Prove that the singleton set {0} is a vector subspace of the space P4(R) of all...

Determine if the given set V is a subspace of the vector space W, where a)...

Determine if the given set V is a subspace of the vector space W, where a) V={polynomials of degree at most n with p(0)=0} and W= {polynomials of degree at most n} b) V={all diagonal n x n matrices with real entries} and W=all n x n matrices with real entries *Can you please show each step and little bit of an explanation on how you got the answer, struggling to learn this concept?*

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.

Let P4 denote the space of polynomials of degree less than 4 with real coefficients. Show...

Let P4 denote the space of polynomials of degree less than 4 with real coefficients. Show that the standard operations of addition of polynomials, and multiplication of polynomials by a scalar, give P4 the structure of a vector space (over the real numbers R). Your answer should include verification of each of the eight vector space axioms (you may assume the two closure axioms hold for this problem).

Consider P3 = {a + bx + cx2 + dx3 |a,b,c,d ∈ R}, the set of...

Consider P3 = {a + bx + cx2 + dx3 |a,b,c,d ∈ R}, the set of polynomials of degree at most 3. Let p(x) be an arbitrary element in P3. (a) Show P3 is a vector space. (b) Find a basis and the dimension of P3. (c) Why is the set of polynomials of degree exactly 3 not a vector space? (d) Find a basis for the set of polynomials satisfying p′′(x) = 0, a subspace of P3. (e) Find...

If V is a vector space of polynomials of degree n with real numbers as coefficients,...

If V is a vector space of polynomials of degree n with real numbers as coefficients, over R, and W is generated by the polynomials (x 3 + 2x 2 − 2x + 1, x3 + 3x 2 − x + 4, 2x 3 + x 2 − 7x − 7), then is W a subspace of V , and if so, determine its basis.

Let P2 denote the vector space of polynomials in x with real coefficients having degree at...

Let P2 denote the vector space of polynomials in x with real coefficients having degree at most 2. Let W be a subspace of P2 given by the span of {x2−x+6,−x2+2x−1,x+5}. Show that W is a proper subspace of P2.

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.

4. Prove the Following: a. Prove that if V is a vector space with subspace W...

4. Prove the Following: a. Prove that if V is a vector space with subspace W ⊂ V, and if U ⊂ W is a subspace of the vector space W, then U is also a subspace of V b. Given span of a finite collection of vectors {v1, . . . , vn} ⊂ V as follows: Span(v1, . . . , vn) := {a1v1 + · · · + anvn : ai are scalars in the scalar field}...

We can identify the set V of all 3×3-matrices (real coefficients) with vector space R9. Show...

We can identify the set V of all 3×3-matrices (real coefficients) with vector space R9. Show that the set of all 3 × 3 symmetric matrices is a vector subspace of V .

What is the highest possible dimension of a subspace of M_n (R) (set of n×n matrices...

What is the highest possible dimension of a subspace of M_n (R) (set of n×n matrices with real coefficients with its usual vector space structure) that only contains invertible matrices (and 0) ?