Ordinary Differential Equations and Stability Theory: An Introduction (Dover Books on Mathematics)

Chapter I. Introduction 1.1 Preliminary Notation 1.2 The Ordinary Differential Equation 1.3 An Existence and Uniqueness Theorem 1.4 The Maximum Interval of Existence Problems Chapter 2. The Linear Equation: General Discussion 2.1 Introduction 2.2 Fundamental Solutions 2.3 The Wronskian 2.4 The Nonhomogeneous Linear Equation 2.5 The nth-Order Linear Equation 2.6 The Nonhomogeneous nth-Order Linear Equation Problems Chapter 3. The Linear Equation with Constant Coefficients 3.1 The nth-Order Linear Equation 3.2 The Nonhomogeneous nth-Order Linear Equation 3.3 The Behavior of Solutions 3.4 The First-Order Linear System Problems Chapter 4. Autonomous Systems and Phase Space 4.1 Introduction 4.2 Linear Systems--Constant Coefficients 4.3 A General Discussion 4.4 Nonlinear Systems Problems Chapter 5. Stability for Nonautonomous Equations 5.1 Introduction 5.2 Stability for Linear Systems 5.3 Two Results for Nonlinear Systems 5.4 Liapunov's Direct Method 5.5 Some Results for the Second-Order Linear Equation Problems Chapter 6. Existence, Uniqueness, and Related Topics 6.1 Proof of the Existence and Uniqueness of Solutions 6.2 Continuation of Solutions and the Maximum Interval of Existence 6.3 The Dependence of Solutions on Parameters and Approximate Solutions Problems Appendix A. Series Solutions of Second-Order Linear Equations Appendix B. Linear Systems with Periodic Coefficients References; Index