Let n be a positive integer and a complex number with unit modulus is a solution of the equation `z^n + z + 1 =0` then then the value of n can be :

Let n be a positive integer and a complex number with unit modulus is a solution of the equation Z^n+Z+1=0 , then the value of n can be

If n is a positive integer greater than unity z is a complex number satisfying the equation z^n=(z+1)^n, then

For a complex number Z, if all the roots of the equation Z^3 + aZ^2 + bZ + c = 0 are unit modulus, then

The number of solutions of the equation z^2+z=0 where z is a a complex number, is

A complex number z with (Im)(z)=4 and a positive integer n be such that z/(z+n)=4i , then the value of n, is

A complex number z with (Im)(z)=4 and a positive integer n be such that z/(z+n)=4i , then the value of n, is

A complex number z with (Im)(z)=4 and a positive integer n be such that z/(z+n)=4i , then the value of n, is

A root of unity is a complex number that is a solution to the equation, z^n=1 for some positive integer nNumber of roots of unity that are also the roots of the equation z^2+az+b=0 , for some integer a and b is

If n is a positive integer then find the number of terms in the expansion of (x+y-2z)^(n)

If n is a positive integer then find the number of terms in the expansion of (x+y-2z)^(n)