Six ideas that shaped physics: Q Unit Particles behave like waves
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| Format: | Buch |
| Sprache: | English |
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Boston [u.a.]
WCB/MacGraw-Hill
[2017]
|
| Ausgabe: | Third edition |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xvii, 288 Seiten Illustrationen, Diagramme |
| ISBN: | 9780077600945 |
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| 245 | 1 | 0 | |a Six ideas that shaped physics |n Q |p Unit |p Particles behave like waves |c Thomas A. Moore |
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Datensatz im Suchindex
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| adam_text | Titel: Bd. Q. Six ideas that shaped physics. Particles behave like waves
Autor: Moore, Thomas A
Jahr: 2017
Contents: Unit Q
Particles Behave Like Waves
About the Author viii
Preface ix
Introduction for Students xvi
Chapter Q1 2
Wave Models 2
Chapter Overview 2
Ql.l What Is a Wave? 4
Q1.2 A Sinusoidal Wave Model 6
Q1.3 The Phase Speed of a Sinusoidal Wave 8
Q1.4 Sound 11
Q1.5 Energy in Waves 12
Q1.6 The floppier Effect 13
TWO-MINUTE PROBLEMS 15
HOMEWORK PROBLEMS 15
ANSWERS TO EXERCISES 17
Chapter Q2 18
Standing Waves and Resonance 18
Chapter Overview 18
Q2.1 The Superposition Principle 20
Q2.2 Reflection 21
Q2.3 Standing Waves 24
Q2.4 Resonance 26
TWO-MINUTE PROBLEMS 30
HOMEWORK PROBLEMS 31
ANSWERS TO EXERCISES 33
Chapter Q3 34
Interference and Diffraction 34
Chapter Overview 34
Q3.1 Two-Dimensional Waves 36
Q3.2 Simple Diffraction 37
Q3.3 Two-Slit Interference 37
Q3.4 Two-Slit Interference of Light 40
Q3.5 Diffraction Revisited 44
Q3.6 Optical Resolution 46
TWO-MINUTE PROBLEMS 48
HOMEWORK PROBLEMS 48
ANSWERS TO EXERCISES 51
Chapter Q4 52
The Particle Nature of Light 52
Chapter Overview 52
Q4.1 A Short History of Light 54
Q4.2 The Photoelectric Effect 55
Q4.3 Idealized Photoelectric Experiments 55
Q4.4 Predictions of the Wave Model 57
Q4.5 Confronting the Facts 58
Q4.6 The Photon Model of Light 59
Q4.7 Detecting Individual Photons 63
TWO-MINUTE PROBLEMS 64
HOMEWORK PROBLEMS 65
ANSWERS TO EXERCISES 67
Chapter Q5 68
The Wave Nature of Particles 68
Chapter Overview 68
Q5.1 Subatomic Particles as Particles 70
Q5.2 The de Broglie Hypothesis 71
Q5.3 Preparing an Electron Beam 72
Q5.4 The Davisson-Germer Experiment 73
Q5.5 Modern Interference Experiments 75
Q5.6 Interference a Quanton at a Time 78
Q5.7 Implications 80
TWO-MINUTE PROBLEMS 82
HOMEWORK PROBLEMS 83
ANSWERS TO EXERCISES 85
Chapter Q6 86
Spin 86
Chapter Overview 86
Q6.1 Introduction to Spin 88
Q6.2 Introduction to the Stern-Gerlach Experiment 89
Q6.3 Gyroscopic Precession 91
Q6.4 The Stern-Gerlach Experiment 92
Q6.5 Spin Experiments 93
Q6.6 Spin Is Genuine Angular Momentum 96
TWO-MINUTE PROBLEMS 98
HOMEWORK PROBLEMS 99
ANSWERS TO EXERCISES 101
Chapter Q7 102
The Rules of Quantum Mechanics 102
Chapter Overview 102
Q7.1 The Game of Quantum Mechanics 104
Q7.2 The Playing Pieces and the Goal 105
07.3 The Mathematics of Quantum Mechanics 106
07.4 The Rules 107
07.5 Questions and Answers 113
07.6 Examples 114
TWO-MINUTE PROBLEMS 116
HOMEWORK PROBLEMS 117
ANSWERS TO EXERCISES 119
Chapter Q8 120
Quantum Weirdness 120
Chapter Overview 120
Q8.1 Introduction 122
08.2 The EPR Argument 122
Q8.3 Bell s Theorem 124
08.4 Superposition and Schrodinger s Cat 128
Q8.5 The Collapse Problem 129
TWO-MINUTE PROBLEMS 132
HOMEWORK PROBLEMS 132
ANSWERS TO EXERCISES 133
Chapter Q9 134
The Wavefunction 134
Chapter Overview 134
09.1 Vectors to Wavefunctions 136
09.2 Wavefunctions and Position Probability 139
Q9.3 The Collapse of the Wavefunction 141
Q9.4 The Heisenberg Uncertainty Principle 142
Q9.5 The Rules Explain Two-Slit Interference 144
TWO-MINUTE PROBLEMS 146
HOMEWORK PROBLEMS 147
ANSWERS TO EXERCISES 149
Chapter Q10 150
Simple Quantum Models 150
Chapter Overview 150
Q10.1 An Introduction to Bound Systems 152
Q10.2 Energy Eigenfunctions 153
Q10.3 A Quanton in a Box 154
Q10.4 The Bohr Model of the Hydrogen Atom 156
Q10.5 The Simple Harmonic Oscillator 159
TWO-MINUTE PROBLEMS 162
HOMEWORK PROBLEMS 163
ANSWERS TO EXERCISES 165
Chapter Q11 166
Spectra 166
Chapter Overview 166
Qll.l Energy-Level Diagrams 168
Q11.2 The Spontaneous Emission of Photons 168
Q11.3 Spectral Lines 169
Q11.4 Absorption Lines 170
QI1.5 The Pauli Exclusion Principle 172
QI1.6 Conductors and Semiconductors 175
TWO-MINUTE PROBLEMS 178
HOMEWORK PROBLEMS 179
ANSWERS TO EXERCISES 181
Chapter Q12 182
The Schrodinger Equation 182
Chapter Overview 182
012.1 Generalizing the de Broglie Relation 184
Q12.2 Local Wavelength 185
012.3 Finding the Schrodinger Equation 186
012.4 Solving the Equation Numerically 187
Q12.5 Using SchroSolver 188
012.6 Sketching Energy Eigenfunctions 191
Q12.7 Tunneling 193
TWO-MINUTE PROBLEMS 196
HOMEWORK PROBLEMS 197
ANSWERS TO EXERCISES 199
Chapter Q13
Introduction to Nuclei
Chapter Overview
Q13.1 Introduction to Nuclear Structure
Q13.2 The Size of the Nucleus
(ZI3.3 The Strong Interaction
013.4 Binding Energy and Mass
Q13.5 Questions about Nuclear Stability
Q13.6 A Historical Overview of Radioactivity
TWO-MINUTE PROBLEMS
HOMEWORK PROBLEMS
ANSWERS TO EXERCISES
Chapter Q14
Nuclear Stability
Chapter Overview
Q14.1 The Weak Interaction
Q14.2 Why Z « N
Q14.3 Why N Z for Large Nuclei
Q14.4 Beta Decay
014.5 Alpha Decay
Q14.6 Gamma Decay
TWO-MINUTE PROBLEMS
HOMEWORK PROBLEMS
ANSWERS TO EXERCISES
Chapter Q15
Nuclear Technology
Chapter Overview
Q15.1 The Penetrating Ability of Radiation
Q15.2 The Biological Effects of Radiation
Q15.3 Applications of Radioactive Nuclei
Q15.4 Introduction to Nuclear Energy
Q15.5 Fission
Q15.6 Fusion
TWO-MINUTE PROBLEMS
HOMEWORK PROBLEMS
ANSWERS TO EXERCISES
Appendix QA
Complex Numbers
Appendix Overview
QA.l Introduction to Complex Numbers
QA.2 The Complex Exponential
QA.3 The Spin Observable S„ 256
QA.4 The Time Evolution Rule 258
QA.5 An Application: Spins in a Magnetic Field 260
QA.6 Momentum Eigenfunctions 262
TWO-MINUTE PROBLEMS 264
HOMEWORK PROBLEMS 264
ANSWERS TO EXERCISES 267
Index 268
Periodic table 287
Short Answers to Selected Problems 288
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| indexdate | 2024-07-10T07:37:43Z |
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| isbn | 9780077600945 |
| language | English |
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| physical | xvii, 288 Seiten Illustrationen, Diagramme |
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| spelling | Moore, Thomas A. Verfasser aut Six ideas that shaped physics Q Unit Particles behave like waves Thomas A. Moore Third edition Boston [u.a.] WCB/MacGraw-Hill [2017] xvii, 288 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier (DE-604)BV013055990 Q HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029296470&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Moore, Thomas A. Six ideas that shaped physics |
| title | Six ideas that shaped physics |
| title_auth | Six ideas that shaped physics |
| title_exact_search | Six ideas that shaped physics |
| title_full | Six ideas that shaped physics Q Unit Particles behave like waves Thomas A. Moore |
| title_fullStr | Six ideas that shaped physics Q Unit Particles behave like waves Thomas A. Moore |
| title_full_unstemmed | Six ideas that shaped physics Q Unit Particles behave like waves Thomas A. Moore |
| title_short | Six ideas that shaped physics |
| title_sort | six ideas that shaped physics unit particles behave like waves |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029296470&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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