Differentiation 329
Example If f(z) = lzl^4 = z^2 z^2 , we have 8f /8z = 2zz^2 and 8f /az =
2z^2 z.
We now proceed to establish some of the basic properties of the operators
az and az as defined by (6.7-6).
Theorem 6. 7 Let I( z) = z be the identity function, and let J ( z) = z be
the conjugation function. Then we have
Proof It follows at once by applying (6.7-8) and (6.7-9).
(6.8-1)
(6.8-2)For convenience, we shall write properties (6.8-1) and (6.8-2) in the formaz(z) = 1,
az(z) = 0,az(z) = 0
az(z) = 1(6.8-3)
(6.8-4)Theorem 6.8 Let f and g be functions of class 'D(A). Then we have
azu + g) = azf + azg,
az(fg) = f8zg + g8zf,
az (L) = gazf -1azg,
g g2az(f + g) = 8zf + azg
az(fg) = f8zg + g8zfaz (L) = gazJ - Jazg
g g2(6.8-5)
(6.8-6)(6.8-7)for all z in A excepting, in the case of (6.8-7), those values of z, if any,
for which g(z, z) = 0.
Proof We shall prove only the first formula in (6.8-6). The other results
can be established in a similar manner.
From the definition of az we have
Now, it is easy to check that
and similarly,
so that
(fg)x = fgx + gfx
az(fg) = 1/2[! gx + gfx -ifgy -igfy]
= J · %[gx -igy] + g •^1 /2[f x -ify]
= fozg+ gozf