`arg(bar(z))+arg(-z)={{:(pi",","if arg (z) "lt 0),(-pi",", "if arg (z) "gt 0):},"where" -pi lt arg(z) le pi`.
If `arg(z) gt 0`, then arg (-z)-arg(z) is equal to

If arg (z) lt 0 then arg(-z)-arg(z) =.....

If 0ltamp(z)ltpi, then amp(z)-amp(-z) is equal to

If z is a complex number of unit modulus and argument theta , then arg((1+z)/(1+bar(z))) equals to

If (3+i)(z+bar(z))-(2+i)(z-bar(z))+14i=0 , where i=sqrt(-1) , then z bar(z) is equal to

If f(z)=(7-z)/(1-z^(2)) where z=1+2i , the |f(z)| is equal to

The value of arg(x) , when x lt 0 is

If z_1 and z_2 , are two non-zero complex numbers such tha |z_1+z_2|=|z_1|+|z_2| then arg(z_1)-arg(z_2) is equal to

If arg(z-1)=arg(z+3i) , then find x-1,y, where z=x+iy

The set of points in an Argand diagram which satisfy both abs(z)le4 and 0 le arg(z) le pi/3 , is

The electric potential V(z, y,z) for a planar charge distribution is given by: V(x, y, z)={(0,,"for "x lt -d),(-V_(0)(1+x/d)^(2),,"for "-d le x le 0),(-V_(0)(1+2x/d),,"for "0 le x lt d),(-3V_(0),,"for " x gt d):} where -V_(0) is the potential at the origin and d is a distance. Graph of electric field as a function of position is given as