The relation time 1 and distance x is `t= alpha x^(2) beta x`. Where `alpha ` and `beta` are constants. The retardation is

If tan (alpha - beta) = 7/24 and tan alpha = 4/3 , where alpha , beta are in first quadrant P.T alpha + beta = pi//2

IF alpha , beta are the roots of x^(2)-x+2=0 then alpha ^ 2 beta + alpha beta ^2 =

If alpha , beta are the roots of x^2 +x+1=0 then alpha // beta + beta // alpha =

If alpha , beta are the zeroes of x^2+7x+10 , then alpha beta =

alpha , beta are roots of the equation lamda (x^2-x)+x+5=0 If lamda_2 are the two values of lamda for which the roots alpha , beta are connceted by the relation ( alpha ) /( beta ) +( beta) /( alpha )=4 , then the value of ( lamda _1)/( lamda _2) +(lamda _2)/( lamda_1) is

If alpha, beta, gamma are the roots of the equation x^(3) - 6x^(2) + 11x - 6 = 0 and if a = alpha^(2) + beta^(2) + gamma^(2) , b = alpha beta + beta gamma + gamma alpha and c = (alpha + beta) (beta + gamma)(gamma + alpha), then the correct inequality among the following is :