A
useful theorem when looking at the Cauchy –Riemann equations is the following:
A
function f(z) = u(x,y) + iv(x,y) is analytic in a domain D if and only if v is
a harmonic conjugate of u.
Consider
the function we saw already in the Oct.
7 blog:
f(z)
= u(x,y) + iv(x,y) = (x2 – y2) + i2xy
Now,
we first check to see if the eqns. are analytic
Take
¶ u/ ¶ x =
2x
And: ¶ v/ ¶ y
= 2x
Since: ¶ u/ ¶ x
= ¶ v/ ¶ y then u(x.y) is analytic
Now
check the other function, v(x.y)
¶ v/ ¶ x = 2y
And: - ¶ u/ ¶ y = -
(-2y) = 2y
So
that -
¶ u/ ¶ y = ¶ v/ ¶ x and hence
v(x,y) is analytic..
Note:
If f(z) is analytic everywhere in the
complex plane it is said to be an entire
function.
Now, to see if it's a harmonic conjugate,
switch u(x,y) with
v(x,y) so that:
v(x,y) so that:
f(z)
= u(x,y) + iv(x,y) = 2xy + i(x2 – y2)
u(x,y)
= 2xy and v(x,y) = (x2 – y2)
We
first check to see if the u, v functions are analytic
Take
¶ u/ ¶ x =
2y
And: ¶ v/ ¶ y
= - 2y
Since: ¶ u/ ¶ x
= ¶ v/ ¶ y
Thus, it holds
only where y = 0, so then f(x) is differentiable only for points that lie on the x
–axis and we conclude the function reversed for conjugates is nowhere analytic.
The conclusion is thus that while v is a harmonic conjugate of u throughout
the z-plane, v is not a harmonic
conjugate of u.
In
general, and based on this, one is led to conclude that given a function:
f(z)
= u(x,y) + iv(x,y)
then
f(z) is analytic in some domain D if and only if (-if(z) = v(x,y) –iu(x,y) is
also analytic there
Example
(2): Let
f(z) = 3x + y + i(3y – x)
Show
that v is a harmonic conjugate of u and hence the function is analytic in a
domain D when u and v are interchanged for f(z). Is the function also entire?
We
have u(x,y) = 3x + y and v(x,y) = (3y – x)
Check
Cauchy relations:
Take
¶ u/ ¶ x = 3
And: ¶ v/ ¶ y
= 3
Since: ¶ u/ ¶ x
= ¶ v/ ¶ y then u(x.y) is analytic
Now
check the other function, v(x.y):
¶ v/ ¶ x = -1
And: - ¶ u/ ¶ y = -
(1) = -1
So
that -
¶ u/ ¶ y = ¶ v/ ¶ x and hence
v(x,y) is analytic..
Now,
interchange u(x,y) with v(x,y):
f(z)
= 3x - y + i(3y +
x)
We
have u(x,y) = 3x - y and v(x,y) = (3y + x)
Check
Cauchy relations:
Take
¶ u/ ¶ x = ¶ v/ ¶ y
And: ¶ v/ ¶ y
= 3 = ¶ u/ ¶ x
Since: ¶ u/ ¶ x
= ¶ v/ ¶ y then u(x.y) is analytic
Now
check the other function, v(x.y):
¶ v/ ¶ x = +1
And: - ¶ u/ ¶ y = -
(-1) = +1
So
that -
¶ u/ ¶ y = ¶ v/ ¶ x and hence
v(x,y) is analytic..
Since
v is a harmonic conjugate of u then the function is analytic in a domain D when
u and v are interchanged.
If
the function is entire then it also satisfies the LaPlace
equation: Ñ 2u =
0
Then:
¶ 2 u/ ¶ x2 + ¶ 2 u/ ¶ y2 = 0 + 0 = 0
And:
¶ 2 v/ ¶ x2 + ¶ 2 v/ ¶ y2 = 0
+ 0 = 0
So
the function is also entire on the complex plane.
Problems
for the Math Maven:
1) Given
the function:
f(z)
= u(x,y) + iv(x,y) = cos x cosh y –
i(sinx sinh y)
a)
Verify
the Cauchy-Riemann equations are satisfied
b)
Are
they also satisfied for the harmonic conjugate, i.e. when u and v are
interchanged?
2)
Let
u(x,y) = (x2
– y2) + 2x
a)
Show
u(x,y) is a harmonic function
b)
Hence
or otherwise, find the harmonic conjugate v(x,y) of u.
nice
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