Let alpha+ibeta;alpha,beta in R , be a ...

Let `alpha+ibeta;alpha,beta in R ,` be a root of the equation `x^3+q x+r=0; q ,r in Rdot` A real cubic equation, independent of `alpha&beta,` whose one root is `2alpha` is `x^3+q x-4=0` (b) `x^3-q x+4=0` `x^3+2q x+r=0` (d) None of these

Similar Questions

Explore conceptually related problems

Let alpha+i beta;alpha,beta in R, be a root of the equation x^(3)+qx+r=0;q,r in R. A real cubic equation,independent of alpha& beta, whose one root is 2 alpha is x^(3)+qx-4=0 (b) x^(3)-qx+4=0x^(3)+2qx+r=0 (d) None of these

Let alpha+ibeta,alpha, beta epsilon R , be a root of the equation x^(3)+qx+r=0p,q,r epsilonR . Find a real cubic equation, independent of alpha and beta , whose one root 2 alpha .

If alpha and beta are the roots of the equation x^(2) + px + q =0, then what is alpha ^(2) + beta ^(2) equal to ?

If alpha,beta are the roots of the equations x^(2)-2x+3=0 then find the numerical value of P and Q

If alpha,beta be the roots of the equation x^(2)-px+q=0 then find the equation whose roots are (q)/(p-alpha) and (q)/(p-beta)

If alpha,beta,gamma are the roots of the equation x^(3)+px^(2)+qx+r=0 such that alpha+beta=0 then

If alpha and beta where alpha,beta in R are the roots of equation x^(2)+4x+b=0 and | alpha-beta|<=2 ,then the complete range of b is

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

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

Let `alpha+ibeta;alpha,beta in R ,` be a root of the equation `x^3+q x+r=0; q ,r in Rdot` A real cubic equation, independent of `alpha&beta,` whose one root is `2alpha` is `x^3+q x-4=0` (b) `x^3-q x+4=0` `x^3+2q x+r=0` (d) None of these

Similar Questions

Recommended Questions