Verfügbarkeit: Monte-Carlo simulation

Monte-Carlo simulation: an introduction for engineers and scientists

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1. Verfasser:	Stevens, Alan (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boca Raton ; London ; New York CRC Press 2023
Ausgabe:	First edition
Online-Zugang:	FHD01
Beschreibung:	1 Online-Ressource (xiii, 98 Seiten)
ISBN:	9781000655704

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245	1	0	\|a Monte-Carlo simulation \|b an introduction for engineers and scientists \|c Alan Stevens
250			\|a First edition
264		1	\|a Boca Raton ; London ; New York \|b CRC Press \|c 2023
300			\|a 1 Online-Ressource (xiii, 98 Seiten)
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505	8		\|a Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Preface -- About the Author -- Chapter 1: The Basic Idea -- 1.1. Introduction -- Chapter 2: Buffon's Needle -- 2.1. Background -- 2.2. Computer Simulation -- 2.3. Features of the Simulation -- 2.4. Precision -- 2.5. Physical Simulation -- 2.6. Buffon's Formula -- 2.7. Exercises -- Chapter 3: Areas and Integrals -- 3.1. Temperature Profile -- 3.2. Simulation -- 3.3. Sample Mean Method -- 3.4. Higher Dimensions -- 3.5. Exercises -- Chapter 4: Thermal Radiation -- 4.1. Radiation View Factor -- 4.2. Simulation
505	8		\|a 4.3. Precision -- 4.4. Exercises -- Chapter 5: Bending Beams -- 5.1. Neutral Axis Offset -- 5.2. Simulation -- 5.3. Precision -- 5.4. Exercises -- Chapter 6: Torus Segment -- 6.1. Volume of a Segment of Torus -- 6.2. Simulation -- 6.3. Precision -- 6.4. Exercises -- Chapter 7: Radiation Shielding -- 7.1. Diffusion -- 7.2. Gamma-Ray Shielding -- 7.3. Build-up Factor and Energy Distribution -- 7.4. Simulation -- 7.5. Build-up Factors -- 7.6. Exercises -- Chapter 8: Stressed Cylinder -- 8.1. Buckling Probability -- 8.2. Simulation -- 8.3. Precision -- 8.4. Wilks' Method -- 8.5. Exercises
505	8		\|a Chapter 9: Linear Resistive Networks -- 9.1. Circuit Analysis by Random Walk -- 9.2. Single-Node Simulation -- 9.3. Unit-Resistance Cube Simulation -- 9.4. Heat Conduction Simulation -- 9.5. Exercises -- Chapter 10: Magnetic Phase Transitions -- 10.1. Ising Spin Model -- 10.2. Physical Properties -- 10.3. The Gibbs and Metropolis Algorithms -- 10.4. Simulation -- 10.5. Exercises -- Chapter 11: Polymer Chains -- 11.1. Polymers -- 11.2. Simulation -- 11.3. Precision -- 11.4. Exercises -- Chapter 12: Solutions To Selected Exercises -- 12.1. Exercise 2.7.4 -- 12.2. Exercise 3.5.2
505	8		\|a 12.3. Exercise 4.4.1 -- 12.4. Exercise 5.4.2 -- 12.5. Exercise 6.4.2 -- 12.6. Exercise 7.6.2 -- 12.7. Exercise 8.4.2 -- 12.8. Exercise 9.5.1 -- 12.9. Exercise 10.5.3 -- 12.10. Exercise 11.4.3 -- Appendix A: Random Numbers -- A.1. Introduction -- A.2. Uniformly Distributed Random Numbers -- A.3. Normally Distributed Random Numbers -- Appendix B: Variance Reduction -- B.1. Introduction -- B.2. Importance Weighting -- B.3. Antithetic Variates -- B.4. Control Variates -- Index
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776	0	8	\|i Erscheint auch als \|n Druck-Ausgabe, pbk \|z 978-1-032-28080-6
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Datensatz im Suchindex

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contents	Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Preface -- About the Author -- Chapter 1: The Basic Idea -- 1.1. Introduction -- Chapter 2: Buffon's Needle -- 2.1. Background -- 2.2. Computer Simulation -- 2.3. Features of the Simulation -- 2.4. Precision -- 2.5. Physical Simulation -- 2.6. Buffon's Formula -- 2.7. Exercises -- Chapter 3: Areas and Integrals -- 3.1. Temperature Profile -- 3.2. Simulation -- 3.3. Sample Mean Method -- 3.4. Higher Dimensions -- 3.5. Exercises -- Chapter 4: Thermal Radiation -- 4.1. Radiation View Factor -- 4.2. Simulation 4.3. Precision -- 4.4. Exercises -- Chapter 5: Bending Beams -- 5.1. Neutral Axis Offset -- 5.2. Simulation -- 5.3. Precision -- 5.4. Exercises -- Chapter 6: Torus Segment -- 6.1. Volume of a Segment of Torus -- 6.2. Simulation -- 6.3. Precision -- 6.4. Exercises -- Chapter 7: Radiation Shielding -- 7.1. Diffusion -- 7.2. Gamma-Ray Shielding -- 7.3. Build-up Factor and Energy Distribution -- 7.4. Simulation -- 7.5. Build-up Factors -- 7.6. Exercises -- Chapter 8: Stressed Cylinder -- 8.1. Buckling Probability -- 8.2. Simulation -- 8.3. Precision -- 8.4. Wilks' Method -- 8.5. Exercises Chapter 9: Linear Resistive Networks -- 9.1. Circuit Analysis by Random Walk -- 9.2. Single-Node Simulation -- 9.3. Unit-Resistance Cube Simulation -- 9.4. Heat Conduction Simulation -- 9.5. Exercises -- Chapter 10: Magnetic Phase Transitions -- 10.1. Ising Spin Model -- 10.2. Physical Properties -- 10.3. The Gibbs and Metropolis Algorithms -- 10.4. Simulation -- 10.5. Exercises -- Chapter 11: Polymer Chains -- 11.1. Polymers -- 11.2. Simulation -- 11.3. Precision -- 11.4. Exercises -- Chapter 12: Solutions To Selected Exercises -- 12.1. Exercise 2.7.4 -- 12.2. Exercise 3.5.2 12.3. Exercise 4.4.1 -- 12.4. Exercise 5.4.2 -- 12.5. Exercise 6.4.2 -- 12.6. Exercise 7.6.2 -- 12.7. Exercise 8.4.2 -- 12.8. Exercise 9.5.1 -- 12.9. Exercise 10.5.3 -- 12.10. Exercise 11.4.3 -- Appendix A: Random Numbers -- A.1. Introduction -- A.2. Uniformly Distributed Random Numbers -- A.3. Normally Distributed Random Numbers -- Appendix B: Variance Reduction -- B.1. Introduction -- B.2. Importance Weighting -- B.3. Antithetic Variates -- B.4. Control Variates -- Index
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spelling	Stevens, Alan Verfasser aut Monte-Carlo simulation an introduction for engineers and scientists Alan Stevens First edition Boca Raton ; London ; New York CRC Press 2023 1 Online-Ressource (xiii, 98 Seiten) txt rdacontent c rdamedia cr rdacarrier Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Preface -- About the Author -- Chapter 1: The Basic Idea -- 1.1. Introduction -- Chapter 2: Buffon's Needle -- 2.1. Background -- 2.2. Computer Simulation -- 2.3. Features of the Simulation -- 2.4. Precision -- 2.5. Physical Simulation -- 2.6. Buffon's Formula -- 2.7. Exercises -- Chapter 3: Areas and Integrals -- 3.1. Temperature Profile -- 3.2. Simulation -- 3.3. Sample Mean Method -- 3.4. Higher Dimensions -- 3.5. Exercises -- Chapter 4: Thermal Radiation -- 4.1. Radiation View Factor -- 4.2. Simulation 4.3. Precision -- 4.4. Exercises -- Chapter 5: Bending Beams -- 5.1. Neutral Axis Offset -- 5.2. Simulation -- 5.3. Precision -- 5.4. Exercises -- Chapter 6: Torus Segment -- 6.1. Volume of a Segment of Torus -- 6.2. Simulation -- 6.3. Precision -- 6.4. Exercises -- Chapter 7: Radiation Shielding -- 7.1. Diffusion -- 7.2. Gamma-Ray Shielding -- 7.3. Build-up Factor and Energy Distribution -- 7.4. Simulation -- 7.5. Build-up Factors -- 7.6. Exercises -- Chapter 8: Stressed Cylinder -- 8.1. Buckling Probability -- 8.2. Simulation -- 8.3. Precision -- 8.4. Wilks' Method -- 8.5. Exercises Chapter 9: Linear Resistive Networks -- 9.1. Circuit Analysis by Random Walk -- 9.2. Single-Node Simulation -- 9.3. Unit-Resistance Cube Simulation -- 9.4. Heat Conduction Simulation -- 9.5. Exercises -- Chapter 10: Magnetic Phase Transitions -- 10.1. Ising Spin Model -- 10.2. Physical Properties -- 10.3. The Gibbs and Metropolis Algorithms -- 10.4. Simulation -- 10.5. Exercises -- Chapter 11: Polymer Chains -- 11.1. Polymers -- 11.2. Simulation -- 11.3. Precision -- 11.4. Exercises -- Chapter 12: Solutions To Selected Exercises -- 12.1. Exercise 2.7.4 -- 12.2. Exercise 3.5.2 12.3. Exercise 4.4.1 -- 12.4. Exercise 5.4.2 -- 12.5. Exercise 6.4.2 -- 12.6. Exercise 7.6.2 -- 12.7. Exercise 8.4.2 -- 12.8. Exercise 9.5.1 -- 12.9. Exercise 10.5.3 -- 12.10. Exercise 11.4.3 -- Appendix A: Random Numbers -- A.1. Introduction -- A.2. Uniformly Distributed Random Numbers -- A.3. Normally Distributed Random Numbers -- Appendix B: Variance Reduction -- B.1. Introduction -- B.2. Importance Weighting -- B.3. Antithetic Variates -- B.4. Control Variates -- Index Erscheint auch als Online-Ausgabe 978-1-003-29523-5 Erscheint auch als Druck-Ausgabe, hbk 978-1-032-28077-6 Erscheint auch als Druck-Ausgabe, pbk 978-1-032-28080-6
spellingShingle	Stevens, Alan Monte-Carlo simulation an introduction for engineers and scientists Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Preface -- About the Author -- Chapter 1: The Basic Idea -- 1.1. Introduction -- Chapter 2: Buffon's Needle -- 2.1. Background -- 2.2. Computer Simulation -- 2.3. Features of the Simulation -- 2.4. Precision -- 2.5. Physical Simulation -- 2.6. Buffon's Formula -- 2.7. Exercises -- Chapter 3: Areas and Integrals -- 3.1. Temperature Profile -- 3.2. Simulation -- 3.3. Sample Mean Method -- 3.4. Higher Dimensions -- 3.5. Exercises -- Chapter 4: Thermal Radiation -- 4.1. Radiation View Factor -- 4.2. Simulation 4.3. Precision -- 4.4. Exercises -- Chapter 5: Bending Beams -- 5.1. Neutral Axis Offset -- 5.2. Simulation -- 5.3. Precision -- 5.4. Exercises -- Chapter 6: Torus Segment -- 6.1. Volume of a Segment of Torus -- 6.2. Simulation -- 6.3. Precision -- 6.4. Exercises -- Chapter 7: Radiation Shielding -- 7.1. Diffusion -- 7.2. Gamma-Ray Shielding -- 7.3. Build-up Factor and Energy Distribution -- 7.4. Simulation -- 7.5. Build-up Factors -- 7.6. Exercises -- Chapter 8: Stressed Cylinder -- 8.1. Buckling Probability -- 8.2. Simulation -- 8.3. Precision -- 8.4. Wilks' Method -- 8.5. Exercises Chapter 9: Linear Resistive Networks -- 9.1. Circuit Analysis by Random Walk -- 9.2. Single-Node Simulation -- 9.3. Unit-Resistance Cube Simulation -- 9.4. Heat Conduction Simulation -- 9.5. Exercises -- Chapter 10: Magnetic Phase Transitions -- 10.1. Ising Spin Model -- 10.2. Physical Properties -- 10.3. The Gibbs and Metropolis Algorithms -- 10.4. Simulation -- 10.5. Exercises -- Chapter 11: Polymer Chains -- 11.1. Polymers -- 11.2. Simulation -- 11.3. Precision -- 11.4. Exercises -- Chapter 12: Solutions To Selected Exercises -- 12.1. Exercise 2.7.4 -- 12.2. Exercise 3.5.2 12.3. Exercise 4.4.1 -- 12.4. Exercise 5.4.2 -- 12.5. Exercise 6.4.2 -- 12.6. Exercise 7.6.2 -- 12.7. Exercise 8.4.2 -- 12.8. Exercise 9.5.1 -- 12.9. Exercise 10.5.3 -- 12.10. Exercise 11.4.3 -- Appendix A: Random Numbers -- A.1. Introduction -- A.2. Uniformly Distributed Random Numbers -- A.3. Normally Distributed Random Numbers -- Appendix B: Variance Reduction -- B.1. Introduction -- B.2. Importance Weighting -- B.3. Antithetic Variates -- B.4. Control Variates -- Index
title	Monte-Carlo simulation an introduction for engineers and scientists
title_auth	Monte-Carlo simulation an introduction for engineers and scientists
title_exact_search	Monte-Carlo simulation an introduction for engineers and scientists
title_exact_search_txtP	Monte-Carlo simulation an introduction for engineers and scientists
title_full	Monte-Carlo simulation an introduction for engineers and scientists Alan Stevens
title_fullStr	Monte-Carlo simulation an introduction for engineers and scientists Alan Stevens
title_full_unstemmed	Monte-Carlo simulation an introduction for engineers and scientists Alan Stevens
title_short	Monte-Carlo simulation
title_sort	monte carlo simulation an introduction for engineers and scientists
title_sub	an introduction for engineers and scientists
work_keys_str_mv	AT stevensalan montecarlosimulationanintroductionforengineersandscientists

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