If x + 4y = 14 is a normal to the curve `y^(2) = alpha x^(3) - beta` at (2, 3), then the value of `alpha + beta` is a)9 b)-5 c)7 d)-7

If y= 4x -5 is a tangent to the curve y^(2) = px^(3) + q at (2,3) then (p+q) is equal to a)-5 b)5 c)-9 d)9

If x^(2) + px + q = 0 has the roots alpha and beta , then the value of (alpha - beta)^(2) is equal to

If the equation 3x + 3y + 5=0 is written in the form x cos alpha + y sin alpha = p , then the value of sin alpha + cos alpha is a) sqrt2 b) (1)/( sqrt2) c) - sqrt2 d) - (1)/( sqrt2)

If the angle between the curves y=2^(x) and y=3^(x) is alpha , then the value of tan alpha is equal to a) (log((3)/(2)))/(1+(log2)(log3)) b) (6)/(7) c) (1)/(7) d) (log(6))/(1+(log2)(log3))

If the equations of the tangent to the circle x^(2)+ y^(2)- 2x + 6y -6 =0 parallel to 3x - 4y + 7=0 is 3x - 4y +k=0 , then the values of k are : a) 5,-35 b) -5,35 c) 7,-32 d) -7,32

If alpha and beta are the roots of the equation x ^(2) + alpha x + beta = 0, then

If alpha and beta are the roots of the equation ax^(2)+bx+c=0, alphabeta=3 and a,b,c are in AP, then alpha+beta is equal to a)-4 b)1 c)4 d)-2

If alpha and beta are the roots of x ^(2) - ax + b ^(2) = 0, then alpha ^(2) + beta ^(2) is equal to