81. Scientific Fields Of Competences algebra, analysis and geometry; combinatorics; number theory; differential equations; For information on activities in a specific scientific field within a member http://www.ercim.org/activity/expertise.html

ERCIM website quick index ERCIM home page ACTIVITIES Scientific fields of competence EU-NSF strategic workshops 10 years ERCIM Working Groups Event Sponsorship Fellowship Programme Cor Baayen award Projects Future ERCIM Events Past ERCIM Events PUBLICATIONS ERCIM News Annual report Technical Reports Workshop Proceedings Prospective Reports Strategic Reports Members' Libraries ABOUT ERCIM Organizational structure Members ERCIM office Board of Directors Executive Committee Logos for Download Posters LINKS Job opportunities Calendar of Events Spin-off Companies WORKSPACES Archives (restricted) BSCW server (restricted) Scientific fields of competence ERCIM member institutes are active in each of the fields listed below: algebra, analysis and geometry combinatorics number theory differential equations ... information and communication technology. This information base is still under construction and thus not complete or exhaustive. For information on activities in a specific scientific field within a member institute, follow the links below. For general information on ERCIM member institutes, see ERCIM member organizations ERCIM collaboration is also fostered by the ERCIM Working Groups algebra, analysis and geometry

82. RESEARCH ACTIVITIES AND PUBLICATIONS Toshiki Naito, Nguyen Van Minh and Jong Son Shin, On the spectrum of some functional differential equations, Proceedings of “Semigroups of Operatores http://baloo.cc.uec.ac.jp/limedio/rap/1999/raplist_1999_143.html

$B%a%K%e! <$X(J <0lMw$X(J <$N6H@S0lMw$X(J ... <$N6H@S0lMw$X(J $BEE5$DL?.3XIt(J(Faculty of Electro-Communicatios) $B%7%9%F%`9)3X2J(J( Department of Systems Engineering) <%W!JFbF#IR5!!$?=!!@5A1!$(JNGUYEN VAN MINH$B!K(J <0$N Toshiki Naito, Nguyen Van Minh and Jong Son Shin, On the spectrum of some functional differential equations, Proceedings of $B!H(JSemigroups of Operatores: Theorey and Applications, International Conference in Newport Beach, December 14-18, 1998$B!I!$(Jedited by Balakrishnan, Progress in Nonlinear Differential Equations and Their Applications, 42$B!J(J2000$B!K!$(J222$B!](J228$B!%(J Satoru Murakami, Toshiki Naito and Nguyen Van Minh, Spectral analysis of an operator associated with linear functional differential equations and its applications, WWW pages of EJQTDE, Proc. 6th coll. QTDE, 2000 No. 20, pp.1$B!](J15.$B!J(Jhttp://www.math.u-szeged.hu/ejqtde/6/$B!K(J Satoru Murakami, Toshi Naito and Nguyen Van Minh, Evolution semigroups and sums of commuting: A new approach to the addmissibility theory of function spaces, J. Differential Equations, 164$B!J(J2000$B!K!$(J240$B!](J285. Jong Son Shin, Toshi Naito and Nguyen Van Minh, On stability of linear autonomous functional differential equations, Funkcialaj Ekvacioj, 43$B!J(J2000$B!K!$(J193$B!](J393.

83. Learning Materials: News of two firstorder differential equations with discussions the same name in the differential calculus section Workshop activities included working through the http://www.math.duke.edu/education/news.html

News from Duke Mathematics Learning Materials Development Projects Latest update: June 20, 2001 Contents Teaching Mathematics with Online Materials NSF Chautauqua Course 27, Duke University, June 26-28, 2001 Web Feats , a workshop for secondary teachers, sponsored by the PostCalc Project, Eisenhower National Clearinghouse, and Math Forum Ohio State University, July 9-13, 2001 Adapting Web Based Materials for the Interactive Computer Classroom , an Instructional Technology Profile on the web site of the Duke Center for Instructional Technology Presentations at the International Conference on Technology in Collegiate Mathematics (including PowerPoint slides, papers, and video clips) Connected Curriculum Project New Mathematica files and tutorials in all sections New Matlab files and tutorials in almost all sections New Mathcad files in the Precalculus section New materials Materials coming soon CCP Users Workshop , Durham, 7/19-22/00 PostCALC Project PostCALC materials PostCALC Users Workshop , Durham, 7/12-14/00 Project CALC Project CALC in the news Textbook Lab manuals ... Connected Curriculum Project New Mathematica tutorial modules and worksheets for almost all modules are available in the following sections: Precalculus Differential Calculus Integral Calculus Multivariable Calculus ... Engineering Mathematics [Return to Contents New Matlab tutorial modules and worksheets for almost all modules are available in the following sections: Precalculus Differential Calculus Integral Calculus Differential Equations ... Engineering Mathematics [Return to

84. Science Search > Differential Equations The site describes research activities of the differential equations group in the mathematics department at the university of Glasgow, UK, and provides some r http://www.science-search.org/index/Math/Differential_Equations/

Search for: Current Category Everything What's new Top Searches Statistics Science News ... Home Current location: Math > Differential Equations Courses Difference Equations Dynamical Systems Education ... Bifurcations, Equilibria, and Phase Lines: Modern Topics in Differential Equation Courses Online course material http://math.bu.edu/DYSYS/ode-bif/ode-bif.html detailed information Rating: [6.00] Votes: [1078] C*ODE*E Consortium of ODE Experiments. Newsletter, graphics, links http://www.math.hmc.edu/codee/main.html detailed information Rating: [6.00] Votes: [180] Computational PDEs Unit School of Computing, University of Leeds. Research details, publications, software and resources. http://www.scs.leeds.ac.uk/cpde/ detailed information Rating: [6.00] Votes: [1758] GetDP (a General environment for the treatment of Discrete Problems) A scientific software environment for the numerical solution of integro-differential equations, open to the coupling of physical problems http://www.geuz.org/getdp/

85. Florida Tech Catalog 2000-2001 Research activities. analysis, qualitative and quantitative properties of nonlinear evolution equations, including differential equations with delay http://www.fit.edu/catalog/sci-lib/app-math.html

'); document.writeln(' '); document.writeln(' '); document.write(' '); document.write(' '); document.write(' '); document.writeln(' Index Contents Welcome Information ... Directory "); document.write(' APPLIED MATHEMATICS DEPARTMENT OF MATHEMATICAL SCIENCES V. Lakshmikantham, Ph.D., Head Bachelor of Science Master of Science Doctor of Philosophy Research Activities Bachelor of Science Master of Science Doctor of Philosophy Associate Head Michael D. Shaw, Ph.D. Professors Jewgeni H. Dshalalow, Dr. Sci., real analysis, operations research, stochastic processes, queueing theory. Charles T. Fulton, Ph.D., ordinary and partial differential equations, spectral theory of differential operators, numerical linear algebra, numerical methods for two-point boundary value problems, parallel processing. V. Lakshmikantham, Ph.D., nonlinear analysis, differential and integral equations, numerical mathematics, evolution operations. Kamel Rekab, Ph.D., sequential analysis, design of experiments, applied data analysis, reliability theory. Associate Professors Gary Howell, Ph.D.

86. EEVL | Computing Section | Browse Computing Mathematics of Computing Numerical Analysis Partial differential equations spey 1 site gives information about the group and its activities. http://www.eevl.ac.uk/computing/comp-browse-page.htm?action=Class Browse&browses

87. ESF - Spectral Theory And Partial Differential Equations (SPECT) Spectral Theory and Partial differential equations (SPECT), Quick links, 29/03/2004. http://www.esf.org/esf_article.php?activity=1&article=222&domain=1

88. ESF - Spectral Theory And Partial Differential Equations (SPECT) Spectral Theory and Partial differential equations (SPECT) Page 723. Quick links, 29/03 http://www.esf.org/esf_article.php?print=1&activity=1&article=222&domain=1

89. Differential Equations (Differentsial Nye Uravneniya). DIFFERENTSIAL NYE URAVNENIYA (differential equations). Audience Mathematicians, Scientists and Engineers dealing with differential equations in research work. http://www.ac.by/publications/difur/

90. Catalog Description implementing them to a partial differential equation for the Solution of Laplace s equation for various boundary Format, Student activities, and Grades. http://math.boisestate.edu/dept-stuff/Generic/M436.html

Boise State University Department of Mathematics Math 436 Partial Differential Equations Generic Syllabus Updated Fall 1998 Catalog Description Theory of partial differential equations and boundary value problems with applications to the physical sciences and engineering. Detailed analysis of the wave equation, the heat equation, and Laplace's equation. Prerequisites M 333 Differential Equations, or equivalent course elsewhere, or permission of the instructor. The rationale for the prerequisite is that ordinary differential equation techniques are used to study partial differential equations and students who are unacquainted with ordinary differential equations will have little chance of success in partial differential equations. Jurisdiction This course is not currently controlled by a departmental committee and individual instructors may choose different textbooks. Exams, homework, and grading system are left to the instructor. Learning Objectives As an applied mathematics course, the objectives of M 436 reflect three of the Department's teaching goals, that students be aware of nontrivial applications of mathematics, that students master suitable mathematical tools, and that students use mathematics as a language. M 436 does not stress the aesthetic side of mathematics or the idea of mathematics as the study of patterns. Upon completion of this course, students should:

91. Current Research Activities Current Research activities. An inverse coefficient problem for an integrodifferential equation This is work that was carried out jointly with Alexander http://www.math.unl.edu/~tshores/myresearch.html

Department of Mathematics University of Nebraska Lincoln Research Home Schedule Teaching Research ... Contact Me Research Activities I'm always at a bit of a loss for words when someone asks me "What is your specialty?" because I'm never sure that I currently have one. It's simply not in my blood to dig a deep narrow intellectual furrow and try to become one of the "world's leading experts in xxx," even though I know that it's in most academics' best interests to focus her/his energies in this way. I'm constantly interested in more mathematical topics than I can possibly master in a finite amount of time, rather like a kid in a candy shop. So let me start this page by giving a (partial) list of the areas that I've investigated to the extent of publishing something in them, in roughly chronological order. See my CV for a full publication list. Doing mathematics is often a social activity, so I'm going to mention some of the people who have been most influential to me. Group theory especially generalized solvable and nilpotent groups as developed by the Kurosh school my PhD thesis, "Groups with a category", is in this area. I was directed by two fine mathematicians, R. E. Phillips and L. M. Sonneborn.

92. Current Projects Current Projects. Below are listed a number of activities participants in the project have developed. If you have any comments we d love to hear from you. http://www.sci.wsu.edu/idea/current.html

Current Projects Below are listed a number of activities participants in the project have developed. If you have any comments we'd love to hear from you. Basic Ecological Models Bungee Jumping Hydroplane Racing Diffusion of Toxics in a Landfill ... Discrete Dynamics on the Real Line and in the Complex Plane by C.J. Kentler Home What is IDEA? Who is IDEA? Software ... kcooper@math.wsu.edu This project was supported, in part, by the National Science Foundation . Opinions expressed are those of the authors, and not necessarily those of the Foundation.

93. MISSION COLLEGE http://www.missioncollege.org/depts/math/courseoutlines/math4b

Approval Dates: Division CRC Board of Trustees MISSION COLLEGE ASSOCIATE DEGREE CREDIT COURSE OUTLINE SECTION I Course Data COURSE NUMBER COURSE TITLE UNITS MATH 4B Differential Equations 4 LECTURE HOURS (PER WEEK) LAB HOURS (PER WEEK) 4 None CREDIT / NO CREDIT OPTION MAY THIS COURSE BE REPEATED? YES NO; How many times? RECOMMENDED FOR CREDIT BY EXAMINATION? CATALOG COURSE DESCRIPTION The student will study and demonstrate knowledge and understanding of ordinary differential equations, with emphasis on linear equations, and partial differential equations. Many standard methods are examined including Laplace Transforms, Fourier Series, power series and numerical solutions. Emphasis will be placed on applications. DESCRIPTION FOR THE SCHEDULE OF CLASSES Ordinary differential equations, with emphasis on linear equations, and partial differential equations. Methods include Laplace Transforms, power series, Fourier series, numerical solutions and applications. ACCEPTABLE FOR TRANSFER CREDIT California State University; Yes_ X _ No University of California; Yes_

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