• Computer Algebra Recipes
  • Computer Algebra Recipes

Computer Algebra Recipes

A Gourmet’s Guide to the Mathematical Models of Science

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Gebundenes Buch

Fr. 148.00

Computer Algebra Recipes

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Gebundenes Buch

Gebundenes Buch

ab Fr. 148.00
Taschenbuch

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ab Fr. 72.90
eBook

eBook

ab Fr. 62.90

Beschreibung

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

08.06.2001

Verlag

Springer Us

Seitenzahl

778

Maße (L/B/H)

24.6/18.9/4.3 cm

Beschreibung

Rezension

From the reviews:"In the book, the authors are showing the reader what they can do with Maple 6, and they can do a lot. Simply flipping the pages of the book, the reader might get very inspired by the formulas and pictures. …  Most of the text I covered up to now contains useful and exciting examples … . the book is definitely very useful for educators … ." (L. Kocbach, Computer Physics Communications, Vol. 144, 2002)"This book captures the essence of the CAS approach and it is the best book of its kind that I am aware of. The level of mathematics, the eclectic, abundant and carefully selected problem set, the friendly and expansive text and the clear demonstration of the power of the CAS approach all add up to a first rate book. … I highly recommend that you get your library to order a copy." (B.I. Henry, The Physicist, Vol. 39 (2), 2002)"This book is a readable introduction to Maple, a computer algebra system. The authors present real life situations, describe them in the language of mathematics, and then use Maple to find or deduce conclusions, predictions and classifications of each of these situations." (Václav Koubek, Zentralblatt MATH, Vol. 976, 2002)

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

08.06.2001

Verlag

Springer Us

Seitenzahl

778

Maße (L/B/H)

24.6/18.9/4.3 cm

Gewicht

1506 g

Auflage

2001

Sprache

Englisch

ISBN

978-0-387-95148-5

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  • Computer Algebra Recipes
  • Computer Algebra Recipes
  • Preface.- A Computer Algebra Systems.- B The Spiral Staircase to Learning.- C How to Climb the Spiral Staircase.- I The Appetizers.- 1 The Pictures of Science.- 1.1 Introduction.- 1.2 Data and Function Plots.- 1.2.1 Correcting for Inflation.- 1.2.2 The Plummeting Badminton Bird.- 1.2.3 Minimizing the Travel Time.- 1.3 Log-Log (Power Law) Plots.- 1.3.1 Chimpanzee Brain Size.- 1.3.2 Scaling Arguments and Gulliver’s Travels.- 1.4 Contour and Gradient Plots.- 1.4.1 The Secret Message.- 1.4.2 Designing a Ski Hill.- 1.5 Animated Plots.- 1.5.1 Waves Are Dynamic.- 1.5.2 The Sands of Time.- 2 Deriving Model Equations.- 2.1 Introduction.- 2.2 Linear Correlation.- 2.2.1 What Is Linear Correlation?.- 2.2.2 The Corn Palace.- 2.3 Least Squares Derivations.- 2.3.1 Regression Analysis.- 2.3.2 Will You Be Better Off Than Your Parents?.- 2.3.3 What Was the Heart Rate of a Brachiosaurus?.- 2.3.4 Senate Renewal.- 2.3.5 Bikini Sales and the Logistic Curve.- 2.3.6 Following the Dow Jones Index.- 2.3.7 Variation of “g” with Latitude.- 2.3.8 Finding Romeo a Juhet.- 2.4 Multiple Regression Equations.- 2.4.1 Real Estate Appraisals.- 2.4.2 And the Winner Is?.- 3 Algebraic Models.- 3.1 Introduction.- 3.2 Algebraic Examples.- 3.2.1 Bombs Versus Schools.- 3.2.2 Kirchhoff Rules the Electrical World.- 3.2.3 The Window Washer’s Secret.- 3.2.4 The Science Student’s Summer Job Interview.- 3.2.5 Envelope of Safety.- 3.2.6 Rainbow County.- 3.3 Integral Examples.- 3.3.1 The Great Pyramid of Cheops.- 3.3.2 Noah’s Ark.- 3.4 Vector Examples.- 3.4.1 Vectoria’s Mathematical Heritage.- 3.4.2 Ain’t She Sweet.- 3.4.3 Born Curl Free.- 3.4.4 Of Flux and Circulation and Coordinates Too.- 4 Monte Carlo Methods.- 4.1 Introduction.- 4.2 Random Walks.- 4.2.1 The Concept.- 4.2.2 The Soccer Fan’s Drunken Walk.- 4.2.3 Blowin’ in the Wind.- 4.2.4 Flight of Penelope Jitter Bug.- 4.2.5 That Meandering Perfume Molecule.- 4.3 Monte Carlo Integration.- 4.3.1 Standard Numerical Integration Algorithms.- 4.3.2 Monte Carlo Integration.- 4.3.3 Wait and Buy Later!.- 4.3.4 Wait and Buy Later! The Sequel.- 4.3.5 Estimating ?.- 4.3.6 Chariot of Fire and Destruction.- 4.4 Probability Distributions.- 4.4.1 Of Nuts and Bolts and Hospital Beds Too.- 4.4.2 The Ice Wines of Rainbow County.- 4.5 Monte Carlo Statistical Distributions.- 4.5.1 Estimating e.- 4.5.2 Vapor Deposition.- II The Entrees.- 5 Phase-Plane Portraits.- 5.1 Introduction.- 5.2 Phase-Plane Portraits.- 5.2.1 Stationary or Singular Points.- 5.3 Linear ODE Models.- 5.3.1 Tenure Policy at Erehwon University.- 5.3.2 Vectoria Investigates the RLC Circuit.- 5.4 Nonlinear ODE Models.- 5.4.1 Classification of Stationary Points.- 5.4.2 Rabbits and Foxes.- 5.4.3 The Mona Lisa of Nonlinear Science.- 5.4.4 Mike Creates a Higher-Order Singular Point.- 5.4.5 The Gnus and Sung of Erehwon.- 5.5 Nonautonomous ODEs.- 5.5.1 Can an Unstable Spring Find Stability?.- 5.5.2 The Period Doubling Route to Chaos.- 6 Linear ODE Models.- 6.1 Introduction.- 6.2 Solving Linear ODEs with Maple.- 6.3 First-Order ODE Models.- 6.3.1 There Goes Louie’s Alibi.- 6.3.2 The Water Skier.- 6.4 Second-Order ODE Models.- 6.4.1 Shrinking the Safety Envelope.- 6.4.2 Halley’s Comet.- 6.4.3 Frank N Stein Is Not Heartless.- 6.4.4 Vectoria Feels the Force and Hits the Bottle.- 6.5 Bessel and Legendre ODE Models.- 6.5.1 Introduction to Special Functions.- 6.5.2 The Vibrating Bungee Cord.- 6.5.3 Wheel of misFortune.- 6.5.4 TheWeedeater.- 7 Nonlinear ODE Models.- 7.1 Introduction.- 7.2 First-Order Models.- 7.2.1 The Nonlinear Diode.- 7.2.2 The Bad Bird Equation.- 7.2.3 The Struggle for Existence.- 7.3 Second-Order Models.- 7.3.1 Pirates of the Caribbean.- 7.3.2 Oh What Sounds We Hear!.- 7.3.3 Those Lennard-Jones Vibrational Blues.- 7.3.4 Golf Is Such an “Uplifting” Experience.- 7.3.5 This Would Be a Great Amusement Park Ride.- 7.4 Limit Cycles.- 7.4.1 The Bizarre World of the Tunnel Diode Oscillator.- 7.4.2 Follow That Rabbit.- 8 Difference Equation Models.- 8.1 Introduction.- 8.2 Linear Difference Equation Models.- 8.3 First-Order Linear Models.- 8.3.1 Those Dratted Gnats.- 8.3.2 Gone Fishing.- 8.4 Second-Order Linear Models.- 8.4.1 Fibonacci’s Adam and Eve Rabbit.- 8.4.2 How Red Is Your Blood?.- 8.4.3 Fermi-Pasta-Ulam Is Not a Spaghetti Western.- 8.5 Nonlinear Difference Equation Models.- 8.6 First-Order Nonhnear Models.- 8.6.1 Competition for Available Resources.- 8.6.2 The Logistic Map and Cobweb Diagrams.- 8.7 Second-Order Nonhnear Models.- 8.7.1 The Bouncing Ball Art Gallery.- 8.7.2 Onset of Chaos: A Model for the Outbreak of War.- 8.8 Numerically Solving ODEs.- 8.8.1 Finite Difference Approximations to Derivatives.- 8.8.2 Rabbits and Foxes: The Sequel.- 8.8.3 Glycolytic Oscillator.- 9 Some Analytic Approaches.- 9.1 Introduction.- 9.2 Checking Solutions.- 9.2.1 The Palace of the Governors.- 9.2.2 Play It, Sam.- 9.2.3 The Tliree-Piece String.- 9.3 Calculus of Variations.- 9.3.1 Dress Design, The Erehwonese Way.- 9.3.2 Queen Dido’s Problem.- 9.3.3 The Human Fly Plans His Escape Route.- 9.4 Fourier Series.- 9.4.1 Hi C Is Not Always a Drink.- 9.4.2 Play It, Sam: A New Perspective.- 9.4.3 Vectoria Sums a Series.- 10 Fractal Patterns.- 10.1 Introduction.- 10.2 Difference Equation Patterns.- 10.2.1 Wallpaper for the Mind.- 10.2.2 Sierpinski’s Fractal Gasket.- 10.2.3 Barnsley’s Fern.- 10.2.4 Douadv’s Rabbit and Other Fauna and Flora.- 10.2.5 The Rings of Saturn.- 10.3 ODE Patterns.- 10.3.1 The Butterfly Attractor.- 10.3.2 Rössler’s Strange Attractor.- 10.4 Cellular Automata Patterns.- 10.4.1 A Navaho Rug Design.- 10.4.2 The One Out of Eight Rule.- III The Desserts.- 11 Diagnostic Tools for Nonlinear Dynamics.- 11.1 Introduction.- 11.2 The Poincaré Section.- 11.2.1 The Concept.- 11.2.2 A Rattler Signals Chaos.- 11.3 The Power Spectrum.- 11.3.1 The Concept.- 11.3.2 The Rattler Returns.- 11.4 The Bifurcation Diagram.- 11.4.1 The Concept.- 11.4.2 Pitchforks and Other Bifurcations.- 11.5 The Lyapunov Exponent.- 11.5.1 The Concept.- 11.5.2 Mr Lyapunov Agrees.- 11.6 Reconstructing an Attractor.- 11.6.1 The Concept.- 11.6.2 Chaos Versus Noise.- 12 Linear PDE Models.- 12.1 Introduction.- 12.1.1 The Linear PDEs of Mathematical Physics.- 12.1.2 Separation of Variables.- 12.2 Diffusion and Laplace’s Equation Models.- 12.2.1 Freeing Excalibur.- 12.2.2 Aussie Barbecue.- 12.2.3 Erehwon Institute of Technology.- 12.2.4 Hugo and the Atomic Bomb.- 12.2.5 Hugo Prepares for his Job Interview.- 12.3 Wave Equation Models.- 12.3.1 Vectoria Encounters Simon Legree.- 12.3.2 Homer’s Jiggle Test.- 12.3.3 Vectoria’s Second Problem.- 12.4 Semi-Infinite and Infinite Domains.- 12.4.1 Vectoria’s Third Problem.- 12.4.2 Assignment Complete!.- 12.4.3 Radioactive Contamination.- 12.4.4 “Play It Sara” Revisited.- 13 Nonlinear PDE Models: Soliton Solutions.- 13.1 Introduction.- 13.2 Solitary Waves.- 13.3 The Graphical Hunt for Solitons.- 13.3.1 Of Kinks and Antikinks.- 13.3.2 In Search of Bright Solitons.- 13.3.3 Can Three Solitary Waves Live Together?.- 13.4 Analytic Soliton Solutions.- 13.4.1 Follow That Wave!.- 13.4.2 Looking for a Kinky Solution.- 14 Simulating PDE Models.- 14.1 Introduction.- 14.2 Diffusion and Wave Equation Models.- 14.2.1 Freeing Excalibur the Numerical Way.- 14.2.2 Vectoria Secret.- 14.2.3 Enjoy the Klein-Gordon Vibes.- 14.3 Soliton Colhsions.- 14.3.1 To Be or Not to Be a Soliton.- 14.3.2 Are Diamonds a Kink’s Best Friend?.- Epilogue.