If `alpha ne beta and alpha^(2) = 5 alpha - 3, beta^(2) = 5 beta - 3 `, then the equation having `alpha//beta ` and `beta/alpha` as its roots, is :

Let p and q be real numbers such that p ne 0 , p^(3) ne q and p^(3) ne - q. if alpha and beta are non-zero complex numbers satisfying alpha + beta = -p and alpha^(3) + beta^(3) = q, then a quadratic equation having (alpha)/(beta ) and (beta)/(alpha) as its roots is :

Let p and q be real number such that p ne 0 , p^(3) ne q and p^(3) ne -q . If alpha and beta non- zero complex number satifying alpha+ beta= -p and alpha^(3) + beta^(3) =q then a quadratic equation having (alpha)/(beta) and (beta) /(alpha) as its roots is :

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

If |vec alpha + vec beta |=| vec alpha - vec beta|, then :

If alpha , beta are the roots of the equation : x^(2) + x sqrt(alpha) + beta = 0 , then the values of alpha and beta are :

If cos(alpha + beta) =0 , then sin (alpha- beta)= ________

Let alpha, beta be the roots of x^(2)+a x+1=0 . Then the equation whose roots are – (alpha+(1)/(beta)) and -(beta+(1)/(alpha))

If alpha, beta are the roots of a x^(2)+b x+c=0 the equation whose roots are alpha+(1)/(beta) and beta+(1)/(alpha) is

If alpha , beta are the roots of 2 x^(2)-x+7=0 then the equation whose roots are 2-3 alpha and 2-3 beta is