The centre of circle represented by `|z + 1| = 2 |z - 1|` in the complex plane is

If the real part of (barz+2)/(barz-1) is 4 then show that the locus of the point representing z in the complex plane is circle.

Find the circumcentre of the triangle whose vertices are given by the complex numbers z_(1),z_(2) and z_(3) .

If z ne 1 and (z^(2))/(z-1) is real, the point represented by the complex numbers z lies

The number of complex numbers z such that |z-1|=|z+1|=|z-i| is

A,B and C are the points respectively the complex numbers z_(1),z_(2) and z_(3) respectivley, on the complex plane and the circumcentre of /_\ABC lies at the origin. If the altitude of the triangle through the vertex. A meets the circumcircle again at P, prove that P represents the complex number (-(z_(2)z_(3))/(z_(1))) .

C is the complex numvers f:CrarrR is defined by f(z)=|z^(3)-z+2|. Find the maximum value of f(z),If|z|=1.

Show that the area of the triagle on the argand plane formed by the complex numbers Z, iz and z+iz is (1)/(2)|z|^(2)," where "i=sqrt(-1).

Solve the equation z^2 +|z|=0 , where z is a complex number.

If |z|=2, the points representing the complex numbers -1+5z will lie on

The points A,B,C represent the complex numbers z_1,z_2,z_3 respectively on a complex plane & the angle B & C of the triangle ABC are each equal to 1/2 (pi-alpha) . If (z_2-z_3)^2=lambda(z_3-z_1)(z_1-z_2) (sin^2) alpha/2 then determine lambda .