1.8 Numerical Determination of Fourier Coefficients 105
Figure 12 Graph of the difference betweenf(x)=sin(x)/xandF(x), the sum of
the Fourier series using the approximate coefficientsaˆ 0 throughaˆ 6.
- Express the Fourier cosine coefficients of the example in terms of integrals
of the form
Si(
(n+ 1 )π)
=
∫(n+ 1 )π0sin(t)
t dt.This is the sine integral function and is tabulated in many books, especially
Handbook of Mathematical Functions, Abramowitz and Stegun, 1972.- Each entry in the list that follows represents the depth of the water in Lake
Ontario (minus the low-water datum of 242.8 feet) on the first of the cor-
responding month. Assuming that the water level is a periodic function
of period one year, and that the observations are taken at equal intervals,
compute the Fourier coefficientsaˆ 0 ,aˆ 1 ,bˆ 1 ,aˆ 2 ,bˆ 2 , thus identifying the
mean level, and fluctuations of period 12 months, 6 months, 4 months,
and so forth. Takex 0 as January,...,x 11 as December, andx 12 as January
again.
Jan. 0.75 July 2.35
Feb. 0.60 Aug. 2.15
Mar. 0.65 Sept. 1.75
Apr. 1.15 Oct. 1.05
May 1.80 Nov. 1.00
June 2.25 Dec. 0.90- The numbers in the table that follows represent the monthly precipi-
tation(ininchesofwater)inLakePlacid,NY,averagedoverthepe-
riod 1950–1959. Find the approximate Fourier coefficientsaˆ 0 ,...,ˆa 6 and
bˆ 1 ,...,ˆb 5.