If `alpha=-5` and `beta=9`, then form the quadratic equation.

If alpha and beta are the roots of the quadratic equation x^(2) + sqrt(2) x + 3=0 form a quadratic equation with roots (1)/(alpha) and (1)/(beta)

If alpha and beta are the roots of the quadratic equation x^(2) + sqrt(2x) + 3 = 0 . Form a quadratic polynomial with zeros (1)/(alpha), (1)/(beta) .

If alpha and beta are the roots of the quadratic equcation x^(2)+sqrt2x+3=0 , form a quadratic polynomial with zeroes 1/alpha,1/beta .

If alpha and beta are the roots of the quadratic equation 17x^2+43x-73=0 , construct a quadratic equation whose roots are a +2 and beta +2 .

If alpha and beta the roots of the quadratic equation, x^(2)+x sintheta-2sintheta=0,theta in(0,(pi)/(2)), then (alpha^(12)+beta^(12))/((alpha^(-12)+beta^(-12))(alpha-beta)^(24)) is equal to

If alpha and beta are the roots of the quadratic equation 2x^2-7x+13=0 , construct a quadratic equation whose roots are alpha^2 and beta^2 .

If alpha" and "beta are the roots of the quadratic equation 4x^(2)+3x+7=0 , then the value of (1)/(alpha)+(1)/(beta)=

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

Let alpha and beta be the roots of the quadratic equation x^(2) sin theta - x (sin theta cos theta + 1) + cos theta = 0 (0 lt theta lt 45^(@)) , and alpha lt beta . Then Sigma_(n=0)^(oo) (alpha^(n) + ((-1)^(n))/(beta^(n))) is equal to