Let `alpha, beta " the roots of " x^(2) -4x + A =0 and gamma, delta " be the roots of " x^(2) -36x +B =0. " If " alpha, beta , gamma, delta ` forms an increasing G.P. Then

Let alpha,beta be the roots of x^(2)-4x+A=0 and gamma,delta be the roots of x^(2)-36x+B=0 .If alpha,beta,gamma,delta form an increasing G.P.and A^(t)=B then value of 't' equals:

Let alpha,beta be the roots of x^2-4x+A=0 and gamma,delta be the roots of x^2-36x+B=0 .If alpha,beta,gamma,delta form an increasing G.P. and A^t=B , then value of 't' equals:

Let alpha, beta be the roots of x^(2) -x + p = 0 and gamma , delta be the roots of x^(2) - 4x + q = 0 . If alpha, beta, gamma , delta are in G.P., then the integral value sof p and q respectively, are :

alpha,beta are the roots of the equation x^(2)-4x+lambda=0, and gamma,delta are the roots of the equation x^(2)-64x+mu=0. If alpha,beta,gamma,delta form an increasing G.P,find the values of alpha,beta,gamma,delta

alpha and beta are the roots of the equation x^(2)-3x+a=0 and gamma and delta are the roots of the equation x^(2)-12x+b=0 .If alpha,beta,gamma, and delta form an increasing GP., then (a,b)-

Let alpha, beta be the roots of x^(2)-x+p=0and gamma,delta"be the roots of "x^(2)-4x+q=0. If alpha, beta, gamma,delta are in G.P. then integral values of p,q, are respectively.

alpha ,beta be the roots of the equation x^2 – 3x + a =0 and gamma , delta the roots of x^2 – 12x + b =0 and numbers alpha,beta,gamma,delta (in this order) form an increasing G.P., then