MATRIX("SYMMETRIC",order)
- is the size of the Symmetric matrix.
Description
- This function returns the symmetric matrix of order 3.
- A symmetric matrix is a square matrix that satisfies ,where denotes the transpose.
- i.e., A square matrix which is equal to its transpose is called symmetric matrix.
- So .
- This also implies , where I is the identity matrix.
- Because equal matrices have equal dimensions, only square matrices can be symmetric.
- An example for the symmetric matrix is
<math>A=\begin{pmatrix} 43 & -5 & -93 \\ -5 & -11 & -75 \\ -93 & -75 & -7 \\ \end{pmatrix}
- The properties of symmetric matrices are:
- 1.Every square diagonal matrix is symmetric, since all off-diagonal entries are zero.
- 2.Similarly, each diagonal element of a skew-symmetric matrix must be zero, since each is its own negative.
- 3.Hermitian matrices are a useful generalization of symmetric matrices for complex matrices.
- In Calci, MATRIX("symmetric") gives the symmetric matrix with the integer numbers.
- The other way to give the syntax is MATRIX("symmetric:integer).The syntax is to get the positive numbers symmetric matrix is MATRIX("symmetric:positive integer").
- To get a negative numbers symmetric matrix is MATRIX("symmetric:negative integer").
- Also to get the symmetric matrix with the elements 0 and 1(boolean numbers) users give syntax as MATRIX("symmetric:boolean").
- So using Calci users can get a different types of symmetric matrices.