336 Chapter^6where 8u/8s stands for the directional derivative of u in the
direction of the vector s, and similarly for the other derivatives.21. Let w = f(z) = u +iv, z E D, D open.
(a) If lim Re(~ w / ~z) exists at a point of D, show that u,, and Vy
Az-+O
exist at that point and u., = Vy.(b) If lim Im(~w/~z) exists at a point of D, show that Uy and v,,
Az-+O
exist at that point and Uy = -v,,.
( c) Suppose that u and v are differentiable at some point of D. Prove
that the existence of either of the limits in (a) and (b) implies the
existence of the other, and so the monogeneity off at that point.22. Let f be analytic in a domain D. Prove that f is a constant in D if
either u =Ref, v = Imf, lfl or Argf is constant in D.
Also, prove that f is a constant in D if h(u, v) = aou^2 +a1uv+a2v^2 +
a 3 u + a 4 v is constant in D, the coefficients ai being complex constants.
23. (a) If the functions fk (k = 1,2, ... ,n) are analytic in a domain D,
and are such that
n
2: 11kczw = c (a constant)
k=I
at all points of D, prove that all functions fk reduce to constants
in D.
(b) Prove that w = 2:~ lfk(z)l^2 cannot be harmonic in D unless all the
analytic functions fk reduce to constants in D.24. Suppose that f is analytic in a domain D and that f'(z) '=fa 0, lf(z)I < 1
at every point of D. Show that the functionlf'(z)I
w =Log 1 - lf(z)l2satisfies in D the equation \7^2 w = 4e^2 w.25. Let w = lf(z)l2, where f is analytic in a domain D. Show that w
. satisfies in D the equation w\7^2 w = w; + w~.
26. Let f be analytic in a domain D. Show that u = cos[Imf(z)] and
v = sin[Imf(z)] are solutions of the equation \7^2 1/J + Jf'(z)J^2 1/J = 0.
- Let u(x, y) be a harmonic function analytic in the real sense about
the origin [i.e., such that u( x, y) has a Taylor series representation in
some disk with center at OJ. Show that both w 1 = Reu(z,z) and
W2 = Im u(z, z) satisfy in a neighborhood of the origin the partial
differential equation Wxx - Wyy = 0. - Let u(x, y) be real analytic in some neighborhood of the origin. Suppose
that u satisfies in that neighborhood the partial differential equation