If `alpha ,beta` are the roots of `ax^(2)+bx+c=0(ane0)andalpha+h,beta+h " are the roots of "px^(2)+qx+r=0(pne=0` then the ration of the squares of their discriminants is -

If alpha,beta are the roots fo ax^2+bx+c=0 (ane0) and alpha+h, beta+h are the roots of px^2+qx+r=0(pne0) then the ration of the squares of their discriminants is

If the roots of the equation ax^(2)+bx+c=0(ane0) be equal, then

If alpha, beta are the roots of x^(2) - px + q = 0 and alpha', beta' are the roots of x^(2) - p' x + q' = 0 , then the value of (alpha - alpha')^(2) + (beta -alpha')^(2) + (alpha - beta')^(2) + (beta - beta')^(2) is

If alpha and beta are roots of ax^(2)+bx+c=0 then the equationnwhose roots are alpha^(2)andbeta^(2) is

If alpha and beta are the roots of ax^(2)+bx+cid=0 find the equation whose rootsare alpha^(-3), beta^(-3) .

Let alpha,beta be the equation x^2-px+r=0 and alpha/2,2beta be the roots of the equation x^2-qx+r=0. Then, the value of r is

If alpha,beta are the roots of the quadratic equation ax^2+bx+c=0 and 3b^2=16ac then

If alpha,beta are the roots of the quadratic equation ax^(2)+bx+c=0and3b^(2)=16ac then-

If alpha, beta are the roots of the quadratic equation ax^(2)+bx+c=0 and 3b^(2)=16 ac then

IF alpha,beta be the roots of the equation x^2+px+q=0 , show that 1/(alpha+beta) and 1/alpha+1/beta are the roots of pqx^2+(p^2+q)x+p=0