Updated On November 21st, 2024
Looking for the best Numerical Analysis Books? You aren't short of choices in 2022. The difficult bit is deciding the best Numerical Analysis Books for you, but luckily that's where we can help. Based on testing out in the field with reviews, sells etc, we've created this ranked list of the finest Numerical Analysis Books.
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Numerical Analysis (Available Titles CengageNOW), Used [Hardcover]
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Numerical Analysis: Mathematics of Scientific Computing, Used [Hardcover]
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A First Course in the Finite Element Method Using Algor, Used [Hardcover]
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An Analysis of the Finite Element Method (Prentice-Hall Series in Automatic Computation), Used [Hardcover]
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Schaum's Outline of Essential Computer Mathematics [Paperback - Used]
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Numerical Methods (Prentice-Hall Software Series) [Hardcover - Used]
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Numerical Analysis, Used [Paperback]
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An introduction to numerical computations [Paperback - Used]
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Computing with Hp-ADAPTIVE FINITE ELEMENTS Vol. 1 : Volume 1 One and Two Dimensional Elliptic and Maxwell Problems, Used [Hardcove
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10 |
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Numerical Recipes in FORTRAN Example Book : The Art of Scientific Computing, Used [Paperback]
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Our Score
This well-respected text gives an introduction to the modern approximation techniques and explains how, why, and when the techniques can be expected to work. The authors focus on building students' intuition to help them understand why the techniques presented work in general, and why, in some situations, they fail. With a wealth of examples and exercises, the text demonstrates the relevance of numerical analysis to a variety of disciplines and provides ample practice for students. The applications chosen demonstrate concisely how numerical methods can be, and often must be, applied in real-life situations. In this edition, the presentation has been fine-tuned to make the book even more useful to the instructor and more interesting to the reader. Overall, students gain a theoretical understanding of, and a firm basis for future study of, numerical analysis and scientific computing. A more applied text with a different menu of topics is the authors' highly regarded NUMERICAL METHODS, Third Edition.
Numerical Analysis, Used [Hardcover]
Our Score
This highly successful and scholarly book introduces students with diverse backgrounds to the various types of mathematical analysis that are commonly needed in scientific computing. The subject of numerical analysis is treated from a mathematical point of view, offering a complete analysis of methods for scientific computing with careful proofs and scientific background.An in-depth treatment of the topics of numerical analysis, a more scholarly approach, and a different menu of topics sets Numerical Analysis: Mathematics of Scientific Computing, Second Edition apart form the authors' well-respected and best-selling text: Numerical Mathematics and Computing, Fourth Edition.
Numerical Analysis: Mathematics of Scientific Computing, Used [Hardcover]
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Daryl Logan's clear and easy to understand text provides a thorough treatment of the finite element method and how to apply it to solve practical physical problems in engineering. Concepts are presented simply, making it understandable for students of all levels of experience. The first edition of this book enjoyed considerable success and this new edition includes a chapter on plates and plate bending, along with additional homework exercise. All examples in this edition have been updated to Algor' Release 12.
A First Course in the Finite Element Method Using Algor, Used [Hardcover]
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This second edition has two parts. The first part is the complete classic by Gilbert Strang and George Fix, first published in 1973. The original book demonstrates the solid mathematical foundation of the finite element idea, and the reasons for its success. The second part is a new textbook by Strang. It provides examples, codes, and exercises to connect the theory of the Finite Element Method directly to the applications. The reader will learn how to assemble the stiffness matrix K and solve the finite element equations KU=F. Discontinuous Galerkin methods with a numerical flux function are now included. Strang's approach is direct and focuses on learning finite elements by using them.
An Analysis of the Finite Element Method (Prentice-Hall Series in Automatic Computation), Used [Hardcover]
Our Score
CONDITION - USED - Pages can include limited notes and highlighting, and the copy can include "From the library of" labels or previous owner inscriptions. Accessories such as CD, codes, toys, may not be included. Confusing Textbooks? Missed Lectures? Not Enough Time? Fortunately for you, there's Schaum's Outlines. More than 40 million students have trusted Schaum's to help them succeed in the classroom and on exams. Schaum's is the key to faster learning and higher grades in every subject. Each Outline presents all the essential course information in an easy-to-follow, topic-by-topic format. You also get hundreds of examples, solved problems, and practice exercises to test your skills. This Schaum's Outline gives you Practice problems with full explanations that reinforce knowledge Coverage of the most up-to-date developments in your course field In-depth review of practices and applications Fully compatible with your classroom text, Schaum's highlights all the important facts you need to know. Use Schaum's to shorten your study time-and get your best test scores Schaum's Outlines-Problem Solved.
Schaum's Outline of Essential Computer Mathematics, Used [Paperback]
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CONDITION - USED - Pages can include limited notes and highlighting, and the copy can include "From the library of" labels or previous owner inscriptions. Accessories such as CD, codes, toys, may not be included. Practical text strikes fine balance between students' requirements for theoretical treatment and needs of practitioners, with best methods for large- and small-scale computing. Prerequisites are minimal (calculus, linear algebra, and preferably some acquaintance with computer programming). Text includes many worked examples, problems, and an extensive bibliography. 1974 edition.
Numerical Methods (Prentice-Hall Software Series), Used [Hardcover]
Our Score
* For math majors rather than engineering majors..* New survey of methods and software sections included in chapters 2-12 to cover the latest technology in the field..* Outstanding examples relate tothe routine exercises in the text so students can see the similarities..* Exercises are varied to include basic drill, interesting applicaitons, and deeper theoretical extensions.
Software Numerical Analysis, Used [Paperback]
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CONDITION - USED - Pages can include limited notes and highlighting, and the copy can include "From the library of" labels or previous owner inscriptions. Accessories such as CD, codes, toys, may not be included. An introduction to numerical computations by Yakowitz
An introduction to numerical computations, Used [Paperback]
Our Score
Offering the only existing finite element (FE) codes for Maxwell equations that support hp refinements on irregular meshes, Computing with hp-ADAPTIVE FINITE ELEMENTS: Volume 1. One- and Two-Dimensional Elliptic and Maxwell Problems presents 1D and 2D codes and automatic hp adaptivity. This self-contained source discusses the theory and implementation of hp-adaptive FE methods, focusing on projection-based interpolation and the corresponding hp-adaptive strategy. The book is split into three parts, progressing from simple to more advanced problems. Part I examines the hp elements for the standard 1D model elliptic problem. The author develops the variational formulation and explains the construction of FE basis functions. The book then introduces the 1D code (1Dhp) and automatic hp adaptivity. This first part ends with a study of a 1D wave propagation problem. In Part II, the book proceeds to 2D elliptic problems, discussing two model problems that are slightly beyond standard-level examples: 3D axisymmetric antenna problem for Maxwell equations (example of a complex-valued, indefinite problem) and 2D elasticity (example of an elliptic system). The author concludes with a presentation on infinite elements - one of the possible tools to solve exterior boundary-value problems. Part III focuses on 2D time-harmonic Maxwell equations. The book explains the construction of the hp edge elements and the fundamental de Rham diagram for the whole family of hp discretizations. Next, it explores the differences between the elliptic and Maxwell versions of the 2D code, including automatic hp adaptivity. Finally, the book presents 2D exterior (radiation and scattering) problems and sample solutions using coupled hp finite/infinite elements. In Computing with hp-ADAPTIVE FINITE ELEMENTS, the information provided, including many unpublished details, aids in solving elliptic and Maxwell problems.
Computing with Hp-ADAPTIVE FINITE ELEMENTS Vol. 1 : Volume 1 One and Two Dimensional Elliptic and Maxwell Problems, Used [Hardcover]
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The example books published as part of the Numerical Recipes, Second Edition series are source programs that demonstrate all of the Numerical Recipes subroutines. Each example program contains comments and is prefaced by a short description of how it functions. The books consist of all of the material from the original edition, as well as new material from the Second Edition. They will be valuable for readers who wish to incorporate procedures and subroutines into their own source programs. They are available in both Fortran and C.
Numerical Recipes in FORTRAN Example Book : The Art of Scientific Computing, Used [Paperback]