### Question 14. Find the value of k for which each of the following system of equations having infinitely many solutions:

### 2x + 3y = 2,

### (k + 2)x + (2k + 1)y = 2(k − 1)

**Solution: **

Given that,

2x + 3y = 2

…(1)(k + 2)x + (2k + 1)y = 2(k − 1)

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 2, b1 = 3, c1 = −2

a2 = (k + 2), b2 = (2k + 1), c2 = −2(k − 1)

For unique solution, we have

a1/a2 = b1/b2 = c1/c2

= 2/(k + 2) = 3/(2k + 1) = -2/-2(k – 1)

= 2/(k + 2) = 3/(2k + 1) and 3/(2k + 1) = 2/2(k – 1)

= 2(2k + 1) = 3(k + 2) and 3(k − 1) = (2k + 1)

= 4k + 2 = 3k + 6 and 3k − 3 = 2k + 1

= k = 4 and k = 4

Hence, when k = 4 the given set of equations will have infinitely many solutions.

### Question 15. Find the value of k for which each of the following system of equations having infinitely many solutions:

### x + (k + 1)y = 4,

### (k + 1)x + 9y = (5k + 2)

**Solution: **

Given that,

x + (k + 1)y = 4

…(1)(k + 1)x + 9y = (5k + 2)

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 1, b1 = (k + 1), c1 = −4

a2 = (k + 1), b2 = 9, c2 = − (5k + 2)

For unique solution, we have

a1/a2 = b1/b2 = c1/c2

1/(k + 1) = (k + 1)/9 = -4/-(5k + 2)

1/(k + 1) = (k + 1)/9 and (k + 1)/9 = 4/(5k + 2)

9 = (k + 1)

^{2}and (k + 1)(5k + 2) = 369 = k2 + 2k + 1 and 5k2 + 2k + 5k + 2 = 36

k

^{2}+ 2k − 8 = 0 and 5k^{2}+ 7k − 34 = 0k

^{2}+ 4k − 2k − 8 = 0 and 5k^{2 }+ 17k − 10k − 34 = 0k(k + 4) −2 (k + 4) = 0 and (5k + 17) − 2 (5k + 17) = 0

(k + 4)(k − 2) = 0 and (5k + 17)(k − 2) = 0

k = – 4 or k = 2 and k = -17/5 or k = 2

Hence, k = 2 satisfies both the condition.

So, when k = 2 the given set of equations will have infinitely many solutions.

### Question 16. Find the value of k for which each of the following system of equations having infinitely many solutions:

### kx + 3y = 2k + 1,

### 2(k + 1)x + 9y = (7k + 1)

**Solution: **

Given that,

kx + 3y = 2k + 1

…(1)2(k + 1)x + 9y = (7k + 1)

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = k, b1 = 3, c1 = −(2k + 1)

a2 = 2(k + 1), b2 = 9, c2 = −(7k + 1)

For unique solution, we have

a1/a2 = b1/b2 = c1/c2

1/2(k + 2) = 3/9 = -2k + 1/-(7k + 1)

1/2(k + 2) = 3/9 and 3/9 = 2k + 1/(7k + 1)

9k = 3 × 2(k + 1) and 3(7k + 1) = 9(2k + 1)

9k − 6k = 6 and 21k − 18k = 9 − 3

3k = 6 ⇒ k = 2 and k = 2

Hence, when k = 2 the given set of equations will have infinitely many solutions.

### Question 17. Find the value of k for which each of the following system of equations having infinitely many solutions:

### 2x + (k − 2)y = k,

### 6x + (2k − 1)y = (2k + 5)

**Solution: **

Given that,

2x +( k − 2)y = k

…(1)6x + (2k − 1)y = (2k + 5)

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 2, b1 = (k − 2), c1 = −k

a2 = 6, b2 = (2k − 1), c2 = −(2k + 5)

For unique solution, we have

a1/a2 = b1/b2 = c1/c2

2/6 = k – 1/(2k – 1) = -k/-2(2k + 5)

2/6 = k – 1/(2k – 1) and (k – 1) / (2k – 1) = k / 2(2k + 5)

2k − 3k = −6 + 1 and k + k = 10

−k = −5 and 2k = 10 = k = 5 and k = 5

Hence, when k = 5 the given set of equations will have infinitely many solutions.

### Question 18. Find the value of k for which each of the following system of equations having infinitely many solutions:

### 2x + 3y = 7,

### (k + 1)x + (2k − 1)y = (4k + 1)

**Solution: **

Given that,

2x + 3y = 7

…(1)(k + 1)x + (2k − 1)y = (4k + 1)

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 2, b1 = 3, c1 = −7

a2 = k + 1, b2 = 2k − 1, c2 = −(4k + 1)

For unique solution, we have

a1/a2 = b1/b2 = c1/c2

2/(k + 1) = 3/(2k – 1) = -7/-(4k + 1)

2/(k + 1) = 3/(2k – 1) and 3/(2k – 1) = -7/-(4k + 1)

Extra close brace or missing open brace

4k − 2 = 3k + 3 and 12k + 3 = 14k − 7

k = 5 and 2k = 10 = k = 5 and k = 5

Hence, when k = 5 the given set of equations will have infinitely many solutions.

### Question 19. Find the value of k for which each of the following system of equations having infinitely many solutions:

### 2x + 3y = k,

### (k − 1)x + (k + 2)y = 3k

**Solution: **

Given that,

2x + 3y = k

…(1)(k − 1)x + (k + 2)y = 3k

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 2, b1 = 3, c1 = −k

a2 = k − 1, b2 = k + 2, c2 = −3k

For unique solution, we have

a1/a2 = b1/b2 = c1/c2

2/(k – 1) = 3/(k + 2) = -k/-3k

2/(k – 1) = 3/(k + 2) and 3/(k + 2) = -k/-3k

Extra close brace or missing open brace

2k + 4 = 3k − 3 and 9 = k + 2

2k + 4 = 3k − 3 and 9 = k + 2 ⇒ k = 7 and k = 7

Hence, when k = 7 the given set of equations will have infinitely many solutions.

### Question 20. Find the value of k for which the following system of equation has no solution:

### kx − 5y = 2,

### 6x + 2y = 7

**Solution: **

Given that,

kx − 5y = 2

…(1)6x + 2y = 7

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = k, b1 = −5, c1 = −2

a2 = 6 b2 = 2, c2 = −7

For no solution, we have

a1/a2 = b1/b2 ≠ c1/c2

1/2 = 2/k ≠ 2/7

k = 4

2k = -30

k = -15

Hence, when k = -15 the given set of equations will have no solutions.

### Question 21. Find the value of k for which the following system of equation has no solution:

### x + 2y = 0,

### 2x + ky = 5

**Solution: **

Given that,

x + 2y = 0

…(1)2x + ky = 5

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 1, b1 = 2, c1 = 0

a2 = 2, b2 = k, c2 = −5

For no solution, we have

a1/a2 = b1/b2 ≠ c1/c2

k/6 = -5/2 ≠ 2/7

k = 4

Hence, when k = 4 the given set of equations will have no solutions.

### Question 22. Find the value of k for which the following system of equation has no solution:

### 3x − 4y + 7 = 0,

### kx + 3y − 5 = 0

**Solution: **

Given that,

3x − 4y + 7 = 0

…(1)kx + 3y − 5 = 0

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 3, b1 = −4, c1 = 7

a2 = k, b2 = 3, c2 = −5

For no solution, we have

a1/a2 = b1/b2 ≠ c1/c2

3/k = -4/3

k = -9/4

Hence, when k = -9/4 the given set of equations will have no solutions.

### Question 23. Find the value of k for which the following system of equation has no solution:

### 2x − ky + 3 = 0,

### 3x + 2y − 1 = 0

**Solution: **

Given that,

2x − ky + 3 = 0

…(1)3x + 2y − 1 = 0

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 2, b1 = −k, c1 = 3

a2 = 3, b2 = 2, c2 = −1

For no solution, we have

a1/a2 = b1/b2 ≠ c1/c2

2/3 = -k/2

k = -4/3

Hence, when k = -4/3 the given set of equations will have no solutions.

### Question 24. Find the value of k for which the following system of equation has no solution:

### 2x + ky − 11 = 0,

### 5x − 7y − 5 = 0

**Solution:**

Given that,

2x + ky − 11 = 0

…(1)5x − 7y − 5 = 0

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 2, b1 = k, c1 = −11

a2 = 5, b2 = −7, c2 = −5

For no solution, we have

a1/a2 = b1/b2 ≠ c1/c2

2/5 = -k/-7

k = -14/5

Hence, when k = -14/5 the given set of equations will have no solutions.

### Question 25. Find the value of k for which the following system of equation has no solution:

### kx + 3y = 3,

### 12x + ky = 6

**Solution: **

Given that,

kx + 3y = 3

…(1)12x + ky = 6

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = k, b1 = 3, c1 = −3

a2 = 12, b2 = k, c2 = − 6

For no solution, we have

a1/a2 = b1/b2 ≠ c1/c2

k/12 = 3/k ≠ 3/6 …(5)

k

^{2}= 36 ⇒ k = + 6 or −6From eq (5), we get

k/12 ≠ 3/6

k ≠ 6

Hence, when k = -6 the given set of equations will have no solutions.

### Question 26. For what value of a, the following system of equation will be inconsistent?

### 4x + 6y − 11 = 0,

### 2x + ay − 7 = 0

**Solution: **

Given that,

4x + 6y − 11 = 0

…(1)2x + ay − 7 = 0

…(2)

So, the given equations are in the form of:a1x + b1y − c1 = 0

…(3)a2x + b2y − c2 = 0

…(4)

On comparing eq (1) with eq(3) and eq(2) with eq (4), we geta1 = 4, b1 = 6, c1 = −11

a2 = 2, b2 = a, c2 = −7

For inconsistent solution, we have

a1/a2 = b1/b2 ≠ c1/c2

a1/a2 = b1/b2

4/2 = 6/a

a = 3

Hence, when a = 3 the given set of equations will be inconsistent.