04 ନିର୍ଣ୍ଣୟକାରୀ

ବ୍ୟାୟାମ 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.

JEE ଅଧ୍ୟୟନ ସାମଗ୍ରୀ (ଗଣିତ)

01 ସମ୍ପର୍କ ଏବଂ କାର୍ଯ୍ୟ

02 ଓଲଟା ଟ୍ରାଇଗୋନେଟ୍ରିକ୍ କାର୍ଯ୍ୟଗୁଡ଼ିକ

03 ମ୍ୟାଟ୍ରିକ୍ସ

04 ନିର୍ଣ୍ଣୟକାରୀ

05 ନିରନ୍ତରତା ଏବଂ ଭିନ୍ନତା

06 ଡେରିଭେଟିକ୍ସର ପ୍ରୟୋଗ

07 ଇଣ୍ଟିଗ୍ରାଲ୍

08 ଇଣ୍ଟିଗ୍ରାଲ୍ସର ପ୍ରୟୋଗ

09 ଭେକ୍ଟର୍

10 ତିନୋଟି ଡାଇମେନ୍ସନାଲ୍ ଜ୍ୟାମିତି

11 ରେଖା ପ୍ରୋଗ୍ରାମିଂ

12 ସମ୍ଭାବନା