Lecture 2.5: the Transpose of a Linear Map

Lecture 2.5: the Transpose of a Linear Map

Lecture 2.5: The transpose of a linear map Matthew Macauley School of Mathematical & Statistical Sciences Clemson University http://www.math.clemson.edu/~macaule/ Math 8530, Advanced Linear Algebra M. Macauley (Clemson) Lecture 2.5: The transpose of a linear map Math 8530, Advanced Linear Algebra 1 / 7 Overview Every undergraduate linear algebra student learns about the transpose of a matrix, formed by flipping it across its main diagonal. But what does this really represent? The transpose of a matrix is what results from swapping rows with columns. In our setting, we like to think about vectors in X as column vectors, and dual vectors in X 0 as row vectors. The transpose is a more general concept than just an operation on matrices. Given a linear map T : X ! U, its transpose is a certain induced linear map T 0 : U0 ! X 0 between the dual spaces. In the next lecture, we will learn how to encode linear maps with matrices. When we do this, the matrix of the transpose map will simply be the tranpose of the matrix. In this lecture, we will introduce the transpose of a linear map and study some of its basic properties. M. Macauley (Clemson) Lecture 2.5: The transpose of a linear map Math 8530, Advanced Linear Algebra 2 / 7 Definition and properties Let T : X ! U be linear and ` 2 U0. X m The composition m := `T is a linear map X ! K. T $ K Since T is fixed, this defines a linear map, called the transpose of T : : 0 0 0 0 ` T : U −! X ; T : ` 7−! m ; U Using scalar product notation we can rewrite m(x) = `(T (x)) as( m; x) = (`; Tx). Key property The transpose of T : X ! U is the (unique) map T 0 : U0 ! X 0 that satisfies m = T 0`, i.e., (T 0`; x) = (`; Tx) ; for all x 2 X ; ` 2 U0 : Caveat: We are writing `T for ` ◦ T , but T 0` for T 0(`) (much like Tx for T (x)). Properties (HW exercise) Whenever meaningful, we have (ST )0 = T 0S0 ; (T + R)0 = T 0 + R0 ; (T −1)0 = (T 0)−1 : M. Macauley (Clemson) Lecture 2.5: The transpose of a linear map Math 8530, Advanced Linear Algebra 3 / 7 Systems of equations Examples (cont.) N N M X (xi) Let X = R , U = R , and Tx = u, where ui = tij xj . j=1 N X = R x m _ m ( ( T K = R T (`; u) = (m; x) 6 6 ` ` M - U = R u By definition, for some `1; : : : ; `m 2 K, M M 0 N 1 M N N 0 M 1 N X X X X X X X X (`; u) = `i ui = `i @ tij xj A = `i tij xj = @`i tij xj A = mj xj i=1 i=1 j=1 i=1 j=1 i=1 j=1 j=1 This gives us a formula for m = (m1;:::; mN ), where (`; u) = (m; x). We'll see later that if we express T in matrix form, then T 0 is formed by making the rows of T the columns of T 0. M. Macauley (Clemson) Lecture 2.5: The transpose of a linear map Math 8530, Advanced Linear Algebra 4 / 7 What does this really mean? M M 0 N 1 M N N 0 M 1 N X X X X X X X X (`; u) = `i ui = `i @ tij xj A = `i tij xj = @`i tij xj A = mj xj i=1 i=1 j=1 i=1 j=1 i=1 j=1 j=1 M. Macauley (Clemson) Lecture 2.5: The transpose of a linear map Math 8530, Advanced Linear Algebra 5 / 7 The nullspace of the transpose Proposition 2.8 00 00 00 If X and U are canonically identified with X and U, respectively, then T = T . Proposition 2.9 ? The annihilator of the range of T is the nullspace of its transpose, i.e., RT = NT 0 . Proof ? Applying ? to both sides of RT = NT 0 (Proposition 2.9) yields the following: Corollary 2.10 0 ? The range of T is the annihilator of the nullspace of T , i.e., RT = NT 0 . M. Macauley (Clemson) Lecture 2.5: The transpose of a linear map Math 8530, Advanced Linear Algebra 6 / 7 The rank of the transpose Theorem 2.11 For any linear mapping T : X ! U, we have dim RT = dim RT 0 . Proof Corollary 2.12 Let T : X ! U be linear with dim X = dim U. Then dim NT = dim NT 0 . Proof M. Macauley (Clemson) Lecture 2.5: The transpose of a linear map Math 8530, Advanced Linear Algebra 7 / 7.

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