If n is integer then show that
`(1 + i)^(2n) + (1 - i)^(2n) = 2 ^(n+1) cos . (npi)/2 ` .

If n is a positive integer, show that (1 + i)^(n) + (1 - i)^(n) = 2 ^((n+2)/2) cos ((npi)/4) .

If n is a positive integer prove that (1+i)^(2n)+(1-i)^(2n)=2^(n+1)cos((n pi)/(2))

If n is a positive integer, show that ( P + iQ)^(1//n) + ( P - iQ)^(1//n) = 2 ( P^(2) + Q^(2))^(1//2n) cos (1/n , tan . Q/P) .

If n is an integer then show that (1 + cos theta + i sin theta)^(n) + (1 + cos theta - i sin theta )^(n) = 2^(n+1) cos ^(n) ( theta//2) cos ((n theta)/2) .

A : (1+i)^(6)+(1-i)^(6)=0 R : If n is a positive integer then (1+i)^(n)+(1-i)^(n)=2^((n//2)+1).cos""(npi)/(4)

The value of ((1 + i)^(2n + 1))/((1- i)^(2n -1)) =

Show that sum_(n=1)^(25) (i^(n) + i^(n +1)) = i-1

If ( 1 + x ) ^(n) = a_(0) + a _(1) x + a_(2) x^(2) + ………. + a_(n)x^(n) , then show that (i) a_(0) - a_(2) + a_(4) - a_(6) + ……… = 2^(n//2) cos . (npi)/4 (ii) a _(1) - a_(3) + a_(5) - a_(7) + …….. = 2^(n//2) sin . (npi)/4

The least positive integer n for which (1+i)^(n)=(1-i)^(n) . is