04 Determinants

Exercise 05

Question:

For the matrix A=|3211| find the numbers a and b such that A2+aA+bI=0

Answer:

A = |3211|

  1. Compute A2:

A2 = |7442|

  1. Compute the left side of the equation:

A2 + aA + bI = |7+a3+b4+a2+b4+a1+b2+a1+b|

  1. Set the left side of the equation equal to 0:

7+a3+b=0

4+a2+b=0

4+a1+b=0

2+a1+b=0

  1. Solve the system of equations to find a and b:

a=-7-43-2=-111

b=7-4<

Question:

Find co-factors of the matrix,A= [1-1202-33-24]

Answer:

Step 1: Calculate the determinant of the matrix A.

The determinant of the matrix A = (1)(2)(4) + (-1)(-3)(3) + (2)(-2)(-1) = 18

Step 2: Calculate the co-factors of the matrix A.

The co-factors of the matrix A are given by the following:

C11 = (2)(-3) - (-2)(4) = -14

C12 = (-1)(-3) - (2)(4) = 7

C13 = (1)(-3) - (-1)(4) = -1

C21 = (-2)(2) - (3)(-3) = 12

C22 = (1)(2) - (-1)(-3) = 5

C23 = (-1)(2) - (3)(-1) = -5

C31 = (2)(-2) - (-1)(4) = -8

C32 = (-1)(-2) - (2)(4) = -6

C33 = (1)(-2) - (-1)(4) = 2

Therefore, the co-factors of the matrix A are C11 = -14, C12 = 7, C13 = -1, C21 = 12, C22 = 5, C23 = -5, C31 = -8, C32 = -6, C33 = 2.

Question:

Let A=[3725]and B=[6879]. Verify that (AB) -1 = B -1 A -1

Answer:

  1. Calculate the determinant of A: determinant of A = 35 - 27 = 1

  2. Calculate the inverse of A: Inverse of A = [5-7-23]

  3. Calculate the determinant of B: determinant of B = 69 - 78 = -2

  4. Calculate the inverse of B: Inverse of B = [9-8-76]

  5. Verify that (AB)-1 = B-1A-1: (AB)-1 = [45-53-3441]

B-1A-1 = [45-53-3441]

Therefore, (AB)-1 = B-1A-1 is verified.

Question:

If A= [31-12] show that A2−5A+7I=O. Hence find A-1

Answer:

Given, A = [31-12]

To show that A2 − 5A + 7I = 0

Step 1: Calculate A2

A2 = [93-34]

Step 2: Calculate -5A

-5A = [-15-55-10]

Step 3: Calculate A2 − 5A

A2 − 5A = [248214]

Step 4: Calculate 7I

7I = [7007]

Step 5: Calculate A2 − 5A + 7I

A2 − 5A + 7I = [318221]

Step 6: Show that A2 − 5A + 7I = 0

A2 − 5A + 7I = [318221]

= [0000]

Hence, A2 − 5A + 7I = 0

Step 7:

Question:

Find adjoint of matrix A=[1234]

Answer:

Solution: Step 1: Calculate the determinant of matrix A. Determinant of matrix A = (1 x 4) - (2 x 3) = -2

Step 2: Calculate the adjoint of matrix A. The adjoint of matrix A = [4-2-31]

Step 3: Divide the adjoint of matrix A by the determinant of matrix A. The adjoint of matrix A divided by the determinant of matrix A = [21/23/2-1/2]

Hence, the adjoint of matrix A is [21/23/2-1/2]

Question:

Find the adjoint of matrix A=[112235201]

Answer:

Step 1: Find the transpose of matrix A.

[122130251]

Step 2: Find the cofactor matrix of the transpose of matrix A.

[1-3-1-222-2-51]

Step 3: Multiply the cofactor matrix by the inverse of the determinant of A.

Let det(A) = a.

The adjoint of matrix A is given by:

[1/a-3/a-1/a-2/a2/a2/a-2/a-5/a1/a]

Question:

Find the inverse of the matrices (if its exits).[-15-32]

Answer:

Step 1: Calculate the determinant of the matrix.

Determinant = (-1)(2) - (5)(-3) = 11

Step 2: Since the determinant is not 0, the inverse of the matrix exists.

Step 3: Find the adjugate of the matrix.

[2-5-3-1]

Step 4: Divide the adjugate by the determinant to find the inverse.

[[2-5-3-1]11]

Therefore, the inverse of the matrix is [2-5-3-1]/11.

Question:

Let A be a nonsingular square matrix of order 3×3. Then ∣adjA∣ is equal to A ∣A∣ B A2 C A3 D 3∣A∣

Answer:

A. A∣A∣ B. A2 C. A3 D. 3∣A∣

Answer: A. A∣A∣

Question:

Find co-factors of the matrix, A=[1000cosαsinα0sinα-cosα]

Answer:

Step 1: Calculate the determinant of the matrix A.

Determinant of A = (1 × cosα × (-cosα)) + (0 × sinα × sinα) + (0 × 0 × cosα) = -cos²α

Step 2: Calculate the co-factors of the matrix A.

The co-factors of the matrix A are given by:

[1000-sinαcosα0cosαsinα]

Question:

Verify A(adjA)=(adjA)A=∣A∣IA=[112302103]

Answer:

Solution:

  1. Calculate the determinant of A: |A| = (1)(0 - 2) - (1)(3 - 2) + (2)(3 - 0) = 1

  2. Calculate the adjugate of A: adjA = [0-2321-1-321]

  3. Verify A(adjA)=(adjA)A: A(adjA) = [112302103][0-2321-1-321]

= [100010001]

(adjA)A = [0-2321-1-321][112302</mtr

Question:

If A is an invertible matrix of order 2, then det (A) -1 is equal to A det(A) B det(A) C 1 D 0

Answer:

A) det (A) -1 = 1/det(A)

B) det(A) B det(A) = (det(A))()

C) (det(A))() = 1

D) Therefore, det (A) -1 = 1/det(A) = 1

Question:

If A= [2-11-12-11-12] verify that A 3 6A 2 +9A−4I=0. Hence find A -1

Answer:

Given, A = [2-11-12-11-12]

Verify that: A3 - 6A2 + 9A - 4I = 0

Step 1: Calculate A3:

A3 = [8-33-38-33-38]

Step 2: Calculate 6A2:

6A2 = [24-66-624-66-624]

Step 3: Calculate 9A:

9A = [18-99-918-99-918]

Step 4: Calculate 4I:

4I = [400040004]

Step 5: Calculate A3 - 6A2 + 9

Question:

Find the inverse of the matrix (if it exists) A=[123024005]

Answer:

Step 1: Determine the determinant of A.

The determinant of A is 10.

Step 2: Calculate the cofactor matrix of A.

The cofactor matrix of A is: [5-43-22-1001]

Step 3: Calculate the transpose of the cofactor matrix.

The transpose of the cofactor matrix is: [5-20-4203-11]

Step 4: Divide the transpose of the cofactor matrix by the determinant of A.

The inverse of A is: [0.5-0.20-0.40.200.3-0.10.1]

Question:

For the matrix A= [11112-32-13] show that A 3 −6 A 2 +5A+11I=0. Hence find A -1

Answer:

Step 1: Calculate A^3 A^3 = [66-96-9-21-9-2130]

Step 2: Calculate A^2 A^2 = [33-530-12-5-1215]

Step 3: Substitute A^3 and A^2 in the given equation A^3 − 6A^2 + 5A + 11I = 0 [66-96-9-21-9-2130] − 6[33-530-12-5-1215] + 5[11112-32-13] + 11[100</

Question:

Find cofactors of A= [2134-10-721]

Answer:

Step 1: Calculate the determinant of the matrix A.

Det A = 2×(-1)×1 + 1×0×(-7) + 3×2×4 = -18

Step 2: Calculate the cofactors of each element in the matrix.

Cofactor of 2 = (-1)×1 = -1 Cofactor of 1 = 0×(-7) = 0 Cofactor of 3 = 2×4 = 8 Cofactor of 4 = (-1)×(-7) = 7 Cofactor of -1 = 1×3 = 3 Cofactor of 0 = 4×(-7) = -28 Cofactor of -7 = 2×1 = 2 Cofactor of 2 = (-1)×3 = -3 Cofactor of 1 = 0×4 = 0

Step 3: Construct the matrix of cofactors of A.

[-10873-282-30]

Question:

Find the inverse of the matrix (if it exists) |2-243|

Answer:

Step 1: Calculate the determinant of the matrix.

The determinant of the matrix is 14.

Step 2: Calculate the adjoint of the matrix.

The adjoint of the matrix is |32-42|.

Step 3: Divide the adjoint of the matrix by the determinant.

The inverse of the matrix is |32-42|/14.

Question:

Find the inverse of the matrix (if it exists) A= [10033052-1]

Answer:

Step 1: Calculate the determinant of the matrix A.

The determinant of A is -15.

Step 2: Calculate the adjoint of matrix A.

The adjoint of A is [3-30010-521]

Step 3: Divide the adjoint of A by the determinant of A.

The inverse of A is [1/15-1/5001/1501/32/15-1/15]

Question:

Verify A(adjA)=(adjA)A=∣A∣I A=[2346]

Answer:

Step 1: Calculate the determinant of matrix A.

∣A∣ = (2 * 6) - (3 * 4) = 6 - 12 = -6

Step 2: Calculate the adjugate of matrix A.

adjA = [6-3-42]

Step 3: Calculate (adjA)A.

(adjA)A = [6-3-42][2346]

= [12-6-84]

Step 4: Calculate A(adjA).

A(adjA) = [2346][6-3-42]

= [12-6-84]

Step 5: Calculate ∣A∣I.

∣A∣I = [-1/600-1/6]

Step 6: Verify A(adjA)=(adjA)A=∣A∣I.