The physics companion:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton, Fla. [u.a.]
CRC Press
2015
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| Ausgabe: | 2. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturverz. S. 529 |
| Beschreibung: | XXIII, 544 S. Ill., graph. Darst. |
| ISBN: | 9781466517790 |
Internformat
MARC
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| 020 | |a 9781466517790 |c pbk. |9 978-1-4665-1779-0 | ||
| 035 | |a (OCoLC)895273959 | ||
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| 100 | 1 | |a Fischer-Cripps, Anthony C. |e Verfasser |0 (DE-588)1057637270 |4 aut | |
| 245 | 1 | 0 | |a The physics companion |c Anthony C. Fischer-Cripps |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a Boca Raton, Fla. [u.a.] |b CRC Press |c 2015 | |
| 300 | |a XXIII, 544 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Literaturverz. S. 529 | ||
| 650 | 0 | 7 | |a Physik |0 (DE-588)4045956-1 |2 gnd |9 rswk-swf |
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| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe |z 978-1-4665-1780-6 |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-027579964 | ||
Datensatz im Suchindex
| DE-BY-862_location | 2000 |
|---|---|
| DE-BY-FWS_call_number | 2000/UC 300 F529(2) |
| DE-BY-FWS_katkey | 628720 |
| DE-BY-FWS_media_number | 083000525001 083000515995 083000515994 |
| _version_ | 1824553908312211457 |
| adam_text | Titel: The physics companion
Autor: Fischer-Cripps, Anthony C
Jahr: 2015
Contents
Preface....................................................................................xxiii
Part 1. Mechanics
1.1 Scalars and Vectors................................................................2
1.1.1 Vectors......................................................................3
1.1.2 Addition of Vectors...................................................4
1.1.3 The Unit Vectors.......................................................5
1.1.4 Vector Dot Product...................................................6
1.1.5 Vector Cross Product................................................7
1.1.6 Scalars and Vectors (Summary)................................8
1.1.7 Example....................................................................9
1.2 Statics...................................................................................10
1.2.1 Equilibrium.............................................................11
1.2.2 The Normal Force...................................................12
1.2.3 Reactions................................................................13
1.2.4 Free Body Diagram.................................................14
1.2.5 Resultants...............................................................15
1.2.6 Example..................................................................16
1.3 Moment of Inertia...............................................................17
1.3.1 Centroid and Centre of Mass..................................18
1.3.2 Centroids of Areas..................................................19
1.3.3 2nd Moment of an Area.........................................20
1.3.4 Moments of Inertia of Areas..................................21
1.3.5 Example..................................................................22
1.4 Linear Motion......................................................................23
1.4.1 Velocity and Acceleration.......................................24
1.4.2 Kinematics..............................................................25
1.4.3 Projectile Motion....................................................26
1.4.4 Examples.................................................................28
1.5 Forces...................................................................................29
1.5.1 Newton s Laws........................................................30
1.5.2 Inertia.....................................................................31
1.5.3 Ropes and Pulleys...................................................32
1.5.4 Friction....................................................................33
1.5.5 Non-Concurrent Forces..........................................34
1.5.6 Gravitation..............................................................35
1.5.7 Examples.................................................................36
1.6 Rotational Motion...............................................................40
1.6.1 Rotational Motion..................................................41
1.6.2 Linear and Circular Motion.....................................42
1.6.3 Centripetal Force....................................................43
1.6.4 Planetary Motion....................................................44
1.6.5 Example..................................................................45
1.7 Rotation...............................................................................46
1.7.1 Rotational Kinematics.............................................47
1.7.2 Moment of Inertia..................................................48
1.7.3 Moment of Inertia of Common Shapes..................49
1.7.4 Composite Bodies...................................................50
1.7.5 Radius of Gyration..................................................51
1.7.6 Calculation of Moment of Inertia...........................52
1.7.7 Dynamic Equilibrium..............................................53
1.7.8 Rolling Motion........................................................54
1.7.9 Examples.................................................................55
1.8 Work and Energy.................................................................57
1.8.1 Work and Energy....................................................58
1.8.2 Variable Force.........................................................59
1.8.3 Work Done by a Spring...........................................60
1.8.4 Energy.....................................................................61
1.8.5 Rotational Kinetic Energy.......................................62
1.8.6 Power.....................................................................63
1.8.7 Examples.................................................................64
1.9 Impulse and Momentum.....................................................66
1.9.1 Impulse and Momentum........................................67
1.9.2 Angular Momentum...............................................68
1.9.3 Impulse-Momentum Equation...............................69
1.9.4 Conservation of Momentum..................................70
1.9.5 Examples.................................................................71
Part 2. Thermal Physics
2.1 Temperature........................................................................74
2.1.1 Thermodynamic Systems.......................................75
2.1.2 Temperature...........................................................76
2.1.3 Kelvin Temperature Scale.......................................77
2.1.4 Thermometers........................................................78
2.1.5 Examples.................................................................79
2.2 Heat and Solids....................................................................80
2.2.1 Thermal Expansion.................................................81
2.2.2 Atomic Bonding in Solids........................................82
2.2.3 Specific Heat...........................................................83
2.2.4 Latent Heat.............................................................84
2.2.5 Internal Energy.......................................................85
2.2.6 Examples.................................................................86
2.3 Heat Transfer.......................................................................87
2.3.1 Conduction.............................................................88
2.3.2 Thermal Conductivity.............................................89
2.3.3 Composite Wall......................................................90
2.3.4 Rate of Cooling.......................................................91
2.3.5 Convection..............................................................92
2.3.6 Thermal Radiation..................................................93
2.3.7 Radiation Emission.................................................94
2.3.8 Radiation Emission Spectrum.................................95
2.3.9 Absorption and Emission........................................96
2.3.10 Radiative Heat Transfer..........................................97
2.3.11 Equilibrium Temperature.......................................99
2.3.12 Examples...............................................................100
2.4 Gases..................................................................................102
2.4.1 Solids, Liquids and Gases......................................103
2.4.2 Pressure................................................................104
2.4.3 Gas Laws...............................................................105
2.4.4 Phases of Matter..................................................106
2.4.5 Examples...............................................................107
2.5 Work and Thermodynamics..............................................108
2.5.1 Gas........................................................................109
2.5.2 1st Law of Thermodynamics.................................110
2.5.3 p-V Diagram.........................................................111
2.5.4 Example................................................................112
2.6 Gas Processes.....................................................................113
2.6.1 Gas Processes.......................................................114
2.6.2 Example................................................................117
2.7 Heat Engines.....................................................................118
2.7.1 Cyclic Processes....................................................119
2.7.2 Otto Cycle.............................................................120
2.7.3 Thermal Efficiency................................................121
2.7.4 Ca mot Cycle..........................................................122
2.7.5 Heat Sink in an Engine..........................................123
2.7.6 Reversibility..........................................................124
2.7.7 Examples...............................................................125
2.8 Entropy...............................................................................126
2.8.1 Reversible and Irreversible Processes..................127
2.8.2 Entropy and Reversibility......................................128
2.8.3 Reversible Process................................................129
2.8.4 Entropy Change of the Universe...........................130
2.8.5 Entropy in a Cycle.................................................131
2.8.6 Entropy.................................................................132
2.8.7 The 2nd Law of Thermodynamics........................133
2.8.8 Examples...............................................................134
2.9 Kinetic Theory of Gases.....................................................136
2.9.1 Statistics of Motion..............................................137
2.9.2 Pressure................................................................138
2.9.3 Temperature.........................................................140
2.9.4 Molecular Motion.................................................141
2.9.5 Equipartition of Energy.........................................142
2.9.6 Specific Heat and Adiabatic Index........................143
2.9.7 Internal Energy.....................................................144
2.9.8 Examples...............................................................145
2.10 Statistical Mechanics.......................................................146
2.10.1 Statistical Weight-Two-Level System.................147
2.10.2 Statistical Weight - Multi-Level System...............148
2.10.3 Boltzmann Energy Distribution.............................149
2.10.4 Velocity Distribution.............................................150
2.10.5 Maxwell Velocity Distribution..............................151
2.10.6 Average rms and Most Probable Velocities.........152
2.10.7 Collisions per Unit Area........................................153
2.11 Statistical Entropy...............................................................154
2.11.1 Equilibrium...................................................155
2.11.2 Statistical Entropy.................................................156
2.11.3 Adiabatic Expansion of a Gas into a Vacuum.......157
2.11.4 Classical and Statistical Entropy...........................158
2.11.5 Constant Volume Heating of a Gas.......................159
2.11.6 Classical and Statistical Entropy...........................160
2.11.7 Entropy and the Flow of Natural Processes.........161
2.11.8 Example................................................................162
2.12 The Partition Function.....................................................163
2.12.1 Statistical Mechanics............................................164
2.12.2 Partition Function.................................................165
2.12.3 Properties of the Partition Function.....................166
2.12.4 Degeneracy and the Partition Function................167
2.12.5 Partition Function - Multi-Level System..............168
2.12.6 The Partition Function..........................................169
2.12.7 Partition Function and Average Energy................170
2.12.8 Density of States...................................................171
2.12.9 Energy Distribution for a Harmonic Oscillator......172
2.12.10 Average Energy.....................................................173
Part 3. Waves Optics
3.1 Periodic Motion.................................................................176
3.1.1 Periodic Motion....................................................177
3.1.2 Initial Phase Angle................................................178
3.1.3 Simple Harmonic Motion......................................179
3.1.4 Example................................................................180
3.2 Waves.................................................................................181
3.2.1 Waves...................................................................182
3.2.2 Wave Motion........................................................183
3.2.3 Wavelength..........................................................184
3.2.4 Velocity, Frequency and Wavelength...................185
3.2.5 Wave Velocity.......................................................186
3.2.6 Particle Displacement...........................................187
3.2.7 Wave Equation.....................................................188
3.2.8 General Wave Equation........................................189
3.2.9 Energy Transfer by Wave Motion.........................190
3.2.10 Example................................................................191
3.3 Superposition.....................................................................192
3.3.1 Superposition.......................................................193
3.3.2 Interference..........................................................194
3.3.3 Fourier Analysis....................................................196
3.3.4 Superposition for Waves in Opposite Directions .197
3.3.5 Standing Waves....................................................198
3.3.6 Resonance............................................................199
3.3.7 Beats.....................................................................200
3.3.8 Longitudinal Waves..............................................201
3.3.9 Soundwaves........................................................202
3.3.10 Superposition of Longitudinal Waves...................203
3.3.11 Sound Intensity.....................................................205
3.3.12 Hearing.................................................................206
3.3.13 Reflection and Absorption of Sound....................207
3.3.14 Intensity Variations...............................................208
3.3.15 Examples...............................................................209
3.4 Light....................................................................................210
3.4.1 Light Rays..............................................................211
3.4.2 Reflection.............................................................212
3.4.3 Refraction.............................................................213
3.4.4 Total Internal Reflection.......................................214
3.4.5 Dispersion.............................................................215
3.4.6 Example................................................................216
3.5 Mirrors...............................................................................217
3.5.1 Mirrors..................................................................218
3.5.2 Sign Conventions..................................................219
3.5.3 Ray Diagrams........................................................220
3.5.4 Example................................................................221
3.6 Lenses.................................................................................222
3.6.1 Thin Lens...............................................................223
3.6.2 Lens Action...........................................................224
3.6.3 Lenses...................................................................225
3.6.4 Ray Diagrams........................................................226
3.6.5 The Eye.................................................................227
3.6.6 Near Point and Far Point......................................228
3.6.7 Lens Equations......................................................229
3.6.8 Magnifying Glass..................................................230
3.6.9 Magnification........................................................231
3.6.10 Lens Aberrations...................................................233
3.6.11 Example................................................................234
3.7 Optical Instruments...........................................................235
3.7.1 Optical Instruments..............................................236
3.7.2 Microscope...........................................................237
3.7.3 Astronomical Telescope.......................................238
3.7.4 Special Case..........................................................239
3.7.5 Example................................................................240
3.8 Interference.......................................................................241
3.8.1 Interference..........................................................242
3.8.2 Fringe Spacing.......................................................243
3.8.3 Fringe Intensity.....................................................244
3.8.4 Thin Film Interference..........................................245
3.8.5 Optical Path Length..............................................246
3.8.6 Examples...............................................................247
3.9 Diffraction..........................................................................248
3.9.1 Interference and Diffraction.................................249
3.9.3 Diffraction - Circular Aperture.............................250
3.9.4 Diffraction-Single Slit.........................................251
3.9.5 Diffraction - Double Slit.......................................254
3.9.6 Diffraction - Circular Aperture.............................255
3.9.7 Example................................................................256
3.10 Polarisation......................................................................257
3.10.1 Polarised Light......................................................258
3.10.2 Depolarised Light..................................................259
3.10.3 Sources of Polarised Light.....................................260
3.10.4 Malus Law............................................................261
3.10.5 Example................................................................262
Part 4. Electricity
4.1 Electricity...........................................................................264
4.1.1 Electric Charge......................................................265
4.1.2 Electric Flux...........................................................266
4.1.3 Conductors and Insulators....................................267
4.1.4 Electric Current.....................................................268
4.1.5 Conventional Current...........................................269
4.1.6 Potential Difference.............................................270
4.1.7 Resistance.............................................................271
4.1.8 Resistivity..............................................................272
4.1.9 Variation of Resistance.........................................273
4.1.10 Electromotive Force.............................................274
4.1.11 Capacitance..........................................................275
4.1.12 Dielectrics.............................................................276
4.1.13 Inductance............................................................277
4.1.14 Inductors...............................................................278
4.1.15 Energy and Power.................................................279
4.1.16 Circuits..................................................................280
4.1.17 Kirchhoff s Laws....................................................281
4.1.18 Examples...............................................................282
4.2 Magnetism........................................................................283
4.2.1 Magnetic Field......................................................284
4.2.2 Charged Particle in a Magnetic Field....................285
4.2.3 Force on a Current-Carrying Conductor...............286
4.2.4 Source of Magnetic Fields....................................287
4.2.5 Biot-Savart Law....................................................288
4.2.6 Biot-Savart Law - Applications............................289
4.2.7 Ampere s Law.......................................................290
4.2.8 Magnetic Moment................................................291
4.2.9 Magnetic Force.....................................................292
4.2.10 Permeability.........................................................293
4.2.11 Magnetic Materials...............................................294
4.2.12 Ferromagnetism...................................................295
4.2.13 Hysteresis.............................................................296
4.2.14 Example................................................................297
4.3 Induction............................................................................298
4.3.1 Faraday s Law.......................................................299
4.3.2 Faraday s Law.......................................................300
4.3.3 Electromagnetic Induction...................................301
4.3.4 Lenz s Law.............................................................302
4.3.5 Mutual Inductance...............................................303
4.3.6 Self-Inductance.....................................................304
4.3.7 Solenoids and Toroids..........................................305
4.3.8 Electromagnetic Induction...................................306
4.3.9 Examples...............................................................307
4.4 Magnetic Circuits...............................................................308
4.4.1 Magnetomotive Force..........................................309
4.4.2 Reluctance............................................................310
4.4.3 Magnetic Circuits..................................................311
4.4.4 Magnetic Circuits..................................................312
4.4.5 Example................................................................313
4.5 RC RL Circuits..................................................................314
4.5.1 R-C Circuit Analysis...............................................315
4.5.2 Time Constant and Half-Life.................................316
4.5.3 R-C Low Pass Filter................................................317
4.5.4 R-C High Pass Filter...............................................318
4.5.5 R-L Circuits............................................................319
4.5.6 R-L Circuits............................................................320
4.5.7 R-L Filter Circuits...................................................321
4.5.8 Integrator/Differentiator......................................322
4.5.9 Example................................................................323
4.6 AC Circuits..........................................................................324
4.6.1 AC Voltage............................................................325
4.6.2 Resistance.............................................................326
4.6.3 rms Voltage and Current......................................327
4.6.4 Capacitive Reactance............................................328
4.6.5 Inductive Reactance.............................................330
4.6.6 Reactive Power (capacitor)...................................331
4.6.7 Reactive Power (inductor)....................................332
4.6.8 LCR Series Circuit..................................................333
4.6.9 LCR Circuit - Peak and rms Voltage......................334
4.6.10 Impedance............................................................335
4.6.11 Power in LCR Circuit.............................................336
4.6.12 Apparent Power...................................................337
4.6.13 Power Factor........................................................338
4.6.14 Example................................................................339
4.7 Electromagnetic Waves.....................................................340
4.7.1 Charging a Capacitor............................................341
4.7.2 Displacement Current...........................................342
4.7.3 Ampere s Law.......................................................343
4.7.4 Maxwell s Equations.............................................344
4.7.5 Electric and Magnetic Fields.................................345
4.7.6 Electromagnetic Waves........................................346
4.7.7 Periodic Electromagnetic Waves..........................347
4.7.8 Electromagnetic Waves in a Dielectric.................348
4.7.9 Energy in Electromagnetic Waves........................349
4.7.10 Intensity of an Electromagnetic Wave.................350
4.7.11 Examples...............................................................351
Part 5. Properties of Matter
5.1 Solids..................................................................................354
5.1.1 Hooke s Law..........................................................355
5.1.2 Stress....................................................................356
5.1.3 Strain....................................................................357
5.1.4 Poisson s Ratio......................................................358
5.1.5 Mechanical Properties of Materials.....................359
5.1.6 Linear Elasticity.....................................................360
5.1.7 Viscoelastic Materials...........................................361
5.1.8 Griffith Energy Balance.........................................362
5.1.9 Examples...............................................................363
5.2 Fluids..................................................................................364
5.2.1 Fluids....................................................................365
5.2.2 Hydrostatic Pressure............................................366
5.2.3 Archimedes Principle...........................................367
5.2.4 Surface Tension....................................................368
5.2.5 Contact Angle.......................................................369
5.2.6 Surface Tension Force..........................................370
5.2.7 Coefficient of Surface Tension..............................371
5.2.8 Capillary Action.....................................................372
5.2.9 Bernoulli s Equation.............................................373
5.2.10 Viscosity................................................................374
5.2.11 Fluid Flow.............................................................375
5.2.12 Turbulent Flow.....................................................376
5.2.13 Examples...............................................................377
Part 6. Atomic Physics
6.1 The Atom...........................................................................380
6.1.1 Atoms...................................................................381
6.1.2 The Electron..........................................................382
6.1.3 Electrostatic Deflection........................................383
6.1.4 Magnetic Deflection.............................................384
6.1.5 Millikan s Oil Drop Experiment.............................385
6.1.6 Mass of a Proton..................................................386
6.1.7 Example................................................................387
6.2 The Bohr Atom...................................................................388
6.2.1 Black Body Radiation............................................389
6.2.2 Photoelectric Effect..............................................390
6.2.3 Line Spectra..........................................................391
6.2.4 Bohr Atom............................................................392
6.2.5 Energy Levels........................................................393
6.2.6 The Rydberg Constant..........................................394
6.2.7 Electron Absorption..............................................395
6.2.8 Photon Absorption...............................................396
6.2.9 Matter Waves.......................................................397
6.2.10 Electron-Volt.........................................................398
6.2.11 Example................................................................399
6.3 Black Body Radiation.........................................................400
6.3.1 Black Body Radiation............................................401
6.3.2 Radiation Emission Spectrum...............................402
6.3.3 Classical Cavity Radiation.....................................403
6.3.4 Density of States...................................................404
6.3.5 Rayleigh-Jeans Radiation Law..............................405
6.3.6 The Ultraviolet Catastrophe.................................406
6.3.7 Statistical Mechanics............................................407
6.3.8 Planck s Radiation Law.........................................408
6.3.9 Significance of Planck s Radiation Law.................409
6.3.10 Forms of Planck s Radiation Law..........................410
6.3.11 Stefan-Boltzmann Law.........................................411
6.3.12 Wien Displacement Law.......................................412
6.4 X-Rays................................................................................413
6.4.1 X-Rays...................................................................414
6.4.2 Continuous Radiation...........................................415
6.4.3 Characteristic Radiation.......................................416
6.4.4 X-Ray Absorption..................................................417
6.4.5 X-Ray Scattering....................................................418
6.4.6 Compton Effect.....................................................419
6.4.7 X-Ray Diffraction...................................................420
6.5 Quantum Mechanics.........................................................421
6.5.1 Schrödinger Equation...........................................422
6.5.2 Solution to the Schrödinger Equation..................423
6.5.3 Interpretation of the Wave Function...................424
6.5.4 The Time-Dependent Equation............................425
6.5.5 Solutions to the Wave Equation...........................426
6.5.6 Zero Potential.......................................................427
6.5.7 Particle in a Box....................................................428
6.5.8 Infinite Square Well..............................................429
6.5.9 Harmonic Oscillator..............................................430
6.5.10 Coulomb Potential - Bohr Atom..........................431
6.5.11 Heisenberg Uncertainty Principle.........................433
6.6 Solids..................................................................................434
6.6.1 Density of Vibrational States................................435
6.6.2 Lattice Waves.......................................................436
6.6.3 Einstein Harmonic Oscillator Model.....................437
6.6.4 Debye Lattice Model............................................438
6.6.5 Phonons................................................................439
Part 7. The Nucleus
7.1 The Nucleus.......................................................................442
7.1.1 Radioactivity.........................................................443
7.1.2 Rutherford s Experiment......................................444
7.1.3 The Nucleus..........................................................445
7.1.4 Specifying an Element..........................................446
7.1.5 Radioactive Decay................................................447
7.1.6 Radioactive Series.................................................448
7.1.7 Half-Life................................................................449
7.1.8 Isotopes................................................................450
7.2 Nuclear Reactions..............................................................451
7.2.1 Quarks..................................................................452
7.2.2 Nuclear Forces......................................................453
7.2.3 Nuclear Binding Energy........................................454
7.2.4 Nuclear Binding Energy........................................455
7.2.5 Nuclear Binding Energy per Nucléon....................456
7.2.6 Artificial Nuclear Reactions..................................457
7.2.7 Fission...................................................................458
7.2.8 Stability.................................................................459
7.2.9 Fission and Fusion................................................460
7.2.10 Chain Reaction......................................................461
7.2.11 Example................................................................462
Part 8. Relativity
8.1 Absolute Rest.....................................................................464
8.1.1 Wave Motion........................................................465
8.1.2 Doppler Effect.......................................................466
8.1.3 Velocity of Light....................................................467
8.1.4 Electromagnetic Waves........................................468
8.1.5 Luminiferous Ether...............................................469
8.1.6 Ether Drift.............................................................470
8.1.7 Michelson-Morley Experiment............................471
8.1.8 Example................................................................472
8.2 Special Relativity...............................................................473
8.2.1 The Principle of Relativity.....................................474
8.2.2 Frames of Reference............................................475
8.2.3 Distance................................................................476
8.2.4 Velocity Acceleration........................................477
8.2.5 Postulates of Special Relativity.............................478
8.2.6 Time Dilation........................................................479
8.2.7 Proper Time..........................................................480
8.2.8 Length Contraction...............................................481
8.2.9 Lorentz Transformations......................................482
8.2.10 Lorentz Velocity Transformations........................483
8.2.11 Momentum and Mass Transformations...............484
8.2.12 Mass and Energy Transformations.......................485
8.2.13 Energy and Momentum........................................486
8.2.14 Doppler Effect for Light Waves.............................487
8.2.15 Consequences of Special Relativity......................488
8.2.16 Special Relativity Summary..................................489
8.2.17 Example................................................................490
8.3 General Relativity..............................................................491
8.3.1 General Relativity and Special Relativity..............492
8.3.2 Space-Time...........................................................493
8.3.3 Light-Cone............................................................494
8.3.4 Distance in Space-Time........................................495
8.3.5 Invariance in Space-Time......................................496
8.3.6 Past, Present and Future......................................497
8.3.7 Gravity..................................................................498
8.3.8 Gravity and Space-Time........................................499
8.3.9 Einstein Field Equations........................................500
8.3.10 Gravity and Quantum Theory...............................501
Part 9. Universe
9.1 Solar System......................................................................504
9.1.1 Copernicus, Tycho and Kepler..............................505
9.1.2 Kepler s Laws........................................................506
9.1.3 Formation of Stars and Galaxies...........................507
9.1.4 Luminosity............................................................508
9.1.5 Lifecycle of Stars...................................................509
9.1.6 Energy and Matter................................................510
9.1.7 The Solar System..................................................511
9.1.8 Sun........................................................................512
9.1.9 Solar Atmosphere.................................................513
9.1.10 Solar Wind............................................................514
9.1.11 Solar Radiation.....................................................515
9.1.12 Earth.....................................................................516
9.1.13 Earth s Magnetic Field..........................................517
9.1.14 Atmosphere..........................................................518
9.1.15 Examples...............................................................519
9.2 Universe.............................................................................520
9.2.1 Size of the Universe..............................................521
9.2.2 Expansion of the Universe....................................522
9.2.3 Beginning of the Universe....................................523
9.2.4 Forces of Nature...................................................524
9.2.5 Particles of Nature................................................525
9.2.6 The Big Bang.........................................................526
9.2.7 End of the Universe..............................................527
Bibliography.............................................................................529
Index....................................................................................531
|
| any_adam_object | 1 |
| author | Fischer-Cripps, Anthony C. |
| author_GND | (DE-588)1057637270 |
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| bvnumber | BV042139974 |
| classification_rvk | UC 300 UC 500 |
| ctrlnum | (OCoLC)895273959 (DE-599)OBVAC12028628 |
| discipline | Physik |
| edition | 2. ed. |
| format | Book |
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| id | DE-604.BV042139974 |
| illustrated | Illustrated |
| indexdate | 2025-02-20T06:43:21Z |
| institution | BVB |
| isbn | 9781466517790 |
| language | English |
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| publishDate | 2015 |
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| publisher | CRC Press |
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| spellingShingle | Fischer-Cripps, Anthony C. The physics companion Physik (DE-588)4045956-1 gnd |
| subject_GND | (DE-588)4045956-1 (DE-588)4155008-0 |
| title | The physics companion |
| title_auth | The physics companion |
| title_exact_search | The physics companion |
| title_full | The physics companion Anthony C. Fischer-Cripps |
| title_fullStr | The physics companion Anthony C. Fischer-Cripps |
| title_full_unstemmed | The physics companion Anthony C. Fischer-Cripps |
| title_short | The physics companion |
| title_sort | the physics companion |
| topic | Physik (DE-588)4045956-1 gnd |
| topic_facet | Physik Formelsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027579964&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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Inhaltsverzeichnis
THWS Schweinfurt Zentralbibliothek Lesesaal
| Signatur: |
2000 UC 300 F529(2) |
|---|---|
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| Exemplar 2 | ausleihbar Verfügbar Bestellen |
| Exemplar 3 | ausleihbar Verfügbar Bestellen |