90078 If \(\alpha,\ \beta\) are the zeros of the polynomial x\(^{1}\) + 6x + 2, then \(\Big(\frac{1}{\alpha}+\frac{1}{\beta}\Big)=?\)

90079 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: x\(^{1}\) + x has only one real zero. Reason: A polynomial of n\(^{1}\) degree must have n real ZeLoes.

90080 The number polynomials having zeroes as -2 and 5 is:

90081 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: \(5\text{t}-\sqrt{7}\) is a linear polynomial. Reason: A polynomial of degree 1 is called a linear polynomial.

90082 If‘ \(\alpha\) and \(\beta\) are the zeroes of the polynomial 3x\(^{1}\) + 11x - 4, then the value of \(\alpha^{2}+\beta^{2}\) is:

90078 If \(\alpha,\ \beta\) are the zeros of the polynomial x\(^{1}\) + 6x + 2, then \(\Big(\frac{1}{\alpha}+\frac{1}{\beta}\Big)=?\)

90079 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: x\(^{1}\) + x has only one real zero. Reason: A polynomial of n\(^{1}\) degree must have n real ZeLoes.

90080 The number polynomials having zeroes as -2 and 5 is:

90081 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: \(5\text{t}-\sqrt{7}\) is a linear polynomial. Reason: A polynomial of degree 1 is called a linear polynomial.

90082 If‘ \(\alpha\) and \(\beta\) are the zeroes of the polynomial 3x\(^{1}\) + 11x - 4, then the value of \(\alpha^{2}+\beta^{2}\) is:

90078 If \(\alpha,\ \beta\) are the zeros of the polynomial x\(^{1}\) + 6x + 2, then \(\Big(\frac{1}{\alpha}+\frac{1}{\beta}\Big)=?\)

90079 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: x\(^{1}\) + x has only one real zero. Reason: A polynomial of n\(^{1}\) degree must have n real ZeLoes.

90080 The number polynomials having zeroes as -2 and 5 is:

90081 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: \(5\text{t}-\sqrt{7}\) is a linear polynomial. Reason: A polynomial of degree 1 is called a linear polynomial.

90082 If‘ \(\alpha\) and \(\beta\) are the zeroes of the polynomial 3x\(^{1}\) + 11x - 4, then the value of \(\alpha^{2}+\beta^{2}\) is:

90078 If \(\alpha,\ \beta\) are the zeros of the polynomial x\(^{1}\) + 6x + 2, then \(\Big(\frac{1}{\alpha}+\frac{1}{\beta}\Big)=?\)

90079 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: x\(^{1}\) + x has only one real zero. Reason: A polynomial of n\(^{1}\) degree must have n real ZeLoes.

90080 The number polynomials having zeroes as -2 and 5 is:

90081 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: \(5\text{t}-\sqrt{7}\) is a linear polynomial. Reason: A polynomial of degree 1 is called a linear polynomial.

90082 If‘ \(\alpha\) and \(\beta\) are the zeroes of the polynomial 3x\(^{1}\) + 11x - 4, then the value of \(\alpha^{2}+\beta^{2}\) is:

90078 If \(\alpha,\ \beta\) are the zeros of the polynomial x\(^{1}\) + 6x + 2, then \(\Big(\frac{1}{\alpha}+\frac{1}{\beta}\Big)=?\)

90079 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: x\(^{1}\) + x has only one real zero. Reason: A polynomial of n\(^{1}\) degree must have n real ZeLoes.

90080 The number polynomials having zeroes as -2 and 5 is:

90081 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: \(5\text{t}-\sqrt{7}\) is a linear polynomial. Reason: A polynomial of degree 1 is called a linear polynomial.

90082 If‘ \(\alpha\) and \(\beta\) are the zeroes of the polynomial 3x\(^{1}\) + 11x - 4, then the value of \(\alpha^{2}+\beta^{2}\) is: