1086 INDEX
Gravitation,
relativistic
theory
of
(cont.)
heuristics
of, 216, 217,
230
ignorance
of
in
England,
323,
359n
laboratory
test
of, 197
Lagrangian
in, 419,
430
mathematical roots
of,
690n
mechanics
of
deformable bodies
in,
368-370
mechanics
of
solid bodies in, 934-935, 951
metric: dimension to,
536;
from electric field,
142n;
inside and outside
rotating
hollow
sphere,
481-483;
nonsymmetric,
582-
584,
610-611, 644-646,
656;
time-
independent,
485
Newton’s
theory
in,
208,
214,
223, 232,
265
perihelion
motion
of
Mercury
in,
201,
204,
208, 215, 217, 218, 221,
223,
231,
232,
235, 240, 244,
263
privileged
frame
in,
230 390
reception of,
210,
223,
347,
348,
350n, 561,
562n,
605
regularity
condition
in,
712
relativity
of
inertia
in,
287. See
also
Sitter,
Willem de
research
on
in
Netherlands,
350n, 426n
summation convention
in,
249
universe: size
of
in,
360n, 385, 386, 390, 392,
393, 401,
404-406, 557,
627,
670
variational formulation
of,
275
world
matter in,
414
Gravitational effect:
of
infinite stellar
system,
644;
of
relative
acceleration,
439-440
Gravitational field: from
four-potential,
584,
644,
646;
measurement in, 633; molecular,
194, 201;
real and
apparent,
16;
real and
imaginary,
632, 640, 649,
750;
responsible
for anomalies in
perihelion motion,
100-101;
in
small
scale
and
in
large
scale,
240, 258-259, 661;
weak
static, 100-101.
See
also
Gravitational field
equations
Gravitational field
equations:
Hamiltonian form of, 251
Poisson form of,
207,
976
solution of: with
cosmological
term,
with
matter,
415-416,
473,
501,
without
mat-
ter, 414,
415-416,
466-467,
473, 501,
712-713,
725n, 765n,
778; without
cos-
mological
term,
with
matter, 302,
368,
534-535; in first
approximation,
302;
for
rotating
hollow
sphere,
375n,
481-183,
500; Schwarzschild, 725n, exterior, 224,
interior, 259-260,
473,
749;
from unified
field
theory
of
Weyl,
878,
893
solutions
of, static,
725n
uniqueness
of,
248
Gravitational
lens, 185
Gravitational
light
deflection:
221, 232, 242n,
560;
by
celestial
bodies, 205, 215; by Jupiter,
13,
208, 215, 216n, 241,
256,
258, 264, 469,
470, 560; novae
as
result
of, 185;
as special
case
of
perihelion motion, 375n; by
Sun, 19n,
57n, 208,
215,
469, 470, 560
Gravitational lines
of
force in
crystals,
608n
Gravitational
potential:
relativity of, 459,
460n-461n,
462,
692;
uniformity
of
in
uni-
verse,
358, 413, 423, 467;
velocity-depen-
dence
of, 345n,
373
Gravitational
radiation,
697
Gravitational redshift:
221, 232, 894, 941; solar,
13, 14n, 470, 879, 894;
stellar, 88,
91, 94,
136, 147, 205,
208,
214, 216n,
255, 257n,
261,
262,
264,
470, 560
Gravitational
waves, 265, 300, 301n, 302, 303n,
314,
374, 611,
697, 698,
699n,
753n
Great Britain: 150; and US
as
guarantors
of
peace,
962
Greenwall,
H.
J.,
963n
Greinacher,
Heinrich (1880-1974),
148,
152
Grob,
August
(1870-1954), 665
Grommer,
Jakob (1879-1933), 484
Groos,
Karl (1861-1946), 888
Grossmann,
Marcel (1878-1936):
305, 509,
690n; AE,
collaboration
with, 201, 207, 218,
233,
245, 436; on
Entwurf
theory, 13,
role
of
in
creating,
147;
on special relativity,
348
Gruneisen, Eduard, 66n, 175
Guillaume, Edouard (1881-1959):
AE,
Lorentz
transformation, discussion
with
on,
524,
525-526, 528,
533,
536-537,
on
universal
time, discussion
with
on, 526, 528,
536-537
Guillaume,
Hélène (1883-1928), 528n
Guye,
Charles (1866-1942),
814,
913
Gyrocompass, expert opinion
on, 790,
811-812,
832, 837, 857
Gyroscope,
812n
Haab,
Robert
(1865-1939),
852n
Haas, Albert de (1913-?), 85n
Haas,
Aletta de (1913-?), 85n
Haas,
Johanna
de,
299