Overview
- Authors:
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Richard J. Gaylord
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Dept. of Materials Science, University of Illinois, Urbana, USA
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Samuel N. Kamin
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Dept. of Computer Science, University of Illinois, Urbana, USA
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Paul R. Wellin
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Dept. of Mathematics, California State University, Rohnert Park, USA
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Table of contents (11 chapters)
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 1-26
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 27-50
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 51-68
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 69-92
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 93-113
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 115-127
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 129-170
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 171-190
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 191-218
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 219-263
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- Richard J. Gaylord, Samuel N. Kamin, Paul R. Wellin
Pages 265-277
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Back Matter
Pages 279-302
About this book
An Introduction to Programming with Mathematica is the first book published expressly to teach Mathematica as a programming language to scientists, engineers, mathematicians, and computer scientists. This text may be used in a first or second course on programming at the undergraduate level or in a Mathematica-related course in engineering, mathematics, or the sciences. It is also intended for individual study by students and professionals. The text does not assume familiarity with Mathematica nor does it require any prior programming experience. The book and diskette contain over 200 exercises drawn from many areas of science, engineering, mathematics, and computer science. The 3 1/2'' diskette included with this book can be read by UNIX, IBM-compatible, NeXT, and Macintosh computers. The diskette includes Notebooks and packages containing the code for all of the examples and exercises in the text, as well as additional material extending many of the ideas in the text. The packages will run on any computer running Mathematica and the Notebooks will run on any computer that supports Mathematica Notebooks. Version 2.0 or later of Mathematica is recommended for maximum use of the diskette.
Authors and Affiliations
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Dept. of Materials Science, University of Illinois, Urbana, USA
Richard J. Gaylord
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Dept. of Computer Science, University of Illinois, Urbana, USA
Samuel N. Kamin
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Dept. of Mathematics, California State University, Rohnert Park, USA
Paul R. Wellin