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Matrix Operations | Mathematics (Maths) Class 12 - JEE


Algebra of matrix involves the operation of matrices, such as Addition, subtraction, multiplication etc.

Let us understand the operation of the matrix in a much better way-

1. Addition of Matrices : 

Let A and B be two matrices of same order (i.e. comparable matrices). Then A + B is defined to be

Matrix Operations | Mathematics (Maths) Class 12 - JEE

2. Substraction of Matrices :

 Let A & B be two matrices of same order. Then A – B is defined as A + (–B) where – B is (–1) B.

3. Multiplication of Matrix By Scalar : 

Let λ be a scalar (real or complex number) & A = [aij]m × n be a matrix. Thus the product λA is defined as λA = [bij]m × n where bij = λaij for all i & j.
Note : If A is a scalar matrix, then A = λI, where λ is the diagonal element.

Properties of Addition & Scalar Multiplication : 

Consider all matrices of order m × n, whose elements are from a set F (F denote Q, R or C).

Let Mm× n (F) denote the set of all such matrices. Then

Matrix Operations | Mathematics (Maths) Class 12 - JEE

4. Multiplication of Matrices : 

Let A and B be two matrices such that the number of columns of A is same as number of rows of B. i.e., A =  Matrix Operations | Mathematics (Maths) Class 12 - JEE where Matrix Operations | Mathematics (Maths) Class 12 - JEE  which is the dot product of ith row vector of A and jth column vector of B.
Note :

1. The product AB is defined iff the number of columns of A is equal to the number of rows of B. A is called as premultiplier & B is called as post multiplier. AB is defined Matrix Operations | Mathematics (Maths) Class 12 - JEE BA is defined.
2. In general AB Matrix Operations | Mathematics (Maths) Class 12 - JEE   BA, even when both the products are defined.
3. A(BC) = (AB) C, whenever it is defined.

Properties of Matrix Multiplication : 

Consider all square matrices of order ‘n’. Let Mn (F) denote the set of all square matrices of order n, (where F is Q, R or C). Then
(a) A, B ∈ Mn (F) ⇒ AB ∈ Mn(F)

(b) In general AB ≠ BA

(c) (AB) C = A(BC)

(d) In, the identity matrix of order n, is the multiplicative identity. AIn = A = InA

(e) For every non singular matrix A(i.e., |A| ≠ 0) of Mn (F) there exist a unique (particular) matrix B ∈ Mn (F) so that AB = In = BA. In this case we say that A & B are multiplicative inverse of one another. In notations, we write B = A-1 or A = B-1.

(f) If λ is a scalar (λA) B = λ(AB) = A(λB).

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Note :

1. Let A = [aij]m × n. Then AIn = A & IA = A, where In & Im are identity matrices of order n & m respectively.

2. For a square matrix A, A2 denotes AA, A3 denotes AAA etc.

Solved Examples:

Ex.1 For the following pairs of matrices, determine the sum and difference, if they exist.
(a) Matrix Operations | Mathematics (Maths) Class 12 - JEE 

(b) Matrix Operations | Mathematics (Maths) Class 12 - JEE


Sol. (a) Matrices A and B are 2 × 3 and confirmable for addition and subtraction.
Matrix Operations | Mathematics (Maths) Class 12 - JEE


(b) Matrix A is 2 × 2, and B is 2 × 3. Since A and B are not the same size, they are not confirmable for addition or subtraction.
Ex.2 Find the additive inverse of the matrix A =Matrix Operations | Mathematics (Maths) Class 12 - JEE
Sol. The additive inverse of the 3 × 4 matrix A is the 3 × 4 matrix each of whose elements is the negative of the corresponding element of A. Therefore if we denote the additive inverse of A by – A, we haveMatrix Operations | Mathematics (Maths) Class 12 - JEE . Obviously A + (–A) = (–A) + A = O, where O is the null matrix of the type 3 × 4.


Ex.3 If  Matrix Operations | Mathematics (Maths) Class 12 - JEE  find the matrix D such that A + B – D = 0.


Sol.  We have A + B – D = 0  ⇒  (A + B) + (-D) = 0  ⇒  A + B = (-D) = D  

Matrix Operations | Mathematics (Maths) Class 12 - JEE


Ex.4 If  Matrix Operations | Mathematics (Maths) Class 12 - JEE verify that 3(A + B) = 3A + 3B.

Sol.

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

∴ 3 (A + B) = 3A + 3B, i.e. the scalar multiplication of matrices distributes over the addition of matrices.
 

Ex.5 The set of natural numbers N is partitioned into arrays of rows and columns in the form of matrices as Matrix Operations | Mathematics (Maths) Class 12 - JEE

and so on. Find the sum of the elements of the diagonal in Mn.

Sol. Let Mn = (aij) where i, j = 1, 2, 3,.........,n.
We first find out a11 for the nth matrix; which is the nth term in the series ;         1, 2, 6,......
Let S = 1 + 2 + 6 + 15 +..... + Tn – 1 + Tn.

Again writing        S = 1 + 2 + 6 +.... + Tn – 1 + Tn

⇒ 0 = 1 + 1 + 4 + 9 +..... + (T– Tn – 1) – Tn ⇒ Tn = 1 + (1 + 4 + 9 +....... upto (n – 1) terms)

= 1 + (1 2 + 22 + 32 + 42 +..... + (n – 1)2)  

Matrix Operations | Mathematics (Maths) Class 12 - JEE
Ex.6  Matrix Operations | Mathematics (Maths) Class 12 - JEE

Sol.

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

The matrix AB is of the type 3 × 3 and the matrix BA is also of the type 3 × 3. But the corresponding elements of these matrices are not equal. Hence AB≠ BA.


Ex.7 Show that for all values of p, q, r, s the matrices,  Matrix Operations | Mathematics (Maths) Class 12 - JEE

Sol.    Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE for all values of p, q, r,s. Hence PQ = QP, for all values of p, q, r, s.


Ex.8  Matrix Operations | Mathematics (Maths) Class 12 - JEE where k is any positive integer.
Sol. We shall prove the result by induction on k.

We shall prove the result by induction on k.

We have  Matrix Operations | Mathematics (Maths) Class 12 - JEE Thus the result is true when k = 1.

Now suppose that the result is true for any positive integer k.

Matrix Operations | Mathematics (Maths) Class 12 - JEE where k is any positive integer.

Now we shall show that the result is true for k + 1 if it is true for k. We have

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Thus the result is true for k + 1 if it is true for k. But it is true for k = 1. Hence by induction it is true for all positive integral value of k.


Ex.9  Matrix Operations | Mathematics (Maths) Class 12 - JEE   where I is the two rowed unit matrix n is a positive integer.

Sol.

Matrix Operations | Mathematics (Maths) Class 12 - JEE  = 0  ⇒  A3 = A2 . A = 0  ⇒  A2 = A3 = A4 =...... An = 0

Now by binomial theorem

(a I + b A)n = (a I)n + nC1(a I)n – 1 b A + nC2 (a I)n – 2 (b A)2 +..... + nC(b A)n

= an I + nC1 an – 1 b I A + nCan – 2 b2 I A2 +...... + nCbAn

= an I + n an – 1 b A + 0......

Matrix Operations | Mathematics (Maths) Class 12 - JEE


Ex.10 If  Matrix Operations | Mathematics (Maths) Class 12 - JEE  then find the value of (n + a).
Sol.  Consider 

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Hence n = 9 and 2007 =  Matrix Operations | Mathematics (Maths) Class 12 - JEE

⇒ 2007 = 9a + 32 · 9 = 9(a + 32)

⇒   a + 32 = 223  ⇒  a = 191

hence a + n = 200

Ex.11 Find the matrices of transformations T1T2 and T2T1, when T1 is rotation through an angle 60º and T2 is the reflection in the y–axis. Also verify that T1T2 Matrix Operations | Mathematics (Maths) Class 12 - JEET2T1.

Sol.

Matrix Operations | Mathematics (Maths) Class 12 - JEE  Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE...(1)

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

It is clear from (1) and (2), T1T2 ≠ T2T1


Ex.12 Find the possible square roots of the two rowed unit matrix I.

Sol.

Matrix Operations | Mathematics (Maths) Class 12 - JEE  be square root of the matrix  =  Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Since the above matrices are equal, therefore

a2 + bc =1 ...(i)

ab + bd = 0 ...(ii)

ac + cd = 0 ,,,(iii)

cb + d2 = 0 ....(iv)

must hold simultaneously.
If a + d = 0, the above four equations hold simultaneously if d = –a and a2 + bc =1

Hence one possible square root of I is

Matrix Operations | Mathematics (Maths) Class 12 - JEE where α, β, γ are any three numbers related by the condition α2 + βγ = 1.

If a + d ≠ 0, the above four equations hold simultaneously if b = 0, c = 0, a = 1, d = 1 or if b = 0, c = 0, a = –1, d = –1. Hence  Matrix Operations | Mathematics (Maths) Class 12 - JEE  i.e.  ± I are other possible square roots of I.

Ex.13 Matrix Operations | Mathematics (Maths) Class 12 - JEE then prove that Matrix Operations | Mathematics (Maths) Class 12 - JEE

Sol.

Matrix Operations | Mathematics (Maths) Class 12 - JEE...(i)

Matrix Operations | Mathematics (Maths) Class 12 - JEE...(ii)

Matrix Operations | Mathematics (Maths) Class 12 - JEE ...(iii)

Similarly it can be shown that A4 = 23 x4 E, A= 24 x5 E ...

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE

Matrix Operations | Mathematics (Maths) Class 12 - JEE


D. FURTHER TYPES OF MATRICES

(a) Nilpotent matrix : A square matrix A is said to be nilpotent (of order 2) if, A2 = O.
A square matrix is said to be nilpotent of order p, if p is the least positive integer such that A= O

(b) Idempotent matrix : A square matrix A is said to be idempotent if, A2 = A. eg. Matrix Operations | Mathematics (Maths) Class 12 - JEE is an idempotent matrix.

(c) Involutory matrix : A square matrix A is said to be involutory if A2 = I,I being the identity matrix. eg. A = Matrix Operations | Mathematics (Maths) Class 12 - JEE is an involutory matrix.

(d) Orthogonal matrix : A square matrix A is said to be an orthogonal matrix if A'A = I = A'A

(e) Unitary matrix : A square matrix A is said to be unitary if Matrix Operations | Mathematics (Maths) Class 12 - JEE is the complex conjugate of A.

Ex.14 Find the number of idempotent diagonal matrices of order n.

Sol. Let A = diag (d1, d2,....., dn) be any diagonal matrix of order n.

now A2 = A . A =  Matrix Operations | Mathematics (Maths) Class 12 - JEE  Matrix Operations | Mathematics (Maths) Class 12 - JEE

But A is idempotent, so A2 = A and hence corresponding elements of A2 and A should be equal

∴  Matrix Operations | Mathematics (Maths) Class 12 - JEE  or d1 = 0, 1; d2 = 0, 1;.........;dn = 0, 1

⇒ each of d1, d2 ......, dn can be filled by 0 or 1 in two ways.

⇒ Total number of ways of selecting d1, d2,......., dn = 2n

Hence total number of such matrices = 2n.


Ex.15 Show that the matrix A =Matrix Operations | Mathematics (Maths) Class 12 - JEE  is nilpotent and find its index.


Sol. 

Matrix Operations | Mathematics (Maths) Class 12 - JEE
Thus 3 is the least positive integer such that A3 = 0. Hence the matrix A is nilpotent of index 3.


Ex.16 If AB = A and BA = B then B'A' = A' and A'B' = B' and hence prove that A' and B' are idempotent.

Sol. We have AB = A ⇒ (AB)' = A' ⇒ B'A' = A'. Also BA = B ⇒ (BA)' = B' ⇒ A'B' = B'.

Now A' is idempotent if A'2 = A'. We have A'2 =A'A' = A' (B'A') = (A'B') A' = B'A' =A'.

∴ A' is idempotent.

Again B'2 = B'B' = B' (A'B') = (B'A') B' = A'B' = B'. ∴ B' is idempotent.

E. TRANSPOSE OF MATRIX

Let A = [aij]m × n. Then the transpose of A is denoted by A'(or AT) and is defined as A' = [bij]n × m where bij = aji  for all i & j

i.e. A' is obtained by rewriting all the rows of A as columns (or by rewriting all the columns of A as rows).

(i) For any matrix A = [aij]m × n, (A')' = A

(ii) Let λ be a scalar & A be a matrix. Then (λA)' = λA'

(iii) (A + B)' = A' + B' & (A - B)' = A' - B' for two comparable matrices A and B.

(iv) (A1 ± A2 ±.... ± An)' = A1' ± A2' ±..... ± An', where Aj are comparable.

(v) Let A = [aij]m × p & B = [bij]p × n, then (AB)' = B'A'

(vi) (A1 A......... An)' = An'. An-1'..................± A2'. A1', provided the product is defined.

(vii) Symmetric & Skew–Symmetric Matrix :  A square matrix A is said to be symmetric if A' = A 

i.e. Let A = [aij]n. A is symmetric iff aij = aij for all i & j.
A square matrix A is said to be skew–symmetric if A' = - A

i.e. Let A = [aij]n. A is skew–symmetric iff aij = –aji for all i & j.

Matrix Operations | Mathematics (Maths) Class 12 - JEE is a symmetric matrix 

Matrix Operations | Mathematics (Maths) Class 12 - JEE   is a skew–symmetric matrix.

 Note :

1. In skew–symmetric matrix all the diagonal elements are zero. (aij = - aij  ⇒  aij = 0)

2. For any square matrix A, A + A' is symmetric & A -A' is skew - symmetric.

3. Every square matrix can be uniquely expressed as a sum of two square matrices of which one is symmetric and the other is skew–symmetric.

Matrix Operations | Mathematics (Maths) Class 12 - JEE

The document Matrix Operations | Mathematics (Maths) Class 12 - JEE is a part of the JEE Course Mathematics (Maths) Class 12.
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FAQs on Matrix Operations - Mathematics (Maths) Class 12 - JEE

1. What are matrices and what operations can be performed on them?
Ans. Matrices are rectangular arrays of numbers, symbols, or expressions arranged in rows and columns. The following operations can be performed on matrices: - Addition: Adding two matrices of the same size by adding corresponding elements. - Subtraction: Subtracting two matrices of the same size by subtracting corresponding elements. - Scalar multiplication: Multiplying a matrix by a scalar, which multiplies every element of the matrix by the scalar. - Matrix multiplication: Multiplying two matrices of compatible sizes by multiplying corresponding elements and summing the products. - Transposition: Creating a new matrix by interchanging the rows and columns of the original matrix.
2. How do you add two matrices?
Ans. To add two matrices, you need to add their corresponding elements. Matrices can only be added if they have the same dimensions. For example, to add matrix A and matrix B, you would add the elements in the first row and first column of A to the elements in the first row and first column of B, and so on. The resulting matrix will have the same dimensions as the original matrices.
3. Can matrices of different sizes be multiplied?
Ans. No, matrices of different sizes cannot be multiplied. In order to perform matrix multiplication, the number of columns in the first matrix must be equal to the number of rows in the second matrix. For example, if matrix A is of size m x n, and matrix B is of size n x p, then the resulting matrix C will be of size m x p. If the dimensions of the matrices do not satisfy this condition, matrix multiplication is not possible.
4. What is the significance of matrix transposition?
Ans. Matrix transposition involves interchanging the rows and columns of a matrix. It is denoted by placing a superscript "T" after the matrix. Transposing a matrix changes its dimensions, turning rows into columns and columns into rows. This operation is useful in various mathematical operations, such as finding the inverse of a matrix, solving systems of linear equations, and performing certain computations in linear algebra.
5. How does scalar multiplication affect a matrix?
Ans. Scalar multiplication involves multiplying a matrix by a scalar, which is a single number. This operation multiplies every element of the matrix by the scalar. The resulting matrix has the same dimensions as the original matrix. Scalar multiplication can be used to scale a matrix, making it larger or smaller. It can also change the direction of the matrix's elements if the scalar is negative.
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