Prove that all zeros of Chebyshev polynomials occur on the interval (-1,1)

Prove that all zeros of Chebyshev polynomials occur on the interval (-1,1)

Prove orthogonality of standard families of functions over standard intervals: e.g., sines and cosines over [0,pi],...

Prove orthogonality of standard families of functions over standard intervals: e.g., sines and cosines over [0,pi], exp(ikx) over [-pi,pi], Chebyshev polynomials over [-1,1] with the proper weight.

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.

Simplify cos(3cos-1(x)) and cos(4cos-1(x)). These are Chebyshev polynomials of order 3 and 4 respectively.

Simplify cos(3cos-1(x)) and cos(4cos-1(x)). These are Chebyshev polynomials of order 3 and 4 respectively.

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.)

Prove the orthogonality property of Legendre polynomials.

Prove the orthogonality property of Legendre polynomials.

Prove that the set V of all polynomials of degree ≤ n including the zero polynomial...

Prove that the set V of all polynomials of degree ≤ n including the zero polynomial is vector space over the field R under usual polynomial addition and scalar multiplication. Further, find the basis for the space of polynomial p(x) of degree ≤ 3. Find a basis for the subspace with p(1) = 0.

Prove that S={1,1/4,1/8,1/16,...16,...} is countable

Prove that S={1,1/4,1/8,1/16,...16,...} is countable

find jacobson radical of polynomials and prove every finite divison ring is field

find jacobson radical of polynomials and prove every finite divison ring is field

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 the division algorithm for R[x]. Where R[x] is the set of real polynomials.

Prove the division algorithm for R[x]. Where R[x] is the set of real polynomials.