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

If alpha and beta are the roots of the , quadratic equation , ax^(2)+bx+c=0 ,with alpha beta , ax^(2)+bx+c and a have , (A) Opposite sign (B) Positive sign (C) same sign (D) none of these

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 the quadratic equation,ax^(2)-bx(x-1)+c(x-1)^(2)=0 has roots: (alpha)/(1-alpha),(beta)/(1-beta)( b) alpha-1,beta-1(alpha)/(alpha+1),(beta)/(beta+1) (d) (1-alpha)/(alpha),(1-beta)/(beta)

If alpha,beta are the roots of the quadratic equation ax^(2)+bx=c=0, then which of the following expression will be the symmetric function of roots a *log((alpha)/(beta))| b.alpha^(2)beta^(5)+beta^(2)alpha^(5) c.tan(alpha-beta) d.(log((1)/(alpha)))^(2)+(log beta)^(2)

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

If alpha, beta are the roots of the quadratic equation ax^(2)+bx+c=0, form a quadratic equation whose roots are alpha^(2)+beta^(2) and alpha^(-2) + beta^(-2) .

If alpha, beta are the roots of the quadratic equation ax^(2)+bx+c=0, form a quadratic equation whose roots are alpha^(2)+beta^(2) and alpha^(-2) + beta^(-2) .

If alpha and beta are the roots of the quadratic equation ax^(2)+bx+1 , then the value of (1)/(alpha beta)+(alpha+beta) is

If alpha and beta are the roots of the quadratic equation ax^(2)+bx+1 , then the value of 2alpha^(2)beta^(2) is

If alpha" and "beta are the solutions of the quadratic equation ax^(2)+bx+c=0 such that beta= alpha^(1/3) , then