Math 67A Homework 4 Solutions
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1 Math 67A Homework 4 Solutions Joe Grimm March 22, 22 Chapter 6 CWE 6 Define the map T : R 2! R 2 by T (x, y) =(x + y, x) (a) Show that T is linear (b) Show that T is surjective (c) Find dim(null(t )) (d) Find the matrix for T with respect to the canonical basis of R 2 (e) Find the matrix for T with respect to the canonical basis for the domain R 2 and the basis ((, ), (, )) for the target space R 2 (f) Show that the map F : R 2 R 2 given by F (x, y) =(x + y, x + ) is not linear Solution (a) For T to be linear it must satisfy the equality T (u + av) =T (u)+at (v) Itestthiswithdirect computation F (x + x 2,y + y 2 )=(x + x 2 + y + y 2,x + x 2 ) =(x + y,x )+(x 2 + y 2,x 2 ) (b) I must show that for each u 2 R 2 there exists v 2 R 2 such that T (v) =u I must solve the equation (x + y,x )=(x 2,y 2 ); which has solutions x = y 2 and y = x 2 y 2 (c) The null space of a linear operator is the set of vectors mapped to the zero vector From part (b) I can find the pre-image of (, ), which is x =, y = =, so the kernel of T consists only of the zero vector The space spanned by the zero vector is zero dimensional so dim(null(t )) = (d) The matrix representation of a linear transformation is the matrix whose columns are the images of the bases vectors under that transformation Hence, I compute T (, ) = (, ) and T (, ) = (, ) so M[T ]= (e) I must find the matrix that transforms the standard basis to the new basis ((, ), (, matrix P that takes the new basis back to the standard basis is P =, )) The
2 so P = 2, takes the new basis to the standard one Thus, is the desired matrix P T = 2 2 (f) The map F is not linear because F (x + x 2,y + y 2 ) 6= F (x,y )+F (x 2,y 2 ) as seen by F (x + x 2,y + y 2 )=(x + x 2 + y + y 2,x + x 2 + ) and F (x,y )+F (x 2,y 2 )=(x + x 2 + y + y 2,x + x 2 + 2), which is di erent 62 Let T 2L(R 2 )bedefinedby (a) Show that T is surjective (b) Find dim(null(t )) T x y = y x x, for all y (c) Find the matrix for T with respect to the canonical basis of R 2 2 R 2 (d) Show that the map F : R 2! R 2 given by F (x, y) =(x + y, x + ) is not linear Solution (a) The operator T is surjective if for any u 2 R 2 there exists v 2 R 2 such that T (v) =u This requires me to solve the equation (y, x )=(x 2,y 2 ), which is solved by x = y 2, y = x 2 ;thust is surjective (b) By the dimension formula the dimension of the null space is equal to the dimension of the domain minus the dimension of the range Since T is surjective its range is R 2, which has dimension two The domain of T is also R 2 ; thus, the dimension of the null space of T is zero (c) The matrix representation of a linear transformation is the matrix whose columns are the images of each basis vector M[T ]= (d) This is the same as part (f) of problem 63 Consider the complex vector spaces C 2 and C 3 with their canonical bases, and define S 2L(C 2, C 3 )be the linear map defined by S(v) =Av, whereaisthe matrix i 2i Find a basis for null(s) Solution Reducing a matrix to row echelon form is a way to determine its null space The matrix form of S is i 2i 2
3 Subtracting twice the top row from the bottom row yields i 3 3 Adding one third of the bottom row to the top row yields i 3 3 which corresponds to ix = and 3x 2 3x 3 =, so x 2 = x 3 and x = Thus the null space of S is spanned by (,, ) in the standard basis 64 Give an example of a function f : R 2! R having the property that for a 2 R, v 2 (R) 2 f(av) =af(v), Solution The function f(x, y) = x has the desired property 65 Show that the linear map T : F 4! F 2 is surjective if null(t )={(x,x 2,x 3,x 4 ) 2 F 4 x =5x 2,x 3 =7x 4 } Solution The null space of T is spanned by (5,,, ), (,, 7, ), thus it has dimension two The dimension formula states that the dimension of the range is equal to the dimension of the domain minus the dimension of the null space; in this case this leads to 4 2 = 2 The dimension of the range of T is two and the dimension of F 2 is two; thus, the range of T is all of F 2 so T is surjective 66 Show that no linear map T : F 5! F 2 can have as its null space the set {(x,x 2,x 3,x 4,x 5 ) 2 F 5 x =3x 2,x 3 = x4 =x 5 } Solution The null space of T spanned by (3,,,, ), (,,,, ), and thus has dimension two By the dimension counting formula the range of T must have dimension 5 2 = 3; since F 2 has dimension two it has no subspace of dimension three, thus no such T can exist 67 Describe the set of solutions x =(x,x 2,x 3 ) 2 R 3 of the system of equations x x 2 + x 3 = x +2x 2 + x 3 = 2x + x 2 +2x 3 = Solution Row reduction is a systematic way to solve a system of linear equations I begin with the 2 A 2 2 Subtracting the first row from the second row and twice the first row from the third row 3 A 3 3
4 Subtracting the second row from the third 3 A Adding one third of the second row to top row 3 This corresponds to x + x 3 = and x 2 =, so the solution space is spanned by (,, ) A 2 Chapter 6 PWE 62 Let V and W be vector spaces over F, and suppose that T 2L(V,W) is injective Given a linearly independent list (v,,v n ) of vectors in V, prove that the list (T (v ),,T(v n )) is linearly independent in W Solution Let i 2 F such that Since T is linear this implies Since T is injective this implies that i T (v i )= i= T ( i v i )= i= i v i = Since the v i are linearly independent this implies that i = for all i Thus i= i T (v i )= only if i = for all i, so(t (v ),,T(v n )) is linearly independent i= 63 Let U, V and W be vector spaces over F, and suppose that the linear maps S 2L(U, V ) and T L(V,W) are both injective Prove that the composition map T S is injective Solution Let u be an element of the kernel of T S ThenS(u) is in the kernel of T SInceT is injective I have S(u) = Since S is injective this implies u =, thus u = is the only solution to T Su =, so T S is injective 64 Let V and W be vector spaces over F, and suppose that T 2L(V,W) is surjective Given a spanning list (v,,v n ) for V, prove that span(t (v ),,T(v n )) = W 4
5 Solution I must show that any element of W can be written as a linear combination of T (v i ) Towards that end take w 2 W Since T is surjective there exists v 2 V such that w = T (v) Since v i span V there exists i such that Since T is linear T ( i v i = v i= i v i )= i= i T (v i ), hence w is a linear combination of T (v i ) Since w was arbitrary this shows that T (v i ) spans W 65 Let V and W be vector spaces over F with V finite-dimensional Given T 2L(V,W), prove that there is a subspace U of V such that i= U \ null(t )={} and range(t )={T (u) u 2 U} Solution Let {w i } be a basis of the range of T and for each w i choose v i 2 V such that T (v i )=w i Then U = span{v i } has the same dimension as the range of T,sowhenT is restricted to acting on U it has trivial kernel, thus U has the desired properties 66 Let V be a vector space over F, and suppose that there is a linear map T 2L(V,V ) such that both null(t ) and range(t ) are finite-dimensional subspaces of V Prove that V must also be finite-dimensional Solution The dimension formula states that the dimension of the domain is equal to the sum of the dimension of the null space and the dimension of the range If both the null space and range are finite dimensional then the sum of their dimension is finite, so the dimension of the domain, V, is also finite 67 Let U, V, and W be finite-dimensional vector spaces over F with S 2L(U, V ) and T 2L(B,W) Prove that dim(null(t S)) apple dim(null(t )) + dim(null(s)) Solution If Su =thent Su =, so the null space of S is a subspace of T S On the orthogonal compliment of null(s) the operator S is injective (this is reflected by the dimension formula) What could still happen is that Su could be a non-zero element of the null space of T SinceS restricted to null(s)? is injective the maximum dimension of the subspace of U mapped to the kernel of T is the dimension of the kernel of T,thus dim(null(t S)) apple dim(null(t )) + dim(null(s)) 68 Let V be a finite dimensional vector space over F with S, T 2L(V,V ) Prove that T S is invertible if and only if both S and T are invertible Solution First I show that if S and T are invertible then T S is invertible The map S T is an inverse for T S as S T TS =S S = I =TT =TSS T 5
6 Now I prove that if T S is invertible then so are T,S independently For T S to be surjective T must be surjective, since the domain and target space are the same and are finite dimensional the dimension formula implies that T is injective For T S to be injective S must be injective, and again the basis dimension formula implies that S is bijective Thus T S invertible implies that each of T, S are injective 69 Let V be a finite-dimensional vector space over F with S, T 2L(V,V ) and denote by I the identity map on V Prove that T S = I if and only if S T = I Solution If T S = I then T S is invertible, so each of S, T are invertible Thus T = S so S T = S S = I Likewise, if S T = I then it is invertible so each of S, T are invertible and T = S 3 Chapter 7 CWE 7 Let T 2L(F 2, F 2 )bedefinedby T (u, v) =(v, u) Compute the eigenvalues and eigenvectors associated with T Solution First I write T in matrix form M[T ]= If is an eigenvalue of T then the determinant of the matrix T I is zero det = 2 This is zero when = or =, so these are the eigenvalues of T To determine the eigenvectors of T I must solve the linear equation (T I)x = In the case =thisisu v =, or v = u so (, ) is an eigenvector with eigenvalue In the case = thisisu + v = or u = v so (, ) is an eigenvector associated with eigenvalue 722 Let T 2L(F 3, F 3 )bedefinedby T (u, v, w) =(2v,, 5w) Compute the eigenvalues and associated eigenvectors for T Solution First I write T in matrix form M[T ]=@ 2 5 A Then I compute the determinant of T I 2 5 A = ( )(5 ) 6
7 which is zero when = ( a repeated root with multiplicity two) or when = 5 To determine the eigenvectors I must solve the linear equation (T I)x = When =5thisis 5u +2v =, 5v =, and =, which has solution (,,w)so(,, ) is an eigenvector with eigenvalue 5 When =thisis2v =, =, and 5w =, which has solution (,, ) 7
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