Introduction to differential equations / Michael E Taylor
Material type:
TextSeries: Pure and applied undergraduate texts ; 14. | Sally series (Providence, R.I.)Publication details: New Delhi : American Mathematical Society, 2013Edition: Indian EditionDescription: xii, 409 pages : illustrations ; 24 cmISBN: - 9781470409135
- 2 515.35 T212I
| Item type | Current library | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| Gift Books | Library and Documentation Division PGRRL | 515.35 T212I (Browse shelf(Opens below)) | Available | G016573 |
Browsing Library and Documentation Division shelves, Shelving location: PGRRL Close shelf browser (Hides shelf browser)
| 515.2433 Si53H Harmonic analysis / | 515.2433 T159H Higher order fourier analysis/ | 515.35 K863D-2 Differential equations : | 515.35 T212I Introduction to differential equations / | 515.35 T212I Introduction to differential equations / | 515.352 N153O Ordinary differential equations : | 515.352 R56I An introduction to ordinary differential equations / |
Gifted by NBHM
1. Single differential equations --
2. Linear Algebra --
3. Linear systems of differential equations --
4. Nonlinear systems.
The mathematical formulations of problems in physics, economics, biology, and other sciences are usually embodied in differential equations. The analysis of the resulting equations then provides new insight into the original problems. This book describes the tools for performing that analysis. The first chapter treats single differential equations, emphasizing linear and nonlinear first order equations, linear second order equations, and a class of nonlinear second order equations arising from Newton's laws. The first order linear theory starts with a self-contained presentation of the exponential and trigonometric functions, which plays a central role in the subsequent development of this chapter. Chapter 2 provides a mini-course on linear algebra, giving detailed treatments of linear transformations, determinants and invertibility, eigenvalues and eigenvectors, and generalized eigenvectors. This treatment is more detailed than that in most differential equations texts, and provides a solid foundation for the next two chapters. Chapter 3 studies linear systems of differential equations. It starts with the matrix exponential, melding material from Chapters 1 and 2, and uses this exponential as a key tool in the linear theory. Chapter 4 deals with nonlinear systems of differential equations. This uses all the material developed in the first three chapters and moves it to a deeper level. The chapter includes theoretical studies, such as the fundamental existence and uniqueness theorem, but also has numerous examples, arising from Newtonian physics, mathematical biology, electrical circuits, and geometrical problems. These studies bring in variational methods, a fertile source of nonlinear systems of differential equations. The reader who works through this book will be well prepared for advanced studies in dynamical systems, mathematical physics, and partial differential equations. --Publisher description.
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