1.5 Operations on Fourier Series 89
in whichαis a positive parameter. For this function we havea 0 =0,an=e−nα,
bn=0. By the integral test, the series
∑
nke−nαconverges for anyk. Therefore
fhas derivatives of all orders. The Fourier series off′andf′′are
f′(x)=∑∞
n= 1−ne−nαsin(nx),f′′(x)=∑∞
n= 1−n^2 e−nαcos(nx). EXERCISES
1.Evaluate the sum of the series∑∞
n= 11 /n^2 by performing the integration
indicated in Eq. (5).
2.Sketch the graphs of the periodic extension of the functionf(x)=π− 2 x, 0 <x< 2 π,and of its derivativef′(x)and ofF(x)=∫x0f(t)dt.3.Suppose that a function has the formulaf(x)=x,0<x<π. What is its
derivative? Can the Fourier sine series offbe differentiated term by term?
What about the cosine series?
4.Verify Eqs. (6) and (7) by integration.
5.Suppose that a functionf(x)is continuous and sectionally smooth in the
interval 0<x<a. What additional conditions mustf(x)satisfy in order
to guarantee that its sine series can be differentiated term by term? the
cosine series?
6.Is the derivative of a periodic function periodic? Is the integral of a peri-
odic function periodic?
7.It is known that the equalityln(∣∣
∣∣2cos(
x
2)∣∣
∣∣
)
=
∑∞
n= 1(− 1 )n+^1
n cos(nx)is valid except whenxis an odd multiple ofπ. Can the Fourier series be
differentiated term by term?