Differential equations and boundary value problems : computing and modeling / by C. Henry Edwards and David E. Penney
Material type: TextPublication details: New Delhi : Pearson Education Private Limited, 2013, 2004cEdition: 3rd edDescription: xv, 801p. : il. ; 25 cmISBN: 9788131728222 (pbk)DDC classification: 515.35Item type | Current library | Call number | Copy number | Status | Date due | Barcode | Item holds |
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Books | Namal Library Mathematics | 515.35 EDW-D 2013 111 (Browse shelf (Opens below)) | 1 | Available | 111 | ||
Books | Namal Library Mathematics | 515.35 EDW-D 2013 753 (Browse shelf (Opens below)) | 2 | Checked out | 05/10/2024 | 753 |
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515.35 EDW-D 2005 1908 Differential equations & linear algebra / | 515.35 EDW-D 2005 1961 Differential equations & linear algebra / | 515.35 EDW-D 2005 5918 Differential equations & linear algebra / | 515.35 EDW-D 2013 111 Differential equations and boundary value problems : | 515.35 EDW-D 2013 753 Differential equations and boundary value problems : | 515.35 ERA-A 2013 292 Advanced differential equations | 515.35 FAR-D 2002 902 Diffrential equations and linear algebra / |
Index included
1. First Order Differential Equations. Differential Equations and Mathematical Models. Integrals as General and Particular Solutions. Slope Fields and Solution Curves. Separable Equations and Applications. Linear First Order Equations. Substitution Methods and Exact Equations. 2. Mathematical Models and Numerical Methods. Population Models. Equilibrium Solutions and Stability. Acceleration-Velocity Models. Numerical Approximation: Euler's Method. A Closer Look at the Euler Method, and Improvements. The Runge-Kutta Method. 3. Linear Equations of Higher Order. Introduction: Second-Order Linear Equations. General Solutions of Linear Equations. Homogeneous Equations with Constant Coefficients. Mechanical Vibrations. Nonhomogeneous Equations and Undetermined Coefficients. Forced Oscillations and Resonance. Electrical Circuits. Endpoint Problems and Eigenvalues. 4. Introduction to Systems of Differential Equations. First-Order Systems and Applications. The Method of Elimination. Numerical Methods for Systems. 5. Linear Systems of Differential Equations. Linear Systems and Matrices. The Eigenvalue Method for Homogeneous Systems. Second Order Systems and Mechanical Applications. Multiple Eigenvalue Solutions. Matrix Exponentials and Linear Systems. Nonhomogenous Linear Systems. 6. Nonlinear Systems and Phenomena. Stability and the Phase Plane. Linear and Almost Linear Systems. Ecological Models: Predators and Competitors. Nonlinear Mechanical Systems. Chaos in Dynamical Systems. 7. Laplace Transform Methods. Laplace Transforms and Inverse Transforms. Transformation of Initial Value Problems. Translation and Partial Fractions. Derivatives, Integrals, and Products of Transforms. Periodic and Piecewise Continuous Forcing Functions. Impulses and Delta Functions. 8. Power Series Methods. Introduction and Review of Power Series. Series Solutions Near Ordinary Points. Regular Singular Points. Method of Frobenius: The Exceptional Cases. Bessel's Equation. Applications of Bessel Functions. 9. Fourier Series Methods. Periodic Functions and Trigonometric Series. General Fourier Series and Convergence. Even-Odd Functions and Termwise Differentiation. Applications of Fourier Series. Heat Conduction and Separation of Variables. Vibrating Strings and the One-Dimensional Wave Equation. Steady-State Temperature and Laplace's Equation. 10. Eigenvalues and Boundary Value Problems. Sturm-Liouville Problems and Eigenfunction Expansions. Applications of Eigenfunction Series. Steady Periodic Solutions and Natural Frequencies. Applications of Bessel Functions. Higher-Dimensional Phenomena. References. Appendix: Existence and Uniqueness of Solutions. Answers to Selected Problems. Index.
Blends the traditional algebra problem-solving skills with the conceptual development and geometric visualization of a modern differential equations course that is essential to science and
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