| Preface | p. vii |
| Introduction | p. 1 |
| Particle on a Two-Dimensional Surface | p. 9 |
| Infinitesimal Displacements | p. 10 |
| Lagrange's Equations | p. 12 |
| Reciprocal Basis | p. 14 |
| Geodesic Motion | p. 19 |
| Role of Coordinates | p. 24 |
| Curvilinear Coordinate Systems | p. 27 |
| Line Element | p. 27 |
| Reciprocal Basis | p. 29 |
| Metric | p. 29 |
| Vectors | p. 30 |
| Tensors | p. 31 |
| Change of Basis | p. 33 |
| Transformation Law | p. 36 |
| Affine Connection | p. 39 |
| Example: Polar Coordinates | p. 41 |
| Particle on a Two-Dimensional Surface-Revisited | p. 43 |
| Motion in Three-Dimensional Euclidian Space | p. 43 |
| Parallel Displacement | p. 46 |
| Some Tensor Analysis | p. 51 |
| Covariant Derivative | p. 51 |
| The Riemann Curvature Tensor | p. 54 |
| Second Covariant Derivative | p. 60 |
| Covariant Differentiation | p. 64 |
| Symmetry Properties of the Riemann Tensor | p. 67 |
| Bianchi Identities | p. 68 |
| The Einstein Tensor | p. 69 |
| Example-Surface of a Sphere | p. 72 |
| Volume element | p. 76 |
| Special Relativity | p. 87 |
| Basic Principles | p. 87 |
| Four-Vectors | p. 88 |
| Relativistic Particle Motion | p. 91 |
| Lorentz Transformations | p. 98 |
| General Tensor Transformation Law | p. 109 |
| Relativistic Hydrodynamics | p. 111 |
| Transition to General Relativity | p. 120 |
| General Relativity | p. 123 |
| Einstein's Theory | p. 123 |
| Newtonian Limit | p. 126 |
| The Equivalence Principle | p. 131 |
| Local Freely Falling Frame (LF[superscript 3]) | p. 133 |
| Spherically Symmetric Solution to Field Equations | p. 135 |
| Solution in Vacuum | p. 143 |
| Interpretation of Schwarzschild Metric | p. 148 |
| A Few Applications | p. 152 |
| Precession of Perihelion | p. 155 |
| Lagrangian | p. 156 |
| Equations of Motion | p. 159 |
| Equilibrium Circular Orbits | p. 163 |
| Small Oscillations About Circular Orbits | p. 164 |
| Some Numbers and Comparison with Experiment | p. 169 |
| Deflection of Light | p. 171 |
| Gravitational Redshift | p. 173 |
| Basic Observation | p. 174 |
| Frequency Shift | p. 174 |
| Propagation of Light | p. 176 |
| A Cyclic Process | p. 178 |
| Neutron Stars | p. 181 |
| Hydrodynamics in General Relativity | p. 181 |
| Tolman-Oppenheimer-Volkoff (TOV) Equations | p. 190 |
| Relativistic Mean Field Theory of Nuclear Matter (RMFT) | p. 201 |
| Neutron Stars and Black Holes | p. 210 |
| Cosmology | p. 217 |
| Uniform Mass Background | p. 218 |
| Robertson-Walker Metric with k = 0 | p. 220 |
| Solution to Einstein's Equations | p. 225 |
| Interpretation | p. 229 |
| Cosmological Redshift | p. 233 |
| Horizon | p. 237 |
| Some Comments | p. 239 |
| Gravitational Radiation | p. 241 |
| Linearized Theory | p. 241 |
| Auxiliary (Lorentz) Condition | p. 245 |
| Plane-Wave Solution to the Einstein Field Equations | p. 250 |
| Interpretation | p. 253 |
| Detection | p. 257 |
| Special Topics | p. 263 |
| Einstein-Hilbert Lagrangian | p. 264 |
| Cosmological Constant | p. 267 |
| Additional Scalar Field | p. 268 |
| Robertson-Walker Metric with k [not equal] 0 | p. 270 |
| Inflation | p. 275 |
| Problems | p. 281 |
| Reduction of g[superscript mu nu delta] R[superscript mu nu] to covariant divergences | p. 321 |
| Robertson-Walker Metric with k [not equal] 0 | p. 335 |
| Bibliography | p. 327 |
| Index | p. 331 |
| Table of Contents provided by Ingram. All Rights Reserved. |