Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night...
-
date post
21-Dec-2015 -
Category
Documents
-
view
213 -
download
0
Transcript of Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night...
![Page 1: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/1.jpg)
Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)
– One proposal per group; CC your partner(s)– See website for guidelines, grading, ideas, and examples
of past projects. HW 22 due MONDAY instead of Friday. (HW 23 also due
Monday) We’re half-way done with semester! Exam 2 starts a week from tomorrow!
a. Review session: either Monday, Tues, or Wed. Please vote by tomorrow night so I can schedule the room on Friday.
Anyone need my “Fourier series summary” handout?
PearlsBefore Swine
![Page 2: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/2.jpg)
Reading Quiz In the Fourier transform of a periodic function,
which frequency components will be present?a. Just the fundamental frequency, f0 = 1/period
b. f0 and potentially all integer multiples of f0
c. A finite number of discrete frequencies centered on f0
d. An infinite number of frequencies near f0, spaced infinitely close together
e. 1320 KFAN (1320 kHz), home of the Utah Jazz… if there’s a season
![Page 3: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/3.jpg)
Fourier Theorem Any function periodic on a distance L can be written
as a sum of sines and cosines like this:
Notation issues: a. a0, an, bn = how “much”
at that frequencyb. Time vs distancec. a0 vs a0/2
d. 2/L = k (or k0) 2/T = (or 0 )e. 2n/L = nfundamental
The trick: finding the “Fourier coefficients”, an and bn
01 1
2 2( ) cos sinn n
n n
nx nxf x a a b
L L
01
compare to: ( ) nn
n
f x a a x
![Page 4: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/4.jpg)
Applications (a short list) “What are some applications of Fourier transforms?”
a. Electronics: circuit response to non-sinusoidal signalsb. Data compression (as mentioned in PpP)c. Acoustics: guitar string vibrations (PpP, next lecture)d. Acoustics: sound wave propagation through
dispersive mediume. Optics: spreading out of pulsed laser in dispersive
mediumf. Optics: frequency components of pulsed laser can
excite electrons into otherwise forbidden energy levels
g. Quantum: wavefunction of an electron in “particle in a box” situations, aka “infinite square well”
![Page 5: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/5.jpg)
How to find the coefficients
What does mean?
What does mean?
0
0
1( )
L
a f x dxL
0
2 2( )cos
L
nnx
a f x dxL L
0
2 2( )sin
L
nnx
b f x dxL L
01 1
2 2( ) cos sinn n
n n
nx nxf x a a b
L L
0
0
1( )
L
a f x dxL
1
0
2 2( )cos
Lx
a f x dxL L
Let’s wait a minute for derivation.
![Page 6: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/6.jpg)
Example: square wave
f(x) = 1, from 0 to L/2 f(x) = -1, from L/2 to L
(then repeats) a0 = ? an = ? b1 = ? b2 = ? bn = ?
0
0
1( )
L
a f x dxL
0
2 2( )cos
L
nnx
a f x dxL L
0
2 2( )sin
L
nnx
b f x dxL L
01 1
2 2( ) cos sinn n
n n
nx nxf x a a b
L L
004/Could work out each bn individually, but why?
4/(n), only odd terms
![Page 7: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/7.jpg)
Square wave, cont.
Plots with Mathematica:
1(odd only)
4 2( ) sin
n
nxf x
n L
4 2 4 6 4 10( ) sin sin sin ...
3 5
x x xf x
L L L
![Page 8: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/8.jpg)
Deriving the coefficient equations
To derive equation for a0, just integrate LHS and RHS from 0 to L. To derive equation for an, multiply LHS and RHS by cos(2mx/L),
then integrate from 0 to L.(To derive equation for bn, multiply LHS and RHS by sin(2mx/L), then integrate from 0 to L.)
Recognize that when n and m are different, cos(2mx/L)cos(2nx/L) integrates to 0. (Same for sines.)
Graphical “proof” with MathematicaOtherwise, if m=n, then integrates to (1/2)L (Same for sines.)
Recognize that sin(2mx/L)cos(2nx/L) always integrates to 0.
0
0
1( )
L
a f x dxL
0
2 2( )cos
L
nnx
a f x dxL L
0
2 2( )sin
L
nnx
b f x dxL L
01 1
2 2( ) cos sinn n
n n
nx nxf x a a b
L L
![Page 9: Announcements 10/19/11 Prayer Chris: today: 3-5 pm, Fri: no office hours Labs 4-5 due Saturday night Term project proposals due Sat night (emailed to me)](https://reader034.fdocuments.in/reader034/viewer/2022050714/56649d615503460f94a42ed7/html5/thumbnails/9.jpg)
0N 1N 2N
3N 10N 500N
1 1 2sin
2
nx
n L
Sawtooth Wave, like HW 22-2
(The next few slides from Dr. Durfee)