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

The locus of the point satisfying the condition amp. ((z-1)/(z+1))=(pi)/(3) is

The locus of the point z satisfying arg ((z-1)/(z+1))=k , (where k is non zero) is

The maximum value of |z| when z satisfies the condition |z+(2)/(z)|=2 is

All complex numers z, which satisfy the equation |(z-i)/(z+i)|=1 lie on the

If z=x+iy , then the equation |z+1|=|z-1| represents

All complex number z which satisfy the equation |(z-6 i)/(z+6 i)|=1 lie on the

The complex number z has argument, 0ltthetalt(pi)(2) and satisfy the equation |z-3 i|=3 . Then cot theta-(6)/(z)=

The equation |z+1-i|=|z-1+i| represents a

The complex plane of z=x+iy , which satisfies the equation |(z-5i)/(z+5i)|=1 , lies on

The locus of z , which satisfies the inequality log_(0.3)|z-1| gt log_(0.3)|z-i| is given by :