1540470959-Boundary_Value_Problems_and_Partial_Differential_Equations__Powers

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114 Chapter 1 Fourier Series and Integrals


This is the complex form of the Fourier series forf.Itiseasytoderivethe
universal formula


cn=^1
2 π

∫π

−π

f(x)e−inxdx, (2)

which is valid for all integersn, positive, negative, or zero. The complex form is
used especially in physics and electrical engineering. Sometimes the function
corresponding to a Fourier series can be recognized by use of the complex
form.


Example.
The series


∑∞
n= 1

(− 1 )n+^1
n cos(nx)

may be considered the real part of


∑∞
n= 1

(− 1 )n+^1
n e

inx=

∑∞

n= 1

(− 1 )n+^1
n

(

eix

)n
(3)

because the real part ofeiθis cos(θ ). The series on the right in Eq. (3) is recog-
nized as a Taylor series,


∑∞
n= 1

(− 1 )n+^1
n

(

eix

)n
=ln

(

1 +eix

)

.

Some manipulations yield


1 +eix=eix/^2

(

eix/^2 +e−ix/^2

)

= 2 eix/^2 cos

(

x
2

)

,

ln

(

1 +eix

)

=ix 2 +ln

(

2cos

(

x
2

))

.

The real part of ln( 1 +eix)is ln(2cos(x/ 2 ))when−π<x<π.Thus,wederive
the relation


ln

(

2cos

(x
2

))


∑∞

n= 1

(− 1 )n+^1
n

cos(nx), −π<x<π. (4)

(The series actually converges except atx=±π,± 3 π,....) 

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