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

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

If sin alpha and cos alpha are the roots of the equition ax^(2) + bx + c = 0 , then

If alpha and beta are the roots of the equation 2x^(2)+2(a+b)x +a^(2)+b^(2)=0 , then find the equation whose roots are (alpha+beta)^(2) and (alpha-beta)^(2) .

If alpha and alpha^(2) are the roots of the equation x^(2) - 6x + c = 0 , then the positive value of c is

If alpha and beta are the roots of the equation x ^(2) + 3x - 4 = 0 , then (1)/(alpha ) + (1)/(beta) is equal to

If alpha, beta are the roots of the equation ax ^(2) + bx + c =0, then the value of (1)/( a alpha + b) + (1)/( a beta + b) equals to : a) (ac)/(b) b) 1 c) (ab)/(c) d) (b)/(ac)

If a and b are the roots of the equation x^(2) + ax + b = 0, a ne 0, b ne = 0 , then the values of a and b are respectively

If alpha and beta are the roots of equation x^(2)-4x+13=0 , then find the quadratic equation whose roots are alpha^(4)-4 alpha^(3)+13 alpha^(2)+2 and (beta^(3)-4 beta^(2)+13 beta+1)/(4)