61. Math Resources Contains links to software, professional organizations, research institutes, teaching aids, algebra, number theory, geometry, calculus, differential equations. http://comers.citadel.edu/www/math.htm

Math Resourses This page contains links to web sites with mathematically related information organized as follows: General Resource sites Professional Organizations and Research Institutes Math Teaching Resources Algebra ( including Lattice Theory), Discrete Math and Number Theory ... Other General Resource sites The MathSci Net (On-campus access) The list of Mathematics Information Servers maintained by Penn State University The Mathematics Archives WWW Server at the University of Tennessee The World-Wide Web Virtual Library: Mathematics Mathematical Resources on the Web , from Univ Florida E-Tutor Connected Learning for K-12 Centre for the Popularisation of Mathematics Interactive Math , Miscellany and puzzles Spreadsheets in Education and Mathematics (Erich Neuwirth) Spreadsheet User , a journal devoted to novel spreadsheet applications Mega Math from Los Alamos Nat. Lab MatLab in Education and MatLab Connections listing third-party tools MathSkills Newsletters from the British Dept of Education and Employment and MathSkills home page Mathematical PREprint Server System by the European Math Soc Math Placement and Gateway Exams from Michagan State University Organics Math Workshop Conference proceedings Home pages for professional organizations and research institutes: AMS , the MAA the Eisenhower National Clearinghouse and EXTEND an Internet forum on math education.

62. SpringerLink - Publication NoDEA Published by Birkhäuser Verlag AG edition, Nonlinear differential equations and Applications ISSN 10219722 (Printed edition) ISSN 1420-9004 (Electronic edition) Published by Birkhäuser Verlag http://link.springer-ny.com/link/service/journals/00526/

Articles Publications Publishers Home Publication Calculus of Variations and Partial Differential Equations Publisher: Springer-Verlag Heidelberg ISSN: 0944-2669 (Paper) 1432-0835 (Online) Subject: Mathematics Physics and Astronomy Issues in bold contain article full text that you are entitled to view. Online First Volume 20 Number 2 Number 1 Volume 19 Number 4 Number 3 Number 2 Number 1 ... Request a sample Volume 18 Number 4 Number 3 Number 2 Number 1 Volume 17 Number 4 Number 3 Number 2 Number 1 Volume 16 Number 4 Number 3 Number 2 Number 1 Volume 15 Number 4 Number 3 Number 2 Number 1 Volume 14 Number 4 Number 3 Number 2 Number 1 Volume 13 Number 4 Number 3 Number 2 Number 1 Volume 12 Number 4 Number 3 Number 2 Number 1 Volume 11 Number 4 Number 3 Number 2 Number 1 Volume 10 Number 4 Number 3 Number 2 Number 1 Volume 9 Number 4 Number 3 Number 2 Number 1 Volume 8 Number 4 Number 3 Number 2 Number 1 Volume 7 Number 4 Number 3 Number 2 Number 1 Volume 6 Number 4 Number 3 Number 2 Number 1 Volume 5 Number 6 Number 5 Number 4 Number 3 ... Number 1 Volume 4 Number 6 Number 5 Number 4 Number 3 ... Number 1 Volume 3 Number 4 Number 3 Number 2 Number 1 Publication 1 of 1 Previous Publication Next Publication Linking Options About This Journal Editorial Board Manuscript Submission Quick Search Search within this publication...

63. Mechanics Equations I This page summarizes some solid mechanics equations provides some simple examples. A listing of fundamental differential mechanics equations is also provided. http://design.alfred.edu/mechanics.html

Stress and strain equations Alfred University New York State College of Ceramics Expanded Media Ceramics and Material Science

64. Applied Mathematics 8th WSEAS International Conference. Sessions on Linear Algebra and Applications, Numerical Analysis and Applications, differential equations and Applications, Probabilities, Statistics, Operational Research, Optimization, Algorithms, Discrete Mathematics, Systems, Communications, Control, Computers, Education. Puerto De La Cruz, Tenerife, Canary Islands; 1618 December 2005. http://www.worldses.org/conferences/2005/tenerife/math/

65. Differential Equations History of differential equations. differential equations are an integral part or a goal of many undergraduate calculus courses. http://occawlonline.pearsoned.com/bookbind/pubbooks/thomas_awl/chapter1/medialib

History of Differential Equations In many ways, differential equations are the heart of analysis and calculus, two of the most important branches of mathematics for over the past 300 years. Differential equations are an integral part or a goal of many undergraduate calculus courses. As an important mathematical tool for the physical sciences, the differential equation has no equal. So it is widely accepted that differential equations are important in both applied and pure mathematics. The history of this subject is rich in its development, and that's what we look at here. The foundations of this subject seem to be so dominated by the contributions of one man, Leonhard Euler , that one could say the history of this subject starts and ends with him. Of course, that would be a gross simplification of its development. There are many important contributors, and those who came before Euler were necessary so that Euler could understand the calculus and analysis necessary to develop many of the fundamental ideas. The contributors after Euler have both refined his work and forged entirely new ideas, inaccessible to Euler's 18

66. Ronald F. Boisvert NIST Numerical solution of partial differential equations, mathematical software, and information services that support computational science. http://gams.nist.gov/acmd/Staff/RBoisvert/index.html

Information Technology Laboratory Math and ... Division Ronald F. Boisvert Ronald F. Boisvert Outstanding Contribution to ACM Award in 2000, and the Keene State College Alumni Achievement Award in 2002. He is a member of the ACM, IEEE Computer Society, and SIAM. Vertical Affiliation Mathematical and Computational Science Division Information Technology Laboratory National Institute of Standards and Technology (NIST) Technology Administration ... The White House Positions Chief, NIST Mathematical and Computational Sciences Division Editor-in-Chief, ACM Transactions on Math Software Vice Chair, ACM Publications Board [ photo Chair, IFIP Working Group 2.5 (Numerical Software) [ photo Location Building 820 ( NIST North ) (820 West Diamond Avenue) Room 366 NIST Gaithersburg, MD USA Postal Address Mail Stop 8910 NIST Gaithersburg, MD 20899-8910 USA Contacts Email : boisvert@nist.gov Voice : (301) 975-3812 FAX : (301) 990-4127 Education Ph.D. 1979, Purdue University, Computer Science M.S. 1977, Purdue University, Computer Science M.S. 1975, The College of William and Mary , Applied Science B.S. 1973

67. Math 583 B - Integral Equations - Differential And Integral Equations Principles and Methods of Applied Mathematics Integral equations. differential equations and integral equations. If you find typos http://www.math.arizona.edu/~lega/583/Spring99/lectnotes/IE1.html

Principles and Methods of Applied Mathematics Integral Equations Differential equations and integral equations If you find typos and/or have suggestions regarding these notes, please send me an e-mail at lega@math.arizona.edu Back to MATH 583

68. Shack's Math Problems Over one hundred math problems ranging from basic math to differential equations. http://www.wizardofodds.com/math/

Shack's Math Problems has moved to mathproblems.info . I'll see you at my new

69. An Introduction To Stochastic Differential Equations An Introduction to Stochastic differential equations. One way to deal with equations such as (2), is to look at them in differential form,. http://www.taygeta.com/sde/lecture1/stokos1/stokos1.html

An Introduction to Stochastic Differential Equations Consider the (vector) ordinary differential equation: Now we suppose that the system has a random component, , added to it, The solution to this random differential equation is problematic because the presence of randomness prevents the system from having bounded measure. The result is that the derivative does not exist. One way to deal with equations such as (2), is to look at them in differential form, The solution to (2) or equivalently (3) or (4) can be regarded as the result of performing the integration, This definition of the solution to the stochastic differential equation (4) is consistent if we use the following for the chain rule: This equation is known as (the one dimensional) . This can be written in higher dimension as well. The stochastic calculus we have just described is It is possible to define a consistent calculus and preserve the standard chain rule, The integration will be a solution to the SDE only if we define and in terms of our original equation (2) as

70. ICNODEA 2004 International Conference on Nonlinear Operators, differential equations and Applications. BabesBolyai University, Cluj-Napoca, Romania; 2427 August 2004. http://www.math.ubbcluj.ro/~mserban/confan.htm

BABES-BOLYAI UNIVERSITY OF CLUJ-NAPOCA FACULTY OF MATHEMATICS AND INFORMATICS DEPARTMENT OF APPLIED MATHEMATICS DIFFERENTIAL EQUATIONS CHAIR INTERNATIONAL CONFERENCE ON NONLINEAR OPERATORS, DIFFERENTIAL EQUATIONS AND APPLICATIONS August 24-27, 2004, Cluj-Napoca, Romania ICNODEA-2004 SECOND ANNOUCEMENT Conference Objective and Structure The purpose of this conference is to get together experts in nonlinear analysis and promote contacts between Romanian mathematicians and mathematicians from all over the world, in order to discuss recent advances in the field. The program will contain: Paper related to the following topics are appropriate for submission to the conference: Fixed Point Theory, Ordinary Differential Equations, Nonlinear Integral Equations, Partial Differential Equations, Analysis of Multivalued Operators, Biomathematics and Mathematical Economics, Approximation and Numerical Methods. Conference’s Sections Fixed Point Theory and Mathematical Economics Differential Equations, Integral Equations and Dynamical Systems Partial Differential Equations, Optimal Control and Biomathematics

71. Journal Of Hyperbolic Differential Equations Home Journals by Subject Mathematics Journal of Hyperbolic differential equations (JHDE) New. Aims Scope. This journal publishes http://www.worldscinet.com/jhde/jhde.shtml

72. Functional Analysis Group The interests of the group are diverse ranging from topological aspects of the geometry of Banach spaces, through operator systems, to topics bordering on probability and differential equations. http://www.maths.ox.ac.uk/fag/

73. Kluwer Academic Publishers - Differential Equations http://www.kluweronline.com/issn/0012-2661/contents

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74. Smart Pendulum Java applet explores a pendulum with rope of variable length. The solution implements 4th order Runge-Kutta method for differential equations. http://odin.prohosting.com/~evgenik1/pend.htm

main page 3 degree-of-freedom! Smart Pendulum ! If you had Java enabled browser you would see Pendulum Applet here How does it work? Java Applet every 1 millisecond recalculates and every milliseconds redraws the new pendulum position. The calculation is based on numerical solution of the 2 nd order differential equation that describes pendulum oscillation: f 2 dR d f g = ( - + visc ) - sin f where t - time, sec R - length of rope, m g visc - fluid viscosity, 1/sec f - angle between rope and vector of gravity, radian d f /d t f /d t The solution implements 4-th order Runge-Kutta method for differential equations. But in case of short confidence interval (if for instance you decide to state Viscosity as 1000 !) the solution is an integral of similar equation but with pure angle instead of its sine - so called mathematical pendulum. You may set gravity and viscosity directly in special fields, but remember to scale gravity! Whether you set it as Numerical performances of pendulum oscillations: Period - is the calculated time of one oscillation Period (mathem.) - is the theoretical value - period of

75. Kluwer Academic Publishers - Differential Equations http://www.kluweronline.com/issn/0012-2661

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76. FemLego Finite Element simulations using symbolic computing. Presented are a set of Maple procedures and Fortran subroutines that can be used to build complete Fortran simulation codes for partial differential equations, with the entire problem definition done in Maple. Examples and Downloads available. http://www.mech.kth.se/~gustava/femLego

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77. Geometry & Analysis: Lecture Notes A book by Dahlberg and Kenig in postscript (bitmapped fonts). The page also contains another book by Dahlberg Icke Linj 228;ra Evolutionsekvationer (Swedish). http://www.math.chalmers.se/Math/Research/GeometryAnalysis/Lecturenotes/

Dept of Mathematics Research Lecture Notes Björn E.J. Dahlberg and Carlos E. Kenig, Harmonic Analysis and Partial Differential Equations Postscript version Vilhelm Adolfsson, Luis Escauriaza and Carlos Kenig, Unique Continuation of Harmonic Functions at the Boundary Björn E.J. Dahlberg, Icke Linjära Evolutionsekvationer Postscript version , Swedish)

78. Memoirs On Differential Equations And Mathematical Physics Memoirs on differential equations and Mathematical Physics is an International journal for the publication of highquality, peer-reviewed original papers with http://www.emis.de/journals/MDEMP/

Memoirs on Differential Equations and Mathematical Physics is an International journal for the publication of high-quality, peer-reviewed original papers with full proofs in ordinary and partial differential equations and thear applications. Periodically short communications are published containing main results of talks reported on Tbilisi Seminar of Qualitative Theory of Differential Equations. It is issued three times a year as of 1994. Subscription inquiries and subscription orders should be addressed to the editorial office Volume 1 Volume 2 Volume 3 ... Volume 18 This page makes it possible to look through the contents of the volumes which have already appeared. Moreover, DVI and PostScript files of all papers published two and more years ago are avaliable. Editorial Board Submission Information

79. EMM: A Program For Efficient Method Of Moments Code and User's Guide for EMM are freely available. Posted versions contain worked examples for estimation of continuous time stochastic differential equations for the shortterm interest rate and stock prices. http://www.econ.duke.edu/~get/emm.html

EMM: A Program for Efficient Method of Moments Authors: A. Ronald Gallant and George Tauchen A. Ronald Gallant Fuqua School of Business Duke University DUMC Box 90120, W425 Durham NC 27708-0120 USA Phone 1-919-660-7927 (Duke-Fuqua) e-mail: ron.gallant@duke.edu George Tauchen Department of Economics 305 Social Science Box 90097 Duke University Durham NC 27708-0097 USA Phone: 1-919-660-1812 e-mail: george.tauchen@duke.edu Keywords efficent method of moments, EMM, estimation by simulation, simulated method of moments, minimum chi-square, stochastic differential equations, diffusions. Availability: FORTRAN code and a User's Guide as a PostScript file are available anonymous ftp from ftp.econ.duke.edu in directory pub/get/emm. The code is provided at no charge for research purposes without warranty of any kind, expressed or implied. It runs on PC's using the free GNU g77 compiler or the Microsoft Power FORTRAN; it also runs under UNIX/LINNUX. The GNU, Microsoft, and UNIX versions of EMM are posted under ftp/pub/get/emm. These versions work with SNP Versions 8.8 and earlier. The distribution software contains three worked examples. One is for estimation of a simple stochastic volatility model to stock returns data, and the other two pertain to for estimation of continuous time stochastic differential equations for the short-term interest rate and stock prices. References Click here for a complete list of working papers and published papers Gallant, A. R., and Tauchen, G. (2003) "Efficient Method of Moments," working paper available at

80. Electronic Journal Of Differential Equations Translate this page http://www.emis.de/journals/EJDE/

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