locus of the point `z` satisfying the equation `|z-1|+|z-i|=2` is

Find the value of z satisfying the euqation |z|-z=1+2i .

bb"statement-1" Locus of z satisfying the equation abs(z-1)+abs(z-8)=5 is an ellipse. bb"statement-2" Sum of focal distances of any point on ellipse is constant for an ellipse.

The solution of the equation |z|-z=1+2i is

Let P point denoting a complex number z on the complex plane. i.e. z=Re(z)+i Im(z)," where "i=sqrt(-1) if Re(z)=xand Im (z)=y,then z=x+iy Number of integral solutions satisfying the eniquality |Re(z)|+|Im(z)|lt21,.is

Find the complex number satsifying the equation z+sqrt(2)|(z+1)|+i=0

show that the set of all point satisfying |z-1|=|z-i| represents a line passing through origin with slope -1 .

If z is a complex number satisfying the relation ∣z+1∣=z+2(1+i) then z is

Solve the system of equations in x,y and z satisfying the following equations x+[y]+{z}=3.1, y+[z]+{x}=4.3 and z+[x]+{y}=5.4

Show that the complex number z, satisfying the condition arg((z-1)/(z+1))=(pi)/(4) lie son a circle.

Given that |z+2i|=|z-2i|