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Computational Physics100%: Rubin H. Landau; Manuel J. Páez; Cristian C. Bordeianu: Computational Physics (ISBN: 9783527413157) 2015, 3. Ausgabe, in Englisch.
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Computational Physics: Problem Solving with Computers Format: Paperback71%: Landau, Rubin H.;Paez, Manuel J.;Bordeianu, Cristian C.;Paez, Manuel Jose: Computational Physics: Problem Solving with Computers Format: Paperback (ISBN: 9783527406265) 2007, Erstausgabe, in Deutsch, Taschenbuch.
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Computational Physics : Problem Solving with Computers - With CD43%: Rubin H. Landau; Manuel José Páez Mejía: Computational Physics : Problem Solving with Computers - With CD (ISBN: 9780471115908) 1997, Wiley-Interscience, in Englisch, Broschiert.
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9783527413157 - Rubin H. Landau; Manuel J. Páez; Cristian C. Bordeianu: Computational Physics
Rubin H. Landau; Manuel J. Páez; Cristian C. Bordeianu

Computational Physics (2015)

Lieferung erfolgt aus/von: Deutschland ~EN PB NW

ISBN: 9783527413157 bzw. 3527413154, vermutlich in Englisch, Wiley-VCH, Taschenbuch, neu.

Lieferung aus: Deutschland, Sofort lieferbar.
The use of computation and simulation has become an essential part of the scientific process. Being able to transform a theory into an algorithm requires significant theoretical insight, detailed physical and mathematical understanding, and a working level of competency in programming. This upper-division text provides an unusually broad survey of the topics of modern computational physics from a multidisciplinary, computational science point of view. Its philosophy is rooted in learning by doing (assisted by many model programs), with new scientific materials as well as with the Python programming language. Python has become very popular, particularly for physics education and large scientific projects. It is probably the easiest programming language to learn for beginners, yet is also used for mainstream scientific computing, and has packages for excellent graphics and even symbolic manipulations. The text is designed for an upper-level undergraduate or beginning graduate course and provides the reader with the essential knowledge to understand computational tools and mathematical methods well enough to be successful. As part of the teaching of using computers to solve scientific problems, the reader is encouraged to work through a sample problem stated at the beginning of each chapter or unit, which involves studying the text, writing, debugging and running programs, visualizing the results, and the expressing in words what has been done and what can be concluded. Then there are exercises and problems at the end of each chapter for the reader to work on their own (with model programs given for that purpose). The text could be used for a one-semester course on scientific computing. The relevant topics for that are covered in the first third of the book. The latter two-thirds of the text includes more physics and can be used for a two-semester course in computational physics, covering nonlinear ODEs, Chaotic Scattering, Fourier Analysis, Wavelet Analysis, Nonlinear Maps, Chaotic systems, Fractals and Parallel Computing. The e-book extends the paper version by including many codes, visualizations and applets, as well as links to video lectures. * A table at the beginning of each chapter indicates video lectures, slides, applets and animations. * Applets illustrate the results to be expected for projects in the book, and to help understand some abstract concepts (e.g. Chaotic Scattering) * The eBook's figures, equations, sections, chapters, index, table of contents, code listings, glossary, animations and executable codes (both Applets and Python programs) are linked, much like in a Web document. * Some equations are linked to their xml forms (which can be imported into Maple or Mathematica for manipulation). * The e-book will link to video-based lecture modules, held by principal author Professor Rubin Landau, that cover most every topic in the book. Taschenbuch, 22.07.2015.
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9783527413157 - Landau, Rubin H. / Páez, Manuel J.: Computational Physics
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Landau, Rubin H. / Páez, Manuel J.

Computational Physics

Lieferung erfolgt aus/von: Deutschland DE PB NW

ISBN: 9783527413157 bzw. 3527413154, in Deutsch, Wiley-VCH, Weinheim, Deutschland, Taschenbuch, neu.

106,07 + Versand: 3,49 = 109,56
unverbindlich
Von Händler/Antiquariat, English-Book-Service - A Fine Choice [1048135], Mannheim, Germany.
Publisher/Verlag: Wiley-VCH | Problem Solving with Python | The use of computation and simulation has become an essential part of the scientific process. Being able to transform a theory into an algorithm requires significant theoretical insight, detailed physical and mathematical understanding, and a working level of competency in programming. This upper-division text provides an unusually broad survey of the topics of modern computational physics from a multidisciplinary, computational science point of view. Its philosophy is rooted in learning by doing (assisted by many model programs), with new scientific materials as well as with the Python programming language. Python has become very popular, particularly for physics education and large scientific projects. It is probably the easiest programming language to learn for beginners, yet is also used for mainstream scientific computing, and has packages for excellent graphics and even symbolic manipulations. The text is designed for an upper-level undergraduate or beginning graduate course and provides the reader with the essential knowledge to understand computational tools and mathematical methods well enough to be successful. As part of the teaching of using computers to solve scientific problems, the reader is encouraged to work through a sample problem stated at the beginning of each chapter or unit, which involves studying the text, writing, debugging and running programs, visualizing the results, and the expressing in words what has been done and what can be concluded. Then there are exercises and problems at the end of each chapter for the reader to work on their own (with model programs given for that purpose). The text could be used for a one-semester course on scientific computing. The relevant topics for that are covered in the first third of the book. The latter two-thirds of the text includes more physics and can be used for a two-semester course in computational physics, covering nonlinear ODEs, Chaotic Scattering, Fourier Analysis, Wavelet Analysis, Nonlinear Maps, Chaotic systems, Fractals and Parallel Computing. The e-book extends the paper version by including many codes, visualizations and applets, as well as links to video lectures. A table at the beginning of each chapter indicates video lectures, slides, applets and animations. Applets illustrate the results to be expected for projects in the book, and to help understand some abstract concepts (e.g. Chaotic Scattering) The eBook's figures, equations, sections, chapters, index, table of contents, code listings, glossary, animations and executable codes (both Applets and Python programs) are linked, much like in a Web document. Some equations are linked to their xml forms (which can be imported into Maple or Mathematica for manipulation). The e-book will link to video-based lecture modules, held by principal author Professor Rubin Landau, that cover most every topic in the book. | 1. Computational Science Basics 2. Errors & Uncertainties in Computations 3. Visualization Tools 4. Python Object-Oriented Programs: Impedance & Batons 5. Monte Carlo Simulations (Nonthermal) 6. Integration 7. Differentiation & Searching 8. Matrix Equation Solutions; Data Fitting 9. Differential Equation Applications 10.Fourier Analysis: Signals and Filters 11.Wavelet Analysis & Data Compression 12.Discrete & Continuous Nonlinear Dynamics 13.Fractals & Statistical Growth 14.HPC Hardware, Tuning, Parallel Computing 15.Thermodynamic Simulations, Quantum Path Integration 16.Simulating Matter with Molecular Dynamics 17.PDEs for Electrostatics & Heat Flow 18.PDE Waves: String, Quantum Packet, E&M 1 19.Solitons & Computational Fluid Dynamics 20.Integral Equations in Quantum Mechanics A. Glossary B. Installing Python, Matplotlib, NumPy C. Software Directories D. Compression via DWT with Thresholding | Format: Paperback | Language/Sprache: english | 1370 gr | 245x170x31 mm | 626 pp.
3
9783527413157 -
Lieferung erfolgt aus/von: Österreich DE NW

ISBN: 9783527413157 bzw. 3527413154, in Deutsch, Wiley-VCH, Weinheim, Deutschland, neu.

Lieferung aus: Österreich, Lieferzeit: 6 Tage.
The use of computation and simulation has become an essential part of the scientific process. Being able to transform a theory into an algorithm requires significant theoretical insight, detailed physical and mathematical understanding, and a working level of competency in programming. This upper-division text provides an unusually broad survey of the topics of modern computational physics from a multidisciplinary, computational science point of view. Its philosophy is rooted in learning by doing (assisted by many model programs), with new scientific materials as well as with the Python programming language. Python has become very popular, particularly for physics education and large scientific projects. It is probably the easiest programming language to learn for beginners, yet is also used for mainstream scientific computing, and has packages for excellent graphics and even symbolic manipulations. The text is designed for an upper-level undergraduate or beginning graduate course and provides the reader with the essential knowledge to understand computational tools and mathematical methods well enough to be successful. As part of the teaching of using computers to solve scientific problems, the reader is encouraged to work through a sample problem stated at the beginning of each chapter or unit, which involves studying the text, writing, debugging and running programs, visualizing the results, and the expressing in words what has been done and what can be concluded. Then there are exercises and problems at the end of each chapter for the reader to work on their own (with model programs given for that purpose). The text could be used for a one-semester course on scientific computing. The relevant topics for that are covered in the first third of the book. The latter two-thirds of the text includes more physics and can be used for a two-semester course in computational physics, covering nonlinear ODEs, Chaotic Scattering, Fourier Analysis, Wavelet Analysis, Nonlinear Maps, Chaotic systems, Fractals and Parallel Computing. The e-book extends the paper version by including many codes, visualizations and applets, as well as links to video lectures. * A table at the beginning of each chapter indicates video lectures, slides, applets and animations. * Applets illustrate the results to be expected for projects in the book, and to help understand some abstract concepts (e.g. Chaotic Scattering) * The eBook's figures, equations, sections, chapters, index, table of contents, code listings, glossary, animations and executable codes (both Applets and Python programs) are linked, much like in a Web document. * Some equations are linked to their xml forms (which can be imported into Maple or Mathematica for manipulation). * The e-book will link to video-based lecture modules, held by principal author Professor Rubin Landau, that cover most every topic in the book.
4
9783527413157 - Computational Physics

Computational Physics

Lieferung erfolgt aus/von: Deutschland DE HC NW

ISBN: 9783527413157 bzw. 3527413154, in Deutsch, Wiley VCH Verlag GmbH / Wiley-VCH Verlag GmbH & Co. KGaA, gebundenes Buch, neu.

Lieferung aus: Deutschland, Versandkostenfrei innerhalb von Deutschland.
The use of computation and simulation has become an essential part of the scientific process. Being able to transform a theory into an algorithm requires significant theoretical insight, detailed physical and mathematical understanding, and a working level of competency in programming. This upper-division text provides an unusually broad survey of the topics of modern computational physics from a multidisciplinary, computational science point of view. Its philosophy is rooted in learning by The use of computation and simulation has become an essential part of the scientific process. Being able to transform a theory into an algorithm requires significant theoretical insight, detailed physical and mathematical understanding, and a working level of competency in programming. This upper-division text provides an unusually broad survey of the topics of modern computational physics from a multidisciplinary, computational science point of view. Its philosophy is rooted in learning by doing (assisted by many model programs), with new scientific materials as well as with the Python programming language. Python has become very popular, particularly for physics education and large scientific projects. It is probably the easiest programming language to learn for beginners, yet is also used for mainstream scientific computing, and has packages for excellent graphics and even symbolic manipulations. The text is designed for an upper-level undergraduate or beginning graduate course and provides the reader with the essential knowledge to understand computational tools and mathematical methods well enough to be successful. As part of the teaching of using computers to solve scientific problems, the reader is encouraged to work through a sample problem stated at the beginning of each chapter or unit, which involves studying the text, writing, debugging and running programs, visualizing the results, and the expressing in words what has been done and what can be concluded. Then there are exercises and problems at the end of each chapter for the reader to work on their own (with model programs given for that purpose). The text could be used for a one-semester course on scientific computing. The relevant topics for that are covered in the first third of the book. The latter two-thirds of the text includes more physics and can be used for a two-semester course in computational physics, covering nonlinear ODEs, Chaotic Scattering, Fourier Analysis, Wavelet Analysis, Nonlinear Maps, Chaotic systems, Fractals and Parallel Computing. The e-book extends the paper version by including many codes, visualizations and applets, as well as links to video lectures. * A table at the beginning of each chapter indicates video lectures, slides, applets and animations. * Applets illustrate the results to be expected for projects in the book, and to help understand some abstract concepts (e.g. Chaotic Scattering) * The eBook´s figures, equations, sections, chapters, index, table of contents, code listings, glossary, animations and executable codes (both Applets and Python programs) are linked, much like in a Web document. * Some equations are linked to their xml forms (which can be imported into Maple or Mathematica for manipulation). * The e-book will link to video-based lecture modules, held by principal author Professor Rubin Landau, that cover most every topic in the book. The use of computation and simulation has become an essential part of the scientific process. Being able to transform a theory into an algorithm requires significant theoretical insight, detailed physical and mathematical understanding, and a working level of competency in programming. This upper-division text provides an unusually broad survey of the topics of modern computational physics from a multidisciplinary, computational science point of view. Its philosophy is rooted in learning by doing (assisted by many model programs), with new scientific materials as well as with the Python programming language. Python has become very popular, particularly for physics education and large scientific projects. It is probably the easiest programming language to learn for beginners, yet is also used for mainstream scientific computing, and has packages for excellent graphics and even symbolic manipulations. The text is designed for an upper-level undergraduate or beginning graduate course and provides the reader with the essential knowledge to understand computational tools and mathematical methods well enough to be successful. As part of the teaching of using computers to solve scientific problems, the reader is encouraged to work through a sample problem stated at the beginning of each chapter or unit, which involves studying the text, writing, debugging and running programs, visualizing the results, and the expressing in words what has been done and what can be concluded. Then there are exercises and problems at the end of each chapter for the reader to work on their own Sofort lieferbar Lieferzeit 1-2 Werktage.
5
9783527413157 - Computational Physics

Computational Physics

Lieferung erfolgt aus/von: Vereinigtes Königreich Großbritannien und Nordirland EN NW

ISBN: 9783527413157 bzw. 3527413154, in Englisch, Wiley-VCH Verlag GmbH Blackwell Verlag GmbH, neu.

103,31 (£ 75,00)¹
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Lieferung aus: Vereinigtes Königreich Großbritannien und Nordirland, zzgl. Versandkosten.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
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9783527413157 - Rubin H. Landau Manuel J. Pez Cristian C. Bordeianu: Computational Physics
Rubin H. Landau Manuel J. Pez Cristian C. Bordeianu

Computational Physics

Lieferung erfolgt aus/von: Deutschland ~EN NW

ISBN: 9783527413157 bzw. 3527413154, vermutlich in Englisch, Wiley-VCH, Weinheim, Deutschland, neu.

Lieferung aus: Deutschland, 5 Werktage.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
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9783527413157 - Rubin H. Landau; Manuel J. Páez; Cristian C. Bordeianu: Computational Physics
Rubin H. Landau; Manuel J. Páez; Cristian C. Bordeianu

Computational Physics (2015)

Lieferung erfolgt aus/von: Deutschland DE PB NW

ISBN: 9783527413157 bzw. 3527413154, in Deutsch, 3. Ausgabe, Wiley-VCH, Taschenbuch, neu.

99,00 + Versand: 3,95 = 102,95
unverbindlich
Lieferung aus: Deutschland, sofort lieferbar.
Problem Solving with Python, Buch, Softcover, 3., vollständig überarbeitete Auflage.
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