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An in-depth guide to transposing a matrix
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Matrix transposes are a neat tool for understanding the structure of matrices. Features you might already know about matrices, such as squareness and symmetry, affect the transposition results in obvious ways. Transposition also serves purposes when expressing vectors as matrices, or taking the products of vectors. [1] If you're dealing with complex matrices, the closely related concept of a conjugate transpose will help you through many problems.

Part 1
Part 1 of 3:

Transposing a Matrix

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  1. You can transpose any matrix, regardless of how many rows and columns it has. Square matrices, with an equal number of rows and columns, are most commonly transposed, so we'll use a simple square matrix as an example: [2]
    • matrix A =
      1  2  3
      4  5  6
      7  8  9
  2. Rewrite row one of the matrix as a column: [3]
    • transpose of matrix A = A T
    • first column of A T :
      1
      2
      3
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  3. The second row of the original matrix becomes the second column of its transpose. Repeat this pattern until you have turned every row into a column: [4]
    • A T =
      1  4  7
      2  5  8
      3  6  9
  4. The transposition is exactly the same for a non-square matrix. You rewrite the first row as the first column, the second row as the second column, and so forth. Here's an example with color-coding to show you where the elements end up:
    • matrix Z =
      4  7  2  1
      3  9  8  6
    • matrix Z T =
      4 3
      7 9
      2 8
      1 6
  5. The concept is pretty simple, but it's good to be able to describe it in mathematics. No jargon is required beyond basic matrix notation:
    • If matrix B is an m x n matrix (m rows and n columns), the transposed matrix B T is an n x m matrix (n rows and m columns). [5]
    • For each element b xy ( x th row, y th column) in B, the matrix B T has an equal element at b yx ( y th row, x th column).
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Part 2
Part 2 of 3:

Special Cases

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  1. The transpose of a transpose is the original matrix. [6] This is pretty intuitive, since all you're doing is switching the rows and columns. If you switch them again, you're back where you started.
  2. In a square matrix, transposition "flips" the matrix over the main diagonal. In other words, the elements in a diagonal line from element a 11 to the bottom right corner will remain the same. Each other elements will move across the diagonal and end up at the same distance from the diagonal, on the opposite side.
    • If you can't visualize this, draw a 4x4 matrix on a piece of paper. Now fold is over the main diagonal. See how elements a 14 and a 41 touch? They trade places in the transpose, as does each other pair that touches when folded.
  3. A symmetric matrix is symmetric across the main diagonal. If we use the "flip" or "fold" description above, we can immediately see that nothing changes. All the element pairs that trade places were already identical. [7] In fact, this is the standard way to define a symmetric matrix. If matrix A = A T , then matrix A is symmetric.
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Part 3
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Conjugate Transpose of a Complex Matrix

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  1. Complex matrices have elements with a real and imaginary component. While you can take an ordinary transpose of these matrices, most practical calculations involve the conjugate transpose instead. [8]
    • Matrix C =
      2+ i      3-2 i
      0+ i      5+0 i
  2. The complex conjugate changes the sign of the imaginary components, without altering the real components. Perform this operation for all elements of the matrix. [9]
    • complex conjugate of C =
      2- i      3+2 i
      0- i      5-0 i
  3. Take an ordinary transposition of the result. The matrix you end up with is the conjugate transpose of the original matrix. [10]
    • conjugate transpose of C = C H =
      2- i         0- i
      3+2 i      5-0 i
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Community Q&A

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  • Question
    How do I identity matrix transpose?
    Robert Wilson
    Community Answer
    In matrix transpose all the rows of a matrix turn into columns and vice-versa. That's how you can identify a matrix transpose.
  • Question
    Does a matrix transpose involve any calculation?
    Community Answer
    No, because to transpose is to rewrite the raw as a column ,starting with the first raw respectively.
  • Question
    Given that B is a matrix, can B1 be the sign of its transpose?
    Community Answer
    Sure, that's a good way to remember how the two matrices are related. In general, mathematicians like to use B' or B^T to name the transpose to make it even easier to keep track.
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      • This article uses the notation A T to mean the transpose of matrix A. The notation A' or à means the same thing. [11]
      • This article refers to the conjugate transpose of matrix A as A H , the most common notation in linear algebra. Quantum physicists often use A instead. A* is yet another option, but try to avoid it since some sources will use this symbol to mean the complex conjugate instead. [12]
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      About This Article

      Article Summary X

      To transpose a matrix, start by turning the first row of the matrix into the first column of its transpose. Repeat this step for the remaining rows, so the second row of the original matrix becomes the second column of its transpose, and so on. This transposition is the same for a square matrix as it is for a non-square matrix. Finally, express the transposition mathematically, so if matrix B is an m x n matrix, where m are rows and n are columns, the transposed matrix is n x m, with n being rows and m being columns. To learn how to flip square matrices over the main diagonal, keep reading!

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