The common roots of the equation `x^(3) + 2x^(2) + 2x + 1 = 0 and 1+ x^(2008)+ x^(2003) = 0` are (where `omega` is a complex cube root of unity)

The roots of the equation x^(2/3)+x^(1/3)-2=0 are

The roots of the equation x^(2/3)+x^(1/3)-2=0 are

If x = 1 is a common root of the equations ax^(2) + ax + 3 = 0 and x^(2) + x + b = 0 , then ab =

Number of roots which are common to the equations x^(3)+2x^(2)+2x+1=0 and x^(2008)+x^(2009)+1=0, are (A)0(B)1(C)2 (D) 3

Find the roots common to the equations x^5-x^3+x^2-1=0 and x^4= 1 .

The roots of the equation 2x^(2) + 3x + c = 0 (where x lt 0 ) could be "______" .

Find the roots of the equation a(x^(2)+1)-(a^(2)+1)x=0, where a!=0

IF the equations x^(3) + 5x^(2) + px + q = 0 and x^(3) + 7x^(2) + px + r = 0 have two roots in common, then the product of two non-common roots of two equations, is

" Let "f(x)=int_(x)^(x^2)(t-1)dt" .Then the value of "|f'(omega)|" where "omega" is a complex cube root of unity is "