Value of `w^n+w^(2n)`,where `w=(-1+isqrt3)/2`and n=3k+1,is____

Value of omega^(n)+omega^(2n)," where "omega=(-1+isqrt3)/(2)andn=3k+1, is

If omega is an imaginary cube root of unity then the value of omega^n+omega^(2n) (where n is not a multiple of 3) is

If D_1 =|{:(1,1,1),(1,omega,omega^2),(1,omega^2,omega):}| and D_2= |{:(1,1,omega),(1,1,omega^2),(omega^2,omega,1):}| show that , D_1=sqrt(3i)D_2 where omega=(-1+sqrt(3i))/2 and i=sqrt(-1) .

If the value of the definite integral int_0^1 "^(207)C_7x^(200)(1-x)^7dx is equal to 1/k ,w h e r ek in N , then the value of k/(26) is____

Fill in the blanks If 2+isqrt(3) is a root of the equation x^2+p x+q=0,w h e r epa n dq are real, then (p ,q)=(______,_____) .

If y_(1)=max||z-omega|-|z-omega^(2)|| , where |z|=2 and y_(2)=max||z-omega|-|z-omega^(2)|| , where |z|=(1)/(2) and omega and omega^(2) are complex cube roots of unity, then

If omega is an imaginary cube root of unity and omega=(-1+sqrt3i)/(2) then omega^(2) =

The roots of the equation Z^3+1=0 are called cube roots of unity.Clearly Z=-1 is a root and the other roots are complex comjugate root and they are omega=cos((2pi)/3) +isin((2pi)/3) and omega^2=cos((4pi)/3)+isin((4pi)/3) 1+omega+omega^2=0 (1+omega^2)^7+(1+omega)^7 equals

If x=omega-omega^2-2 then , the value of x^4+3x^3+2x^2-11x-6 is (where omega is a imaginary cube root of unity)

Let f:Wto W be defined as f (n)=n -1, if n is odd and f (n) =n +1, if n is even. Show that f is invertible. Find the inverse of f. Here, W is the set of all whole numbers.