If `alphaandbeta` be the roots of the quadratic equation `ax^(2)+bx+c=0`, then find the quadratic equation whose roots are `((1)/(alpha)+1)and((1)/(beta)+1)`.

Let alpha and beta be the roots of the quadratic equation ax^(2)+bx+c=0, c ne 0, then form the quadratic equation whose roots are (1-alpha)/(alpha) and (1-beta)/(beta) .

Let alpha and beta be the roots of the quadratic equation ax^(2)+bx+c=0, c ne 0, then form the quadratic equation whose roots are (1-alpha)/(alpha) and (1-beta)/(beta) .

If alphaandbeta be the roots of the quadratic equation x^(2)+px+q=0 , then find the quadratic equation whose roots are (alpha-beta)^(2)and(alpha+beta)^(2) .

If alphaandbeta be the roots of the quadratic equation x^(2)+px+q=0 , then find the quadratic equation whose roots are (alpha-beta)^(2)and(alpha+beta)^(2) .

if alpha and beta are the roots of the quadratic equation x^(2)-3.x-2=0, find a quadratic equation whose roots are (1)/(2 alpha+beta) and (1)/(2 beta+alpha)

If alpha and beta are the roots of the quadratic equation x^(2) + px + q = 0 , then form the quadratic equation whose roots are alpha + (1)/(beta), beta + (1)/(alpha)

If alpha , beta are the roots of the quadratic equation ax^(2) + bx + c = 0 , then the quadratic equation whose roots are alpha^(3) , beta^(3) is

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

If alpha " & " beta are the roots of equation ax^(2) + bx + c = 0 then find the Quadratic equation whose roots are (1)/(alpha) " & " (1)/(beta)