Geometry.Net - the online learning center
Home  - Science - Equations Differential Bookstore
Page 1     1-20 of 171    1  | 2  | 3  | 4  | 5  | 6  | 7  | 8  | 9  | Next 20
A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z  

         Equations Differential:     more books (100)
  1. Ordinary Differential Equations by Morris Tenenbaum, Harry Pollard, 1985-10-01
  2. Partial Differential Equations for Scientists and Engineers (Dover Books on Advanced Mathematics) by Stanley J. Farlow, 1993-09-01
  3. Differential Equations For Dummies by Steven Holzner, 2008-06-10
  4. Schaum's Outline of Differential Equations, 3ed (Schaum's Outline Series) by Richard Bronson, 2009-05-20
  5. Elementary Differential Equations and Boundary Value Problems by William E. Boyce, Richard C. DiPrima, 2010-11-15
  6. Student Solutions Manual for Elementary Differential Equations by Henry C. Edwards, 2007-11-29
  7. Differential Equations Computing and Modeling (4th Edition) by C. Henry Edwards, David E. Penney, 2007-08-10
  8. Introduction to Partial Differential Equations with Applications by E. C. Zachmanoglou, Dale W. Thoe, 1987-02-01
  9. Student Solutions Manual for Differential Equations by John Polking, 2005-10-07
  10. Partial Differential Equations: An Introduction by Walter A. Strauss, 2007-12-21
  11. Ordinary Differential Equations (Universitext) (Volume 0) by Vladimir I. Arnold, 2006-07-26
  12. An Introduction to Ordinary Differential Equations (Dover Books on Advanced Mathematics) by Earl A. Coddington, 1989-03-01
  13. Partial Differential Equations: Second Edition (Graduate Studies in Mathematics) by Lawrence C. Evans, 2010-03-03
  14. Differential Equations and Their Applications : An Introduction to Applied Mathematics (Texts in Applied Mathematics, Vol. 11) by Martin Braun, 1992-12-05

1. Hollis: Differential Equations
Differential Equations with Boundary Value Problems by Selwyn Hollis.Contents and Preface, Marketing Blurb, Book Site @ Prentice Hall.
Differential Equations
with Boundary Value Problems by Selwyn Hollis
Contents and Preface
Marketing Blurb Book Site @ Prentice Hall ... Solutions Manual Technology Mathematica Maple Java M ... ATLAB Sundry Items Problem graphics and extra graphical problems for Section 3.1.
Please send bug reports here
Professors: Please send me an email
Some Biographical References
The following are links to information on most of the mathematicians/scientists whose names appear in the book. Unless otherwise noted, each of these is a link to the MacTutor History of Mathematics Archive at the University of St Andrews, Scotland.
Abel, Niels Henrik

Airy, George

Banach, Stefan

Bendixson, Ivar
... Edelstein-Keshet, Leah (U. BC) Euler, Leonhard Fourier, Joseph Frobenius, Georg Gauss, Carl Friedrich ... Hertz, Heinrich Rudolf (Google search) Hodgkin, Alan Nature Hooke, Robert Huxley, Andrew ( Jacobi, Carl Jordan, Camille Kirchhoff, Gustav Kutta, Martin Wilhelm ... Lorenz, Edward N. ( Lotka, Alfred (Google search) Lyapunov, Aleksandr Maclaurin, Colin Malthus, Thomas (Google search) Menten, Maud

2. Differential Equations
Differential Equations. The theory and Applications of Differential wideclass of problems and examples. Ordinary Differential Equations.
Differential Equations
The theory and Applications of Differential Equations has contributed to an explosion of scientific thought in many disciplines over the last 100 years. This is even more true today as we follow a near exponential increase in computing power with time. The last five years has given rise to sophisticated packages and libraries for solving highly complex multi-dimensional equations of science. The lectures will deal with two classes of differential equations, ordinary differential equations and partial differential equations . The section of the CSEP book dealing with ordinary differential equations has a wide class of problems and examples
Ordinary Differential Equations
Partial Differential Equations
Application Software
Mike Guidry

3. Differential Equations Differential & Riemannian Geometry Mathematics Attractors
Differential equations differential Riemannian geometry MathematicsAttractors of Evolution Equations AV Babin. Differential equations
Title: Attractors of Evolution Equations
Author: A V Babin
J D Van Der Tuin Elsevier's Di...
C Hayashi Data Analysis for Co...

E Bamberg Band 3 Proteins...

D D Lasic Liposomes...
Jammers Antonius, Klemp Egon...

4. Differential Equations
Differential Equations. Slope Fields with DiffSystems calculus@internet ApplicationsSuspended Wire Applications
Differential Equations
Slope Fields with DiffSystems
calculus@internet -
ApplicationsSuspended Wire
ApplicationsSimple Pendulum ... Finite Mathematics Differential Equations Linear Algebra

5. Differential Equation - Wikipedia
(Redirected from Differential equations). Differential equations describethe relationship between unknown functions and their derivatives.
Main Page Recent changes Edit this page Older versions Special pages Set my user preferences My watchlist Recently updated pages Upload image files Image list Registered users Site statistics Random article Orphaned articles Orphaned images Popular articles Most wanted articles Short articles Long articles Newly created articles All pages by title Blocked IP addresses Maintenance page External book sources Printable version Talk
Log in
Other languages: Deutsch
Differential equation
(Redirected from Differential equations Differential equations describe the relationship between unknown functions and their derivatives . The order of a differential equation describes the most times any function in it has been differentiated. (See differential calculus and integral calculus Given that y is a function of x and that y y y n denote the derivatives d y d x d y d x d n y d x n , an ordinary differential equation is an equation involving x y y y '',.... The order of a differential equation is the order n of the highest derivative that appears. An important special case is when the equations do not involve x . These kind of differential equations have the property that the space can be divided into equivalence classes based on whether two points lie on the same solution. These differential equations are vector fields . Since the laws of physics are not believed to change with time, the world is governed by such differential equations. See also

6. Electronic Journal Of Differential Equations
Deals with all aspects of differential equations and their applications. and their applications (ODE's, PDE's, integral equations, functional differential equations, etc.) can be submitted for
Your browser does not seem to support frames. Please go to the plain version

7. S.O.S. Math - Differential Equations
Modeling via differential equations First Order differential equationsLinear equations; Separable equations; Qualitative Technique Slope Fields;

S.O.S. Homepage
Algebra Trigonometry Calculus ...

Search our site! S.O.S. Math on CD
Sale! Only $19.95.

Works for PCs, Macs and Linux.
Tell a Friend about S.O.S.
Books We Like Math Sites on the WWW S.O.S. Math Awards ... Modeling via Differential Equations First Order Differential Equations
  • Euler-Cauchy Equations
  • Series Solutions Higher Order Linear Equations Laplace Transform APPENDIX
    Contact us

    Math Medics, LLC. - P.O. Box 12395 - El Paso TX 79913 - USA
    users online during the last hour
  • 8. Electronic Journal Of Differential Equations: Monographs
    A group of free papers on partial differential equations.Category Science Math differential equations Journals......Electron. J. Diff. Eqns., Monograph 01, 1994. Hilbert Space Methods for Partialdifferential equations RE Showalter. I. Elements of Hilbert Space.
    Electron. J. Diff. Eqns., Monograph 01, 1994.
    Hilbert Space Methods for Partial Differential Equations R. E. Showalter
    I. Elements of Hilbert Space. chpt1.dvi chpt1.pdf
    Linear Algebra, Convergence and Continuity, Completeness, Hilbert Space, Dual Operators, Identifications, Uniform Boundedness, Weak Compactness, Expansion in Eigenfunctions.
    II. Distributions and Sobolev Spaces chpt2.dvi chpt2.pdf
    Distributions, Sobolev Spaces, Trace, Sobolev's Lemma and Imbedding, Density and Compactness.
    III. Boundary Value Problems chpt3.dvi chpt3.pdf
    Introduction, Forms, Operators and Green's Formula, Abstract Boundary Value Problems, Examples, Coercivity, Elliptic Forms, Regularity, Closed operators, adjoints and eigenfunction expansions.
    IV. First Order Evolution Equations chpt4.dvi chpt4.pdf
    Introduction, The Cauchy Problem, Generation of Semigroups, Accretive Operators, two examples, Generation of Groups, a wave equation, Analytic Semigroups, Parabolic Equations.
    V. Implicit Evolution Equations

    9. Electronic Journal Of Qualitative Theory Of Differential Equations
    Free research papers on differential equations.Category Science Math differential equations Journals......Welcome to the Electronic Journal of Qualitative Theory of differentialequations. Journal provider Bolyai Institute, University
    to the
    Electronic Journal
    Qualitative Theory of Differential Equations Journal provider: Bolyai Institute, University of Szeged
    ISSN: HU ISSN 1417-3875 Editors in Chief: Managing Editor: If the connection is slow then try one of our mirror sites or use e-mail to access the paper on our server. General information: Current volumes of the journal:
  • Proceedings of the Colloquiums on the Qualitative Theory of Differential Equations: Viewing the papers: If you have comments or suggestions on these WWW pages, then please feel free to contact us at the e-mail address
  • 10. Interactive Learning In Calculus And Differential Equations With Applications
    A classroom learning environment based on Mathematics notebooks.
    Interactive Learning in Calculus and Differential Equations with Applications
    Click on this picture for a description of how it was generated. The Mathematics Department at Indiana University of Pennsylvania (IUP) established a computerized learning environment, consisting of a classroom with 31 Macintosh Centris 650s and a laboratory with 12 Macintosh LCs, all equipped with Mathematica . Mathematica's notebook feature enables science students to actively learn calculus and differential equations with guided discovery and exploration. The project was funded through a National Science Foundation Instrumentation and Laboratory Improvement grant, number DUE-9351896. IUP's project has several significant attributes.
    • The Mathematics Department is fully implementing this curriculum in all sections of its science calculus sequence and in the two-semester differential equations sequence.
    • Eleven faculty, comprising approximately one third of IUP's mathematics faculty, are coinvestigators.
    • The curricular revisions are being coordinated with the science departments at IUP, who are also integrating active learning and technology in their courses. This collaboration, based on common pedagogical goals and software, will bring more scientific applications into mathematics courses and strengthen the use of mathematics in science courses.
    • All students in the Mathematics Department are involved. Mathematics and Applied Mathematics majors are required to take Differential Equations, and Mathematics Education majors have a unit devoted to the project in the teacher preparation course, Computers and Calculators in Secondary Mathematics.

    11. IDEA, Internet Differential Equations Activities
    Access this interactive Mathematica notebook, which enables students to actively learn calculus and differential equations. Interactive Learning in Calculus and differential equations with Applications
    Internet Differential Equations Activities
    What is IDEA? Who is IDEA? Current Projects Software ...

    Number of accesses since April 26, 1996:
    This project is supported, in part, by the National Science Foundation Opinions expressed are those of the authors, and not necessarily those of the Foundation. This project is supported, in part, by Brooks/Cole Publishing Opinions expressed are those of the authors, and not necessarily those of the Publishers.

    12. Springer LINK - Nonlinear Differential Equations And Applications - About This J
    The Birkhäuser journal NoDEA it to encourage the interaction between pure mathematics and applied science.
    Nonlinear Differential Equations and Applications (NoDEA)
    The purpose of NoDEA
    ISSN: 1021-9722 (Printed edition)
    ISSN: 1420-9004 (Electronic edition)

    13. Springer LINK: Calculus Of Variations
    The Boston University Ordinary differential equations Project This National Science Foundation Project is designed to produce a text and related materials for the first college course in Ordinary differential equations.
    Would you like to automatically receive every new table of contents of Calculus of Variations ? Then register with our free-of-charge mail service LINK Alert by checking the appropriate box(es) and enter your email address here: Online First Articles only Printed issues only
    ISSN: 0944 - 2669 (printed version)
    ISSN: 1432 - 0835 (electronic version)

    14. Chris Athorne's Home Page
    The site describes research activities of the differential equations group in the mathematics department at the university of Glasgow, UK, and provides some resources of a general nature.
    Currently under
    Feb 2003 This is not a Still Life Perspective Melancholia Resonance

    15. TMR Network Webpage : Home
    European TMR network coordinated at the Oxford Centre for Industrial and Applied Mathematics.

    16. Fast Marching Methods And Level Set Methods: J.A. Sethian
    Tracking moving interfaces in computational geometry, materials sciences, robotics, image processing, and fluid mechanics; numerical techniques based on partial differential equations.
    Dept. of Mathematics, Univ. of California, Berkeley, California 94720
    Click here if you would like a smaller typeface version of this page

    Fast Marching Methods and Level Set Methods are numerical techniques which can follow the evolution of interfaces. These interfaces can develop sharp corners, break apart, and merge together. The techniques have a wide range of applications, including problems in fluid mechanics, combustion, manufacturing of computer chips, computer animation, image processing, structure of snowflakes, and the shape of soap bubbles.
    These are two fundamentally different approaches to the problem of tracking moving interfaces, yet they share a common theory and numerical methodology. This web page serves as both an introductory and advanced resource for these ideas, with the goal of providing
    • an intuitive understanding of the techniques
    • the history, evolution, and application of these methods
    • technical details and reference material.

    17. Graphing Software For Data, Algebra, Calculus And Trigonometry And Solutions Of
    Enter first and second order nonlinear ordinary differential in analytical form. The program will generate a numerical solution to the equations and graph multiple curves on a single graph. Can also be used for algebra and calculus formulas. Includes illustrations and free demo.
    Airfoil Analysis


    VisualFoil NACA

    VisualFoil Lite

    Graphing Tools
    Graph Paper

    Science Graphs
    Perpetual Paper Calculators The Center of Gravity Calculator. eBooks Aerodynamics in Plain English. Services Workshops Consulting Purchase OnLine Mail Order Contact Dr. P. Hanley Tel:(352) 687-4466 PO Box 831514 Ocala, FL 34483 Dr. Hanley's Science Graphs Written by Patrick Hanley, Ph.D. Version: 2.0 Standard Standard Price Download Size: 2.73 MB Requirements Windows 95, 98, NT or 2000 Download Now!: Purchase OnLine. Order Toll Free Mail Order: Order Form. Technical: E-mail or (352) 687-4466 Qwerks, Inc . Secure On-line Purchase. Dr. Hanley's Science Graphs tm is an easy to use software package for graphing equations and data using your PC. The new version of Science Graphs can be used to generate numerical solutions of first and second order non-linear ordinary differential equations. This feature is Ideal for checking your analytical solutions against Science Graph's Numerical Answers. However, it can be used to solve problems that are too difficult to obtain by hand calculations. The software is useful for algebra trigonometry calculus , physics, differential equations and engineering . Science Graphs can also be used to graph up to 1,000 x-y data points from an ASCII file.

    18. BU Differential Equations Project
    The Boston University Ordinary differential equations Project. Selectedanimations used in the BU differential equations course.
    The Boston University
    Ordinary Differential Equations Project
    Project Directors:
    Paul Blanchard

    Robert L. Devaney

    Glen R. Hall

    This project, originally funded by two grants from the National Science Foundation, promotes the use of ideas from the modern theory of dynamical systems in the traditional sophomore-level course in differential equations. Qualitative, analytic, and numerical approaches are stressed throughout the course. We have written a textbook published by Brooks/Cole that supports our approach, and occasionally we conduct workshops at various sites around the country.
    Please note:
    Our publisher is Brooks/Cole Publishing Co., a division of Thomson Learning, not PWS (the company that handled the original preliminary edition). To contact Brooks/Cole for faculty support, call 800-423-0563 ( ISBN numbers and information about ancillaries
    Available at this site:
    Upcoming Workshop Information
    • City University of Honk Kong, May 28, 2003. Workshop presented by Robert L. Devaney.
    • Two Project NExT workshops just before MathFest in Boulder, Colorado, July 29 and 30, 2003. Both workshops presented by Robert L. Devaney.

    19. Bifurcations, Phase Lines, And Elementary Differential Equations
    Online course materialCategory Science Math differential Introduction (Next Section). Bifurcations, Equilibria, and Phase LinesModern Topics in differential equations Courses. Robert L. Devaney.

    (Next Section)
    Bifurcations, Equilibria, and Phase Lines: Modern Topics in Differential Equations Courses
    Robert L. Devaney

    Robert L. Devaney
    May 6, 1995

    20. [math/9808130] Homological Methods In Equations Of Mathematical Physics
    These lecture notes by Joseph Krasil'shchik and Alexander Verbovetsky are a systematic and selfcontained exposition of the cohomological theories naturally related to partial differential equations.
    Mathematics, abstract
    ): Mon, 31 Aug 1998 09:57:31 GMT (107kb) Date (revised v2): Mon, 21 Dec 1998 17:07:11 GMT (107kb)
    Homological Methods in Equations of Mathematical Physics
    Authors: Joseph Krasil'shchik Alexander Verbovetsky
    Comments: 150 pages, AmS-LaTeX 1.2 (based on LaTeX 2e), needs to run through LaTeX four times, no figures, Lectures given in August 1998 at the International Summer School in Levoca, Slovakia. Revised version 2 (Mon, 21 Dec 1998): misprints corrected, Definition 4.3 on page 70 changed
    Report-no: DIPS 7/98
    Subj-class: Differential Geometry; Analysis of PDEs; Mathematical Physics; Exactly Solvable and Integrable Systems
    These lecture notes are a systematic and self-contained exposition of the cohomological theories naturally related to partial differential equations: the Vinogradov C-spectral sequence and the C-cohomology, including the formulation in terms of the horizontal (characteristic) cohomology. Applications to computing invariants of differential equations are discussed. The lectures contain necessary introductory material on the geometric theory of differential equations and homological algebra.
    Full-text: PostScript PDF , or Other formats
    References and citations for this submission:
    (autonomous citation navigation and analysis)
    Links to: arXiv math find abs

    A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z  

    Page 1     1-20 of 171    1  | 2  | 3  | 4  | 5  | 6  | 7  | 8  | 9  | Next 20

    free hit counter