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Page No 6.14:

Question 1:

In each of the following, using the remainder theorem, find the remainder when f(x) is divided by g(x) and verify the result by actual division: (1−8)

1. f(x) = x3 + 4x2 − 3x + 10, g(x) = x + 4

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

Now we will show by actual division

So the remainder by actual division is 22

Page No 6.14:

Question 2:

f(x) = 4x4 − 3x3 − 2x2 + x − 7, g(x) = x − 1

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

Now we will show remainder by actual division

So the remainder by actual division is −7

Page No 6.14:

Question 3:

f(x) = 2x4 − 6x3 + 2x2x + 2, g(x) = x + 2

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

Now we will calculate the remainder by actual division

So the remainder by actual division is 92

Page No 6.14:

Question 4:

f(x) = 4x3 − 12x2 + 14x − 3, g(x) = 2x − 1

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

Now we will calculate the remainder by actual division

So the remainder by actual division is

Page No 6.14:

Question 5:

f(x) = x3 − 6x2 + 2x − 4, g(x) = 1 − 2x

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

Now we will calculate remainder by actual division

So the remainder is

Page No 6.14:

Question 6:

f(x) = x4 − 3x2 + 4, g(x) = x − 2

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

We will calculate remainder by actual division

So the remainder is 8

Page No 6.14:

Question 7:

 f(x) = 9x3 − 3x2 + x − 5, g(x) = x-23

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

Remainder by actual division

Remainder is −3

Page No 6.14:

Question 8:

f(x) = 3x4 + 2x3-x23-x9+227, g(x)=x+23

Answer:

Let us denote the given polynomials as

We have to find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

Remainder by actual division

Remainder is 0

Page No 6.14:

Question 9:

If the polynomials 2x3 + ax2 + 3x − 5 and x3 + x2 − 4x +a leave the same remainder when divided by x −2, find the value of a.

Answer:

Let us denote the given polynomials as

Now, we will find the remaindersandwhenandrespectively are divided by.

By the remainder theorem, whenis divided bythe remainder is

By the remainder theorem, whenis divided bythe remainder is

By the given condition, the two remainders are same. Then we have,

Page No 6.14:

Question 10:

If the polynomials ax3 + 3x2 − 13 and 2x3 − 5x + a, when divided by (x − 2) leave the same remainder, find the value of a.

Answer:

Let us denote the given polynomials as

Now, we will find the remaindersandwhenandrespectively are divided by.

By the remainder theorem, whenis divided bythe remainder is

By the remainder theorem, whenis divided bythe remainder is

By the given condition, the two remainders are same. Then we have, R1 = R2

Page No 6.14:

Question 11:

Find the remainder when x3 + 3x2 + 3x + 1 is divided by

(i) x + 1

(ii) x-12

(iii) x

(iv) x+π

(v) 5 + 2x
 

Answer:

Let us denote the given polynomials as

(i) We will find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

(ii) We will find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

(iii) We will find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

(iv) We will find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is

(v) We will find the remainder whenis divided by.

By the remainder theorem, whenis divided bythe remainder is



Page No 6.15:

Question 12:

The polynomials ax3 + 3x2 − 3 and 2x3 − 5x + a when divided by (x − 4) leave the remainders R1 and R2 respectively. Find the values of a in each of the following cases, if

(a) R1 = R2

(b) R1 + R2 = 0

(c) 2R1R2 = 0

Answer:

Let us denote the given polynomials as

Now, we will find the remaindersandwhenandrespectively are divided by.

By the remainder theorem, whenis divided bythe remainder is

By the remainder theorem, whenis divided bythe remainder is

(i) By the given condition,

R1 = R2

(ii) By the given condition,

R1 + R2 = 0

(iii) By the given condition,

2R1R2 = 0



Page No 6.2:

Question 1:

Which of the following expressions are polynomials in one variable and which are not? State reasons for your answer:

(i) 3x2 − 4x + 15

(ii) y2 + 23

(iii) 3x+2x

(iv) x-4x

(v) x12 + y3 + t50

Answer:

(i) is a polynomial of degree 2.i.e Quadratic polynomial.

(ii) is a polynomial of degree 2 in y variable. i.e. Quadratic polynomial.

(iii)

It is not a polynomial because exponent of x is 1/2 which is not a positive integer.

(iv)

It is not a polynomial because is fractional part.

(v)

It is a polynomial in three variables x, y and t.

Page No 6.2:

Question 2:

Write the coefficient of x2 in each of the following:

(i) 17 − 2x + 7x2

(ii) 9 − 12x + x3

(iii) π6x2-3x+4

(iv) 3x-7

Answer:

(i)

Coefficient of

(ii)

Coefficient of

(iii)

Coefficient of

(iv)

Coefficient of



Page No 6.24:

Question 1:

In each of the following, use factor theorem to find whether polynomial g(x) is a factor of polynomial f(x) or, not: (1−7)

f(x) = x3 − 6x2 + 11x − 6; g(x) = x − 3

Answer:

Given that:

By the factor theorem,

If g(x) is a factor of f(x)

i.e.

Then

As is zero therefore g(x), is the factor of polynomial f(x).

Page No 6.24:

Question 2:

f(x) = 3x4 + 17x3 + 9x2 − 7x − 10; g(x) = x + 5
 

Answer:

It is given that and 

By the factor theorem, g(x) is a factor of polynomial f(x)

i.e. 

Therefore,

f(-5)=3-54+17-53+9-52-7-5-10=3×625+17×-125+225+35-10=1875-2125+250=0

Hence, g(x) is the factor of polynomial f(x).

Page No 6.24:

Question 3:

f(x) = x5 + 3x4x3 − 3x2 + 5x + 15, g(x) = x + 3

Answer:

It is given that and

By the factor theorem, g(x) is the factor of polynomial f(x).

i.e.


f
(−3) = 0

Hence, g(x) is the factor of polynomial f (x).

Page No 6.24:

Question 4:

f(x) = x3 −6x2 − 19x + 84, g(x) = x − 7

Answer:

It is given that and

By the factor theorem, g(x) is the factor of polynomial f(x), if f (7) = 0.

Therefore, in order to prove that (x − 7) is a factor of f(x).

It is sufficient to show that f(7) = 0

Now,

Hence, (x − 7) is a factor of polynomial f(x).

Page No 6.24:

Question 5:

f(x) = 3x3 + x2 − 20x +12, g(x) = 3x − 2

Answer:

It is given that and

By the factor theorem,

(3x − 2) is the factor of f(x), if

Therefore,

In order to prove that (3x − 2) is a factor of f(x).

It is sufficient to show that

Now,

Hence, (3x − 2) is the factor of polynomial f(x).

Page No 6.24:

Question 6:

f(x) = 2x3 − 9x2 + x + 12, g(x) = 3 − 2x

Answer:

It is given that and

By factor theorem, (3 − 2x) is the factor of f(x), if = 0

Therefore,

In order to prove that (3 − 2x) is a factor of f(x). It is sufficient to show that

Now,

Hence, (3 − 2x), is the factor of polynomial f(x).

Page No 6.24:

Question 7:

f(x) = x3 − 6x2 + 11x − 6, g(x) = x2 − 3x + 2

Answer:

It is given that and

We have

x-2 and (x − 1) are factor of g(x) by the factor theorem.

To prove that (x − 2) and (x − 1) are the factor of f(x).

It is sufficient to show that f(2) and f(1) both are equal to zero.

And

Hence, g(x) is the factor of the polynomial f(x).

Page No 6.24:

Question 8:

Show that (x − 2), (x + 3) and (x − 4) are factors of x3 − 3x2 − 10x + 24.

Answer:

Let be the given polynomial.

By factor theorem,

and are the factor of f(x).

If and f(4) are all equal to zero.

Now,

also

And

Hence, and are the factor of polynomial f(x).

Page No 6.24:

Question 9:

Show that (x + 4) , (x − 3) and (x − 7) are factors of x3 − 6x2 − 19x + 84

Answer:

Let be the given polynomial.

By the factor theorem,

and are the factor of f(x).

If and f(7) are all equal to zero.

Therefore,

Also

And

Hence, and are the factor of the polynomial f(x).

Page No 6.24:

Question 10:

For what value of a is (x − 5) a factor of x3 − 3x2 + ax − 10?

Answer:

Let be the given polynomial.

By factor theorem, is the factor of f(x), if f (5) = 0

Therefore,

Hence, a = − 8.

Page No 6.24:

Question 11:

Find the value of a such that (x − 4)  is a factors of 5x3 − 7x2ax − 28.

Answer:

Let be the given polynomial.

By the factor theorem,

(x − 4) is a factor of f(x).

Therefore f(4) = 0

Hence ,


320-112-4a-28=0180-4a=0a=1804=45

Hence,

Page No 6.24:

Question 12:

Find the value of a, if x + 2 is a factor of 4x4 + 2x3 − 3x2 + 8x + 5a.

Answer:

Let 4x4 + 2x3 − 3x2 + 8x + 5be the polynomial.

By the factor theorem,

is a factor of f(x) if f(−2) = 0.

Therefore,

Hence,

Page No 6.24:

Question 13:

Find the value k if x − 3 is a factor of k2x3 kx2 + 3kxk.

Answer:

Let be the given polynomial.

By the factor theorem,

(x − 3) is a factor of f(x) if f (3) = 0

Therefore,


27k2-9k+9k-k=027k2-k=0k27k-1=0k=0 or k=127

Hence, the value of k is 0 or .

Page No 6.24:

Question 14:

Find the values of a and b, if (x2 − 4) is a factor of ax4 + 2x3 − 3x2 + bx − 4

Answer:

Let and be the given polynomial.

We have,

are the factors of g(x).

By factor theorem, if and both are the factor of f(x)

Then f(2) and f(−2) are equal to zero.

Therefore,

and

Adding these two equations, we get

Putting the value of a in equation (i), we get

Hence, the value of a and b are 1, − 8 respectively.

Page No 6.24:

Question 15:

Find α and β, if (x + 1) and (x + 2) are factors of x3 + 3x2 − 2αx + β.

Answer:

Let be the given polynomial.

By the factor theorem, and are the factor of the polynomial f(x) if and both are equal to zero.

Therefore,

f(-1)=(-1)3+3(-1)2-2α-1+β=0f(-1)=-1+3+2α+β=02α+β=-2          ...(i)

and

Subtracting (i) from (ii)

We get,


                                 α=-1

Putting the value of α in equation (i), we get

Hence, the value of α and β are −1, 0 respectively.

Page No 6.24:

Question 16:

If x − 2 is a factor of each of the following two polynomials, find the values of a in each case

(i) x3 − 2ax2 + ax − 1

(ii) x5 − 3x4ax3 + 3ax2 + 2ax + 4

Answer:

(i) Let be the given polynomial.

By factor theorem, if (x − 2) is a factor of f(x), then f (2) = 0

Therefore,

Thus the value of a is 7/6.

(ii) Let f(x) = x5 − 3x4 − ax3 + 3ax2 + 2ax + 4 be the given polynomial.

By the factor theorem, (x − 2) is a factor of f(x), if f (2) = 0

Therefore,

Thus, the value of a is .



Page No 6.25:

Question 17:

In each of the following two polynomials, find the value of a, if (x a) is  factor:

(i) x6ax5 + x4ax3 + 3xa + 2

(ii x5a2x3 + 2x + a + 1)

Answer:

(i) Let be the given polynomial.

By factor theorem, (xa) is a factor of the polynomial if f(a) = 0

Therefore,

Thus, the value of a is − 1.

(ii) Let be the given polynomial.

By factor theorem, (xa) is a factor of f(x), if f(a) = 0.

Therefore,

Thus, the value of a is − 1/3.

Page No 6.25:

Question 18:

In each of the following two polynomials, find the value of a, if (x + a) is a factor.

(i) x3 + ax2 − 2x +a + 4

(ii) x4a2x2 + 3xa

Answer:

(i) Let be the given polynomial.

By the factor theorem, (+ a) is the factor of f(x), if f(− a) = 0, i.e.,

Thus, the value of a is − 4/3.

(ii) Let be the polynomial. By factor theorem, (x + a) is a factor of the f(x), if f(− a) = 0, i.e.,

Thus, the value of a is 0.

Page No 6.25:

Question 19:

Find the values of p and q so that x4 + px3 + 2x2 − 3x + q is divisible by (x2 − 1).

Answer:

Let and be the given polynomials.

We have,

Here, are the factor of g(x).

If f(x) is divisible by and , then and are factor of f(x).

Therefore, f(1) and f(−1) both must be equal to zero.

Therefore,

and

Adding both the equations, we get,

Putting this value in (i)

Hence, the value of p and q are 3, −3 respectively.

Page No 6.25:

Question 20:

Find the values of a and b so that (x + 1) and (x − 1) are factors of x4 + ax3 − 3x2 + 2x + b.

Answer:

Let be the given polynomial.

By factor theorem, and are the factors of f(x) if f(−1) and f(1) both are equal to zero.

Therefore,

and

Adding equation (i) and (ii), we get

Putting this value in equation (i), we get,

Hence, the value of a and b are – 2 and 2 respectively.

Page No 6.25:

Question 21:

If x3 + ax2bx+ 10 is divisible by x2 − 3x + 2, find the values of a and b.

Answer:

Let and be the given polynomials.

We have,

Here, and are the factors of g(x),

Now,

By factor theorem,

and

Subtracting (ii) by (i), we get,

2a-b-a-b=-9--11a=2
Putting this value in equation (ii), we get,

Hence, the value of a and b are 2 and 13 respectively.

Page No 6.25:

Question 22:

If both (x + 1) and (x − 1) are factors of ax3 + x2 − 2x + b, find the values of a and b.

Answer:

Let be the given polynomial.

By factor theorem, if and both are factors of the polynomial f (x). if f(−1) and f(1) both are equal to zero.

Therefore,

And

Adding (i) and (ii), we get

And putting this value in equation (ii), we get,

a = 2

Hence, the value of a and b are 2 and −1 respectively.

Page No 6.25:

Question 23:

What must be added to x3 − 3x2 − 12x + 19 so that the result is exactly divisibly by x2 + x - 6 ?

Answer:

Let and be the given polynomial.

When p(x) is divided by q(x), the reminder is a linear polynomial in x.

So, let r(x) = ax + b is added to p(x), so that p(x) + r(x) is divisible by q(x).

Let

Then,

We have,

Clearly, q(x) is divisible by and i.e., and are the factors of q(x).

Therefore, f (x) is divisible by q(x), if and are factors of f(x), i.e.,

and f(2) = 0

Now, f(-3) = 0

f(-3) = (-3)3 -3(-3)2 + (a-12)(-3)+19+b = 0

-27 - 27 - 3a + 36 + 19 + b = 0

-27 - 27 - 3a + 36 + 19 + b = 0

-54 - 3a + b + 55 = 0

-3a + b + 1 = 0    ---- (i)
 

And

Subtracting (i) from (ii), we get,

Putting this value in equation (ii), we get,

Hence, p(x) is divisible by q(x) if added to it.

Page No 6.25:

Question 24:

What must be subtracted from x3 − 6x2 − 15x + 80 so that the result is exactly divisible by x2 + x − 12?

Answer:

By divisible algorithm, when is divided by the reminder is a linear polynomial

Let be subtracted from p(x) so that the result is divisible by q(x).

Let

We have,

Clearly, and are factors of q(x), therefore, f(x) will be divisible by q(x) if and are factors of f(x), i.e. f (−4) and f (3) are equal to zero.

Therefore,

and

Adding (i) and (ii), we get,

Putting this value in equation (i), we get,

Hence, will be divisible by if 4 x − 4 is subtracted from it

Page No 6.25:

Question 25:

What must be added to 3x3 + x2 − 22x + 9 so that the result is exactly divisible by 3x2 + 7x − 6?

Answer:

By division algorithm, when is divided by the reminder is a linear polynomial. So, let r(x) = ax + b be added to p(x) so that the result is divisible by q(x)

Let

We have,

qx = 3x2 + 7x - 6        = 3x2 + 9x - 2x - 6        = 3xx + 3 - 2x + 3        = 3x - 2 x + 3

Clearly, 3x - 2 and x + 3 are factors of q(x).

Therefore, f(x) will be divisible by q(x) if and are factors of f(x), i.e.,

and f(−3) are equal to zero.

Now,

   f23 = 03233 + 232 + a - 2223 + 9 + b = 03×827 + 49 + 2a3 - 443 + 9 + b = 089 + 49 - 443+ 9 + 2a3 + b = 08 + 4 - 132 + 81 9 + 2a3 + b = 0-399 + 2a3 + b = 02a3 + b = 1332a + 3b = 13          ........i

And

     f-3 = 03-33 + -32 + a - 22-3 + 9 + b = 0-81 + 9 - 3a + 66 + 9 + b = 0-3a + b = -3 b = -3 + 3a           .........ii

Substituting the value of b from (ii) in (i), we get,
     2a + 33a - 3 = 132a + 9a - 9 = 1311a = 13 + 911a = 22a = 2
Now, from (ii), we get
b = - 3 + 32 = -3 + 6 = 3

So, we have a = 2  and  b = 3

Hence, p(x) is divisible by q(x), if is added to it.



Page No 6.3:

Question 3:

Write the degrees of each of the following polynomials:

(i) 7x3 + 4x2 − 3x + 12

(ii) 12 − x + 2x3

(iii) 5y-2

(iv) 7

(v) 0

Answer:

(i) 7x3 + 4x2 − 3x + 12

Degree of the polynomial = 3

Because the highest power of x is 3.

(ii)

Degree of the polynomial = 3. Because the highest power of x is 3.

(iii)

Degree of the polynomial = 1. Because the highest power of y is 1.

(iv) 7

Degree of the polynomial = 0. Because there is no variable term in the expression

(v) 0

Degree of the polynomial is not defined. As there is no variable or constant term

Page No 6.3:

Question 4:

Classify the following polynomials as linear, quadratic, cubic and biquadratic polynomials:

(i) x + x2 + 4

(ii) 3x − 2

(iii) 2x + x2

(iv) 3y

(v) t2 + 1

(vi) 7t4 + 4t3 + 3t − 2

Answer:

(i)

The degree of the polynomial is 2. It is quadratic in x.

So, it is quadratic polynomial.

(ii)

The degree of the polynomial is 1. It is a linear polynomial in x.

(iii)

The degree of the polynomial is 1.

It is linear a polynomial in x.

(iv) 3y

The degree of the polynomial is 1. It is linear in y.

(v)

The degree of the polynomial is 2. It is quadratic polynomial in t.

(vi)

The degree of the polynomial is 4. Therefore, it is bi-quadratic polynomial in t.

Page No 6.3:

Question 5:

Classify the following polynomials as polynomials in one-variable, two variables etc.:

(i) x2xy + 7y2

(ii) x2 − 2tx + 7t2x + t

(iii) t3 − 3t2 + 4t − 5

(iv) xy + yz + zx

Answer:

(i)

Here, x and y are two variables.

So, it is polynomial in two variables.

(ii)

Here, x and t are two variables.

So, it is polynomial in two variables.

(iii)

Here, only t is variable.

So, it is polynomial in one variable.

(iv)

Here, x, y and z are three variables

So, it is polynomial in three variables.

Page No 6.3:

Question 6:

Identify polynomials in the following:

(i) f(x) = 4x3x2 − 3x + 7

(ii) g(x) = 2x3 − 3x2 + x − 1

(iii) p(x) = 23x2-74x+9

(iv) q(x) = 2x2 − 3x + 4x+ 2

(v) h(x) = x4-x32+x-1

(vi) f(x) = 2 +3x+4x

Answer:

(i)

It is cubic in x, so, it is cubic polynomial in x variable.

 

(ii)

Here, exponent of x in is not a positive integer, so, it is not a polynomial.

 

(iii)

It is a quadratic polynomial.

 

(iv) q(x) = 2x2 − 3x + 4x+ 2

Here, exponent of x in is not a positive integer. So it is not a polynomial.

 

(v)

Here, exponent of x in x3/2 is not a positive integer. So, it is not a polynomial.

 

(vi)

Here, exponent of x in is not a positive integer, so, it not a polynomial.

 

Page No 6.3:

Question 7:

Identify constant, linear, quadratic and cubic polynomials from the following polynomials:

(i) f(x) = 0

(ii) g(x) = 2x3 − 7x + 4

(iii) h(x) = -3x+12

(iv) p(x) = 2x2x + 4

(v) q(x) = 4x + 3

(vi) r(x) = 3x3 + 4x2 + 5x − 7

Answer:

(i)

The given expression is a Constant polynomial as there is no variable term in it.

 

(ii)

The given expression is Cubic polynomial as the highest exponent of x is 3.

 

(iii)

The given expression is linear polynomial as the highest exponent of x is 1.

 

(iv)

The given expression is Quadratic polynomial as the highest exponent of x is 2.

 

(v)

The given polynomial is an linear polynomial as the highest exponent of x is 1.

 

(vi)

The given polynomial is Cubic polynomial as the highest exponent of x is 3.

Page No 6.3:

Question 8:

Give one example each of a binomial of degree 35, and of a monomial of degree 100.

Answer:

An example of binomial of degree 35 is f(t) = 4t35-12. It is a binomial as it has two terms and degree is 35 because highest exponent of t is 35.

An example of monomial of degree 100 is . It is a monomial as it has only one term and degree is 100 because highest exponent of x is 100



Page No 6.32:

Question 1:

Using factor theorem, factorize each of the following polynomials:

x3 + 6x2 + 11x + 6
 

Answer:

Let f(x) = x3 + 6x2 + 11x + 6 be the given polynomial.

Now, put the we get

Therefore, is a factor of f(x).

Now,
f(x)=x3+5x2+x2+5x+6x+6

Hence, are the factors of f(x).

Page No 6.32:

Question 2:

x3 + 2x2x − 2

Answer:

Let be the given polynomial.

Now, put the x = -1, we get

f(-1)=-13+2-12--1-2=0

Therefore, is a factor of polynomial f(x).

Now, x3 + 2x2 − x − 2 can be written as,
f(x)=x3+3x2-x2-3x+2x-2

Hence, are the factors of the polynomial f(x).

Page No 6.32:

Question 3:

x3 − 6x2 + 3x + 10

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,
f(x)=x3-7x2+x2+10x-7x+10

Hence, are the factors of the polynomial f(x).

Page No 6.32:

Question 4:

x4 − 7x3 + 9x2 + 7x − 10

Answer:

Let be the given polynomial.

Now, putting we get

f(1)=14-713+912+71-10=1-7+9+7-10=0

Therefore, is a factor of polynomial f(x).

Now,
f(x)=x4-x3-6x3+6x2+3x2-3x+10x-10

Where

Putting we get

Therefore, is a factor of g(x).

Now,
g(x)=x3-7x2+x2-7x+10x+10

From equation (i) and (ii), we get

Hence are the factors of polynomial f(x).

Page No 6.32:

Question 5:

3x3x2 − 3x + 1

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Hence are the factors of polynomial f(x).

Page No 6.32:

Question 6:

x3 − 23x2 + 142x − 120

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Hence are the factors of polynomial f(x).



Page No 6.33:

Question 7:

y3 − 7y + 6

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(y).

Now,

Hence are the factors of polynomial f (y).

Page No 6.33:

Question 8:

x3 − 10x2 − 53x − 42

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 9:

y3 − 2y2 − 29y − 42

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(y).

Now,

Hence are the factors of polynomial f(y).

Page No 6.33:

Question 10:

2y3 − 5y2 − 19y + 42

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(y).

Now,

Hence are the factors of polynomial f(y).

Page No 6.33:

Question 11:

x3 + 13x2 + 32x + 20

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 12:

x3 − 3x2 − 9x − 5

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 13:

2y3 + y2 − 2y − 1

Answer:

Let be the given polynomial.

Now, putting we get

Now,

Hence are the factors of polynomial f(y).

Page No 6.33:

Question 14:

x3 − 2x2x + 2

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 15:

Factorize each of the following polynomials:

(i) x3 + 13x2 + 31x − 45 given that x + 9 is a factor

(ii) 4x3 + 20x2 + 33x + 18 given that 2x + 3 is a factor.

Answer:

(i) Let be the given polynomial.

is a factor of the polynomial f(x).

Now,

Hence are the factors of polynomial f(x).

(ii) Let be the given polynomial.

Therefore is a factor of the polynomial f(x).

Now,

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 16:

x4 − 2x3 − 7x2 + 8x + 12

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,
f(x)=x4-3x3+x3-3x2-4x2+12x-4x+12

Where

Putting we get

Therefore, is the factor of g(x).

Now,
g(x)=x3-2x2-x2-6x+2x+12

From equation (i) and (ii), we get

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 17:

x4 + 10x3 + 35x2 + 50x + 24

Answer:

Let fx=x4+10x3+35x2+50x+24 be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Where

Putting we get

Therefore, is the factor of g(x).

Now,

From equation (i) and (ii), we get

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 18:

2x4 − 7x3 − 13x2 + 63x − 45

Answer:

Let be the given polynomial.

Now, putting we get

Therefore, is a factor of polynomial f(x).

Now,

Where

Putting we get

Therefore, is a factor of g(x).

Now,

From equation (i) and (ii), we get

Hence are the factors of polynomial f(x).

Page No 6.33:

Question 1:

Which one of the following is a polynomial?

(a) x22-2x2

(b) 2x-1

(c) x2+3x3/2x

(4) x-1x+1

Answer:

(a) x22-2x2=x22-2x-2

Exponent of x cannot be negative.
Therefore, it is not a polynomial.

(b) 2x-1

Exponent of x must be a whole number.
Therefore, it is not a polynomial.

(c) x2+3x3/2x=x2+3x32-12=x2+3x

It is a polynomial.

(d)  x-1x+1

It is not a polynomial.


Hence, the correct option is (c).



 

Page No 6.33:

Question 2:

Degree of the polynomial f(x) = 4x4 + 0x3 + 0x5 + 5x + 7 is
(a) 4
(b) 5
(c) 3
(d) 7

Answer:

Given: f(x) = 4x4 + 0x+ 0x5 + 5x + 7 = 4x4 + 5x + 7

Degree is the highest power of x in the polynomial.

Here, the highest power of x is 4.

Thus, degree of the polynomial is 4.

Hence, the correct option is (a).



Page No 6.34:

Question 3:

Degree of the zero polynomial is
(a) 0
(b) 1
(c) any natural number
(d) not defined

Answer:

The zero polynomial is a polynomial in which all the coefficients are zero.
We can't say about powers of x.

Thus, degree of the zero polynomial is not defined.

Hence, the correct option is (d).

Page No 6.34:

Question 4:

2 is a polynomial of degree
(a) 2
(b) 0
(c) 1
(d) 12

Answer:

Given: f(x) = 2
It can also be written as fx=2x0.

Degree is the highest power of x in the polynomial.

Here, the highest power of x is 0.

Thus, degree of the polynomial is 0.

Hence, the correct option is (b).

Page No 6.34:

Question 5:

Zero of the zero polynomial is
(a) 0
(b) 1
(c) any real number
(d) not defined

Answer:

Given: zero polynomial i.e., f(x) = 0

Zero of a polynomial is the value of x at which the polynomial becomes zero.

Here, any value of x can be a zero of the zero polynomial.

Hence, the correct option is (c).

Page No 6.34:

Question 6:

If f(x) = x + 3, then f(x) + f(–x) is equal to
(a) 3
(b) 2x
(c) 0
(d) 6

Answer:

Given: f(x) = + 3

f(–x) = –+ 3

Thus, 
f(x) + f(–x) = + 3 + (–+ 3)
                  = + 3 – + 3
                  = 6 

Hence, the correct option is (d).

Page No 6.34:

Question 7:

Zero of the polynomial f(x) = 3x + 7 is
(a) 73
(b) -37
(c) -73
(d) –7

Answer:

Given: f(x) = 3x + 7

Zero of a polynomial is the value of x at which the polynomial becomes zero.

fx=03x+7=03x=-7x=-73

Therefore, zero of the polynomial f(x) = 3x + 7 is -73.

Hence, the correct option is (c).

Page No 6.34:

Question 8:

On of the zeros of the polynomial f(x) = 2x2 + 7x – 4 is
(a) 2
(b) 12
(c) -12
(d) –2

Answer:

Given: f(x) = 2x2 + 7x – 4

Zero of a polynomial is the value of x at which the polynomial becomes zero.

fx=02x2+7x-4=02x2+8x-x-4=02xx+4-1x+4=02x-1x+4=02x-1=0 or x+4=02x=1 or x=-4x=12 or x=-4

Therefore, zeroes of the polynomial f(x) = 2x2 + 7x – 4 are 12 and -4.
​
Hence, the correct option is (b).

Page No 6.34:

Question 9:

If fx=x2-22x+1, then f22 is equal to
(a) 0
(b) 1
(c) 42
(d) 82+1

Answer:

Given: f(x) = x2-22x+1

f22=222-2222+1           =222-222+1           =1
​
Hence, the correct option is (b).

Page No 6.34:

Question 10:

x + 1 is a factor of the polynomial
(a) x3 + x2 x + 1
(b) x3 + x2 + x + 1
(c) x4 + x3 + x2 + 1
(d) x4 + 3x3 + 3x2 + x + 1

Answer:

The polynomial f(x) which becomes zero when x = −1 is the required polynomial whose factor is x + 1.

(a) Let f(x) = x3 + x x + 1

f(−1) = (−1)3 + (−1)2 − (−1) + 1
         = −1 + 1 + 1 + 1 = 2 ≠ 0

Therefore, + 1 is not a factor of the polynomial,

(b) Let f(x) = x3 + x2 + x + 1

f(−1) = (−1)3 + (−1)2 + (−1) + 1
         = −1 + 1 − 1 + 1 = 0

Therefore, + 1 is a factor of the polynomial,

(c) Let f(x) = x4 + x3 + x2 + 1

f(−1) = (−1)4 + (−1)3 + (−1)2 + 1
         = 1 − 1 + 1 + 1 =  2 ≠ 0

Therefore, + 1 is not a factor of the polynomial,

(d) Let f(x) = x4 + 3x3 + 3x2 + x + 1

f(−1) = (−1)4 + 3(−1)3 + 3(−1)2 + (−1) + 1
         = 1 − 3 + 3 − 1 + 1 =  1 ≠ 0

Therefore, + 1 is not a factor of the polynomial,

Hence, the correct option is (b).

Page No 6.34:

Question 11:

If x2 + kx + 6 = (x + 2) (x + 3) for all x, then the value of k is
(a) 1
(b) –1
(c) 5
(d) 3

Answer:

Given: x2 + kx + 6 = (x + 2) (x + 3)

x2+kx+6=x+2x+3x2+kx+6=x2+2x+3x+6x2+kx+6=x2+5x+6kx=5xk=5

Hence, the correct option is (c).

Page No 6.34:

Question 12:

If x − 2 is a factor of x2 + 3ax − 2a, then a =

(a) 2

(b) − 2

(c) 1

(d) −1

Answer:

As is a factor of

i.e.

Hence, correct option is (d).

Page No 6.34:

Question 13:

If x3 + 6x2 + 4x + k is exactly divisible by x + 2, then k =

(a) −6

(b) −7

(c) −8

(d) −10

Answer:

As is exactly divisible by

i.e., is a factor of f(x).

Therefore,

Hence, the correct option is (c).

Page No 6.34:

Question 14:

If xa is a factor of x3 −3x2a + 2a2x + b, then the value of b is

(a) 0

(b) 2

(c) 1

(d) 3

Answer:

As is a factor of 

i.e. 


Thus, b = 0

Thus, the correct option is (a).

Page No 6.34:

Question 15:

If x140 + 2x151 + k is divisible by x + 1, then the value of k is

(a) 1

(b) −3

(c) 2

(d) −2

Answer:

As is divisible by

i.e., is a factor of f(x).

Therefore,

Hence, the correct option is (a).

Page No 6.34:

Question 16:

If x + 2 is a factor of x2 + mx + 14, then m =

(a) 7

(b) 2

(c) 9

(d) 14

Answer:

As is a factor of

Therefore,

Hence, the correct option is (c).

Page No 6.34:

Question 17:

If x − 3 is a factor of x2ax − 15, then a =

(a) −2

(b) 5

(c) −5

(d) 3

Answer:

As is a factor of polynomial

i.e.

Therefore,

Hence, the correct option is (a)



Page No 6.35:

Question 23:

Let f(x)  be a polynomial such that f-12 = 0, then a factor of f(x) is
(a) 2x − 1

(b) 2x + 1

(c) x − 1

(d) x + 1

Answer:

Let f(x) be a polynomial such that

i.e., is a factor.

On rearranging can be written as

Thus, is a factor of f(x).

Hence, the correct option is (b).

Page No 6.35:

Question 24:

When x3 − 2x2 + ax − b is divided by x2 − 2x − 3, the remainder is x − 6. The values of a and b are respectively

(a) −2, −6

(b) 2 and −6

(c) −2 and 6

(d) 2 and 6

Answer:

If the reminder (x −6) is subtracted from the given polynomial then rest of part of this polynomial is exactly divisible by x2 − 2x − 3.

Therefore,

Now,

Therefore, are factors of polynomial p(x).

Now,

And

and

Solving (i) and (ii) we get

Hence, the correct option is (c).

Page No 6.35:

Question 25:

One factor of x4 + x2 − 20 is x2 + 5. The other factor is

(a) x2 − 4

(b) x − 4

(c) x2 − 5

(d) x + 2

Answer:

It is given that is a factor of the polynomial

Here, reminder is zero. Therefore, is a factor of polynomial.

Thus, the correct option is (a).

Page No 6.35:

Question 26:

If (x − 1) is a factor of polynomial f(x) but not of g(x) , then it must be a factor of

(a) f(x) g(x)

(b) −f(x) + g(x)

(c) f(x) − g(x)

(d) f(x)+g(x) g(x)

Answer:

Asis a factor of polynomial f(x) but not of g(x)

Therefore

Now,

Let

Now

Therefore (x − 1) is also a factor of f(x).g(x).

Hence, the correct option is (a).

Page No 6.35:

Question 27:

(x+1) is a factor of xn + 1 only if

(i) n is an odd integer

(ii) n is an even integer

(iii) n is a negative integer

(iv) n is a positive integer

Answer:

The linear polynomial is a factor of only if

If n is odd integer, then

Hence, the correct option is (a).

Page No 6.35:

Question 28:

If x2 + x + 1 is a factor of the polynomial 3x3 + 8x2 + 8x + 3 + 5k, then the value of k is

(a) 0

(b) 2/5

(c) 5/2

(d) −1

Answer:

Let be the given polynomial,

Since is the factor of f(x). Therefore, re`maider will be zero.

Now,

Now,

Hence, the correct option is (b).

Page No 6.35:

Question 29:

If (3x − 1)7  = a7x7 + a6x6 + a5x5 +...+ a1x + a0, then a7 + a5 + ...+a1 + a0 =

(a) 0

(b) 1

(c) 128

(d) 64

Answer:

Given that,

Putting

We get

Hence, the correct option is (c).

Page No 6.35:

Question 30:

If both x − 2 and x-12 are factors of px2 + 5x + r, then

(a) p = r

(b) p + r = 0

(c) 2p + r = 0

(d) p + 2r = 0

Answer:

As and are the factors of the polynomial

i.e., and

Now,

And 

From equation (i) and (ii), we get

Hence, the correct option is (a).

Page No 6.35:

Question 18:

If x51 + 51 is divided by x + 1, the remainder is

(a) 0

(b) 1

(c) 49

(d) 50

Answer:

As is divided by

The remainder will be

Hence, the correct option is (d).

Page No 6.35:

Question 19:

If x + 1 is a factor of the polynomial 2x2 + kx, then k =

(a) −2

(b) −3

(c) 4

(d) 2

Answer:

As is a factor of polynomial Therefore,

So,

Hence, the correct option is (d).

Page No 6.35:

Question 20:

If x + a is a factor of x4a2x2 + 3x − 6a, then a =

(a) 0

(b) −1

(c) 1

(d) 2

Answer:

Asis a factor of polynomial

Therefore, 

Hence, the correct option is (a).

Page No 6.35:

Question 21:

The value of k for which x − 1 is a factor of 4x3 + 3x2 − 4x + k, is

(a) 3

(b) 1

(c) −2

(d) −3

Answer:

As is a factor of polynomial f(x) = 4x3 + 3x2 − 4x + k

Therefore,

Hence, the correct option is (d).

Page No 6.35:

Question 22:

If x + 2  and x − 1 are the factors of x3 + 10x2 + mx + n, then the values of m and n are respectively

(a) 5 and −3

(b) 17 and −8

(c) 7 and −18

(d) 23 and −19

Answer:

It is given and are the factors of the polynomial

i.e., and

Now

-8+40-2m+n=0-2m+n=-322m-n=32                         ...(i)

And

Solving equation (i) and (ii) we get

m = 7 and n = − 18

Hence, the correct option is (c)



Page No 6.36:

Question 31:

If x2 − 1 is a factor of ax4 + bx3 + cx2 + dx + e, then

(a) a + c + e = b + d

(b) a + b +e = c + d

(c) a + b + c = d + e

(d) b + c + d = a + e

Answer:

Asis a factor of polynomial

Therefore, 

And 

f(1) = 0

a14+b13+c12+d1+e=0a+b+c+d+e=0

And

Hence,

The correct option is (a).

Page No 6.36:

Question 1:

7 – 9x + 2x2 is called a _________ polynomial.

Answer:

Polynomial with degree 2 is known as a quadratic polynomial.

Hence, 7 – 9+ 2x2 is called a quadratic polynomial.

Page No 6.36:

Question 2:

12x – 7x2 + 4 – 2x3 is called a ___________ polynomial.

Answer:

Polynomial with degree 3 is known as a cubic polynomial.

​Hence, 12x – 7x2 + 4 – 2x3 is called a cubic polynomial.

Page No 6.36:

Question 3:

13x2 – 88x3 + 9x4 is called a _________ polynomial.

Answer:

Polynomial with degree 4 is known as a biquadratic polynomial.

​Hence, 12x – 7x2 + 4 – 2x3 is called a biquadratic polynomial.

Page No 6.36:

Question 4:

If x + 1 is a factor of the polynomial ax3 + x2 – 2x + 4a – 9, then a = __________.

Answer:

Let f(x) = ax3 + x2 – 2x + 4a – 9

It is given that one factor of f(x) is (x + 1).

Therefore, fx=0 when x=-1.

On putting x = –1 in f(x) = 0, we get

a-13+-12-2-1+4a-9=0-a+1+2+4a-9=03a-6=03a=6a=2

Hence, if x + 1 is a factor of the polynomial ax3 + x2 – 2x + 4a – 9, then a = 2.

Page No 6.36:

Question 5:

If 3x – 1 is a factor of the polynomial 81x3 – 45x2 +3a – 6, then the value of a is ___________.

Answer:

Let f(x) = 81x3 – 45x2 +3a – 6

It is given that one factor of f(x) is (3x – 1).

Therefore, fx=0 when x=13.

On putting x = 13 in f(x) = 0, we get

81133-45132+3a-6=081127-4519+3a-6=03-5+3a-6=03a-8=03a=8a=83

Hence, if 3x – 1 is a factor of the polynomial 81x3 – 45x2 +3a – 6, then the value of a is 83.

Page No 6.36:

Question 6:

The remainders obtained when x3 + x2 – 9x – 9 is divided by x, x + 1 and x + 2 respectively are _________.

Answer:

Let f(x) = x3 + x2 – 9– 9

To find the remainder obtained when x3 + x2 – 9– 9 is divided by x,

we use remainder theorem, put = 0.

f(0) is the remainder.

Now,

f(0) = (0)3 + (0)2 – 9(0) – 9
       = –9

Hence, the remainder obtained when x3 + x2 – 9– 9 is divided by x is –9.

To find the remainder obtained when x3 + x2 – 9– 9 is divided by x + 1,

put +1 = 0.

f(–1) is the remainder.

Now,

f(–1) = (–1)3 + (–1)2 – 9(–1) – 9
         = –1 + 1 + 9 – 9
         = 0

Hence, the remainder obtained when x3 + x2 – 9– 9 is divided by x + 1 is 0.

To find the remainder obtained when x3 + x2 – 9– 9 is divided by x + 2,

put +2 = 0.

f(–2) is the remainder.

Now,

f(–2) = (–2)3 + (–2)2 – 9(–2) – 9
         = –8 + 4 + 18 – 9
         = 5

Hence, the remainder obtained when x3 + x2 – 9– 9 is divided by x + 2 is 5.


Hence, the remainders obtained when x3 + x2 – 9– 9 is divided by x, x + 1 and x + 2 respectively are –9, 0 and 5.

 

Page No 6.36:

Question 7:

The remainder when f(x) = 4x3 – 3x2 + 2x – 1 is divided by 2x + 1 is __________.

Answer:

Let f(x) = 4x– 3x2 + 2x – 1

To find the remainder obtained when 4x– 3x2 + 2x – 1 is divided by 2x + 1,

we use remainder theorem, put 2x + 1 = 0.

f(-12) is the remainder.

Now,

f-12=4-123-3-122+2-12-1           =4-18-314-1-1           =-12-34-2           =-2-3-84           =-134

Hence, the remainder when f(x) = 4x– 3x2 + 2x – 1 is divided by 2x + 1 is -134.

Page No 6.36:

Question 8:

The degree of a polynomial f(x) is 7 and that of polynomial f(x) g(x) is 56, then degree of g(x) is ________.

Answer:

Given:
Degree of a polynomial f(x) = 7
Degree of polynomial f(xg(x) = 56

Degree of polynomial f(xg(x) = Degree of â€‹polynomial f(x) × Degree of â€‹polynomial g(x)
⇒ 56 = 7 × Degree of â€‹polynomial g(x)
⇒ Degree of â€‹polynomial g(x) = 567
⇒ Degree of â€‹polynomial g(x) = 8

Hence, degree of g(x) is 8.

Page No 6.36:

Question 9:

The remainder when x15 is divided by x + 1 is __________.

Answer:

Let f(x) = x15

To find the remainder obtained when x15 is divided by x + 1,

we use remainder theorem, put x + 1 = 0.

f(−1) is the remainder.

Now,

f-1=-115        =-1

Hence, the remainder when x15 is divided by + 1 is −1.

Page No 6.36:

Question 10:

If px=x2-4x+3, then p2-p-1+p12=_____________.

Answer:

Let p(x) =  x2 – 4x + 3

p2=22-42+3      =4-8+3      =-1p-1=-12-4-1+3         =1+4+3         =8p12=122-412+3        =14-2+3        =14+1        =1+44        =54Now,p2-p-1+p12=-1-8+54                              =-9+54                              =-36+54                              =-314

Hence, if px=x2-4x+3, then p2-p-1+p12=-314.

Page No 6.36:

Question 11:

If the polynomial f(x) = 5x5 – 3x3 + 2x2k gives remainder 1 when divided by x + 1, then k = __________.

Answer:

Let f(x) = 5x5 – 3x3 + 2x2 – k

To find the remainder obtained when 5x5 – 3x3 + 2x2 – k is divided by x + 1,

we use remainder theorem, put x + 1 = 0.

f(−1) is the remainder.

Now,

f-1=5-15-3-13+2-12-k1=5-1-3-1+21-k1=-5+3+2-k1=-kk=-1

Hence, k = –1.

Page No 6.36:

Question 12:

The remainder when f(x) = x45 is divided by x2 – 1 is  ____________.

Answer:

Let f(x) =  x45

To find the remainder obtained when  x45 is divided by  x2 – 1,

Let the remainder (r) be ax + b.

Then,
f(x) =  (x2 – 1) q + r 
x45=x2-1 q+ax+b      ...1Putting x=1 in equation 1, we get145=12-1 q+a1+b1=0+a+ba+b=1                              ...2Putting x=-1 in equation 1, we get-145=-12-1 q+a-1+b-1=0-a+b-a+b=-1                       ...3Solving 2 and 3, we getb=0 and a=1

Therefore, the remainder (r) = 1(x) + 0 = x.

Hence, the remainder when f(x) = x45 is divided by x2 – 1 is x.

Page No 6.36:

Question 1:

Define zero or root of a polynomial.

Answer:

A real number a is a zero (or root) of the polynomial f(x), if f (a) = 0

Page No 6.36:

Question 2:

If x=12 is a zero of the polynomial f(x) = 8x3 + ax2 − 4x + 2, find the value of a.

Answer:

Since is a zero of polynomial f(x).

Therefore

The value of a is .



Page No 6.37:

Question 3:

Write the remainder when the polynomial f(x) = x3 + x2 − 3x + 2 is divided by x + 1.

Answer:

When the polynomial f(x), divided by the remainder will be

Thus, the reminder = 5

Page No 6.37:

Question 4:

Find the remainder when x3 + 4x2 + 4x − 3  is divided by x.

Answer:

When the polynomial f(x) = x3 + 4x2 + 4x − 3 is divided by x the remainder will be.

Thus, the reminder = −3

Page No 6.37:

Question 5:

If x + 1 is a factor of x3 + a, then write the value of a.

Answer:

As is a factor of polynomial

i.e.

-13+a=0a=1

Thus, the value of a = 1

Page No 6.37:

Question 6:

If f(x) = x4 − 2x3 + 3x2axb when divided by x − 1, the remainder is 6, then find the value of a + b

Answer:

When polynomial divided by

The remainder is 6.

i.e.

Thus, the value of



Page No 6.8:

Question 1:

If f(x) = 2x3 − 13x2 + 17x + 12, find (i) f(2) (ii) f(−3) (iii) f(0)

Answer:

Let be the given polynomial

(i) The value of f (2) can be found by putting x = 2


        = 10 

(ii) The value of f (–3) can be found by putting x = –3

(iii) The value of f (0) can be found by putting x = 0

Page No 6.8:

Question 2:

Verify whether the indicated numbers are zeros of the polynomials corresponding to them in the following cases:

(i) f(x)=3x+1, x=-13

(ii) f(x)=x2-1, x=1, -1

(iii) g(x)=3x2-2, x=23, -23

(iv) p(x)=x3-6x2+11x-6, x=1, 2,3

(v) f(x)=5x-π, x=45

(vi) f(x)=x2, x=0

(vii) f(x)=lx+m, x=-m1

(viii) f(x)=2x+1, x=12

Answer:

(i) To check whether the given number is the zero of the polynomial or not we have to find

Hence, is the zeros of the given polynomial.

(ii) To check whether the given number is the zero of the polynomial or not we have to find and

Now,

And ,

Hence, and x = 1 are the zeros of the polynomial.

(iii) To check whether the given number is the zero of the polynomial or not we have to find

Now,

And

Here, both the value of , are not satisfied the polynomial. Therefore, they are not the zeros of the polynomial.

(iv) To check whether the given number is the zero of the polynomial or not we have to find

And

Hence, x = 1, 2, 3 are the zeros of the polynomial p(x).

(v)To check whether the given number is the zero of the polynomial or not we have to find

Here, , does not satisfy therefore, is not a zero of the polynomial.

(vi)To check whether the given number is the zero of the polynomial or not we have to find

Hence, x = 0 is the zeros of the polynomial.

(vii) To check whether the given number is the zero of the polynomial or not we have to find

Hence, is zeros of the polynomial.

(viii)To check whether the given number is the zero of the polynomial or not we have to find

Hence, does not satisyf the polynomial, so, is not zero of the polynomial.

Page No 6.8:

Question 3:

If x = 2 is a root of the polynomial f(x) = 2x2 − 3x + 7a, find the value of a.

Answer:

The given polynomial is

If x = 2 is the root of the polynomial.

Then

Page No 6.8:

Question 4:

If x=-12 is a zero of the polynomial p(x) = 8x3ax2x + 2, find the value of a.

Answer:

The given polynomial is

If is a zeros of the polynomial p(x).

then

Therefore,

Hence the value of

Page No 6.8:

Question 5:

If x = 0 and x = −1 are the roots of the polynomial f(x) =2x3 − 3x2 + ax + b, find the value of a and b.

Answer:

The given polynomial is

f(x) =2x3 − 3x2 ax + b

If is zeros of the polynomial f(x), then f(0) = 0

Similarly, if x = − 1 is the zeros of the polynomial of,

Then, 

Putting the value of b from equation (1)

Thus,

Page No 6.8:

Question 6:

Find the integral roots of the polynomial f(x) = x3 + 6x2 + 11x + 6.

Answer:

The given polynomial is

Here, f(x) is a polynomial with integer coefficient and the coefficient of highest degree term is 1. So, the integer roots of f(x) are factors of 6. Which are by observing.


          = 0   

Also,

And similarly,

f(−3) = 0

Therefore, the integer roots of the polynomial f(x) are −1, −2, − 3

Page No 6.8:

Question 7:

Find rational roots of the polynomial f(x) = 2x3 + x2 − 7x − 6.

Answer:

The given polynomial is


f(x) is a cubic polynomial with integer coefficients. If bc is rational root in lowest terms, then the values of b are limited
to the factors of 6 which are ±1,±2,±3,±6  and the values of c are limited to the factor of 2 as ±1,±2. Hence, the possible
rational roots are ±1,±2,±3,±6,±12,±32 

Since,

So, 2 is a root of the polynomial

Now, the polynomial can be written as,

Also,

Therefore,

Hence, the rational roots of the polynomialare 2, – 3/2 and – 1.



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