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Differential Equations - With CD

Differential Equations - With CD - 3rd edition

ISBN13: 978-0495012658

Cover of Differential Equations - With CD 3RD 06 (ISBN 978-0495012658)
ISBN13: 978-0495012658
ISBN10: 0495012653
Cover type: Hardback
Edition/Copyright: 3RD 06
Publisher: Brooks/Cole Publishing Co.
Published: 2006
International: No

List price: $313.50

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Differential Equations - With CD - 3RD 06 edition

ISBN13: 978-0495012658

Paul Blanchard, Robert L. Devaney and Glen R. Hall

ISBN13: 978-0495012658
ISBN10: 0495012653
Cover type: Hardback
Edition/Copyright: 3RD 06
Publisher: Brooks/Cole Publishing Co.

Published: 2006
International: No
Summary

Incorporating a modeling approach throughout, this exciting text emphasizes concepts and shows that the study of differential equations is a beautiful application of the ideas and techniques of calculus to everyday life. By taking advantage of readily available technology, the authors eliminate most of the specialized techniques for deriving formulas for solutions found in traditional texts and replace them with topics that focus on the formulation of differential equations and the interpretations of their solutions. Students will generally attack a given equation from three different points of view to obtain an understanding of the solutions: qualitative, numeric, and analytic. Since many of the most important differential equations are nonlinear, students learn that numerical and qualitative techniques are more effective than analytic techniques in this setting. Overall, students discover how to identify and work effectively with the mathematics in everyday life, and they learn how to express the fundamental principles that govern many phenomena in the language of differential equations.

Table of Contents

1. FIRST-ORDER DIFFERENTIAL EQUATIONS.

Modeling via Differential Equations. Analytic Technique: Separation of Variables. Qualitative Technique: Slope Fields. Numerical Technique: Euler's Method. Existence and Uniqueness of Solutions. Equilibria and the Phase Line. Bifurcations. Linear Equations. Integration Factors for Linear Equations. Review Exercises for Chapter 1. Labs for Chapter 1.

2. FIRST-ORDER SYSTEMS.

Modeling via Systems. The Geometry of Systems. Analytic Methods for Special Systems. Euler's Method for Systems. The Lorenz Equations. Review Exercises for Chapter 2. Labs for Chapter 2.

3. LINEAR SYSTEMS.

Properties of Linear Systems and the Linearity Principle. Straight-Line Solutions. Phase Planes for Linear Systems with Real Eigenvalues. Complex Eigenvalues. Special Cases: Repeated and Zero Eigenvalues. Second-Order Linear Equations. The Trace-Determinant Plane. Linear Systems in Three Dimensions. Review Exercises for Chapter 3. Labs for Chapter 3.

4. FORCING AND RESONANCE.

Forced Harmonic Oscillators. Sinusoidal Forcing. Undamped Forcing and Resonance. Amplitude and Phase of the Steady State. The Tacoma Narrows Bridge. Review Exercises for Chapter 4. Labs for Chapter 4.

5. NONLINEAR SYSTEMS.

Equilibrium Point Analysis. Qualitative Analysis. Hamiltonian Systems. Dissipative Systems. Nonlinear Systems in Three Dimensions. Periodic Forcing of Nonlinear Systems and Chaos. Review Exercises for Chapter 5. Labs for Chapter 5.

6. LAPLACE TRANSFORMS.

Laplace Transforms. Discontinuous Functions. Second-Order Equations. Delta Functions and Impulse Forcing. Convolutions. The Qualitative Theory of Laplace Transforms. Review Exercises for Chapter 6. Labs for Chapter 6.

7. NUMERICAL METHODS.

Numerical Error in Euler's Method. Improving Euler's Method. The Runge-Kutta Method. The Effects of Finite Arithmetic. Review Exercises for Chapter 7. Labs for Chapter 7.

8. DISCRETE DYNAMICAL SYSTEMS.

The Discrete Logistic Equation. Fixed Points and Periodic Points. Bifurcations. Chaos. Chaos in the Lorenz System. Review Exercises for Chapter 8. Labs for Chapter 8. Hints and Answers.