Quadratic equations + Progression series...

Quadratic equations + Progression series - misc Let `(A(alpha a, 0), B(beta,0), C(gamma,0), D(delta,0) and alpha, beta` are the roots of equation `ax^2 + 2hx+b= =0`. While `gamma,delta` , are those of `a-1x^2 + 2h_1x+b_1=0` If `C and D` divides AB in the ratio of mal and `gamma:1 and mu:1` respectively and also `ab_1, hh_1, a_1b` are in `A.P.,` then `lambda+mu` is equal to

Similar Questions

Explore conceptually related problems

If alpha and beta are the roots of the equation x^(2) +px+1=0 , gamam , delta are the roots of (x^(2) +qx+1=0 , then , find ( alpha-gamma ) (beta - gamma ) ( alpha + delta )(beta + delta )

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

If alpha, beta, gamma are the roots of the equation x^(3) + ax^(2) + bx + c = 0, "then" alpha^(-1) + beta^(-1) + gamma^(-1)=

if alpha and beta are the roots of the equation x^(2)+x+1=0 then alpha^(28)+beta^(28)=(A)1(B)-1(C)0(D)2

If alpha, beta are the roots of the equation x^(2)-2x-a^(2)+1=0 and gamma, delta are the roots of the equation x^(2)-2(a+1)x+a(a-1)=0 such that alpha, beta epsilonn (gamma, delta) find the value of a .

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

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)-

Similar Questions

Recommended Questions