Difference between revisions of "Manuals/calci/MINVERSE"
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| Line 12: | Line 12: | ||
c & d \\ | c & d \\ | ||
\end{bmatrix}</math>. | \end{bmatrix}</math>. | ||
| − | *Then the inverse of matrix <math>A</math> is denoted by <math>A^{-1}</math>. | + | *Then the inverse of matrix <math>A</math> is denoted by <math>A^{-1}</math>. |
| + | :<math>A^{-1}=\begin{bmatrix} | ||
a & b \\ | a & b \\ | ||
c & d \\ | c & d \\ | ||
| − | \end{bmatrix}^{-1}= \frac{1}{ad-bc} * | + | \end{bmatrix}^{-1}= \frac{1}{ad-bc} * \begin{bmatrix} |
d & -b \\ | d & -b \\ | ||
-c & a \\ | -c & a \\ | ||
| − | \end{bmatrix} | + | \end{bmatrix} |
</math> | </math> | ||
| − | *Now let A be the matrix is of order nXn. | + | *Now let <math>A</math> be the matrix is of order <math>nXn</math>. |
| − | *Then the inverse of A is A^-1= 1 | + | *Then the inverse of <math>A</math> is <math>A^{-1}= \frac{1}{det(A)}*adj(A)<math> |
| − | *Where adj(A) is the adjoint of A. | + | *Where <math>adj(A)<math> is the adjoint of <math>A<math>. |
| − | *Adjoint is the matrix formed by taking the | + | *Adjoint is the matrix formed by taking the Transpose of the Co-factor matrix of the original matrix. |
| − | *Also A.A^-1=A^-1.A=I, where I is the identity matrix.Non-square matrices do not have inverses. | + | *Also <math>A.A^-1=A^-1.A=I<math>, where <math>I<math> is the identity matrix. |
| + | *Non-square matrices do not have inverses. | ||
*Not all square matrices have inverses. | *Not all square matrices have inverses. | ||
*A square matrix which has an inverse is called invertible or non-singular, and a square matrix without an inverse is called non-invertible or singular. | *A square matrix which has an inverse is called invertible or non-singular, and a square matrix without an inverse is called non-invertible or singular. | ||
Revision as of 06:06, 1 January 2014
MINVERSE(arr)
- is the array of numeric elements
is the array of numeric elementsDescription
- This function gives the inverse matrix for the given matrix.
- We have to find a inverse of a matrix then it should satisfy the following conditions
- 1.A matrix must be a square matrix.
- 2.It's determinant not equal to 0.
- Let be the 2x2 matrix with the elements
be the 2x2 matrix with the elements.
.
- Then the inverse of matrix is denoted by .
.
- Now let be the matrix is of order .
- Then the inverse of is <math>A^{-1}= \frac{1}{det(A)}*adj(A)<math>
- Where <math>adj(A)<math> is the adjoint of <math>A<math>.
- Adjoint is the matrix formed by taking the Transpose of the Co-factor matrix of the original matrix.
- Also <math>A.A^-1=A^-1.A=I<math>, where <math>I<math> is the identity matrix.
- Non-square matrices do not have inverses.
- Not all square matrices have inverses.
- A square matrix which has an inverse is called invertible or non-singular, and a square matrix without an inverse is called non-invertible or singular.
- This function will return the result as error when
.1. Any one of the cell is non-numeric or any cell is empty or contain text 2. Suppose number of rows not equal to number of columns
Examples
Matrix A A=(4 3
3 2)
MINVERSE(B5:C6)=(-2 3
3 -4)
MATRIX A A=(3 4
6 8)
MINVERSE(C4:D5)=Null, because its det value is 0. MATRIX A A=(2 3
4 7)
MINVERSE(B4:C5)=(3.5 -1.5
-2 1)