Question:
The system of equations is given as:
\[
(\lambda + 1)x + (\lambda + 2)y + (\lambda - 1)z = 0
\]
\[
\lambda x + (\lambda - 1)y + (\lambda + 1)z = 0
\]
\[
(\lambda - 1)x + (\lambda + 1)y + (\lambda + 2)z = 0
\]
If the above system of equations has infinite solutions, then \( \lambda^2 + \lambda \) is:
The system of equations is given as:
\[
(\lambda + 1)x + (\lambda + 2)y + (\lambda - 1)z = 0
\]
\[
\lambda x + (\lambda - 1)y + (\lambda + 1)z = 0
\]
\[
(\lambda - 1)x + (\lambda + 1)y + (\lambda + 2)z = 0
\]
If the above system of equations has infinite solutions, then \( \lambda^2 + \lambda \) is:
Show Hint
For a system of linear equations to have infinite solutions, the determinant of the coefficient matrix must be zero. Solve for \( \lambda \) and then calculate the required expression.
Updated On: Jan 23, 2025
- 7
- 8
- 9
- 10
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The Correct Option is A
Solution and Explanation
For the system to have infinite solutions, the determinant of the coefficient matrix must be zero. The determinant condition can be solved for \( \lambda \), leading to the value of \( \lambda^2 + \lambda \).
The detailed solution can be obtained by solving the determinant and finding the correct value of \( \lambda \).
Thus, \( \lambda^2 + \lambda = 7 \).
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