(x)g(x) for all x in X,...