POLYNOMIALS
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POLYNOMIALS

90013 The number of zeroes of a cubic polynomial is:

1 At most 3
2 At least 3
3 2
4 3
POLYNOMIALS

90014 The graph of a cubic polynomial x3 - 4x meets the x-axis at (-2, 0), (0, 0) and (2, 0), then the zeroes of the polynomial are:

1 2, 0 and 0
2 0, 0 and 2
3 -2, 0 and 2
4 None of these
POLYNOMIALS

90015 Choose the correct answer from the given four options in the following questions: Given that one of the zeroes of the cubic polynomial ax\(^{1}\) + bx\(^{1}\) + cx + d is zero, the product of the other two zeroes is:

1 \(-\frac{\text{c}}{\text{a}}\)
2 \(\frac{\text{c}}{\text{a}}\)
3 \(0 \)
4 \(-\frac{\text{b}}{\text{a}}\)
POLYNOMIALS

90016 Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following: Assertion: t\(^{1}\) is a quadratic polynomial. Reason: The degree of the given expression is 2. So, it is a quadratic polynomial.

1 Both assertion (A) and reason (R) are true and reason (R) is the correct explanation of assertion (A).
2 Both assertion (A) and reason (R) are true but reason (R) is not the correct explanation of assertion (A).
3 Assertion (A) is true but reason (R) is false.
4 Assertion (A) is false but reason (R) is true.
POLYNOMIALS

90017 Which of the following is a polynomial?

1 \(\text{x}^2-\text{5x}+4\sqrt{\text{x}}+3\)
2 \(\text{x}^{frac{3}{2}}-\text{x}+\text{x}^{frac{1}{2}}+1\)
3 \(\sqrt{\text{x}}+\frac{1}{\sqrt{ \text{x}}}\)
4 \(\sqrt2\text{x}^2-3\sqrt3\text{x}+\sqrt6\)
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POLYNOMIALS

90013 The number of zeroes of a cubic polynomial is:

1 At most 3
2 At least 3
3 2
4 3
POLYNOMIALS

90014 The graph of a cubic polynomial x3 - 4x meets the x-axis at (-2, 0), (0, 0) and (2, 0), then the zeroes of the polynomial are:

1 2, 0 and 0
2 0, 0 and 2
3 -2, 0 and 2
4 None of these
POLYNOMIALS

90015 Choose the correct answer from the given four options in the following questions: Given that one of the zeroes of the cubic polynomial ax\(^{1}\) + bx\(^{1}\) + cx + d is zero, the product of the other two zeroes is:

1 \(-\frac{\text{c}}{\text{a}}\)
2 \(\frac{\text{c}}{\text{a}}\)
3 \(0 \)
4 \(-\frac{\text{b}}{\text{a}}\)
POLYNOMIALS

90016 Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following: Assertion: t\(^{1}\) is a quadratic polynomial. Reason: The degree of the given expression is 2. So, it is a quadratic polynomial.

1 Both assertion (A) and reason (R) are true and reason (R) is the correct explanation of assertion (A).
2 Both assertion (A) and reason (R) are true but reason (R) is not the correct explanation of assertion (A).
3 Assertion (A) is true but reason (R) is false.
4 Assertion (A) is false but reason (R) is true.
POLYNOMIALS

90017 Which of the following is a polynomial?

1 \(\text{x}^2-\text{5x}+4\sqrt{\text{x}}+3\)
2 \(\text{x}^{frac{3}{2}}-\text{x}+\text{x}^{frac{1}{2}}+1\)
3 \(\sqrt{\text{x}}+\frac{1}{\sqrt{ \text{x}}}\)
4 \(\sqrt2\text{x}^2-3\sqrt3\text{x}+\sqrt6\)
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POLYNOMIALS

90013 The number of zeroes of a cubic polynomial is:

1 At most 3
2 At least 3
3 2
4 3
POLYNOMIALS

90014 The graph of a cubic polynomial x3 - 4x meets the x-axis at (-2, 0), (0, 0) and (2, 0), then the zeroes of the polynomial are:

1 2, 0 and 0
2 0, 0 and 2
3 -2, 0 and 2
4 None of these
POLYNOMIALS

90015 Choose the correct answer from the given four options in the following questions: Given that one of the zeroes of the cubic polynomial ax\(^{1}\) + bx\(^{1}\) + cx + d is zero, the product of the other two zeroes is:

1 \(-\frac{\text{c}}{\text{a}}\)
2 \(\frac{\text{c}}{\text{a}}\)
3 \(0 \)
4 \(-\frac{\text{b}}{\text{a}}\)
POLYNOMIALS

90016 Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following: Assertion: t\(^{1}\) is a quadratic polynomial. Reason: The degree of the given expression is 2. So, it is a quadratic polynomial.

1 Both assertion (A) and reason (R) are true and reason (R) is the correct explanation of assertion (A).
2 Both assertion (A) and reason (R) are true but reason (R) is not the correct explanation of assertion (A).
3 Assertion (A) is true but reason (R) is false.
4 Assertion (A) is false but reason (R) is true.
POLYNOMIALS

90017 Which of the following is a polynomial?

1 \(\text{x}^2-\text{5x}+4\sqrt{\text{x}}+3\)
2 \(\text{x}^{frac{3}{2}}-\text{x}+\text{x}^{frac{1}{2}}+1\)
3 \(\sqrt{\text{x}}+\frac{1}{\sqrt{ \text{x}}}\)
4 \(\sqrt2\text{x}^2-3\sqrt3\text{x}+\sqrt6\)
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POLYNOMIALS

90013 The number of zeroes of a cubic polynomial is:

1 At most 3
2 At least 3
3 2
4 3
POLYNOMIALS

90014 The graph of a cubic polynomial x3 - 4x meets the x-axis at (-2, 0), (0, 0) and (2, 0), then the zeroes of the polynomial are:

1 2, 0 and 0
2 0, 0 and 2
3 -2, 0 and 2
4 None of these
POLYNOMIALS

90015 Choose the correct answer from the given four options in the following questions: Given that one of the zeroes of the cubic polynomial ax\(^{1}\) + bx\(^{1}\) + cx + d is zero, the product of the other two zeroes is:

1 \(-\frac{\text{c}}{\text{a}}\)
2 \(\frac{\text{c}}{\text{a}}\)
3 \(0 \)
4 \(-\frac{\text{b}}{\text{a}}\)
POLYNOMIALS

90016 Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following: Assertion: t\(^{1}\) is a quadratic polynomial. Reason: The degree of the given expression is 2. So, it is a quadratic polynomial.

1 Both assertion (A) and reason (R) are true and reason (R) is the correct explanation of assertion (A).
2 Both assertion (A) and reason (R) are true but reason (R) is not the correct explanation of assertion (A).
3 Assertion (A) is true but reason (R) is false.
4 Assertion (A) is false but reason (R) is true.
POLYNOMIALS

90017 Which of the following is a polynomial?

1 \(\text{x}^2-\text{5x}+4\sqrt{\text{x}}+3\)
2 \(\text{x}^{frac{3}{2}}-\text{x}+\text{x}^{frac{1}{2}}+1\)
3 \(\sqrt{\text{x}}+\frac{1}{\sqrt{ \text{x}}}\)
4 \(\sqrt2\text{x}^2-3\sqrt3\text{x}+\sqrt6\)
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POLYNOMIALS

90013 The number of zeroes of a cubic polynomial is:

1 At most 3
2 At least 3
3 2
4 3
POLYNOMIALS

90014 The graph of a cubic polynomial x3 - 4x meets the x-axis at (-2, 0), (0, 0) and (2, 0), then the zeroes of the polynomial are:

1 2, 0 and 0
2 0, 0 and 2
3 -2, 0 and 2
4 None of these
POLYNOMIALS

90015 Choose the correct answer from the given four options in the following questions: Given that one of the zeroes of the cubic polynomial ax\(^{1}\) + bx\(^{1}\) + cx + d is zero, the product of the other two zeroes is:

1 \(-\frac{\text{c}}{\text{a}}\)
2 \(\frac{\text{c}}{\text{a}}\)
3 \(0 \)
4 \(-\frac{\text{b}}{\text{a}}\)
POLYNOMIALS

90016 Directions: In the following questions, the Assertions (A) and Reason(s) (R) have been put forward. Read both the statements carefully and choose the correct alternative from the following: Assertion: t\(^{1}\) is a quadratic polynomial. Reason: The degree of the given expression is 2. So, it is a quadratic polynomial.

1 Both assertion (A) and reason (R) are true and reason (R) is the correct explanation of assertion (A).
2 Both assertion (A) and reason (R) are true but reason (R) is not the correct explanation of assertion (A).
3 Assertion (A) is true but reason (R) is false.
4 Assertion (A) is false but reason (R) is true.
POLYNOMIALS

90017 Which of the following is a polynomial?

1 \(\text{x}^2-\text{5x}+4\sqrt{\text{x}}+3\)
2 \(\text{x}^{frac{3}{2}}-\text{x}+\text{x}^{frac{1}{2}}+1\)
3 \(\sqrt{\text{x}}+\frac{1}{\sqrt{ \text{x}}}\)
4 \(\sqrt2\text{x}^2-3\sqrt3\text{x}+\sqrt6\)