Class CBSE Class 12 Mathematics Matrices and Determinants Q #759
KNOWLEDGE BASED
APPLY
1 Marks 2025 MCQ SINGLE
If M and N are square matrices of order 3 such that det \((M)=m\) and \(MN=mI,\) then det (N) is equal to:
(A) -1
(B) 1
(C) \(-m^{2}\)
(D) \(m^{2}\)
Prev Next
Correct Answer: D
Explanation
We use two key properties of determinants:

  1. Product Rule: \(\text{det}(AB) = \text{det}(A) \cdot \text{det}(B)\)

  2. Scalar Multiplication Rule: \(\text{det}(c A) = c^n \cdot \text{det}(A)\) (where \(n\) is the order of the matrix)


We take the determinant of both sides of the equation \(MN = mI\):



\[\text{det}(MN) = \text{det}(mI)\]

Since the order \(n=3\) and \(\text{det}(I) = 1\), the right side simplifies to \(\text{det}(mI) = m^3 \cdot 1 = m^3\).


Substitute \(\text{det}(M) = m\) and \(\text{det}(mI) = m^3\) we get :



\[m \cdot \text{det}(N) = m^3\]
\[\mathbf{\text{det}(N) = m^2}\]

AI Tutor Explanation

Powered by Gemini

Step-by-Step Solution

Given: \(MN = mI\), where M and N are square matrices of order 3, and det(M) = m.

Taking the determinant of both sides of the equation \(MN = mI\):

\(\det(MN) = \det(mI)\)

Using the property that \(\det(AB) = \det(A) \det(B)\):

\(\det(M) \det(N) = \det(mI)\)

Since M and N are of order 3, \(mI\) is a 3x3 matrix with m along the diagonal. Thus,

\(\det(mI) = m^3\)

Substituting the given value \(\det(M) = m\):

\(m \det(N) = m^3\)

Dividing both sides by m (assuming \(m \neq 0\)):

\(\det(N) = \frac{m^3}{m}\)

\(\det(N) = m^2\)

Correct Answer: \(m^{2}\)

AI Suggestion: Option D

AI generated content. Review strictly for academic accuracy.

Pedagogical Audit
Bloom's Analysis: This is an APPLY question because the student needs to apply the properties of determinants and matrix multiplication to find the determinant of matrix N.
Knowledge Dimension: PROCEDURAL
Justification: The question requires the student to apply a sequence of steps involving determinant properties and matrix operations to arrive at the solution.
Syllabus Audit: In the context of CBSE Class 12, this is classified as KNOWLEDGE. The question directly tests the student's understanding and application of determinant properties as covered in the textbook.

More from this Chapter

MCQ_SINGLE
If \(A\) and \(B\) are invertible matrices, then which of the following is \underline{not correct}?
MCQ_SINGLE
Find the matrix \(A^{2}\), where \(A=[a_{ij}]\) is a \(2\times2\) matrix whose elements are given by \(a_{ij}=\) maximum (i, j) - minimum (i, j):
MCQ_SINGLE
If \(\begin{bmatrix}4+x&x-1\\ -2&3\end{bmatrix}\) is a singular matrix, then the value of x is:
MCQ_SINGLE
If |(a, 3, 4), (1, 2, 1), (1, 4, 1)| = 0, then the value of a is
MCQ_SINGLE
\(\begin{vmatrix}x+1&x-1\\ x^{2}+x+1&x^{2}-x+1\end{vmatrix}\) is equal to:
View All Questions