If `(sqrt(5)+sqrt(3)i)^(33)=2^(49)z`, then modulus of the complex number z is equal to a)1 b)`sqrt(2)` c)`2sqrt(2)` d)4

Write polar form of the complex number z=sqrt3+i

sin 765^(@) is equal to a)1 b)0 c) sqrt(3)//2 d) 1//sqrt2

The value of sqrt(2)(cos15^(@)-sin15^(@)) is equal to a) sqrt(3) b) sqrt(2) c)1 d)2

Consider the complex number z=(5-sqrt3i)/(4+2sqrt3i)

Write the following complex numbers in polar form -3sqrt2+3 sqrt2i

If z (2- 2 sqrt3i)^(2)= i(sqrt3+i)^(4) , then arg(z)=

If tan^(-1)2x+tan^(-1)3x=(pi)/(2) , then the value of x is equal to a) (1)/(sqrt(6)) b) (1)/(6) c) (1)/(sqrt(3)) d) (1)/(sqrt(2))

If f'(x)=(1)/(-x+sqrt(x^(2)+1)) and f(0)=-(1+sqrt(2))/(2) then f(1) is equal to a) -log(sqrt(2)+1) b)1 c) 1+sqrt(2) d) 1/2log(1+sqrt(2))

1/(cos80^(@))-sqrt(3)/(sin80^(@)) is equal to a) sqrt(2) b) sqrt(3) c)2 d)4

If the eccentricity of the ellipse a x^(2) + 4y^(2) = 4a, (a lt 4) is (1)/(sqrt(2)) , then its semi-minor axis is equal to a)2 b) sqrt(2) c)1 d) sqrt(3)