89 Best Books on Differential Equations

We have compiled a list of the Best Reference Books on Differential Equations, which are used by students of top universities, and colleges. This will help you choose the right book depending on if you are a beginner or an expert. Here is the complete list of Differential Equations Books with their authors, publishers, and an unbiased review of them as well as links to the Amazon website to directly purchase them. If permissible, you can also download the free PDF books on Differential Equations below.

1. Differential Equations

 
1."Elementary Differential Equations" by W E Boyce and R DiPrima
“Elementary Differential Equations” Book Review: This book is about Differential Equations, which are used to solve problems in engineering and science. The book is written in a way that is both theoretical and practical. It explains how to solve, analyze, and estimate the solutions to these equations. The book is updated with the latest theory and features modern aspects of differential equations. It is organized into chapters on different types of equations and their solutions. The book uses technology, illustrations, and problem sets to help readers understand the concepts. It also includes practical examples of how differential equations are used in the real world. This book is great for advanced students interested in differential equations.

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2."Differential Equations For Dummies" by Steven Holzner
“Differential Equations For Dummies” Book Review: This book teaches about differential equations and covers topics such as first, second, and higher order equations. The book explains these equations in a way that is relevant to the real world. Each method is explained step-by-step, which will help readers improve their equation solving skills. The book also illustrates how differential equations are used in physics, chemistry, biology, and economics. It includes many examples and exercises to support the content. This book would be good for a college course in differential equations and calculus and would be helpful for science and engineering students and professionals.

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3."Schaum's Outline of Differential Equations" by Richard Bronson and Gabriel Costa
“Schaum’s Outline of Differential Equations” Book Review: This book is a comprehensive guide to differential equations and covers important concepts and methodologies. Each chapter explains the concepts step-by-step and is precise and thorough. The book covers topics like modeling, qualitative methods, first order differential equations, second order differential equations, linear differential equations, nth-order equations, method of undetermined coefficients, variation of parameter, and initial value problems. The book also covers advanced topics like matrices, Laplace transform, inverse Laplace transform, unit step function, and power series. The book emphasizes effective problem-solving techniques and provides many examples and exercises to help readers understand the concepts. The book also discusses real-world applications of differential equations.

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4."Differential Equations" by Inc BarCharts
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5."Differential Equations and Linear Algebra" by Gilbert Strang
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6."Differential Equations with Boundary-Value Problems" by Dennis G Zill and Warren S Wright
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7."Differential Equations" by Paul Blanchard and Robert L Devaney
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8."Partial Differential Equations for Scientists and Engineers" by Stanley J Farlow
“Partial Differential Equations for Scientists and Engineers” Book Review: This book explains how to use partial differential equations to understand fluid dynamics, electricity, magnetism, mechanics, optics, and heat flow. It shows how to turn physical problems into equations and solve them. It is useful for students studying science and engineering, as well as professionals working in the field. The book covers topics like diffusion, hyperbolic and elliptic problems, and numerical and approximation methods. It is updated and includes the latest theories and developments in partial differential equations. Each chapter focuses on a physical problem and explains how to turn it into an equation and solve it with initial and boundary conditions.

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9."Differential Equations for Scientists and Engineers" by J B Joshi
Book Review: This book is about differential equations that engineers and scientists face in their work. It covers linear equations and how to find exact solutions. It also includes linear and solvable nonlinear equations. Some chapters explain semi-analytical methods, like variation techniques, and advanced topics like quasi-periodic motion. The book focuses on developing solution methods and theoretical aspects, like proving the existence and uniqueness of solutions. There are also chapters on non-linear equations, quasi-periodic motion, and using various solution techniques.

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10."Partial Differential Equations of Mathematical Physics" by A N Tychonov and A A Samarski
“Partial Differential Equations of Mathematical Physics” Book Review: This book is about partial differential equations of mathematical physics. It explains concepts like motion, mass, material, and spatial description, strain, stress, ideal fluids, and thermodynamics. It also discusses the Euler equations, Green’s functions, elastic fluids, acoustic waves, Navier-Stokes equations, and linear elasticity. The book is intended for students, teachers, and professionals in the field of engineering and science who want to learn about partial differential equations and their applications. It covers a broad range of topics and provides a fundamental overview of the subject.

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11."Mathematical Physics with Partial Differential Equations" by James Kirkwood
“Mathematical Physics with Partial Differential Equations” Book Review: The book offers a basic introduction to mathematical physics using partial differential equations. It covers important topics such as the heat equation, the wave equation, and Laplace’s equation. It discusses Green’s functions, Fourier transform, Laplace transform, Bessel Functions, Fourier Coefficients, Euler’s Formula, partial differential equations, formation of partial differential equations by elimination of arbitrary functions, and more. Detailed mathematical derivations and solutions are included in the book to help readers understand the concepts better.

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2. Advanced Course on Differential Equations

 
1."Boundary Control of PDEs: A Course on Backstepping Designs (Advances in Design and Control)" by Miroslav Krstic and Andrey Smyshlyaev
“Boundary Control of PDEs: A Course on Backstepping Designs: 16 (Advances in Design and Control, Series Number 16)” Book Review: This book is about backstepping, a new way to control and stabilize partial differential equation (PDE) systems. It helps engineers and physicists to convert complex and unstable PDE systems into simple and stable ones. The book explains how to control PDE systems by using distributed boundary systems and how to analyze their stability. It covers various types of PDE systems such as fluid, thermal, and mechanical systems, as well as first-order and second-order PDEs, delay systems, and real-valued and complex-valued PDEs. Even teachers without expertise in PDEs can use this book, and researchers can find many interesting topics.

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2."Advances in Differential Equations and Applications (SEMA SIMAI Springer Series)" by Vicente Martínez and Fernando Casas
“Advances in Differential Equations and Applications: 4 (SEMA SIMAI Springer Series)” Book Review: The book contains a collection of research presented at the 23rd Congress on Differential Equations and Applications (CEDYA) and the 13th Congress of Applied Mathematics (CMA) held in Castellon, Spain in 2013. CEDYA is known as the congress of the Spanish Society of Applied Mathematics (SEMA) and is the main gathering for applied mathematicians in Spain. The papers in the book were carefully selected through a rigorous review process and showcase recent research in various fields of science and technology. The book aims to serve as a useful reference for both academic and industrial researchers working in the field of mathematical analysis and its applications.

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3."Floquet Theory for Partial Differential Equations (Operator Theory: Advances and Applications)" by P A Kuchment
“Floquet Theory for Partial Differential Equations: 60 (Operator Theory: Advances and Applications)” Book Review: This book is an insightful guide that explores the powerful and versatile mathematical tool known as Floquet theory, applied to partial differential equations. The book covers the fundamental aspects of Floquet theory, including its history and recent developments, and presents a variety of applications across different fields of science and engineering. The author’s clear and concise writing style, along with numerous examples and exercises, make this book accessible to advanced undergraduate and graduate students, as well as researchers and professionals in the field of mathematical analysis.

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4."Partial Differential Equations and Spectral Theory: PDE2000 Conference in Clausthal, Germany (Operator Theory: Advances and Applications)" by Bert-Wolfgang Schulze and Michael Demuth
“Partial Differential Equations and Spectral Theory: PDE2000 Conference in Clausthal, Germany: 126 (Operator Theory: Advances and Applications)” Book Review: This book is a collection of papers presented at the PDE2000 conference. The papers cover a range of topics related to partial differential equations (PDEs) and spectral theory, including inverse problems, elliptic PDEs, Schrödinger operators, and numerical methods for solving PDEs. The book is suitable for researchers and graduate students interested in the latest developments in PDEs and spectral theory. It provides a comprehensive overview of the field and highlights the diverse range of applications of PDEs in various areas of science and engineering.

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5."Delay Differential Equations: Recent Advances and New Directions" by Balakumar Balachandran and David E Gilsinn
“Delay Differential Equations: Recent Advances and New Directions” Book Review: The book features contributions from experts in the field and provides a unique focus on theory, symbolic, and mathematical methods. It showcases how these concepts can be applied to practical systems ranging from car engines to Internet controllers. The book also includes recent scientific contributions, computational methods, and examples of the application of current results in fields such as physics, mechanics, and control theory. This book is a valuable reference for students, engineers, and researchers from different scientific fields.

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6."Topics in Differential and Integral Equations and Operator Theory (Operator Theory: Advances and Applications)" by Krein
“Topics in Differential and Integral Equations and Operator Theory: 7 (Operator Theory: Advances and Applications)” Book Revie: M.G. Krein’s three significant papers are presented for the first time in English translation in this volume. Each is a short, standalone monograph, and together they are a masterpiece of work. Despite being written over twenty years ago, their value has not diminished with time. They contain a wealth of ideas and will serve as a source of stimulation and inspiration for both experts and beginners. The first paper focuses on the theory of bound linear differential equations with periodic coefficients and examines linear Hamiltonian systems with bounded solutions that remain bounded under small perturbations of the system. The paper uses methods from operator theory in finite and infinite-dimensional spaces and complex analysis.

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7."Differentiable Operators and Nonlinear Equations (Operator Theory: Advances and Applications)" by Victor Khatskevich and David Shoiykhet
“Differentiable Operators and Nonlinear Equations: 66 (Operator Theory: Advances and Applications)” Book Review: This book is a valuable resource for students, researchers, and experts in mathematics, physics, and engineering. The book provides a comprehensive overview of the theory and applications of differentiable operators and nonlinear equations. The authors cover a wide range of topics, including functional analysis, operator theory, nonlinear equations, and differential equations, and provide a thorough analysis of differentiable operators and their applications to nonlinear problems. The book is a significant contribution to the field of operator theory and a useful reference for those interested in nonlinear equations.

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8."Semi-bounded Differential Operators, Contractive Semigroups and Beyond (Operator Theory: Advances and Applications)" by Vladimir Maz'ya and Alberto Cialdea
“Semi-bounded Differential Operators, Contractive Semigroups and Beyond: 243 (Operator Theory: Advances and Applications” Book Review: The book discusses the conditions for semi-boundedness of partial differential operators in different Hilbert and Banach spaces. While L2-semi-bounded differential and pseudo-differential operators have been extensively studied, little was previously known about their complete analytical representations for other spaces. The authors aim to partially fill this gap by presenting various types of semi-boundedness and providing necessary and sufficient conditions, as well as optimal conditions from different perspectives. The book also includes results that are mostly due to the authors.

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9."Differential Equations: An Introduction with Mathematica® (Undergraduate Texts in Mathematics)" by imusti
“Differential Equations: An Introduction with Mathematica® (Undergraduate Texts in Mathematics)” Book Review: This is a useful resource for undergraduate mathematics students and instructors. The book covers a variety of differential equation topics, including first-order equations, linear equations of higher order, Laplace transforms, systems of equations, numerical methods, and more. The unique aspect of this book is its integration of Mathematica® software, which helps students gain a better understanding of the concepts by allowing them to experiment and visualize solutions. The book also includes numerous exercises and examples with solutions for self-study.

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10."Advanced Differential Equation" by Raisinghania
“Advanced Differential Equations (Old Edition)” Book Review: TThe aim of this book is to introduce students to advanced concepts of differential equations. It covers topics such as Ordinary and Partial Differential Equations, Boundary Value Problems, Laplace Transforms, Fourier Transforms, and Calculus. The textbook provides clear presentation of theoretical concepts as well as teaches students various techniques and applications related to differential equations.

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11."Elementary Differential Equations and Boundary Value Problems" by W E Boyce and R C DiPrima
Book Review: The book presents an applied mathematician’s perspective on differential equations, emphasizing their theory and practical applications in engineering and sciences. It underscores methods of analysis, solution, and approximation and employs technology, demonstrations, and problem sets to foster readers’ comprehension. The book provides a strong foundation for individuals looking to learn differential equations and subsequently progress to more advanced studies.

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12."Analytic Methods In The Theory Of Differential And Pseudo-Differential Equations Of Parabolic Type" by Stepan D Ivasyshen and Anatoly N Kochubei
“Analytic Methods In The Theory Of Differential And Pseudo-Differential Equations Of Parabolic Type” Book Review: This book is intended for undergraduate and graduate students as well as research scholars in electrical and electronics engineering, computer engineering, and embedded systems. Additionally, it can be a useful reference for graduate students in computer vision, pattern recognition, and multimedia. The book provides an in-depth coverage of parabolic differential and pseudo-differential equations, with emphasis on recent developments. It discusses various classes of equations, including quasi-homogeneous parabolic systems, degenerate equations of the Kolmogorov type, and pseudo-differential parabolic equations. The later part of the book delves into fractional diffusion equations. The book will be of interest to mathematicians exploring new classes of partial differential equations and physicists specializing in diffusion processes.

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13."Analysis and Topology in Nonlinear Differential Equations" by Figueiredo
“Analysis and Topology in Nonlinear Differential Equations” Book Review: The revised edition of this book features the latest developments in nonlinear analysis and differential equations. Topics such as calculus of variations, topological methods, and control theory are covered in detail. The chapters focus on the fundamental methods for solving nonlinear differential equations and provide various applications of these methods in different fields. Numerous examples are included to aid readers’ comprehension. This text is suitable for students and professionals in computer science and mechanical engineering seeking a comprehensive understanding of the subject matter.

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3. Ordinary Differential Equations

 
1."Essentials of Ordinary Differential Equations" by R P Agarwal and R Gupta
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2."Differential Equations and their Applications" by M Braun
“Differential Equations and their Applications” Book Review: The book provides comprehensive coverage of major topics and aspects related to differential equations. The chapters focus on various types of differential equations such as first-order, second-order linear, and systems of differential equations. In addition, the qualitative theory of differential equations, separation of variable, and Fourier series are also covered. To aid self-study and practice, Sturm-Liouville boundary value problems are included. The final section presents appendices on functions of several variables, sequences and series, and C programs. The book also highlights the practical applications of differential equations in quantitative problems. It will be useful for undergraduate students of mathematics and engineering.

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3."Theory of Ordinary Differential Equations" by E A Coddington and N Levinson
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4."Differential Equations and Dynamical Systems" by L Perko
“Differential Equations and Dynamical Systems” Book Review: The book provides a well-organized and systematic overview of autonomous systems of ordinary differential equations and dynamical systems. Its objective is to introduce readers to the qualitative and geometric theory of nonlinear differential equations. The chapters discuss the local and global behavior of nonlinear systems, as well as linear systems, higher-order Melnikov theory, and bifurcation of limit cycles for planar systems. Additionally, the book offers a detailed explanation of the Hartman-Grobman theorem and its proof. The material is supported by numerous examples. The book will prove useful to mathematicians conducting research on dynamical systems.

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5."Ordinary Differential Equations" by Morris Tenenbaum and Harry Pollard
“Ordinary Differential Equations” Book Review: The book offers a comprehensive and structured overview of ordinary differential equations. It begins with an introduction that covers the origin, history, basic terms, and general solution of differential equations. The subsequent chapters elaborate on integrating factors, algebra of complex numbers, linearization of first order systems, Laplace transforms, Newton’s interpolation formulas, and Picard’s method of successive approximations. Additionally, the book explains two methods for solving differential equations: series methods and numerical methods. To aid readers’ comprehension, the book provides many solved problems and practice exercises. This resource will be beneficial to undergraduate students in mathematics, engineering, and the sciences.

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6."An Introduction to Ordinary Differential Equations" by Earl A Coddington and Mathematics
“An Introduction to Ordinary Differential Equations” Book Review: The book provides a comprehensive understanding of differential equations, with emphasis on the fundamental concepts. The initial chapters cover topics such as first order linear equations, linear equations with constant coefficients, variable coefficients, and regular singular points. The subsequent chapters focus on the existence and uniqueness of solutions for first order and n-th order equations, stability, equations with periodic coefficients, and boundary value problems. The book also includes a variety of practice problems with answers for self-evaluation. This book is appropriate for undergraduate students studying mathematics and science.

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7."Ordinary Differential Equations: From Calculus to Dynamical Systems" by Virginia W Noonburg
“Ordinary Differential Equations: From Calculus to Dynamical Systems” Book Review: This revised book covers the latest topics related to ordinary differential equations. It starts with a clear introduction to differential equations and then delves into major concepts such as first-order differential equations, second-order differential equations, linear systems of first-order differential equations, the geometry of autonomous systems, and Laplace systems. The book includes numerous exercises, problems, and hints for self-study, making it an ideal resource for those seeking to learn independently. It is particularly suitable for students in applied science and biological sciences, and those interested in dynamical systems theory.

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8."Ordinary Differential Equations: An Introduction to the Fundamentals" by Kenneth B Howell
“Ordinary Differential Equations: An Introduction to the Fundamentals” Book Review: The book provides a comprehensive overview of the essential principles, concepts, and topics in ordinary differential equations. It is divided into six sections that cover the basics, first-order equations, second and higher-order equations, Laplace transform, power series, and systems of differential equations. The chapters are well-structured, clearly written, and include detailed explanations of the presented concepts and techniques. The book also includes numerous exercises, problems, and hints with solutions to aid self-study. It is suitable for undergraduate students and professionals of mathematics, as well as anyone interested in gaining knowledge about ordinary differential equations.

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9."Ordinary Differential Equations" by Edward L Ince and Mathematics
“Ordinary Differential Equations” Book Review: The book comprehensively covers the theory of ordinary differential equations in both real and complex domains. The initial chapters of the book focus on the real domain, featuring topics such as methods of integration, existence and nature of solutions, continuous transformation-groups, linear differential equations, algebraic theory, and Sturmian theory. The later section is devoted to the complex domain and covers topics such as existence theorems, first-order equations, nonlinear higher-order equations, solutions, systems, classifications of linear equations, and oscillation theorems. The book also includes recent developments in this field. It will prove to be a valuable resource for professionals in the electronics industry and anyone interested in the theory of ordinary differential equations.

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10."Ordinary Differential Equations" by V I Arnold
“Ordinary Differential Equations” Book Review: This book introduces modern mathematical concepts and terminologies used in ordinary differential equations. It covers the basic concepts of differential equations, including phase space and phase flows, smooth manifolds and tangent bundles, vector fields and one-parameter groups of diffeomorphism, and pendulum equations. The chapters describe theorems on rectifiability and the theory of one-parameter groups of linear transformations in a reader-friendly manner. The applications of ordinary differential equations in various fields and methods are highlighted, and the book is illustrated with several line drawings and examples. Numerous problems and exercises are included for better understanding of the readers.

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11."Differential Equations with Applications and Historical Notes" by G F Simmons
“Differential Equations with Applications and Historical Notes” Book Review: The book provides a comprehensive coverage of the fundamental concepts and practical applications of differential equations, with in-depth discussions and illustrative examples. Each concept is accompanied by rigorous proofs, derivations, and explanations to ensure a thorough understanding. The book extensively covers topics such as first and second-order differential equations, power series, Fourier series, and Laplace transforms. It is an excellent resource for those interested in classical mathematics and its various applications in scientific discoveries. Engineers, researchers, and those pursuing higher studies will find this book to be an invaluable reference.

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4. Partial Differential Equations

 
1."Partial Differential Equations" by L C Evans
“Partial Differential Equations” Book Review: The book provides an in-depth understanding of partial differential equations, covering important topics such as four linear partial differential equations, nonlinear first-order partial differential equations, and various solution representations. It also includes chapters on Sobolev spaces, second-order elliptic equations, and linear evolution equations. The book offers a wide range of problems at the end of each chapter for students to practice. All the theorems and methods are described in detail, with additional references provided at the end of each chapter for further reading. This book is highly recommended for advanced mathematics and graduate-level engineering students seeking to enhance their knowledge of partial differential equations.

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2."Partial Differential Equations: Graduate Text in Mathematics" by Jurgen Jost
“Partial Differential Equations: Graduate Text in Mathematics” Book Review: The theory of partial differential equations is presented in this book. The main topics covered in detail are Brownian motion, Sobolev space theory, weak and strong solutions, and Schauder estimates. Hyperbolic equations, first-order hyperbolic systems, Fokker-Planck equations, and viscosity solutions for PDEs are also discussed. A large number of problems are provided to facilitate easy understanding of the topics. The book delves into each topic extensively and is suitable for both mathematics and engineering students.

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3."Partial Differential Equations: Methods and Applications" by Robert C Mcowen
“Partial Differential Equations: Methods and Applications” Book Review: This book serves as an introductory guide to partial differential equations, covering key topics such as first-order equations, principles for higher-order equations, the wave equation, and the Laplace equation. Additionally, the book covers the heat equation, linear functional analysis, differential calculus methods, and linear elliptic theory. To reinforce the concepts discussed, over 400 exercises with hints and solutions are provided. The book is also enriched with illustrations to aid in understanding complex concepts. This resource is valuable for mathematics and engineering students seeking to build a strong foundation in partial differential equations.

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4."Partial Differential Equations" by Fritz John
“Partial Differential Equations” Book Review: The book covers the significant topics of partial differential equations. It provides a detailed account of the single first-order equation, the Cauchy problem for higher-order equations, and second-order equations with constant coefficients. Other topics covered are the heat equation, Riemann’s method of integration, and the method of plane waves. The book includes practice problems with solutions at the end of the chapters and a list of recommended books for further studies. It will be a valuable resource for graduate-level students in engineering and applied mathematics.

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5."Elements of Partial Differential Equations" by I N Sneddon
“Elements of Partial Differential Equations” Book Review: This book provides a detailed overview of partial differential equations, including mathematical models, conservation and constitutive laws, classifications, and linear partial differential equations of the first order. It also covers wave equations in one spatial variable, Laplace and Poisson equations in two dimensions, and methods of integral transforms. Each chapter includes exercises for students to practice and numerous problems that have been solved to facilitate understanding. This book is especially useful for graduate students in engineering and applied mathematics.

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6."Introduction to Partial Differential Equationss" by Rao K S
“Introduction to Partial Differential Equations” Book Review: This book provides a comprehensive overview of the fundamental concepts of partial differential equations. The major topics covered include Laplace and Fourier transform techniques, variable separable method, and Green’s function method. In addition, the book discusses linear partial differential equations with constant coefficients and nonlinear model equations. The book includes worked-out examples and exercises to enhance the understanding of the concepts. This book is particularly useful for students preparing for competitive exams such as GATE and NET.

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7."PARTIAL DIFFERENTIAL EQUATIONS (GRADUATE STUDIES IN MATHEMATICS)" by LAWRENCE C EVANS
“PARTIAL DIFFERENTIAL EQUATIONS (GRADUATE STUDIES IN MATHEMATICS)” Book Review: This comprehensive book provides a thorough overview of modern techniques for studying theoretical aspects of partial differential equations (PDEs), with a particular focus on nonlinear equations. The book covers important topics such as four linear PDEs, nonlinear first-order PDEs, and various methods for representing solutions. Additionally, readers will find discussions on Sobolev spaces, second-order elliptic equations, and linear evolution equations. Each chapter is accompanied by problems for students to practice, with detailed descriptions of theorems and methods. The book also includes a list of references for further reading. This resource is an excellent choice for advanced mathematics students and graduate-level engineering students.

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8."Ordinary and Partial Differential Equations" by Raisinghania M D
“Ordinary and Partial Differential Equations” Book Review: The book introduces the fundamental concepts of ordinary and partial differential equations. It covers topics such as differential equations, equations of first order and first degree, trajectories, linear differential equations with constant coefficients, and homogeneous linear equations. The method of variation of parameters and ordinary simultaneous differential equations are also discussed. The book provides miscellaneous and solved examples at the end of each chapter for better understanding. Objective type problems are also included in each chapter. This book is designed for advanced mathematics and graduate-level engineering students.

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9."Partial Differential Equations: Methods, Applications and Theories" by Hattori
“Partial Differential Equations: Methods, Applications and Theories” Book Review: This book provides an introductory overview of partial differential equations and their applications. The major chapters cover first and second-order linear equations, heat equations, wave equation, and Laplace equation. Other topics include Fourier series and eigenvalue problems, separation of variables in higher dimensions, more separation of variables, and Fourier transformation. The book provides detailed explanations of equations and methods, with appropriate figures. Many examples are solved to facilitate easy understanding of the topics. This book is suitable for advanced mathematics and graduate-level engineering students.

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10."Partial Differential Equations: An Introductory Treatment With Applications" by Bhamra K S
“Partial Differential Equations: An Introductory Treatment with Applications” Book Review: This book provides an overview of partial differential equations and their applications. The major topics covered are Fourier transformation, Laplace equation, wave equation, and ordinary simultaneous equations. Additionally, the book covers Hamilton-Jacobi equations, conservation laws, similarity solutions, asymptotic and power series solutions. With over 300 solved examples, the theory is explained in a comprehensive manner. In addition, 455 unsolved problems with hints and answers are included for student practice. This book is useful for students studying advanced level mathematics and graduate level engineering.

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11."Schaum's Outline of Partial Differential Equations (Schaums' Outline Series)" by D W Zachmann and Paul Duchateau
“Schaum’s Outline of Partial Differential Equations (Schaums’ Outline Series)” Book Review: This book is intended for students of mathematics and engineering across all disciplines, and it concentrates on the numerical methods used for solving partial differential equations deterministically. The book presents lucid and brief descriptions of differential and difference methods, and it comprises two sections: Partial Differential Equations I and II, as well as Applied Math I and II. Additionally, the book includes 290 worked problems of varying levels of complexity and numerous solved problems to enhance the understanding of concepts.

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12."Linear Partial Differential Equations for Scientists and Engineers" by Tyn Myint-U and ‎Lokenath Debnath
Book Review: The author of this introductory book provides a thorough overview of the theory and applications of linear partial differential equations. The book covers the fundamental concepts, underlying principles, and a wide range of applications, as well as various methods for solving partial differential equations. In addition, the book includes numerous worked examples and exercises that explore problems in fields such as fluid mechanics, gas dynamics, optics, plasma physics, elasticity, biology, and chemistry.

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5. Modern Theory of PDE

 
1."Topics in Functional Analysis" by S Kesavan
“Topics in Functional Analysis” Book Review: This book is a comprehensive yet accessible guide to the techniques of Functional Analysis employed in the modern study of Partial Differential Equations, with clear and straightforward examples to illustrate their application. The book covers Distributions, Sobolev Spaces and Semi-groups, providing an introduction to the theory before demonstrating how it can be used to study weak solutions of elliptic boundary value problems and evolution equations. The book also touches upon some techniques in nonlinear analysis, offering an insight into current research in the field. The appendices and exercises complement the textbook, with fully solved problems available in a companion volume. Whether used as a reference for researchers or a textbook for students, this book is an invaluable resource for anyone in this field.

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2."An Introduction to Partial Differential Equations" by M Renardy and R C Rogers
“An Introduction to Partial Differential Equations” Book Review: This book is great for starting graduate students who want to learn about PDEs. To understand this book, you need to have taken an advanced calculus course and know basic complex variables. The book teaches you everything you need to know. There are problems to solve throughout the book, and they get harder as you go. The book is all about functional analytic methods used in PDEs, and you don’t need any other books to learn from it. You can use it to study PDEs on your own or as a textbook for an advanced class. The book explains things well and has good examples.

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3."Glimpses of Soliton Theory: The Algebra and Geometry of Nonlinear Pdes" by Alex Kasman
“Glimpses of Soliton Theory: The Algebra and Geometry of Nonlinear Pdes” Book Review: This book explains the mathematical connections in soliton theory that have been revealed over the past 50 years. It shows that the structure of soliton equations is like a hidden pocket used by magicians, providing a simple explanation of something miraculous. The book only requires knowledge of multivariable calculus and linear algebra. It introduces the reader to the KdV Equation, elliptic curves, differential operators, Lax Pairs, wedge products, the KP Equation and Sato’s theory relating the Bilinear KP Equation to the geometry of Grassmannians. The book has carefully selected topics, detailed explanations, worked examples, and exercises that are thought-provoking but not difficult. It gives the reader a unique glimpse of the unity of mathematics and is suitable for self-study.

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4."Infinite-Dimensional Dynamical Systems: An Introduction to Dissipative Parabolic PDEs" by James C Robinson
“Infinite-Dimensional Dynamical Systems: An Introduction to Dissipative Parabolic PDEs” Book Review: This book talks about a special type of math called global attractors that can be used to study some types of equations. The book focuses on two specific examples: reaction-diffusion equations and the Navier-Stokes equations. It explains how to find solutions to these equations and how to understand the patterns that they make over time. The book also talks about something called a global attractor which is a smaller part of the equation that can help us understand how the whole thing works. This book is written for people who have some knowledge of math already, but it explains everything in a simple way.

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5."Solve Nonlinear Systems of PDEs by Order Completion: Can There Be a General Nonlinear PDE" by Prof Elemer Elad Rosinger
“Solve Nonlinear Systems of PDEs by Order Completion: Can There Be a General Nonlinear PDE” Book Review: This book is about finding solutions for difficult math problems called PDEs. The book’s solution method is based on a special way of looking at piecewise smooth functions on certain shapes. The solutions found in this book are special because they have a blanket, universal, minimal regularity property, meaning they can be seen as regular functions on those shapes. What’s great about this book is that it treats both simple and hard PDEs the same way, and it doesn’t separate problems into “easy” and “hard” categories. The book shows how to solve many types of equations, and is best for those who want to learn a lot about this topic.

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6."Partial Differential Equations in Action: From Modelling to Theory" by Sandro Salsa
“Partial Differential Equations in Action: From Modelling to Theory” Book Review: This book is a guide to partial differential equations (PDEs) and is organized in a clear and logical way. It was created from courses on PDEs. The book has two goals: first, to teach students about the relationship between theory and modeling in applied science problems, and second, to give them a strong theoretical foundation in numerical methods such as finite elements. The book is divided into two parts. The first part covers basic problems related to diffusion, propagation, transport, waves, and vibrations. The second part focuses on using Hilbert spaces to analyze mainly linear boundary and initial-boundary value problems. The book includes examples, theorems, proofs, and exercises and is intended for graduate students, researchers, and faculty.

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7."Solving PDEs in Python: The FEniCS Tutorial I" by Hans Petter Langtangen and Anders Logg
“Solving PDEs in Python: The FEniCS Tutorial I” Book Review: This book is a simple guide to learn how to program finite elements in Python using the FEniCS software library. It teaches readers how to solve a PDE (Partial Differential Equation) using FEniCS, and explains concepts such as defining a finite variational problem, setting boundary conditions, solving linear and nonlinear systems, and visualizing solutions. It uses examples, such as the Poisson equation, the equations of linear elasticity, and the incompressible Navier-Stokes equations. This book is suitable for those with no prior knowledge of the finite element method, and it explains the concepts of the finite element method and FEniCS programming.

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8."Second Order PDE's in Finite and Infinite Dimensions" by Sandra Cerrai
“Second Order PDEs in Finite and Infinite Dimensions” Book Review: This book explains the topics clearly. Its main aim is to examine a certain group of stochastic differential systems with unbounded coefficients, both in finite and infinite dimensions. The book emphasizes the smoothness of the solutions and the effect of transition semigroups on bounded and uniformly continuous functions. It addresses the Kolmogorov equations, how solutions behave over time, and stochastic optimal control problems and the Hamilton-Jacobi-Bellman equations that go with them. The book is concerned with determining whether solutions exist and are unique for the stochastic system.

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9."Optimization with PDE Constraints" by Michael Hinze and Rene Pinnau
“Optimization with PDE Constraints” Book Review: This book is about solving optimization problems that involve partial differential equations (PDEs) with additional constraints. These problems are challenging but important in many fields like industry, medicine, and economics. The book focuses on developing new mathematical approaches to analyze and solve these problems, including algorithms and discretization techniques. It also introduces the analytical background and optimality theory for optimization problems with PDEs. The book is for those who want to understand the process of optimization better and its applications in engineering.

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6. Numerical Solutions of Partial Differential Equations

 
1."Numerical Solution of Differential Equations" by M K Jain
“Numerical Solution of Differential Equations” Book Review: This book explains how to use finite difference elements to solve ordinary and partial differential equations. It covers initial and boundary problems, as well as more challenging topics like stiff equations, high oscillations, and convection-diffusion. The book provides many examples to help readers understand the concepts. It is intended for students studying applied mathematics, physics, and engineering.

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2."Introductory Methods of Numerical Analysis" by S S Sastry
“Introductory Methods of Numerical Analysis” Book Review: This book introduces numerical analysis and its methods. It covers topics like errors in numerical calculations, solving algebraic and transcendental equations, interpolation, least squares, and Fourier transforms. It also discusses spline functions, numerical differentiation and integration, and numerical linear algebra. The book includes exercises and solutions to help readers understand the concepts. It is suitable for students studying applied mathematics or engineering.

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3."Numerical Methods of Engineers" by D V Griffiths and I M Smith
“Numerical Methods of Engineers” Book Review: This book is about solving partial differential equations using numerical methods. It covers topics such as solving second-order parabolic partial differential equations, different schemes for these equations, and ADI methods. Other topics include triangular and rectangular elements, finite element method, and Laplace operator approximation. The book uses many examples to help readers understand the concepts. This book is suitable for graduate-level engineering students and advanced mathematics students who want to learn how to use numerical methods to solve partial differential equations.

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4."Applied Numerical Analysis" by C F General and P O Wheatley
“Applied Numerical Analysis” Book Review: This book is about applied numerical analysis methods. It covers solving nonlinear and sets of equations, interpolation and curve fitting, and function approximation in its main chapters. Other topics include numerical differentiation and integration, ordinary differential equations, optimization, and partial differential equations. Each chapter ends with exercises, and there is a separate section of applied problems and projects for practical learning. The book is intended for advanced mathematics and graduate-level engineering students.

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5."Numerical Solution of Partial Differential Equations" by Kw Moton
“Numerical Solution of Partial Differential Equations” Book Review: This book explains the standard numerical methods for partial differential equations. It covers various topics such as parabolic equations in one space variable, 2D and 3D parabolic equations, hyperbolic equations in one space dimension, consistency, convergence and stability. It also includes topics like linear second order elliptic equations in 2 dimensions and iterative solutions of linear algebraic equations. Exercises are provided at the end of each chapter for practice. The book also includes bibliography notes and references for further reading. This book is suitable for students studying applied mathematics or engineering.

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6."Numerical Solution of Partial Differential Equations: Finite Difference Methods" by Gordon Dennis Smith
“Numerical Solution of Partial Differential Equations: Finite Difference Methods” Book Review: This book introduces finite difference methods for solving partial differential equations. The main chapters include eigenvalues of the Jacobi and SOR iteration matrices, local truncation errors, and hyperbolic equations. Standard finite difference methods for parabolic, hyperbolic, and elliptic equations are discussed in detail. Additional topics include theoretical determination of optimum relaxation and ordering vectors for block tree tridiagonal matrices. Numerous examples are provided to illustrate the concepts and worked-out examples are included for each method. This book is suitable for mathematics and engineering students at both undergraduate and postgraduate levels, as well as professionals in the field.

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7."Numerical Solution of Partial Differential Equations by the Finite Element Method (Dover Books on Mathematics)" by Claes Johnson
“Numerical Solution of Partial Differential Equations by the Finite Element Method (Dover Books on Mathematics)” Book Review: This book explains the finite element method for numerical solutions of partial differential equations. It covers various topics including basic linear partial differential equations such as elliptic, parabolic, hyperbolic problems and time-dependent problems. The book also introduces finite element methods for integral equations, discusses nonlinear problems and unique developments of finite element techniques related to parabolic problems. There are many examples in the book that help explain the concepts clearly. It is suitable for advanced level mathematics and graduate level engineering students.

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8."Partial Differential Equations With Numerical Solutions" by Nagendra Kumar
“Partial Differential Equations with Numerical Solutions” Book Review: This book gives a comprehensive understanding of differential equations and their numerical solutions. It covers topics such as ordinary differential equations, partial differential equations, and numerical methods for solving them. It also discusses hyperbolic and elliptic problems, as well as linear algebraic equations. Multiple examples are provided throughout the book to aid in comprehension. This book is recommended for students of applied mathematics and graduate-level engineering.

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9."Numerical Solution of Partial Differential Equations—II" by Bert Hubbard
“Numerical Solution of Partial Differential Equations—II” Book Review: The focus of this book is on numerical solutions for partial differential equations. Key chapters address the Rayleigh-Ritz-Galerkin Type for approximating boundary value problems, spline basis functions, and Sobolev spaces. Other topics covered include approximation theory, alternative direction methods, and Chebyshev rational approximation. Each chapter contains multiple examples and solutions for clarity. This book is intended for mathematicians seeking a deeper understanding of numerical methods for partial differential equations.

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10."Numerical Solution of Partial Differential Equations in Science and Engineering" by Leon Lapidus and George F Pinder
“Numerical Solution of Partial Differential Equations in Science and Engineering” Book Review: This book presents an in-depth understanding of the numerical solutions of partial differential equations used in science and engineering. The major chapters cover the fundamental concepts of the finite difference and finite element methods, along with the finite elements on irregular subspaces. Other topics covered include parabolic, elliptic, and hyperbolic partial differential equations. The book also provides a wide range of practical examples and applications, thoroughly explained from beginning to end, including all the methods and equations in detail. It is a useful resource for graduate-level engineering and mathematics students.

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7. Numerical Solution of Ordinary and PDE

 
1."Time-dependent Partial Differential Equations and Their Numerical Solution (Lectures in Mathematics. ETH Zürich)" by Heinz-Otto Kreiss and Hedwig Ulmer Busenhart
“Time-dependent Partial Differential Equations and Their Numerical Solution (Lectures in Mathematics. ETH Zürich)” Book Review: This graduate-level textbook focuses on time-dependent partial differential equations and their numerical solutions. The book provides a comprehensive study of the analytic and numerical theory in parallel, with particular emphasis on the discretization of boundary conditions. The theoretical results are then applied to a range of topics, including Newtonian and non-Newtonian flows, two-phase flows, and geophysical problems. The book is an essential resource for applied mathematicians seeking to deepen their understanding of numerical solutions of partial differential equations.

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2."Handbook of Sinc Numerical Methods" by Frank Stenger
“Handbook of Sinc Numerical Methods” Book Review: This book is a comprehensive guide for using MATLAB programs to approximate a wide range of calculus operations. It presents new techniques for solving ordinary differential equations, as well as methods for solving partial and integral equations. The book introduces Sinc methods, which are a practical alternative to the complete theory of numerical analysis. The theoretical details necessary for a complete understanding of the subject are also covered in this study. Additionally, Sinc-Pack programs are provided on the companion CD-ROM for readers to explore further. This book is suitable for students and professionals interested in numerical analysis and computational mathematics.

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3."Introduction to Computation and Modeling for Differential Equations" by Lennart Edsberg
“Introduction to Computation and Modeling for Differential Equations” Book Review: The book covers the fundamental principles and applications of problem-solving in various disciplines such as engineering, physics, and chemistry. It merges the art of solving differential equations with mathematical, numerical, and programming tools, mainly focusing on methods involving ordinary differential equations. The book encompasses numerical techniques for solving initial value problems (IVPs), boundary value problems (BVPs), and partial differential equations (PDEs) for parabolic, elliptic, and hyperbolic problems.

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4."Spatial Patterns: Higher Order Models in Physics and Mechanics (Progress in Nonlinear Differential Equations and Their Applications)" by L A Peletier and W C Troy
“Spatial Patterns: Higher Order Models in Physics and Mechanics (Progress in Nonlinear Differential Equations and Their Applications)” Book Review: This book presents complex questions for physicists and mathematicians to analyze model equations and understand the underlying mechanisms that govern the formation and evolution of intricate patterns. The classical model equations, typically second-order partial differential equations, are explored. Various examples of these patterns are waves on water, pulses in optical fibers, periodic structures in alloys, folds in rock formations, and cloud patterns in the sky, all of which are ubiquitous in our surroundings. This book challenges readers to delve deeper into these phenomena and offers a unique perspective on their nature and behavior.

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5."p-Laplace Equation in the Heisenberg Group: Regularity of Solutions (SpringerBriefs in Mathematics)" by Diego Ricciotti
“p-Laplace Equation in the Heisenberg Group: Regularity of Solutions (SpringerBriefs in Mathematics)” Book Review: The primary goal of this book is to explore the regularity theory for solutions to the p-Laplace equation in the Heisenberg group. It presents detailed and comprehensive proofs for smoothness of solutions to the non-degenerate equation. Additionally, this study covers Lipschitz regularity for solutions to the degenerate equation. The book covers the fundamental properties of the Heisenberg group, making the coverage complete. The emphasis is on the core theory and techniques in the field, with detailed proofs provided to make the work accessible to graduate-level students.

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6."Notes on the Infinity Laplace Equation (SpringerBriefs in Mathematics)" by Peter Lindqvist
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7."Ordinary and Partial Differential Equations" by Victor Henner and Tatyana Belozerova
“Ordinary and Partial Differential Equations” Book Review: This book offers a comprehensive treatment of both ordinary differential equations (ODEs) and partial differential equations (PDEs) using numerous examples and exercises. It includes user-friendly software for solving the problems. The book discusses key topics in differential equations, including integral equations, Fourier series, and special functions. Suitable for undergraduate and beginning graduate students, it covers all the essential topics in ODEs and PDEs. The book’s scope extends beyond the fundamentals, encompassing advanced topics that are necessary for a modern course in differential equations.

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8."Ode and Pde Solutions: Recipes for Solving Constant Coefficient Linear Ordinary and Partial Differential Equations" by Anglin and Steve M
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8. Finite Difference Methods for Partial Differential Equations

 
1."Scientific Computing and Differential Equations: An Introduction to Numerical Methods" by Gene H Golub and James M Ortega
“Scientific Computing and Differential Equations: An Introduction to Numerical Methods” Book Review: This is a comprehensive guide for students and researchers in the field of scientific computing. The book covers a wide range of topics, including numerical methods for solving ordinary and partial differential equations, iterative methods, matrix computations, and eigenvalue problems. With its clear explanations and practical examples, this book equips readers with the necessary tools to tackle complex mathematical problems in scientific research and engineering. It is a valuable resource for anyone interested in applying numerical methods to solve differential equations.

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2."Fundamentals of Grid Generation" by P Knupp and S Steinberg
“Fundamentals of Grid Generation” Book Review: This book explores the use of organized grid generation in applied mathematics, mechanical engineering, and aerospace engineering. It covers a range of topics, including planar and surface grid generation, as well as the generation of 3-D grids. The book also provides an introduction to numerical techniques and the adaptability of solutions. It includes a detailed discussion of the finite volume approach to discretization of hosted equations, as well as the transformation of differential operators into general coordinate systems.

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3."The Finite Difference Method in Partial Differential Equations" by A R Mitchell and D F Griffiths
“The Finite Difference Method in Partial Differential Equations” Book Review: This book explores the use of operator splitting for solving parabolic and hyperbolic equations, with a focus on the Richtmyer and Strang forms. It provides numerous examples of how to handle singularities, free and moving boundary problems in elliptic equations, and presents recent advancements in the computational fluid dynamics field. The book is suitable for upper-level undergraduate courses in mathematics, electrical engineering, and computer science, and will be of interest to researchers and practitioners in applied mathematics and engineering.

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4."Finite Difference Schemes and PDEs" by John C Strikwerda
“Finite Difference Schemes and PDEs” Book Review: This book explores the division of operators for parabolic and hyperbolic equations, incorporating Richtmyer and Strang form splittings. It presents various examples related to the treatment of singularities, and free and moving boundary problems in elliptic equations. Furthermore, the book highlights recent advancements in the dynamics of computational fluids. It is a valuable resource for upper-level undergraduate courses in mathematics, electrical engineering, and computer science.

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9. Complex Variables and Partial Differential Equations

 
1."A First Course in Partial Differential Equations: with Complex Variables and Transform Methods" by H F Weinberger
“A First Course in Partial Differential Equations: with Complex Variables and Transform Methods” Book Review: The primary objective of this book is to cater to the needs of undergraduate students who are studying partial differential equations and the fundamental theories of complex variables. The book presents concepts related to rigorous analysis in advanced calculus, including topics such as the one-dimensional wave equation, separation of variables, and properties of parabolic and elliptic equations.

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2."Handbook of Complex Variables" by Steven G Krantz
“Handbook of Complex Variables” Book Review: This book is a valuable resource for scientists, students, and engineers involved in complex analysis. It is primarily a practical guide to mathematics that covers both fundamental concepts and diverse applications. The topics in the book are presented in a clear and organized manner, making it easy to comprehend and apply the material.

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3."Complex Variables: Harmonic and Analytic Functions" by Francis J Flanigan
“Complex Variables: Harmonic and Analytic Functions” Book Review: This comprehensive book is an excellent resource for undergraduate students interested in complex variables. It covers a wide range of topics, including calculus in the plane, harmonic functions in the plane, complex functions, analytic functions, and power series. The book is filled with detailed explanations and examples, making it easy for students to understand the concepts.

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4."Recent Progress on Some Problems in Several Complex Variables and Partial Differential Equations (Contemporary Mathematics)" by Shiferaw Berhanu and hua Chen
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5."An Introduction to Several Complex Variables and Partial Differential Equations (Monographs and Surveys in Pure and Applied Mathematics)" by Begehr H and Abduhamid Dzhuraev
“An Introduction to Several Complex Variables and Partial Differential Equations (Monographs and Surveys in Pure and Applied Mathematics)” Book Review: This book is a comprehensive guide for students and researchers in the field of complex analysis and partial differential equations. Written by Begehr H and Abduhamid Dzhuraev, the book covers a wide range of topics, including the Cauchy-Riemann equations, the Laplace equation, and the maximum modulus principle. With clear explanations and numerous examples, this book provides an excellent introduction to the subject. It is a valuable resource for anyone interested in this area of mathematics.

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6."Complex Methods for Partial Differential Equations (International Society for Analysis, Applications and Computation)" by Heinrich Begehr and A Okay Celebi
“Complex Methods for Partial Differential Equations (International Society for Analysis, Applications and Computation)” Book Review: This book is an authoritative and comprehensive resource for researchers and graduate students in the field of complex analysis and partial differential equations. The book covers a wide range of topics, including complex analysis methods, operator theory, integral equations, and boundary value problems. With its rigorous mathematical approach and clear exposition, this book offers in-depth discussions on the latest advancements in the field. It serves as a valuable reference for those interested in exploring the complex methods and their applications in solving partial differential equations.

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7."Discrete Fourier Analysis (Pseudo-Differential Operators)" by M W Wong
“Discrete Fourier Analysis (Pseudo-Differential Operators)” Book Review: This book provides an in-depth study of the theory and applications of the discrete Fourier transform (DFT) and its variants, including the fast Fourier transform (FFT) and the discrete cosine transform (DCT). The book covers the basic concepts of Fourier analysis and presents several algorithms for computing the DFT, FFT, and DCT. The book also discusses the applications of discrete Fourier analysis in signal processing, data compression, and other areas of science and engineering. The book is suitable for students and researchers in mathematics, computer science, and engineering.

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8."Complex Variables with Applications" by Saminathan Ponnusamy and Herb Silverman
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9."Advanced Engineering Mathematics" by H C Taneja
“Advanced Engineering Mathematics” Book Review: This book covers a wide range of mathematical topics, including solid geometry, infinite series, calculus, matrices, special functions, Laplace transforms, and programming. It contains numerous solved examples and exercises to aid in the understanding of the material. It is suitable for students seeking an in-depth understanding of these topics.

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10."Optimal Control of Systems Governed by Partial Differential Equations (Grundlehren der mathematischen Wissenschaften)" by imusti
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11."Partial Differential Equations: Second Edition (Cornerstones)" by Emmanuele DiBenedetto
“Partial Differential Equations: Second Edition (Cornerstones)” Book Review: This book presents a thorough exposition of partial differential equations, offering a self-contained introduction to linear and nonlinear equations. It covers topics such as Eigenvalues and Eigenvectors, the characteristic value problem, the Cayley-Hamilton theorem, quadratic forms, Sylvestor’s law of inertia, singular value decomposition of a matrix, and reduction of a quadratic form to canonical form. The book provides numerous examples, exercises, and solutions to reinforce the reader’s comprehension of the subject matter. It is a valuable resource for those seeking a comprehensive understanding of partial differential equations.

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We have put a lot of effort into researching the best books on Differential Equations and came out with a recommended list and their reviews. If any more book needs to be added to this list, please email us. We are working on free pdf downloads for books on Differential Equations and will publish the download link here. Fill out this Differential Equations books pdf download" request form for download notification.

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Manish Bhojasia, a technology veteran with 20+ years @ Cisco & Wipro, is Founder and CTO at Sanfoundry. He lives in Bangalore, and focuses on development of Linux Kernel, SAN Technologies, Advanced C, Data Structures & Alogrithms. Stay connected with him at LinkedIn.

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