90009 If x - 2 is a factor of x\(^{1}\)+ ax\(^{1}\)+ bx + 16 and a - b = 6 then the values of ‘a’ and ‘b’ are:

90010 If \(\alpha,\beta\) are the zeros of polynomial f(x) = x\(^{1}\) - p (x + 1) - c, then \((\alpha+1)(\beta+1)=\)

90011 Choose the correct answer from the given four options in the following questions: If one of the zeroes of the cubic polynomial x\(^{1}\) + ax\(^{1}\) + bx + c is –1, then the product of the other two zeroes is:

90012 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\(^{1}\) + 4x + 5 has two zeroes. Reason: A quadratic polynomial can have at the most two zeroes.

90009 If x - 2 is a factor of x\(^{1}\)+ ax\(^{1}\)+ bx + 16 and a - b = 6 then the values of ‘a’ and ‘b’ are:

90010 If \(\alpha,\beta\) are the zeros of polynomial f(x) = x\(^{1}\) - p (x + 1) - c, then \((\alpha+1)(\beta+1)=\)

90011 Choose the correct answer from the given four options in the following questions: If one of the zeroes of the cubic polynomial x\(^{1}\) + ax\(^{1}\) + bx + c is –1, then the product of the other two zeroes is:

90012 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\(^{1}\) + 4x + 5 has two zeroes. Reason: A quadratic polynomial can have at the most two zeroes.

90009 If x - 2 is a factor of x\(^{1}\)+ ax\(^{1}\)+ bx + 16 and a - b = 6 then the values of ‘a’ and ‘b’ are:

90010 If \(\alpha,\beta\) are the zeros of polynomial f(x) = x\(^{1}\) - p (x + 1) - c, then \((\alpha+1)(\beta+1)=\)

90011 Choose the correct answer from the given four options in the following questions: If one of the zeroes of the cubic polynomial x\(^{1}\) + ax\(^{1}\) + bx + c is –1, then the product of the other two zeroes is:

90012 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\(^{1}\) + 4x + 5 has two zeroes. Reason: A quadratic polynomial can have at the most two zeroes.

90009 If x - 2 is a factor of x\(^{1}\)+ ax\(^{1}\)+ bx + 16 and a - b = 6 then the values of ‘a’ and ‘b’ are:

90010 If \(\alpha,\beta\) are the zeros of polynomial f(x) = x\(^{1}\) - p (x + 1) - c, then \((\alpha+1)(\beta+1)=\)

90011 Choose the correct answer from the given four options in the following questions: If one of the zeroes of the cubic polynomial x\(^{1}\) + ax\(^{1}\) + bx + c is –1, then the product of the other two zeroes is:

90012 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\(^{1}\) + 4x + 5 has two zeroes. Reason: A quadratic polynomial can have at the most two zeroes.