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Adjoint Of Square Matrix

So far you have learnt that Square Matrix has determinant value and larger the square matrix more difficult it is to compute the determinant through cross multiplication method. The larger matrix is usually broken down into smaller matrix and determinant or minors are calculated. Then assigning signs to these minors will give you cofactors to computer the determinant of the original matrix. Here we will discuss about computing adjoint of square matrix using cofactors.

The Adjugate or Adjoint of a square matrix

The adjugate of a square matrix is also called adjoint matrix which is obtained from matrix of cofactors. To learn about cofactors visit : Cofactors of square matrix.

Suppose A is a square matrix , and \begin{bmatrix}A_{ij}\end{bmatrix} is its cofactor matrix. Then the adjoint of the matrix A can be obtained by transposing the cofactor matrix \begin{bmatrix}A_{ij}\end{bmatrix}.

Let A be a matrix of size n \times n,and \begin{bmatrix}A_{ij}\end{bmatrix} is the cofactor matrix of A.

The adjoint of the matrix A is denoted as Adj A.

Adj A= \begin{bmatrix}A_{ij}\end{bmatrix}^T

Steps to find Adjoint of a Square Matrix

The steps to find the adjoint of a square matrix is easy as most of the steps you have learned in previous articles already. Here are the steps.

  1. Check if the given matrix A is a n \times n square matrix.
  2. Find the minors of the matrix A and arrange them in a matrix form according to subscript value.
  3. Find the cofactors of matrix A from the given minor matrix and arrange in matrix form according to subscript of each cofactor.
  4. Transpose the cofactor matrix to obtain the adjoint of matrix A

Example #1

Find the adjoint of matrix A.

A = \begin{bmatrix}2 & 1 & 3\\1 & 5 & 2\\4 & 7 & 3\end{bmatrix}.

Solution:

We will find solution to this matrix in a step-by-step manner. 

Step1: The given matrix A is a 3 \times 3 square matrix.

A = \begin{bmatrix}2 & 1 & 3\\1 & 5 & 2\\4 & 7 & 3\end{bmatrix}

Step2: We must find the matrix of minors for AM_{11} = \begin{vmatrix}5 & 2\\7 & 3\end{vmatrix} = 15-14 = 1M_{12} = \begin{vmatrix}1 & 2\\4 & 3\end{vmatrix} = 3-8 = -5M_{13} = \begin{vmatrix}1 & 5\\4 & 7\end{vmatrix} = 7-20 = -13M_{21} = \begin{vmatrix}1 & 3\\7 & 3\end{vmatrix} = 3-21 = -18M_{22} = \begin{vmatrix}2 & 3\\4 & 3\end{vmatrix} = 6-12 = -6M_{23} = \begin{vmatrix}2 & 1\\4 & 7\end{vmatrix} = 14-4 = 10M_{31} = \begin{vmatrix}1 & 3\\5 & 2\end{vmatrix} = 2-15 = -13M_{32} = \begin{vmatrix}2 & 3\\1 & 2\end{vmatrix} = 4-3 = 1M_{33} = \begin{vmatrix}2 & 1\\1 & 5\end{vmatrix} = 10-1 = 9 = \begin{bmatrix}1 & -5 & -13\\-18 & -6 & 10\\-13 & 1 & 9\end{bmatrix}

Step3: Given the matrix of minors we can quickly find the cofactor matrix by shortcut method. Assign negative or positive sign to minors based on following pattern.

 = \begin{bmatrix}+ & - & +\\- & + & -\\+ & - & +\end{bmatrix}

Then we get,

 = \begin{bmatrix}(+)1 & (-)-5 & (+)-13\\(-)-18 & (+)-6 & (-)10\\(+)-13 & (-)1 & (+)9\end{bmatrix} \begin{bmatrix}A_{ij}\end{bmatrix} = \begin{bmatrix}1 & 5 & -13\\18 & -6 & -10\\-13 & -1 & 9\end{bmatrix}

Step4: Finally, transpose the cofactor matrix to get the adjoint of matrix AAdj A = \begin{bmatrix}A_{ij}\end{bmatrix}^T = \begin{bmatrix}1 & 5 & -13\\18 & -6 & -10\\-13 & -1 & 9\end{bmatrix}^TAdj A = \begin{bmatrix}1 & -18 & -13\\-5 & -6 & 1\\-13 & 10 & 9\end{bmatrix}
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Adjoint Of Square Matrix

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