Michelson's Interference Experiment / H. A. LorentzI.: |
The experiment / 1.: |
The contraction hypothesis / 2.: |
The contraction in relation to molecular forces / 3-4.: |
Electromagnetic Phenomena in a System Moving with any Velocity less than that of Light / II.: |
Experimental evidence |
Poincare's criticism of the contraction hypothesis |
Maxwell's equations for moving axes / 3.: |
The modified vectors / 4.: |
Retarded potentials / 5.: |
Electrostatic fields / 6.: |
A polarized particle / 7.: |
Corresponding states / 8.: |
Momentum of an electron / 9.: |
The influence of the earth's motion on optical phenomena / 10.: |
Applications / 11.: |
Molecular motions / 12.: |
Kaufmann's experiments / 13.: |
On the Electrodynamics of Moving Bodies / A. EinsteinIII.: |
Kinematical Part |
Definition of simultaneity |
On the relativity of lengths and times |
The transformation of co-ordinates and times |
Physical meaning of the equations |
The composition of velocities |
Electrodynamical Part |
Transformation of the Maxwell-Hertz equations |
Doppler's principle and aberration |
The energy of light rays and the pressure of radiation |
Transformation of the equations with convection currents |
Dynamics of the slowly accelerated electron |
Does the Inertia of a body depend upon its energy-content? / IV.: |
Space and Time / H. MinkowskiV.: |
The invariance of the Newtonian equations and its representation in four dimensional space |
The world-postulate |
The representation of motion in the continuum |
The new mechanics |
The motion of one and two electrons |
Notes on this paper / A. Sommerfeld |
On the Influence of Gravitation on the Propagation of Light / VI.: |
The physical nature of gravitation |
The gravitation of energy |
The velocity of light |
Bending of light-rays |
The Foundation of the General Theory of Relativity / VII.: |
Fundamental Considerations on the Postulate of Relativity / A.: |
Observations on the special theory |
The need for an extension of the postulate of relativity |
The space-time continuum; general co-variance |
Measurement in Space and Time |
Mathematical Aids to the Formulation of generally Covariant Equations / B.: |
Contravariant and covariant four-vectors |
Tensors of the second and higher ranks |
Multiplication of tensors |
The fundamental tensor g[subscript mu nu] |
The equation of the geodetic line |
The formation of tensors by differentiation |
Some cases of special importance |
The Riemann-Christoffel tensor |
Theory of the Gravitational Field / C.: |
Equations of motion of a material point |
The field equations of gravitation in the absence of matter / 14.: |
The Hamiltonian function for the gravitational field. Laws of momentum and energy / 15.: |
The general form of the field equations / 16.: |
The laws of conservation / 17.: |
The laws of momentum and energy / 18.: |
Material Phenomena / D.: |
Euler's equations for a fluid / 19.: |
Maxwell's equations for free space / 20.: |
Applications of the Theory / E.: |
Newton's theory as a first approximation / 21.: |
Behaviour of rods and clocks in a static gravitational field. Bending of light rays. Motion of the perihelion of a planetary orbit / 22.: |
Hamilton's Principle and the General Theory of Relativity / VIII.: |
The principle of variation and the field-equations |
Separate existence of the gravitational field |
Properties of the field equations conditioned by the theory of invariants |
Cosmological Considerations on the General Theory of Relativity / IX.: |
The Newtonian theory |
The boundary conditions according to the general theory of relativity |
The spatially finite universe |
On an additional term for the field equations of gravitation |
Calculation and result |
Do Gravitational Fields Play an Essential Part in the Structure of the Elementary Particles of Matter? / X.: |
Defects of the present view |
The field equations freed of scalars |
On the cosmological question |
Concluding remarks |
Gravitation and Electricity / H. WeylXI.: |
Michelson's Interference Experiment / H. A. LorentzI.: |
The experiment / 1.: |
The contraction hypothesis / 2.: |