If A is a non-zero square matrix of order n with det (I + A) ≠ 0 and A3 = 0, where I, 0 are unit and null matrices of order n x n respectively, then (I + A)- 1 is equal to
I - A + A2
I + A + A2
I + A - 1
I + A
If x is real, then the value of x2 - 3x + 4x2 + 3x + 4 lies in the interval
13, 3
15, 5
16, 6
17, 7
Aα, β = cosαsinα0- sinαcosα000eβ ⇒ Aα, β - 1 =
A - α, β
A - α, - β
Aα, - β
Aα, β
If A is a matrix such2132A11 = 1100 then A = ?
1101
21
10- 11
2- 3
A = 101011010 ⇒ A2 - 2A =?
A - 1
- A - 1
I
- I
242526252627262727 = ?
0
- 1
1
2
A = i- i- ii, B = 1- 1- 11 ⇒ A8
4B
8B
64B
128B
Let A = - 1- 2- 3345456, B = 1- 2- 12 and C = 200020002, if a, b and c respectively, denote the rank of A, B, and C, then the correct order of these number is
a < b < c
c < b < a
b < a < c
a < c < b
If I is the identity matrix of order 2 and A =1101, then for n ≥ 1, mathematical induction gives
An = nA - n - 1I
An = nA + n - 1I
An = 2nA - n + 1I
An = 2n - 1A - n - 1I
If A = - 8524 satisfies the equation x2 + 4x - p = 0, then p is equal to
64
42
36
24
B.
Given, A = - 8524A2 = - 8524 - 8524= 64 + 10- 40 + 20- 16 + 810 + 16= 74- 20- 8264A = - 3220816- pI = - p00- pSince, the matrix A satisfies the equationx2 + 4x - p = 0, thenA2 + 4A - pI = 0⇒ 74- 20- 826 + - 3220816 + - p00- p = 0000⇒ 74 - 32 - p- 20 + 20 + 0- 8 + 8 + 026 + 16 - p = 0000⇒ 42 - p0042 - p= 0000On compairing, we get42 - p = 0 ⇒ p = 42