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Общая теория относительности - Хокинга В.

Хокинга В. Общая теория относительности — М.: Мир, 1983. — 455 c.
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Lett., 38, 301—4 (1977).
64. Nordtvedt K., Jr., Quantitative relationship between clock
gravitational redr. shift violations and non-universality of free-fall
rates in non-metric theories of gravity. Phys. Rev., DU, 245—7 (1975).
65. Haugan M. P., Energy conservation and the principle of equivalence,
Ann. Phys. (N. Y.) (в печати).
66. Haugan Л1. P., Will С. М., Weak interactions and Eotvos experiments.
Phys. Rev. Lett., 37, 1—4 (1976).
67. Chapman P. K-, Hanson A. J., An Eotvos experiment in Earth orbit. In:
Proceedings of the Conference on Experimental Tests of Gravitation
Theories, ed. R. W. Davies, pp. 228—35, NASA-JPL Technical Memorandum 33—
499, 1971.
68. Chiu H.-Y., Hoffman W. P., Introduction. In: Gravitation and
Relativity, eds. H. Y. Chiu and W. F. Hoffman, pp. XIII—XXXV. Benjamin,
New York, 1964.
69. Dyson F. J., The fundamental constants and their time variation. In:
Aspects of Quantum Theory, eds. A. Salam and E. P. Wigner, pp. 213—36.
Cambridge University Press, 1972,
70. Wolfe A. М., Brown R. L., Roberts M. S., Limits on the variation of
fundamental atomic quantities over cosmic time scales. Phys. Rev. Lett.,
37, 179—81
(1976).
71. Shliakhter A. /., Direct test of the constancy of fundamental nuclear
constants. Nature, 264 , 340 (1976).
72. Solheim J.-E., Barnes T. G., Ill, Smith H. J., Obervational evidence
against a time variation in Planck’s constant. Astrophys. J., 209, 330—4,
(1976).
73. Baum W. A., Florentin-Nielsen R., Cosmological evidence against time
variation of the fundamental atomic constants. Astrophys. J., 209, 319—29
(1976).
74. Turneaure J. P., Stein S. R., An experimental limit on the time
variation of the fine structure constant. In: Atomic Masses and
Fundamental Costants, vol. 5, eds. J. H. Sanders and A. H. Wapstra, pp.
636—42. Plenum, New York,
1976.
75. Paget В. E. J., On the limits to past variability of the proton-
electron mass ratio set by quasar absorption lines. Mon. Not. R. Astron.
Soc., 179, 81P— 85P (1977).
76. Davies P. C. W., Time variation of the coupling constants. J. Phys.,
A5, 1296— 1304 (1972).
77. Will С. М., Relativistic gravity in the solar system. III.
Experimental disproof of a class of linear theories of gravitation.
Astrophys. J., 188, 31—42
(1973).
78. Lee D. L., Lightman A. P., Ni W-Т., Conservation Laws and variational
principles in metric theories of gravity. Phys. Rev., D10, 1685—1700
(1974).
79. Eddington A. S., The Mathematical Theory of Relativity. Cambridge
University Press, 1922.
80. Robertson H. P., Relativity and cosmology. In: Space Age
Astronomy, eds.
A. J. Deutsch and W. B. Klemperer, pp. 228—35, Academic Press, London,
New
York, 1962.
81. Schiff L. /., Comparison of theory and observation in General
Relativity. Ini Relativity Theory and Astrophysics. I. Relativity and
Cosmology, ed. J. Ehlers, pp. 105—16. American Mathematical Society,
Providence, 1967.
82. Will С. М., Relativistic gravity in the solar system. II. Anisotropy
in the Newtonian gravitational constant. Astrophys. J., 169, 141—55
(1971).
83. Nordtvedt K., Jr., Will С. Л1., Conservation laws and
preferred frames in relativistic gravity. II. Experimental evidence
to rule out preferred-frame the-
ories of gravity. Astrophys., J., 177, 775—92 (1972).
84. Will С. М., Theoretical frameworks for testing relativistic gravity.
Ill Con-
80
К. М. Уилл
servation laws, Lorentz invariance, and values of the PPN parameters.
Astro-phys. J., 169, 125—40 (1971).
86. Deser S., Laurent B., Linearity and parametrization of gravitational
effects. Astron. Astrophys., 25, 327—8 (1973).
86. Duff M. J., On the significance of perihelion shift calculations.
Gen. Relativ. Grav., 5, 441—52 (1974).
87. Shiff L. /., Motion of a gyroscope according to Einstein’s theory of
gravitation. Proc. Nat. Acad. Sci. USA, 46, 871—82 (1960).
88. Nordtvedt K., Jr., Equivalence principle for massive bodies. II.
Theory. Phys. Rev., 169, 1017—25 (1968).
89. Will С. М., Theoretical frameworks for testing relativistic gravity
II. Parametrized post-Newtonian hydrodynamics and the Nordtvedt effect.
Astrophys. J., 163, 611—28 (1971).
90. Baierlein R., Testing General Relativity with laser ranging to the
Moon. Phys. Rev., 162, 1275-88 (1967).
91. Will С. М., Active mass in relativistic gravity: Theoretical
interpretation of the Kreuzer experiment. Astrophys. J., 204, 224—34
(1976).
92. Nordtvedt K., Jr., Testing relativity with laser ranging to the Moon.
Phys. Rev., 170, 1186—7 (1968).
93. Anderson J. L., Principles of Relativity Physics. Academic Press,
London, New York, 1967.
94. Ni W.-T., Theoretical frameworks for testing relativistic gravity.
IV. A compendium of metric theories of gravity and their post-Newtonian
limits. Astro-phis. J., 176, 769—96 (1972).
95. Bergmann P. G., Comments on the Scalar-Tensor theory. Int. J. Theor.
Phys., 1, 25—36 (1968).
96. Nordtvedt K., Jr., Post-Newtonian metric for a general class of
Предыдущая << 1 .. 30 31 32 33 34 35 < 36 > 37 38 39 40 41 42 .. 222 >> Следующая

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