Let A,B,C be 3×3 matrices such that A is symmetric and B and C are skew symmetric. Consider the statements:
(S1) A13B26 − B26A13 is symmetric.
(S2) A26C13 − C13A26 is symmetric.Then:
(S1) A13B26 − B26A13 is symmetric.
(S2) A26C13 − C13A26 is symmetric.Then:
- Only $S 1$ is true
- Both S1 and S2 are false
- Both S1 and S2 are true
- Only S2 is true
The Correct Option is D
Approach Solution - 1
For statement S1:
\( A^{13}B^{26} - B^{26}A^{13} \) Given that \( A \) is symmetric and \( B, C \) are skew-symmetric, products involving an odd number of skew-symmetric matrices are skew-symmetric. Thus, \( B^2 \) and \( C^3 \) are skew-symmetric, making the whole expression skew-symmetric, and hence S1 is false.
For statement S2:
\( A^{26}C^{13} - C^{13}A^{26} \) Here, \( A^2 \) is symmetric and \( C^3C_1 \) (assuming \( C_1 = C \)) is also skew-symmetric. The product of a symmetric matrix with a skew-symmetric matrix, enclosed symmetrically, results in a symmetric matrix, so S2 is true.
Approach Solution -2
Given,
Let
Then,
Hence, is skew symmetric
Let,
then,
Hence, is symmetric.
Only S2 is true.
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Concepts Used:
Matrices
Matrix:
A matrix is a rectangular array of numbers, variables, symbols, or expressions that are defined for the operations like subtraction, addition, and multiplications. The size of a matrix is determined by the number of rows and columns in the matrix.
The basic operations that can be performed on matrices are:
- Addition of Matrices - The addition of matrices addition can only be possible if the number of rows and columns of both the matrices are the same.
- Subtraction of Matrices - Matrices subtraction is also possible only if the number of rows and columns of both the matrices are the same.
- Scalar Multiplication - The product of a matrix A with any number 'c' is obtained by multiplying every entry of the matrix A by c, is called scalar multiplication.
- Multiplication of Matrices - Matrices multiplication is defined only if the number of columns in the first matrix and rows in the second matrix are equal.
- Transpose of Matrices - Interchanging of rows and columns is known as the transpose of matrices.