Suppose that V is finite-dimensional, U ⊂ V is a subspace, and S : U →...

Let U and W be subspaces of a finite dimensional vector space V such that V=U⊕W....

Let U and W be subspaces of a finite dimensional vector space V such that V=U⊕W. For any x∈V write x=u+w where u∈U and w∈W. Let R:U→U and S:W→W be linear transformations and define T:V→V by Tx=Ru+Sw . Show that detT=detRdetS .

give an example of a finite dimensional real inner product space V, an operator T on...

give an example of a finite dimensional real inner product space V, an operator T on V and a subspace W of V such that W is a T-invariant subspace of V. is it possible to find such an example such that the operator T is self-adjoint?

Suppose that V is a finite dimensional inner product space over C and dim V =...

Suppose that V is a finite dimensional inner product space over C and dim V = n, let T be a normal linear transformation of V If S is a linear transformation of V and T has n distinc eigenvalues such that ST=TS. Prove S is normal.

Let V be a finite-dimensional vector space and let T be a linear map in L(V,...

Let V be a finite-dimensional vector space and let T be a linear map in L(V, V ). Suppose that dim(range(T 2 )) = dim(range(T)). Prove that the range and null space of T have only the zero vector in common

Suppose U and W are subspaces of V. Prove that U+W is a subspace of V.

Suppose U and W are subspaces of V. Prove that U+W is a subspace of V.

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}...

Let T:V→W be a linear transformation and U be a subspace of V. Let T(U)T(U) denote...

Let T:V→W be a linear transformation and U be a subspace of V. Let T(U)T(U) denote the image of U under T (i.e., T(U)={T(u⃗ ):u⃗ ∈U}). Prove that T(U) is a subspace of W

Let V be a finite dimensional space over R, with a positive definite scalar product. Let...

Let V be a finite dimensional space over R, with a positive definite scalar product. Let P : V → V be a linear map such that P P = P . Assume that P T P = P P T . Show that P = P T .

Let W be an infinite dimensional subspace of the vectorspace V. Show that V is infinite...

Let W be an infinite dimensional subspace of the vectorspace V. Show that V is infinite dimensional.

（a）Suppose A ∈ M3(R) is nonzero, but A · A = 0. What are the possibilities...

（a）Suppose A ∈ M3(R) is nonzero, but A · A = 0. What are the possibilities for the dimension of the kernel of A? （b）Let V be a finite dimensional vector space, and U ⊂ V a subspace.Show that there exists a linear map T:V→V with Im(T) = U.