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Let M and N be two 3xx3 matrices such th...

Let M and N be two `3xx3` matrices such that `MN=NM`. Further, if `M ne N^(2)` and `M^(2)=N^(4)`, then

A

determinant of `(M^(2)+ MN^(2))` is 0

B

there is a `3xx3` non-zero matrix `U` such that `(M^(2) + MN^(2)) U`
is the zero matrix

C

determinant of`(m^(2) + MN^(2)) ge 1`

D

for a `3xx3` matrix `U` if `(M^(2)+MN^(2))U` equals the zero
matrix, then `U` is the zero matrix

Text Solution

Verified by Experts

The correct Answer is:
A, B
Given, `MN = NM, M ne N^(2) and M^(2) = N^(4) `
Then, `M^(2) = N^(2)` lt brgt `rArr (M+N^(2)) (M-N^2) = 0`
`therefore M+N^(2) = 0 " " [because M ne N^(2)]`
`rArr abs( M+ N^(2)) = 0`
(a) `abs( M^(2)+ MN^(2)) = abs(M) abs( M+ N^(2)) = 0`
`therefore` Option (a) is correct.
`( M^(2)+ MN^(2))U = M( M+ N^(2))U = 0`
`therefore` Option (b) is correct.
(c) `becauseabs( M^(2)+ MN^(2)) =0` from opttion (a)
`therefore abs(M^(2) +MN^(2))cancel(ge) 1`
`therefore` OPtion (c ) is incorrect.
(d)If ` AX = 0 and abs(A) = 0` then X can be non-zero.
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