Suppose that V is a vector space and R and S are both subspaces of V...

9. Let S and T be two subspaces of some vector space V. (b) Define S...

9. Let S and T be two subspaces of some vector space V. (b) Define S + T to be the subset of V whose elements have the form (an element of S) + (an element of T). Prove that S + T is a subspace of V. (c) Suppose {v1, . . . , vi} is a basis for the intersection S ∩ T. Extend this with {s1, . . . , sj} to a basis for S, and...

Let V be an n-dimensional vector space. Let W and W2 be unequal subspaces of V,...

Let V be an n-dimensional vector space. Let W and W2 be unequal subspaces of V, each of dimension n - 1. Prove that V =W1 + W2 and dim(Win W2) = n - 2.

Let U and V be subspaces of the vector space W . Recall that U ∩...

Let U and V be subspaces of the vector space W . Recall that U ∩ V is the set of all vectors ⃗v in W that are in both of U or V , and that U ∪ V is the set of all vectors ⃗v in W that are in at least one of U or V i: Prove: U ∩V is a subspace of W. ii: Consider the statement: “U ∪ V is a subspace of W...

Let U and W be subspaces of a nite dimensional vector space V such that U...

Let U and W be subspaces of a nite dimensional vector space V such that U ∩ W = {~0}. Dene their sum U + W := {u + w | u ∈ U, w ∈ W}. (1) Prove that U + W is a subspace of V . (2) Let U = {u1, . . . , ur} and W = {w1, . . . , ws} be bases of U and W respectively. Prove that U ∪ W...

Suppose V is a vector space over F, dim V = n, let T be a...

Suppose V is a vector space over F, dim V = n, let T be a linear transformation on V. 1. If T has an irreducible characterisctic polynomial over F, prove that {0} and V are the only T-invariant subspaces of V. 2. If the characteristic polynomial of T = g(t) h(t) for some polynomials g(t) and h(t) of degree < n , prove that V has a T-invariant subspace W such that 0 < dim W < n

a)Suppose U is a nonempty subset of the vector space V over field F. Prove that...

a)Suppose U is a nonempty subset of the vector space V over field F. Prove that U is a subspace if and only if cv + w ∈ U for any c ∈ F and any v, w ∈ U b)Give an example to show that the union of two subspaces of V is not necessarily a subspace.

Let S, U, and W be subspaces of a vector space V, where U ⊆ W....

Let S, U, and W be subspaces of a vector space V, where U ⊆ W. Show that U + (W ∩ S) = W ∩ (U + S)

Let V be a vector space and let U1, U2 be two subspaces of V ....

Let V be a vector space and let U1, U2 be two subspaces of V . Show that U1 ∩ U2 is a subspace of V . By giving an example, show that U1 ∪ U2 is in general not a subspace of V .

Let V be an n-dimensional vector space and W a vector space that is isomorphic to...

Let V be an n-dimensional vector space and W a vector space that is isomorphic to V. Prove that W is also n-dimensional. Give a clear, detailed, step-by-step argument using the definitions of "dimension" and "isomorphic" the Definiton of isomorphic:  Let V be an n-dimensional vector space and W a vector space that is isomorphic to V. Prove that W is also n-dimensional. Give a clear, detailed, step-by-step argument using the definitions of "dimension" and "isomorphic" The Definition of dimenion: the...

Let U1, U2 be subspaces of a vector space V. Prove that the union of U1...

Let U1, U2 be subspaces of a vector space V. Prove that the union of U1 and U2 is a subspace if and only if either U1 is a subset of U2 or U2 is a subset of U1.