6. For the following vector spaces V, determine if the subset H is a subspace. If...
(1 point) Determine whether the given set S is a subspace of the vector space V. A. V = R", and S is the set of solutions to the homogeneous linear system Ax = 0 where A is a fixed mxn matrix. B. V is the vector space of all real-valued functions defined on the interval (-oo, oo), and S is the subset of V consisting of those functions satisfying f(0) 0 C. V Mn (R), and S is the...
Determine whether the given set S is a subspace of the vector space V.A. V=C2(ℝ) (twice continuously differentiable functions), and S is the subset of VV consisting of those functions satisfying the differential equation y″=0. B. V=ℙ5, and SS is the subset of ℙ5 consisting of those polynomials satisfying p(1)>p(0)C. V=ℙ4, and SS is the subset of ℙ4 consisting of all polynomials of the form p(x)=ax3+bx.D. V=Mn×n(ℝ), and SS is the subset of all symmetric matrices.E. V=ℝ2, and S consists of...
I quite weak at vector spaces. Can anyone tell me n the reason behind it? 13:02 Previous Problem List Next (1 point) Determine whether the given set S is a subspace of the vector space V A, V = C2(1), and s is the subset of V consisting of those functions satisfying the differential equation y4y' 3y0 B. V2, and S is the set of all vectors (z1,2) in V satisfying 516r2 0 C. V, and S is the subset...
HW08 vector spaces subspaces: Problem 8 Next Problem Previous Problem Problem List (1 point) Determine whether the given set S is a subspace of the vector space V. f those functions satisfying f(a) = f(b). A. V is the vector space of all real-valued functions defined on the interval la, b, and S is the subset of V consisting B. V C1 (R), and S is the subset of V consisting of those functions satisfying f'(0) > 0. , _D...
Why does this show that H is a subspace of R3? O A. The vector v spans both H and R3, making H a subspace of R3. OB. The span of any subset of R3 is equal to R3, which makes it a vector space. OC. It shows that H is closed under scalar multiplication, which is all that is required for a subset to be a vector space. OD. For any set of vectors in R3, the span of...
Problem 5. A subset A C R is an affine subspace of R" if there exists a vector bE R" and an underlying vector subspace W of R" such that (a) Describe all the affine subspaces of R2 which are not vector subspaces of R2 (b) Consider A E Rnx, bER" and the system of linear equations AT . Prove that: (i) if Ais consistent, then its solution set is an affine subspace of R" with underlying (ii) if At...
Problem 5. A subset A C R', is an afǐпє subspace of Rn if there exists a vector b underlying vector subspace W of R" such that Rn and an (a) Describe all the affine subspaces of IR2 which are not vector subspaces of R2 (b) Consider A e R"Xn, beR" and the system of linear equations Ar- b. Prove that: (i) if A-b is consistent, then its solution set is an affine subspace of R" with underlying (ii) if...
2. For the following questions, you just need to circle one of answers. (1.5 points/each, totally 8 points) Let , be the set of all polynomials with exact degree 2. Is this a subspace of a,17(Yes b. Given 2 by 2 matrix A. S-(BeR 1AB BA) is a subspace of vector space R7 a. No) (Yes No) 1 AB-0), is S asubspace of 2 by 2 c. Given 2 by 2 matrix A. Let s- (Be R matrix vector space?...
How do I do these linear algebra questions? The question is: Consider the Vector Space V and its subset W given below. Determine whether W forms a subspace of V. If your answer is negative then you must provide which subspace requirement is violated. (b). V is P5, the vector space of all polynomials in x of degree s5 and W is the set of all polynomials divisible by x – 3. (c). V is P5, the vector space of...
Problem 6. Let V be a vector space (a) Let (--) : V x V --> R be an inner product. Prove that (-, -) is a bilinear form on V. (b) Let B = (1, ... ,T,) be a basis of V. Prove that there exists a unique inner product on V making Borthonormal. (c) Let (V) be the set of all inner products on V. By part (a), J(V) C B(V). Is J(V) a vector subspace of B(V)?...