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Numerical Solutions for Partial Differential Equations: Problem Solving Using Mathematica
Contributor(s): Ganzha, Victor G. (Author), Ganzha, V. G. (Author), Ganzha (Author)
ISBN: 0849373794     ISBN-13: 9780849373794
Publisher: Routledge
OUR PRICE:   $218.50  
Product Type: Hardcover - Other Formats
Published: July 1996
Qty:
Annotation: Partial differential equations (PDEs) play an important role in the natural sciences and technology because they describe the way systems (natural and other) behave. The inherent suitability of PDEs to characterize the nature, motion, and evolution of systems, has led to their wide-ranging use in numerical models that are developed in order to analyze systems that are not otherwise easily studied. Numerical Solutions for Partial Differential Equations: Problems Solving Using Mathematica contains all the details necessary for the reader to understand the principles and applications of advanced numerical methods for solving PDEs. In addition, it shows how the modern computer system algebra Mathematica can be used for the analytic investigation of such numerical properties as stability, approximation, and dispersion.
Additional Information
BISAC Categories:
- Mathematics | Differential Equations - Partial
- Mathematics | Algebra - General
- Mathematics | Applied
Dewey: 515.353
LCCN: 95048195
Series: Symbolic & Numeric Computation
Physical Information: 1.08" H x 6.49" W x 9.61" (1.61 lbs) 362 pages
 
Descriptions, Reviews, Etc.
Publisher Description:
Partial differential equations (PDEs) play an important role in the natural sciences and technology, because they describe the way systems (natural and other) behave. The inherent suitability of PDEs to characterizing the nature, motion, and evolution of systems, has led to their wide-ranging use in numerical models that are developed in order to analyze systems that are not otherwise easily studied. Numerical Solutions for Partial Differential Equations contains all the details necessary for the reader to understand the principles and applications of advanced numerical methods for solving PDEs. In addition, it shows how the modern computer system algebra Mathematica(R) can be used for the analytic investigation of such numerical properties as stability, approximation, and dispersion.