Course Information
MATH348: Advanced Engineering Mathematics - Introduction to partial differential equations, with applications to physical phenomena. Fourier series. Linear algebra, with emphasis on sets of simultaneous equations. Prerequisite: MATH 225 or equivalent.
Instructor Information
Instructor : Scott Strong
Office : Chauvenet Hall 278
Office Phone : 303.384.2446
email : math348.spring2009@gmail.com
Course Calander
Classes Begin : January 7th, 2009
Meeting Days : Monday, Wednesday, Friday
Course Sections :
Section B, 12:00pm-12:50pm, Alderson Hall 330
Section C, 1:00pm-1:50pm, Green Center 211
Section D, 2:00pm-2:50pm, Green Center 211
Class Holidays :
February 16th, 2009 - Presidents Day
March 9th-13th, 2009 - Spring Break
April 2nd-4th, 2009 - E-Days
Classes End : April 30th, 2009
Important Dates :
January 22nd - Last Day to Withdrawal (Without a W)
March 24th - Last Day to Withdrawal
Office Hours
Fixed Office Hours :
M : 3-4pm
W : 11-12pm
F : 11-12pm
If you cannot meet during the previous office hours then please contact me to schedule another meeting time.
Textbook Information
Textbook : Advanced Engineering Mathematics - Erwin Kreyszig, ISBN 978-0-471-48885-9
9th Edition Amazon : Advanced Engineering Mathematics - Erwin Kreyszig, ISBN 978-0-471-48885-9
8th Edition Amazon (Used) : Advanced Engineering Mathematics - Erwin Kreyszig, ISBN 978-0-471-48885-9
These downloads require Adobe Acrobat Reader
Course Documents
Handouts
A61.TrigIdentities
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Special Angles and the Unit Circle
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FS for f(x}=x, x \in (-\pi,\pi)
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FS for f(x}=Exp(Abs(x)), x \in (-\pi,\pi)
Wikipedia - Sinc Function
Mathworld - Sinc Function
Wikipedia - Nyquist-Shannon Sampling Theorem
Mathworld - Convolution (Animation)
Convolution and Diffraction (Animations)
Convolution and Diffraction (Animations)
Wikipedia - Convolution (Animation)
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Frequency Response Graph for a Harmonic Oscillator m=k=1, Gamma = {1,.5,.25,.125}
Heat Movie 1 - abs(x)
Heat Movie 2 - parabola
Heat Movie 3 - Double V
The Well-Tempered Timpani By Richard K. Jones
Vibrating Membrane1 - 12.9.1 Example
Vibrating Membrane2 - 12.9.1 Example
Vibrating Membrane3 - 12.9.1 Example
Vibrating Membrane4 - 12.9.1 Example
Vibrating Membrane5 - 12.9.1 Example
Heat Movie 3 - Double V
Lecture Slides
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Lecture 1
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Lecture 2
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Lecture 3-4
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Lecture 5
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Lecture 6'ish
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Lecture Six
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Lecture Seven
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Lecture Eight
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Lecture Nine
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Lecture Ten
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Lecture Eleven
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Lecture Twelve
Syllabus
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MATH348.Spring2009.Syllabus
Exams
Exam I will be held on February 13th in class there will be no class the following Wednesday. There will be no notecards or calculators. The exam will be five questions and contain material outlined in the following review:
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Exam 1 - Review Sheet
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Exam 1 - Fall2008
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Exam 1 - Fall2008 Solutions
Exam I - Statistics
Average = 39.69 = 79.38%
Median = 41 = 82%
A's = 27, B's = 31 , C's = 17 , D's = 16, F's =9, Total Number of Exams = 100
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Exam I - Spring2009
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Exam I - Spring2009 Solutions
Exam II will be held on April 1st in class there will be no class the following Monday. There will be no notecards or calculators. The exam will be five questions and contain material outlined in the following review:
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Exam 2 - Review Sheet
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Exam 2 - Spring2009 Q + A
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Exam 2 - Fall2008
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Exam 2 - Fall2008 Solutions
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Exam 2 - Fall2008 Q + A
Exam II - Statistics
Average = 37.14 = 74.29%
Median = 37 = 74%,
A's = 9, B's = 25 , C's = 31 , D's = 23, F's =9, Total Number of Exams = 97
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Exam II - Spring2009 See Soln for problem 3 graph.
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Exam II - Spring2009 Solutions
The final exam will be held on May 4th from 10:15am-12:15am. The classes will be split across rooms. Please go to the room assigned to the class you are enrolled in. There will be no notecards or calculators. The exam will be cumulative with an emphasis on PDE.
MATH348B-BE241 Proctor: Ecklund
MATH348C-BB201 Proctor: Bridgman
MATH348D-BB204A Proctor: Strong
Since, it is likely I won't see most of you at the exam -- Have a good summer and it was nice having class with you. :)
I will not be posting a practice exam, since it is policy to not disseminate final exams.
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Final Exam - Review Sheet
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OLD PDE EXAM
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OLD PDE EXAM - SOLN
Assignments
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MATH348.Spring2009.Homework1
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MATH348.Spring2009.Homework1.Solutions
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MATH348.Spring2009.Homework2
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MATH348.Spring2009.Homework2Solutions
Picture of a Parallelepiped : [1]
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MATH348.Spring2009.Homework3
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MATH348.Spring2009.Homework3Solutions
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MATH348.Spring2009.Homework4
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MATH348.Spring2009.Homework4Solutions
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MATH348.Spring2009.Homework5
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MATH348.Spring2009.Homework5Solutions
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MATH348.Spring2009.Homework6
NOTE : For the graphs you may want to consider using the eigenmath program posted below. Eigenmath Script for Example1 Results Feel free to post better scripts. I'm sure that this program could find the coefficients from their integral definitions.
NOTE : A typo has been corrected. You should assume that E=\omega = 1 and L = \pi.
NOTE : Thanks to David Melton for Another Graphing Utility - Graphs Truncated FS
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MATH348.Spring2009.Homework6Solutions
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MATH348.Spring2009.Homework7
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MATH348.Spring2009.Homework7Solutions
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MATH348.Spring2009.Homework8
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MATH348.Spring2009.Homework8Solutions
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MATH348.Spring2009.Homework9
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MATH348.Spring2009.Homework10
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Course Links
Graphing Utilities
Free Mathematica Like Program for Windows and Mac
Eigenmath Manual