Difference between revisions of "Manuals/calci/DET"

Revision as of 15:46, 21 November 2016

DET(array)

$array$ is the set of numbers.

Description

This function gives the determinant value of a matrix.
To calculate the determinant of a matrix, we can choose only square matrix.i.e. Number of rows and number of columns should be equal.
Determinant of the identity matrix is always 1.
Determinant of the matrix $A$ is denoted by $det(A)$ or $|A|$ .
Let $A$ be 2x2 matrix with the elements

$A={\begin{bmatrix}a&b\\c&d\\\end{bmatrix}}$

Then $det(A)=ad-bc$ , where $a,b,c,d$ all are real numbers.
Let $A$ be the 3x3 matrix with the elements

$A={\begin{bmatrix}a&b&c\\d&e&f\\g&h&i\\\end{bmatrix}}$ Then $|A|=a{\begin{vmatrix}e&f\\h&i\end{vmatrix}}-b{\begin{vmatrix}d&f\\g&i\end{vmatrix}}+c{\begin{vmatrix}d&e\\g&h\end{vmatrix}}$ : $|A|=a(ei-fh)-b(di-fg)+c(dh-eg)$

Let $A$ be a square matrix of order $n$ . Write $A=(a_{ij})$ ,
Where $a_{ij}$ is the entry on the $i^{th}$ row and $j^{th}$ column and $i=1$ to $n$ & $j=1$ to $n$ .
For any $i$ and $j$ , set $A_{ij}$ (called the co-factors), then the general formula for determinant of the matrix $A$ is,

$|A|=\sum _{j=1}^{n}a_{ij}A_{ij}$ , for any fixed $i$ . Also $|A|=\sum _{i=1}^{n}a_{ij}A_{ij}$ , for any fixed $j$ .

This function will give the result as error when

1. Any one of the element in array is empty or contain non-numeric
2. Number of rows is not equal to number of columns

Examples

=DET([[6,4,8],[3,6,1],[2,4,5]]) = 104
=DET([[-5,10],[6,-8]]) = -20
=DET([[1,0,2,1],[4,0,2,-1],[1,4,5,2],[3,1,2,0]]) = 17
=DET([1,2,3],[5,2,8]) = NAN

References

Determinant

@@ Line 1: / Line 1: @@
-==DET==
+<div style="font-size:30px">'''DET(array)'''</div><br/>
+*<math>array</math> is the set of numbers.
+==Description==
+*This function gives the determinant value of a matrix.
+*To calculate the determinant of a matrix, we can choose only square matrix.i.e. Number of rows and number of columns should be equal.
+*Determinant of the identity matrix is always 1.
+*Determinant of the matrix <math>A</math> is denoted by <math>det(A)</math> or <math>|A|</math>.
+*Let <math>A</math> be 2x2 matrix with the elements
+<math>A = \begin{bmatrix}
+a & b \\
+c & d \\
+\end{bmatrix}
+</math>
+*Then <math>det(A)=ad-bc</math>, where <math>a,b,c,d</math> all are real numbers.
+*Let <math>A</math> be the 3x3 matrix with the elements
+<math>A = \begin{bmatrix}
+a & b & c  \\
+d & e & f  \\
+g & h & i  \\
+\end{bmatrix}
+</math>
+Then <math>|A|=a\begin{vmatrix}
+e & f \\
+h & i
+\end{vmatrix} -b\begin{vmatrix}
+d & f \\
+g & i
+\end{vmatrix} +c\begin{vmatrix}
+d & e \\
+g & h
+\end{vmatrix}</math>:
+<math>|A| =a(ei-fh)-b(di-fg)+c(dh-eg)</math>
+*Let <math>A</math> be a square matrix of order <math>n</math>. Write <math>A = (a_{ij})</math>,
+*Where <math>a_{ij}</math> is the entry on the <math>i^{th}</math> row and <math>j^{th}</math> column and <math>i=1</math> to <math>n</math> & <math>j=1</math> to <math>n</math>.
+*For any <math>i</math> and <math>j</math>, set <math>A_{ij}</math> (called the co-factors), then the general formula for determinant of the matrix <math>A</math> is,
+<math>|A|=\sum_{j=1}^n a_{ij} A_{ij}</math>, for any fixed <math>i</math>.
+Also<math>|A|=\sum_{i=1}^n a_{ij} A_{ij}</math>, for any fixed <math>j</math>.
+*This function will give the result as error when
+. Any one of the element in array is empty or contain non-numeric
+. Number of rows is not equal to number of columns
+==Examples==
+#=DET([[6,4,8],[3,6,1],[2,4,5]]) = 104
+#=DET([[-5,10],[6,-8]]) = -20
+#=DET([[1,0,2,1],[4,0,2,-1],[1,4,5,2],[3,1,2,0]]) = 17
+#=DET([1,2,3],[5,2,8]) = NAN
+==See Also==
+*[[Manuals/calci/MINVERSE  | MINVERSE ]]
+*[[Manuals/calci/MMULT  | MMULT ]]
+==References==
+[http://en.wikipedia.org/wiki/Determinant Determinant ]

Difference between revisions of "Manuals/calci/DET"

Revision as of 15:46, 21 November 2016

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Description

Examples

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