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         Differential Equations Activities:     more detail
  1. Epileptiform Activity in Differential Equation Models of Neuronal Networks (Berichte Aus Der Physik) by Christian Hauptmann, 2000-10-12
  2. Inverse Problems: Activities for Undergraduates (Classroom Resource Materials) by Charles W. Groetsch, 1999-12-02
  3. Computing the Electrical Activity in the Heart (Monographs in Computational Science and Engineering) by Joakim Sundnes, Glenn Terje Lines, et all 2010-11-02
  4. Computer Science Research Activities In Asia: Software Technology And Patents, Cim, Scientific Computation And Differential Equations, Computer And Mathmatics Modelling, And System Simulation by David K. Kahaner, 1993-09-30
  5. Stochastic estimation in combined arms Lanchester modeling of warfare (Technical report / U.S. Army Materiel Systems Analysis Activity) by Herbert E Cohen, 1985
  6. Methodology for stochastic modeling (Technical report / U.S. Army Materiel Systems Analysis Activity) by Herbert E Cohen, 1985
  7. Ready-To-Use Vocabulary, Word Attack & Comprehension Activities: Fifth Grade Reading Level (Reading Skills Activities Library) by Henriette L. Allen, Walter B. Barbe, et all 1999-09

21. Read This: Revolutions In Differential Equations
Borrelli Coleman give an overview of three packages Interactive Differential Equations (IDE), Internet Differential Equations Activities (IDEA), and ODE Architect.
http://www.maa.org/reviews/revode.html
Read This!
The MAA Online book review column
Revolutions in Differential Equations
Exploring ODEs with Modern Technology
by Michael J. Kallaher
Reviewed by Jan E. Holly
A revolution is rumbling through the teaching of differential equations. Computers are beginning to inundate the classroom, and courses are changing in response to the availability of software. Although computers have been used for a long time in differential equations courses, the last few years has seen an explosion in software written specifically for such classes and textbooks focusing on graphical methods. Hence, the mainstream now follows the revolutionists. To incorporate computers fully into a course, the structure of the course, and possibly the classroom itself, must be revamped. The topic of class structure is treated well in this volume. West, especially, gives many ideas and suggestions on how to incorporate computer exercises and projects, including helpful hints on assigning, grading, and presenting results of student work. Boyce, also, discusses class structure, advocating the "studio course" in which students have access to computers at all times in the classroom. The revolution is worth joining, and this volume is worth having, for anyone who teaches differential equations. Although the reader may wish for a better catalogue and review of software, or a longer list of relevant books (no-one mentions as part of the revolution, for example, the excellent textbook

22. Calculus
Internet Differential Equations Activities. Karl's Calculus Tutor Online help. Logically Speaking - Online lesson
http://webtech.kennesaw.edu/jcheek4/calculus.htm
Calculus
Ask Dr. Math
- Calculus FAQs Calculus and Differential Equations Calculus and Trigonometry Problem of the Week Calculus@Internet Calculus Classroom Materials ... Calculus Solutions - "Day or night, from anywhere, you can get calculus problems solved in seconds, automatically. You get all the steps including the final answer. Each step is explained in plain English, just like the examples in your textbook. You see it all in standard math notation, just like your teacher at the blackboard." Calculus Graphics Calculus - Help with lessons. Calculus Initiative Calculus Java Applets Calculus Links Calculus on the Web ... Calculus - Study page. CyberCalc e-Calculus - Calculus I tutorial. Requires Acrobat Reader. Finite and Applied Calculus - Resource page. Graphic Applets for Calculus Graphics for the Calculus Classroom - "These are excerpts from a collection of graphical demonstrations I developed for first year calculus. Those interested in higher math may also want to visit my page of graphics for complex analysis. This page is on the list of the most frequently linked math pages according to MathSearch." Historical Roots of Calculus - WebQuest Hotlist of Calculus Sites Interactive Calculus - Student activities.

23. CLASS Connections Template
IDEA Internet Differential Equations Activities based at the Washington State University provides projects and JAVA based software for solving DE's.
http://faculty.uml.edu/vprasad/92.234.A33/RESOURCE.HTM

24. Learning Materials
This is a subsite of IDEA (Internet Differential Equations Activities). The qualitative aspects of Type Simulation Date Added Nov 26, 2006
http://www.merlot.org/merlot/materials.htm?category=2574

25. S.O.S. Mathematics - Sites Of Interest On The Web
Internet Differential Equations Activities is an interdisciplinary effort to provide students and teachers with computer based activities for differential equations in a wide
http://www.sosmath.com/wwwsites.html
S.O.S. Mathematics - Sites of Interest on the World Wide Web
Here is a list of some nice sites on the World Wide Web. If you know of a site that should be listed, please let us know....
General Mathematics Sites

26. Chemical Clock - Wikipedia, The Free Encyclopedia
A chemical clock is a complex mixture of reacting chemical compounds in which the concentration of one or more components exhibits periodic changes. They are a class of reactions that
http://en.wikipedia.org/wiki/Chemical_clock
Chemical clock
From Wikipedia, the free encyclopedia Jump to: navigation search In an Iodine clock reaction colour changes after a time delay. A chemical clock is a complex mixture of reacting chemical compounds in which the concentration of one or more components exhibits periodic changes. They are a class of reactions that serve as a example of non-equilibrium thermodynamics , resulting in the establishment of a nonlinear oscillator . The reactions are theoretically important in that they show that chemical reactions do not have to be dominated by equilibrium thermodynamic behavior. In cases where one of the reagents has a visible color, crossing a concentration threshold can lead to an abrupt color change in a reproducible time lapse. Examples of clock reactions are the Belousov-Zhabotinsky reaction , the Briggs-Rauscher reaction , the Bray-Liebhafsky reaction and the iodine clock reaction . The concentration of products and reactants of oscillatory chemical systems can be approximated in terms of damped oscillations
Contents

27. SMB - Resources - Other Sites Of Interest
Internet Differential Equations Activities (IDEA) The Internet Pilot To Physics (TIPTOP) The Israeli Society for Theoretical and Mathematical Biology (ISTMB)
http://www.smb.org/resources/links.shtml
Membership Governance Meetings Publications ... Job Listings
Other Sites of Interest
If you know of any other sites that would be of interest to SMB members, please let us know webmaster@smb.org Return to Resources Home Search ... Members' E-Mail The Society for Mathematical Biology
P.O. Box 11283
Boulder, Colorado 80301 USA
1-303-661-9942 phone, 1-303-665-8264 fax Comments or problems?
webmaster@smb.org

28. ODEs: Useful Links
IDEA Internet Differential Equations Activities, an interdisciplinary effort to provide students and teachers around the world with computer based activities for differential
http://hornacek.coa.edu/dave/Teaching/Odes.01/links.html
Odes: Useful Links
This list isn't at all comprehensive.
Dave
Odes COA Web page maintained by dave@hornacek.coa.edu

29. Calculus Resources
Internet Differential Equations Activities Computerbased actvities involving differential equations including such topics as bungee jumping and El Nino
http://www.chipola.edu/instruct/math/mathlab/calculus.htm
Calculus Resources Type of Resource Description This is a site maintained by Mr. Calculus to answer your calculus related questions. He also has the 1999, 1998 and 1997 AB and BC free response questions with solutions at this site.You may also email John Mieczkowski your questions. Both gentleman have made themselves available online to answer calculus questions. Windows 95 Calculator UCALC is a multipurpose calculator program which includes an expression evaluator, equation solver, integrations, summations, 2D/3D equation plotting, unit conversions, user solution modules and more, making it a helpful tool for calculus Calculus Java Applets Java applets that dynamically illustrate calculus concepts such as limits, solids of revolutions and exponential functions Calculus on the Web - a system for learning, practicing and experimenting with the ideas and techniques of calculus The Calculus Page Problems with solutions (with the most detailed, step-by-step solutions available anywhere on the internet), sample exams, tips on preparing for exams, excerpts from "How to Ace Calculus," and many other great links for Calculus (many not mentioned on this page).

30. Program On Geometric Partial Differential Equations - IMS
Cochairs. Xingwang Xu (National University of Singapore) Paul Yang (Princeton University) Members. Weiyue Ding (Beijing University) C. S. Lin (Chung Cheng University)
http://www.ims.nus.edu.sg/Programs/pdes/index.htm

31. Kidoguchi, Kenneth - Miscellaneous Links
Internet Differential Equations Activities (IDEA), Washington State University. Project Links, Rensselaer Polytechnic Institute. Tutorials
http://spot.pcc.edu/~kkidoguc/misc_KK.html
Mathematics Web Links
Updated: 05 September 2010
Maplesoft Tutorials:
Maplesoft Video: Getting Started With Maple. Maplesoft Video: Entering Math in Maple. Maplesoft Video: Problem Solving and Plotting in Maple. Maplesoft Video: Creating Documents in Maple. Maplesoft Student Help Centre.
Mathematics Videos:
Business Math. Verizon Math. Large Hadron Collider (LHC Geek Rap).
Stud Work:
MTH_112, Winter 2003: Jarod Landaker and Kazutoshi Maruyama. MTH_254, Spring 2005: Deanna Hutchinson, Chris Jarrett, Leif Warner, and Avaz Sobhani. MTH_254, Spring 2008: Chuangye and Nguyen. MTH_254, Spring 2008: Foley, O'Connor, Rieck. MTH_252, Fall 2008: Jacobsen, Pierson, Scherer, Wallace. MTH_256, Fall 2008: Defilippis and Zimmermann.
PCC Student Support Resources:
Blackboard Login Page - Selected course materials are available from this site. MTH_112 Supplemental Problem Sets. Calculator Manuals. MTH 112 Online Lecture Notes, courtesy of Peter Habermann. Creating Mathematics Inside Microsoft Word - Equation Editor , courtesy of Steve Simonds. Mathematics Student Success Centre.

32. Differential Equations Grading
Activities will concentrate on the use of the computer algebra system MATLAB to visualize, graph and compute solutions to differential equations. Activities
http://home1.fvcc.edu/~dhicketh/DiffEqns/DiffEqnspolicy.html
Grading
Your total points for the class will consist of reading and homework assignments, activities, four exams and a class project. Your grade will be based on the following points:
Homework Activities Exams 4 @ 100 pts each Project Total In addition to the above points, students work and understanding of the material presented during the semester as demonstrated through classroom and group participation will be used to assign final grades. Homework
Assignments will be made almost daily. The homework will be due 2 class days after it is assigned. Some time will be set aside at the beginning of class to discuss the previous day's homework. Homework will not be discussed the day it is due. Each homework assignment is worth 5 points. The homework will be graded according to the following criteria:
  • 10 points : All work completed correctly in a neat and organized manner showing all work. 8 points : All problems attempted in a neat and organized manner showing all work with no more that 3 incorrect. 6 points : All problems attempted in a neat and organized manner showing all work with more than 3 incorrect answers.

33. Internet Differential Equations Activities
The Brusselator is a theoretical model for a type of autocatalytic reaction. The Brusselator model was proposed by Ilya Prigogine and his collaborators at the Free University of
http://www.chnu.edu.cn/hbmsy/Site/math/news/109_722.html
Internet Differential Equations Activities 一个使用微分方程模型来解决实际问题的活动,是学习微分方程模型的好地方。来自Washington State University. Internet Differential Equations Activities 地址:
http://www.sci.wsu.edu/idea/
作者:math
电子邮件:math@chnu.edu.cn

34. Hyperlinks
The IDEA (Internet Differential Equations Activities) Page at Washington State University features some excellent projects involving mathematical models of interesting topics like El
http://www.brookscole.com/math_d/templates/student_resources/0534379990_zill/lin
The Boston University Differential Equations Project
is a site of interest to those who want to emphasize concepts and graphical techniques in the teaching of differential equations. The site includes Robert Devaney's outline for his course and information about Blanchard, Devaney, and Hall's Differential Equations . There is also a useful Instructor's Manual for those who are teaching out of the Blanchard/Devaney/Hall text. Bob Devaney's lessons on using bifurcations and phase lines
are an excellent resource on graphical methods. These are written to be read by students and include helpful illustrations. The IDEA (Internet Differential Equations Activities) Page at Washington State University
features some excellent projects involving mathematical models of interesting topics like El Nino and bunjee jumping. The University of Illinois at Chicago Course Page
features a number of Maple worksheets ranging from elementary tutorials to worksheets for specific applications. The North Carolina State DE Page
includes a set of Maple worksheets illustrating topics in differential equations. Aaron Klebanoff's Complex, Technology Based Problems

35. What Does IDEA Stand For?
What does IDEA mean? the content of cognition; the main Internet Differential Equations Activities Academic Science Universities
http://www.abbreviations.com/bs.asp?st=IDEA

36. Webb Sites About Differential Equations Courses
IDEA Internet Differential Equations Activities Washington State University College of Sciences http//www.sci.wsu.edu/idea/ Differential Equations Math Archives for Mac's
http://www.sistema.itesm.mx/va/apoyo/Ma/Forma/Web-EcDif.html
Webb Sites about Differential Equations Courses
Differential Equations with Maple V
North Carolina State University; Dept of Mathematics
http://www2.ncsu.edu/eos/info/maple_info/www/MA341Maple.html

Differential Equations with Maple V
The University of New Mexico; Dept of Mathematics and Statistics
http://math.unm.edu/~djacobs/maprog/MA341Maple.html

Differential Equations with Maple V (William Boyce course)
Rensselaer Polytechnic Institute Math Dept
http://www.math.rpi.edu/www/courses/diffeq4/

Cybermath Waterloo Maple, Inc. http://www.maplesoft.com/cybermath/index.html http://www.cybermath.com/ Maple Resources Rensselaer Polytechnic Institute Math Dept http://www.math.rpi.edu/www/Materials/maple.links.html Interactive Learning in Calculus and Differential Equations with Applications Indiana University of Pennsylvania; (uses "Mathematica" http://www.ma.iup.edu/projects/CalcDEMma/Summary.html IDEA: Internet Differential Equations Activities Washington State University College of Sciences http://www.sci.wsu.edu/idea/ Differential Equations Math Archives for Mac's http://archives.math.utk.edu/software/mac/diffEquations/.directory.html

37. ODEs On The Web: Differential Equations : Graphics, Models, Data - By Lomen And
IDEA is Internet Differential Equations Activities, an interdisciplinary effort to provide students and teachers around the world with computer based activities for differential
http://math.arizona.edu/~dsl/webodes.htm
ODEs on the Web Archives: Projects:

38. TechEd99 Participants
Professor LoFaro is a principal investigator of the NSF funded project Internet Differential Equations Activities (IDEA). This site provides students and instructors with
http://www.wcer.wisc.edu/archive/teched99/participants/detail9.htm
Thomas LoFaro
Washington State University
E-mail: lofaro@trout.math.wsu.edu
Web site(s):
http://www.sci.wsu.edu/math/faculty/lofaro/lofaro_tp.html

http://www.sci.wsu.edu/idea/

Professor LoFaro is a principal investigator of the NSF funded project Internet Differential Equations Activities (IDEA). This site provides students and instructors with software and projects demonstrating the uses of differential equations in modeling a variety of physical and biological processes. Professor LoFaro and Professor David Slavit are presently analyzing classroom data to determine how technology based projects affect student understanding of fundamental concepts in differential equations. Professor LoFaro also contributed to CODEE's ODE-Architect, a CD-ROM published by John Wiley and Sons. ODE-Architect uses multimedia and a sophisticated solver to demonstrate differential equations concepts and their applications to modeling. ODE-Architect was named one of the "9 Best Digital Products on the Planet" by NewMedia Magazine in 1998.
Go back to participants list
HOME INTRODUCTION LOCAL INFORMATION ... Wisconsin Center for Education Research
Last Update: 10 November 1999

39. Russ Park's Home Page
My research interests are in Reconstruction, Optimization, PDEs, Image Processing and Visualizations. Related Links IDEA Internet Differential Equations Activities,
http://homepages.gac.edu/~rpark/
Russ Park
Department of Mathematics and Computer Science Gustavus Adolphus College 800 West College Ave. Saint Peter, MN 56082-1498 Voice: (507) 933-7482 Fax: (507) 933-7041 Office: Olin 310 Email: rpark@gustavus.edu CV
Fall 2010 Schedule
Period Mon Tues Wed Thur Fri MCS 118
OH 321 MCS 118
OH 321 MCS 118
OH 321 MCS 118
OH 321 MCS 253
OH 318 MCS 253
OH 318 MCS 253
OH 318 MCS 253
OH 318 Office Hour
OH 310 Office Hour
OH 310 Office Hour OH 310 Office Hour OH 310 MCS 118 OH 321 MCS 118 OH 321 MCS 118 OH 321 MCS 118 OH 321
Courses
Calculus with Precalculus Review 1A Differential Equations
Research Interests
I received my Ph.D in Applied Mathematics from Arizona State University where I worked with Professors Zdzislaw Jackiewicz and Anne Gelb. Prior to studying at ASU I earned a B.S. In Electrical Engineering at San Diego State University . My research interests are in Reconstruction, Optimization, PDEs, Image Processing and Visualizations.
Related Links
IDEA Internet Differential Equations Activities, Back to ... Mathematics Faculty

40. Stephen MacNeil - LinkedIn
Digital Design, Filter Design, Transistor Analysis, Python/Unix (kshell), C Programming, Chemistry (I, II), Calculus (I,II,III), Linear Algebra, Differential Equations. Activities
http://www.linkedin.com/pub/stephen-macneil/13/945/763
document.body.className += " js";
Stephen MacNeil
Research Internship at Purdue University Greater New York City Area
Current
Past
see less...
Education
  • Purdue University Immaculata High School
Connections
connections
Industry
Computer Software
Websites
I am currently very interested in computer visualization. It is an interesting way to integrate my passions of art, design, computers and data. I really like the idea of making data that was previously inaccessible not only available but also understandable.
I am also interested in automation and intelligent systems. I am interested in artificial intelligent interactions between applications and databases or applications and web content.

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