The quadratic equation `p(x)=0` with real coefficients has purely imaginary roots. Then the equation `p(p(x))=0` has

The quadratic equations p(x) =0 with real coefficients has purely imaginary roots. Then the equation p(p(x))=0 has

The roots of a quadratic equation x/p = p/x are

A quadratic equations p(x)=0 having coefficient x^(2) unity is such that p(x)=0 and p(p(p(x)))=0 have a common root, then

A quadratic equations p(x)=0 having coefficient x^(2) unity is such that p(x)=0 and p(p(p(x)))=0 have a common root, then

A quadratic equations p(x)=0 having coefficient x^(2) unity is such that p(x)=0 and p(p(p(x)))=0 have a common root, then

A quadratic equations p(x)=0 having coefficient x^(2) unity is such that p(x)=0 and p(p(p(x)))=0 have a common root, then

Write all the values of p for which the quadratic equation x^(2) + px + 16 = 0 has equal roots . Find the roots of the equation so obtained .

If one root of the equation qx^(2)+px+q=0p,q being real) be imaginary,show that the roots of the equation x^(2)-4qx+p^(2)= 0are real and unequal

Write all the value of p for which the quadratic equation x^(2) + px + 16 = 0 has equal roots. Find the roots of the equation so obtained.

Find the value of p for which the quadratic equation (p+1)x^(2)+-6(p+1)x+3(p+q)=0,p!=-1 has equal roots.Hence,find the roots of the equation.