If `x^2+px+q=0` is the quadratic equation whose roots are a-2 and b-2 where a, b are the roots of `x^2-3x+1=0` thewn

If x^2+p x+q=0 is the quadratic equation whose roots are a-2 and b-2 where a and b are the roots of x^2-3x+1=0, then

If x^(2)+px+q=0 is the quadratic equation whose roots are a-2 and b-2 where a and b are the roots of x^(2)-3x+1=0, then p-1,q=5 b.p=1,1=-5 c.p=-1,q=1 d.p=1,q=-1

If x^(2) + px + q = 0 is the quadratic equation whose roots are a-2 and b-2 where a and b are the roots of x^(2)-3x + 1 = 0 then

If x^(2) + px + q = 0 is the quadratic equation whose roots are a-2 and b-2 where a and b are the roots of x^(2)-3x + 1 = 0 then

If x^(2)px+q=0 is the quadratic equation whose roots are a-2" and "b-2 where a and b are the roots of x^(2)-3x+1=0 , then

Form the quadratic equation whose roots are the squares of the roots of x^2+3x+2=0 .

The quadratic equation whose roots are three times the roots of the equation 2x^(2)+3x+5=0 , is

A: the quadratic equation whose roots are the reciprocals of the roots of 3x^2 - 7x +2=0 is 3x^2 +7x +2=0 R : the quadratic equation whose roots are the reciprocals of the roots of the quadratic equation f(x) is f(1/x)=0

Find the quadratic equation whose roots are the reciprocals of the roots of the equation x^(2) - cx + b = 0

If alpha, and beta are the roots of x^(2)+px+q=0 form a quadratic equation whose roots are (alpha-beta)^(2) and (alpha+beta)^(2) .