Integration 515yarg z = c'x
Fig. 7.32are rays emanating from the origin (Fig. 7.32). The velocity at each point
z E D is given by
-- m 1 m
w = F'(z) = - :: = --z
271" z 27rlzl^2
so that
mx my
v= -----
27r(x2 + y2)U= -----
27r(x2 + y2)'Hence the flux integral for any simple closed curve about the origin has
the value
J
uy-vx=-do d m J x dy - y dx =m
271" x2 + y2
c+ c+so the origin is a source if m > 0, a sink if m < 0. If m > 0, the velocity is
directed along the ray arg z = const. from the origin toward infinity. The
speed is very large near the origin and small far from the origin. Since
J u dy - v dx = -m
e-
we must regard oo as a sink. Thus we see that the branch points of
log z, namely, 0 and oo, correspond to a source and a sink, respectively.
Obviously, if m < 0, the roles of 0 and oo are interchanged.
When the source or sink is located at some point a f. 0, the potential is
m
F(z) =
2
71" log(z - a)