If a and beta are  the roots of the equation`(x^(2)-2x + 3 = 0)` from the equation where roots equation is are
Q`(1)/(alpha)and(1)/(beta)`

If a and beta are the roots of the equation (x^(2)-2x + 3 = 0) from the equation where roots equation is are Q (1)/(alpha)and(1)/(beta)

If a and beta are the roots of the equation (x^(2)-2x + 3 = 0) from the equation where roots equation is are Q (1)/(alpha^(2))and(1)/(beta^(2))

If alpha and beta are the roots of the equation (x^(2)-2x + 3 = 0) from the equation where roots equation is are Q (a^(2))/(beta^(2))

alpha and beta are the roots of the equation x^(2) - 3x + 5 = 0 , the equation whose roots are (1)/(alpha) and (1)/(beta) is:

Given that alpha and beta are the roots of the equation 2x^(2)-3x+4=0 , find an equation whose roots are alpha+(1)/(alpha) and beta+(1)/(beta) .

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 equation x^2 +x+1 = 0 , the equation whose roots are alpha^19 and beta^7 is

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