PSEB 9th Class Maths Solutions Chapter 2 Polynomials Ex 2.4

Punjab State Board PSEB 9th Class Maths Book Solutions Chapter 2 Polynomials Ex 2.4 Textbook Exercise Questions and Answers.

PSEB Solutions for Class 9 Maths Chapter 2 Polynomials Ex 2.4

Question 1.
Determine which of the following polynomials has (x + 1) a factor:
(i) x³ + x² + x + 1
Answer:
The zero of x + 1 is – 1.
Let, p(x) = x³ + x² + x + 1.
Then,
p(- 1) = (- 1)⁴ + (- 1)³ + (- 1)² + (- 1) + 1
= – 1 + 1 – 1 + 1
≠ 0
So, by the factor theorem, x + 1 is a
factor of x⁴ + x³ + x² + x + 1.

(ii) x³+ x³ + x² + x + 1
Answer:
The zero of x +1 is – 1.
Let, p(x) = x⁴ + x³ + x² + x + 1.
Then,
p(- 1) = (- 1)⁴ + (- 1)³ + (- 1)² + (- 1) + 1
= 1 – 1 + 1 – 1 + 1
= 1
≠ 0
So, by the factor theorem, x + 1 is not a factor of x⁴ + x³ + x² + x + 1.

(iii) x⁴ + 3x³ + 3x² + x + 1
Answer:
The zero of x + 1 Is – 1.
Let, p(x )= x⁴ + 3x³ + 3x² + x + 1.
Then,
p (-1) = (- 1)⁴ + 3 (- 1)³ + 3 (- 1)² + (- 1) + 1
= 1 – 3 + 3 – 1 + 1
= 1
≠ 0
So, by the factor theorem, x + 1 is not a factor of x⁴ + 3x³ + 3x² + x + 1.

(iv) x³ – x² – (2 + √2)x + √2
Answer:
The zero of x + 1 is – 1. .
Let, p(x) = x³ – x² – (2 + √2)x + √2.
Then.
p(- 1) = (- 1)³ – (- 1)² – (2 + √2) (- 1) + √2
= – 1 – 1 + 2 + √2 + √2
= 2√2
≠ 0
So, by the factor theorem, x + 1 is not a factor of x³ – x² – (2 + √2)x + √2.

Question 2.
Use the factor theorem to determine whether g (x) is a factor of p (x) in each of the following cases:
(i) p (x) = 2x³ + x² – 2x – 1, g (x) = x + 1
Answer:
g(x) = 0 gives x + 1 = 0, i.e., x = – 1.
Here, p(x) = 2x³ + x² – 2x – 1
Then, p(- 1) = 2(- 1)³ + (- 1)² – 2(- 1) – 1
= – 2 + 1 + 2 – 1
= 0
So, by the factor theorem, g (x) = x + 1 is a factor of p(x) = 2x³ + x² – 2x – 1.

(ii) p(x) = x³ + 3x² + 3x + 1, g(x) = x + 2
Answer:
g(x) = 0 gives x + 2 = 0, i.e., x = – 2.
Here, p(x) = x³ + 3x² + 3x + 1
Then, p(- 2) = (- 2)³ + 3(2)² + 3(- 2) + 1
= – 8 + 12 – 6 + 1
≠ 0
So, by the factor theorem, g (x) = x + 2 is not a factor of p(x) = x³ + 3x² + 3x + 1.

(iii) p (x) = x³ – 4x² + x + 6. g (x) = x – 3
Answer:
g(x) = 0 gives x – 3 = 0, i.e., x = 3.
Here, p (x) = x³ – 4x² + x + 6
Then, p(3)= (3)³ – 4(3)² + (3) + 6
= 27 – 36 + 3 + 6
= 0
So, by the factor theorem, g (x) = x – 3 is a factor of p (x) = x³ – 4x² + x + 6.

Question 3.
Find the value of k, If x – 1 is a factor of p(x) in each of the following cases:
(i) p(x) = x² + x + k
Answer:
Here x – 1 is a factor of p(x) = x² + x + k.
∴ p(1) = 0
∴ (1)² + (1) + k = 0
∴ 1 + 1 + k = 0
∴ 2 + k = 0
∴ k = – 2

(ii) p (x) = 2x² + kx + √2
Answer:
Here, x – 1 is a factor of
p(x) = 2x² + kx + √2.
∴ p(1) = 0
∴ 2(1)² + k(1) + √2 = 0
∴ 2 + k + √2 = 0
∴ k = -(2 + √2)

(iii) p (x) = kx² – √2x + 1
Answer:
Here, x – 1 is a factor of
p(x) = kx² – √2x + 1.
∴ p (1) = 0
∴ k(1)² – √2 (1) + 1 = 0
∴ k – √2 + 1 = 0
∴ k = √2 – 1

(iv) p (x) = kx² – 3x + k
Answer:
Here, x – 1 is a factor of p (x) = kx² – 3x + k.
∴ p(1) = 0
∴ k(1)² – 3(1) + k = 0
∴ k – 3 + k = 0
∴ 2k = 3
∴ k = [1atex]\frac{3}{2}[/1atex]

Question 4.
Factorise:
(i) 12x² – 7x + 1
Answer:
12x² – 7x + 1 = 12x² – 4x – 3x + 1
= 4x(3x – 1) – 1(3x – 1)
= (3x – 1)(4x – 1)

(ii) 2x² + 7x + 3
Answer:
2x² + 7x + 3 = 2x² + 6x + x + 3
= 2x(x + 3) + 1(x + 3)
= (x + 3) (2x + 1)

(iii) 6x² + 5x – 6
Answer:
6x² + 5x – 6 = 6x² + 9x – 4x – 6
= 3x(2x + 3) – 2(2x + 3)
= (2x + 3)(3x – 2)

(iv) 3x² – x – 4
Answer:
3x² – x – 4 = 3x² + 3x – 4x – 4
= 3x(x + 1) – 4(x + 1)
= (x + 1) (3x – 4)

Question 5.
Factorise:
(i) x³ – 2x² – x + 2
Answer:
Let, p(x) = x³ – 2x² – x + 2
All the factors of 2 are ± 1 and ± 2.
By trial, we find that p (1) = 0.
∴ x – 1 is a factor of p (x).
x³ – 2x² – x + 2
= x³ – x² – x² + x – 2x + 2
= x²(x – 1) – x(x – 1) – 2(x – 1)
= (x – 1) (x² – x – 2)
= (x – 1) (x² – 2x + x – 2)
= (x – 1) {x (x – 2)+ 1 (x – 2)}
= (x – 1) (x – 2) (x + 1)

(ii) x³ – 3x² – 9x – 5
Answer:
Let, p(x) = x³ – 3x² – 9x – 5
All the factors of – 5 are ± 1 and ±5.
By trial, we find that p (- 1) = 0.
∴ x + 1 is a factor of p (x).
x³ – 3x² – 9x – 5
= x³ + x² – 4x² – 4x – 5x – 5
= x²(x + 1) – 4x(x + 1) – 5(x + 1)
= (x + 1) (x² – 4x – 5)
= (x + 1) (x² + x – 5x – 5)
= (x + 1) {x(x + 1) – 5(x + 1)}
= (x + 1)(x + 1)(x – 5)

(iii) x³ + 13x² + 32x + 20
Answer:
Let, p (x) = x³ + 13x² + 32x + 20
All the factors of 20 are ± 1, ± 2, ± 4, ± 5, ± 10 and ± 20.
By trial, we find that p (- 1) = 0.
∴ x + 1 is a factor of p (x).
x³+ 13x² + 32x + 20
= x³ + x² + 12x² + 12x + 20x + 20
= x²(x + 1) + 12x(x + 1) + 20(x + 1)
= (x + 1) (x² + 12x + 20)
= (x + 1) (x² + 2x + 10x + 20)
= (x + 1) {x(x + 2) + 10(x + 2)}
= (x + 1) (x + 2) (x + 10)

(iv) 2y³ + y² – 2y – 1
Answer:
Let, p (y) = 2y³ + y² – 2y – 1
All the factors of – 1 are ± 1.
By trial, we find that p (- 1) = 0.
∴ y + 1 is a factor of p (y).
2y³ + y² – 2y – 1
= 2y³ + 2y² – y² – y – y – 1
= 2y²(y + 1) – y(y + 1) – 1 (y + 1)
= (y + 1) (2y² – y – 1)
= (y + 1) (2y² – 2y + y – 1)
= (y + 1) {2y (y – 1) + 1(y – 1)}
= (y + 1) (y – 1)(2y + 1)