Introductory Differential Equations
From Linearity to Chaos
Published on 2. January 1997
Book
Hardback
672 pages
978-0-201-76549-6 (ISBN)
Description
The authors show how differential equations model physical phenomena and how the study of this topic has meaningful scientific and real-world value. They examine themes such as error analysis and predictability many times throughout the text. It is organized by important phenomena instead of techniques. Rote solution methods are de-emphasized, and the study of nonlinearity is introduced and compared with linear systems. Original multi-stepped problems may be used as traditional homework exercises, group projects, or lab worksheets. Work with technology is included but the text is not keyed to any specific program or tool.
More details
Other editions
New editions
Eric Kostelich | Dieter Armbruster
Introductory Differential Equations
Book
09/2009
2nd Edition
Pearson
€53.22
Article is exhausted; no reprint
Previous edition
Book
12/1995
Addison Wesley
€30.94
Article exhausted; check for reprint
Content
Introduction.
1. Fundamental Ideas.
2. Exponential Growth.
3. Fundamental Theory.
4. Linearity.
5. Oscillatory Motion.
6. The Geometry of Systems of Differential Equations.
7. The Analysis of Linear Systems.
8. Nonlinear Differential Equations.
9. Numerical Methods.
10. The Laplace Transform.
Appendices.
1. Fundamental Ideas.
2. Exponential Growth.
3. Fundamental Theory.
4. Linearity.
5. Oscillatory Motion.
6. The Geometry of Systems of Differential Equations.
7. The Analysis of Linear Systems.
8. Nonlinear Differential Equations.
9. Numerical Methods.
10. The Laplace Transform.
Appendices.