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020 _a 9781264258826 (PB)
041 _aeng
082 _a517.38
_bBRO
100 _aBronson,Richard
245 _aDifferential equations
250 _aFifth edition
260 _aNew York
_bMcGraw Hill
_c 2022
300 _a xiv, 414
440 _a Schaum's outline series
505 _aBasic concepts An introduction to modeling and qualitative methods Classifications of first-order differential equations Separable first-order differential equations Exact first-order differential equations Linear first-order differential equations Applications of first-order differential equations Linear differential equations: theory of solutions Second-order linear homogeneous differential equations with constant coefficients nth-order linear homogeneous differential equations with constant coefficients The method of undetermined coefficients Variation of parameters Initial-value problems for linear differential equations Applications of second-order linear differential equations Matrices eAt Reduction of linear differential equations to a system of first-order equations Graphical and numerical methods for solving first-order differential equations Further numerical methods for solving first-order differential equations Numerical methods for solving second-order differential equations via systems The Laplace transform Inverse Laplace transforms Convolutions and the unit step function Solutions of linear differential equations with constant coefficients by Laplace transforms Solutions of linear systems by Laplace transforms Solutions of linear differential equations with constant coefficients by matrix methods Power series solutions of linear differential equations with variable coefficients Series solutions near a regular singular point Some classical differential equations Gamma and Bessel functions An introduction to partial differential equations Second-order boundary-value problems Eigenfunction expansions An introduction to difference equations Solving differential equations using Mathematica Solving systems of differential equations via Eigenvalues using Mathematica Qualitative methods Euler's method using Microsofe Excel® Some interesting modeling problems Laplace transforms Answers to supplementary problems
520 _aSchaum's Outline of Differential Equations, Fifth Edition is the go-to study guide for all students of science who need to learn or refresh their knowledge of differential equations. With an outline format that facilitates quick and easy review and mirrors the course in scope and sequence, this book helps you understand basic concepts and get the extra practice you need to excel in the course. It supports the all major differential equations textbooks and is useful for study in Calculus (I, II, and III), Mathematical Modeling, Introductory Differential Equations and Differential Equations. Chapters include an Introduction to Modeling and Qualitative Methods, Classifications of First-Order Differential Equations, Linear Differential Equations, Variation of Parameters, Initial-Value Problems for Linear Differential Equations, Graphical and Numerical Methods for Solving First-Order Differential Equations, Solutions of Linear Differential Equations with Constant Coefficients by Laplace Transforms, and more
650 _aDifferential equations Problems, exercises, etc
650 _aDifferential equations Outlines, syllabi, etc
650 _aDifferential equations
700 _aCosta,Gabriel B.
942 _2ddc
_cBK
999 _c2371
_d2371