Ans. Using Mathematical Induction, we see the result is true for  for 

Given:  is true, i.e. 

To prove: 

Proof: L.H.S.  =  =  = 

= 

= 

=  = R.H.S.

Thus,  is true, therefore,  is true.

Ans. Given: A =           ……….(i) 

Let  

    = 

   is true for 

Now   ……….(ii)

Multiplying eq. (ii) by eq. (i),  

  = 

Therefore,  is true for all natural numbers by P.M.I.

Ans. Given: A’’ =        

   which is true for 

Now,         ……….(i)

Again        ……….(ii)

    [From eq. (i)]

   = 

  

Therefore, the result is true for 

Hence, by the principal of mathematical induction, the result is true for all positive integers 

Ans. A and B are symmetric matrices.    A’ = A and B’ = B  ……….(i) 

Now, (AB – BA)’ = (AB)’ – (BA)’    (AB – BA)’ = B’A’ – A’B’ [Reversal law]

 (AB – BA)’ = BA – AB   [Using eq. (i)]

 (AB – BA)’ = – (AB – BA)

Therefore, (AB – BA) is a skew symmetric.

Ans. (B’AB)’ = [B’(AB]’ = (AB)’ (B’)’   [ (CD)’ = D’C’] 

  (B’AB)’ = B’A’B   ……….(i)

Case I: A is a symmetric matrix, then   A’ = A

  From eq. (i)  (B’AB)’ = B’AB

 B’AB is a symmetric matrix.

Case II: A is a skew symmetric matrix.  A’ = – A

Putting A’ = – A in eq. (i),  (B’AB)’ = B’(– A)B = – B’AB

 B’AB is a skew symmetric matrix.

Ans. Given: A =  

  A’ = 

Now A’A = I   

 

 

Equating corresponding entries, we have

       

And       

And       

  , , 

Ans. Given:  

  

       

Equating corresponding entries, we have

       

Ans. Given: A =  

  A² – 5A + 7I = 

=  = 

=  =  = 

=  = 0 = R.H.S.        Proved.

Ans. Given:  

  

  

 

 

 

Equating corresponding entries, we have

      

Ans. According to question, the matrix  A =  

(a) Let B be the column matrix representing sale price of each unit of products 

Then B = 

Now Revenue = Sale price c Number of items sold

   =  = 

Therefore, the revenue collected by sale of all items in Market I = ` 46,000 and the revenue collected by sale of all items in Market II = ` 53,000.

(b) Let C be the column matrix representing cost price of each unit of products 

Then C = 

  Total cost = AC = 

=  = 

  The profit collected in two markets is given in matrix form as

Profit matrix = Revenue matrix – Cost matrix

 

Therefore, the gross profit in both the markets = ` 15000 + ` 17000 = ` 32,000.

Ans. Given: X  ……….(i) 

Putting X =  in eq. (i),  

  

Equating corresponding entries, we have

   …..(ii)      …..(iii)

 …..(iv)      …..(v)

…..(vi)      …..(vi)

Solving eq. (ii) and (iii), we have    and 

Solving eq. (v) and (vi), we have    and 

Putting these values in X = ,    X = 

Ans. Given: AB = BA …..(i) 

Let       ……(ii)

For     becomes AB = BA

   is true for 

For      

Multiplying both sides by B,      

     [From eq. (i)]

   is also true.

Therefore,  is true for all  N by P.M.I.

Ans. Given: A =  and A² = I 

  

  

  

Equating corresponding entries, we have

 

Therefore, option (C) is correct.

Ans. Since, A is symmetric, therefore, A’ = A ……..(i) 

And A is skew-symmetric, therefore, A’ = – A

  A = – A  [From eq. (i)]

  A + A = 0  2A = 0   A = 0

Therefore, A is zero matrix.

Therefore, option (B) is correct.

Ans. Given: A² = A    …..(i) 

Multiplying both sides by A,  A³ = A² = A [From eq. (i)]  ……(ii)

Also given (I + A)³ – 7A = I³ + A³ + 3I²A + 3IA² – 7A

Putting A² = A [from eq. (i)] and A³ = A [from eq. (ii)],

= I + A + 3IA + 3IA – 7A = I + A + 3A + 3A – 7A   [ IA = A]

= I + 7A – 7A = I

Therefore, option (C) is correct.