[" Of "alpha_(1)beta" are the roots of "ax^(2)+c=bx,],[" then the equation "(a+cy)^(2)=b^(2)y" in "y],[" has the roots "]

If alpha,beta re the roots of ax^(2)+c=bx, then the equation (a+cy)^(2)=b^(2)y in y has the roots a.alpha beta^(-1),alpha^(-1)beta b.alpha^(-2),beta^(-2) c.alpha^(-1),beta^(-1) d.alpha^(2),beta^(2)

If alpha,beta are the roots of a x^2+c=b x , then the equation (a+c y)^2=b^2y in y has the roots a. alphabeta^(-1),alpha^(-1)beta b. alpha^(-2),beta^(-2) c. alpha^(-1),beta^(-1) d. alpha^2,beta^2

If alpha, beta are the roots of the equation ax^(2) -bx +c=0 then equation (a+cy)^(2) =b^(2) y has the roots

If alpha, beta are the roots of the equation ax^(2) -bx +c=0 then equation (a+cy)^(2) =b^(2) y has the roots

If alpha,beta re the roots of a x^2+c=b x , then the equation (a+c y)^2=b^2y in y has the roots a. alphabeta^(-1),alpha^(-1)beta b. alpha^(-2),beta^(-2) c. alpha^(-1),beta^(-1) d. alpha^2,beta^2

If alpha,beta re the roots of a x^2+c=b x , then the equation (a+c y)^2=b^2y in y has the roots a. alphabeta^(-1),alpha^(-1)beta b. alpha^(-2),beta^(-2) c. alpha^(-1),beta^(-1) d. alpha^2,beta^2

If alpha and beta are the roots of ax^(2)+bx+c=0 then the equation ax^(2)-bx(x-1)+c(x-1)^(2)=0 has roots

If alpha,beta are the roots of ax^(2)+bx+c=0, the equation whose roots are 2+alpha,2+beta is