Class Notes Introduction to Relativity Physics 375R Under Construction

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Transcription:

Class Notes Introduction to Relativity Physics 375R Under Construction Austin M. Gleeson 1 Department of Physics University of Texas at Austin Austin, TX 78712 March 20, 2007 1 gleeson@physics.utexas.edu

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Contents 1 The Special Theory of Relativity 9 1.1 Pre-History of concepts about light............... 9 1.2 Galilean Invariance........................ 10 1.3 Implications of and for Maxwell s Equations.......... 15 1.4 Pursuit of a special frame.................... 18 1.5 Michelson-Morley Experiment.................. 18 2 Kinematics of special relativity 23 2.1 Special Relativity......................... 23 2.1.1 Principles of Relativity.................. 23 2.2 Harry and Sally and Space Time Diagrams.......... 26 2.2.1 Introduction....................... 26 2.2.2 The Paradox of Harry and Sally............ 26 2.3 The Relativity of Simultaneity................. 27 2.3.1 Harry and Sally s Movements in a Diagram...... 28 3 The Nature of Space-Time 35 3.1 The Problem of Coordinates................... 35 3.2 The Lorentz Transformations.................. 40 3.2.1 The Relatively Moving Clock.............. 45 3.2.2 Derivation of the Lorentz Transformation....... 48 3.2.3 Details of the Derivation of the Lorentz Transformations 49 3.3 Using Lorentz Transformations................. 51 3.3.1 Time Dilation....................... 51 3.3.2 Length contraction.................... 53 3.3.3 The Doppler Effect.................... 54 3.3.4 Addition of velocities................... 56 3.3.5 Time for Different Travelers............... 59 3.3.6 Visual Appearence of Rapidly Moving Objects.... 60 3

4 CONTENTS 4 Events, Worldlines, Intervals 63 4.1 Introduction............................ 63 4.2 Place and Path in the Two Dimensional Plane........ 63 4.3 Minkowski Space-time...................... 72 4.4 Causality and Trajectories.................... 78 4.5 The Hyperbolic Hangle...................... 80 4.5.1 The same result directly using calculus......... 85 4.6 Four Vectors and Invariants................... 85 4.6.1 Event Four Vector and Four Velocity.......... 85 4.6.2 Other Four Vector and Four Tensor Elements..... 91 4.7 Harry, Dorothy, and Sally Revisited.............. 91 5 Paradoxes of Relativity 95 5.1 The Twin Paradox........................ 95 5.1.1 The Problem....................... 95 5.1.2 The Solution....................... 95 5.2 The Bandits and the Bullet Train................ 96 5.2.1 The Problem....................... 96 5.2.2 The Solution....................... 96 5.3 The Boy in the Barn....................... 98 5.3.1 The Problem....................... 98 5.3.2 The Solution....................... 98 5.4 The Relativistic Manhole Cover................. 98 5.4.1 The Problem....................... 98 5.4.2 The Solution....................... 98 6 Uniform Acceleration 99 6.1 Events at the same proper distance from some event..... 99 6.2 Uniformly accelerated motion.................. 100 6.2.1 Details of the calculation of the acceleration...... 101 6.3 The Proper Time along the Trajectory............. 104 6.3.1 Timelike Trajectories and Accelerated Motion..... 104 6.4 Examples using accelerated motion............... 104 6.4.1 Deceleration........................ 104 6.4.2 Accelerated Rocket.................... 106 6.4.3 John Bell s Problem................... 108 6.5 The Accelerated Reference Frame................ 111

CONTENTS 5 7 Relativistic Dynamics 121 7.1 General Principles of Dynamics................. 121 7.2 Relativistic Action........................ 121 7.2.1 The Action for a Free Particle............. 121 7.3 Energy and momentum of a single free particle........ 123 7.4 Mass................................ 125 7.5 Kinetic Energy of a Single Particle............... 126 7.6 Transformations of Momentum and Energy.......... 127 7.7 The Energy, Momentum, and Mass of Light.......... 128 7.8 Interactions............................ 129 7.9 Multi-particle Systems...................... 129 7.10 Rest energy of composite and elementary systems....... 129 7.11 Applications of Energy Momentum............... 129 8 Introduction to General Relativity 131 8.1 The Problem........................... 131 8.2 Free Fall Observers and the Equivalence Principle....... 132 8.3 The Equivalence Principle.................... 134 8.3.1 The Monkey and the Hunter.............. 135 8.4 Direct Effects from the Equivalence Principle......... 136 8.4.1 Universality and Eötvös Dicke............. 136 8.4.2 Bending of Light Rays.................. 138 8.4.3 Clocks and Accelerations in Towers........... 139 8.5 Intrinsic Effects of Gravity.................... 141 8.5.1 Distortion of Elastic Bodies............... 141 8.5.2 Gravitation and Tidal Forces.............. 143 9 Geometry and Gravitation 149 9.1 Introduction to Geometry.................... 149 9.2 Gaussian Curvature....................... 151 9.3 Example of negative curvature: the Pringle.......... 152 9.4 Curvature and Geodesics..................... 154 9.5 The Theorema Egregium and the Line Element....... 156 9.5.1 Proof of Theorema Egregium.............. 157 9.6 Examples of Two Dimensional Geometry............ 167 9.6.1 Euclidean Two Plane in Polar Coordinates...... 167 9.6.2 The Unit Two Sphere in Euclidean Three Space... 171 9.6.3 The Two Torus...................... 174 9.6.4 The Accelerated Reference Frame Revisited...... 176 9.6.5 The Hyperbolic Space-Time Two Surface....... 177

6 CONTENTS 9.7 Geometry in Four or More Dimensions............. 178 9.8 Some notation and nomenclature:................ 178 9.9 Coordinate Labels in General Relativity............ 179 9.10 Distances and Time Intervals.................. 179 9.11 Einstein Equations........................ 183 10 Effects of Gravitation 185 10.1 Linearized Gravity........................ 185 10.1.1 Linearized Theory.................... 186 10.1.2 Analog to Electromagnetism.............. 187 10.1.3 Gravitational Waves................... 187 10.2 Curvature around a Massive Body............... 187 10.3 The Geometry and Evolution of the Universe......... 187 10.3.1 Background Ideas.................... 187 10.3.2 Copernican Principle................... 190 10.3.3 Olber s Paradox..................... 191 10.3.4 Hubble Expansion.................... 193 10.3.5 Implications of expansion................ 196 10.3.6 Missing Mass....................... 202 10.4 The space time structure of the universe............ 204 10.4.1 Black Body Background................. 205 10.4.2 Problems with the Expanding Universe........ 205 10.4.3 The Cosmological Constant............... 205 10.4.4 The Standard Model of the Universe.......... 205 11 Large Scale and Micro-physics 207 11.1 Structure in the Universe.................... 207 11.2 The Inflationary Universe.................... 207 11.3 String Theory........................... 207 A Primer on Action 209 A.1 Newtonian Dynamics....................... 209 A.2 Dynamics and Action...................... 211 A.2.1 Background on Formulation of Action......... 211 A.2.2 Introduction to Action.................. 213 A.2.3 Definition of Action................... 214 A.2.4 Trajectory of a Free Particle.............. 217 A.2.5 Proof that the Least Action Reproduces Newtonian Physics.......................... 219 A.2.6 Examples of action gravitation near a flat earth... 219

CONTENTS 7 A.2.7 Same Example done another way........... 222 A.2.8 More Examples of Actions................ 224 A.3 The Nature of Symmetry in Physics.............. 229 A.3.1 Discrete Transformations................ 229 A.3.2 Continuous Transformations............... 230 A.3.3 Identity Transformation................. 230 A.3.4 Examples of symmetry in situations like physics... 230 A.3.5 Physics transformations:................. 231 A.4 Examples of Symmetry in physics................ 231 A.4.1 Physics transformations:................. 231 A.5 Symmetry and Action...................... 234 A.5.1 Introduction....................... 234 A.5.2 Galilean invariance.................... 237 A.5.3 More on Symmetry and Action............. 238 A.5.4 Noether s Theorem.................... 238 B Introduction to Field Theory 245 B.1 Action at a Distance and Field Dynamics........... 245 B.1.1 Action at a Distance................... 246 B.1.2 Local Field Theory.................... 248 B.2 The Stretched String....................... 249 B.3 Maxwell s Theory of Electromagnetism............. 260 C Indexology 271 C.1 Vectors and tensors under rotation............... 271 C.2 General Coordinates Labels................... 275 C.3 Fields and Manafolds....................... 279 C.3.1 Tensor Fields and General Transformations...... 280 C.3.2 Nomenclature....................... 280 D Generalized Linear Theory 283

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