INDEX
703
299;
letter
to
Lorentz, Hendrik, 273;
paper
with
AE,
589-596
Force:
centrifugal, 549, 617
(see
also Eötvös,
Roland
von, experiments
on
equality
of
inertial and
gravitational mass);
coriolis,
295,
392,
499-500, 549;
electromotive,
15, 27, 84; gravitational:
see
Gravitation,
relativistic
theory of, dynamic
field and
Gravitation,
relativistic
theory
of,
static
field;
Lorentz:
see
Lorentz
force;
magne-
tomotive,
27, 84; ponderomotive,
14,
20-
24, 152, 153, 184,
202n
Fourier
series, 282, 599,
602n,
603
Four-vector.
See
Vector
Frame of reference,
39;
inertial, 547;
pre-
ferred,
31,
40, 66,
183,
299-300, 483,
498,
539, 547, 572, 575,
594, 610, 617-618,
620
Frank,
Michael:
paper
on
fields induced
by
rotating
frames, 194
Freundlich,
Erwin
Finlay (1885-1964),
510n;
correspondence
with
AE, 123, 295,
485n,
587n;
letter
from
AE, 197,
295, 298, 344,
443n, 502n, 510n,
510n, 577n
Galilean
mechanics, 484, 538, 547, 585, 609.
See
also
Transformation,
Galilean
Gamma
rays,
554
Gas:
diffusion
in, 528; equation
of
state
of
ideal,
525;
heat conduction
in,
527-528;
mean
free
path in, 527-529;
specific
heat
of:
see
Specific heat;
Van
der Waals's the-
ory
of,
529;
viscosity
in:
see
Viscosity
Gauss's
theory
of
surfaces, 193-195, 209n,
245n, 589
Geiser,
Carl Friedrich
(1843-1934):
AE
and
lectures
on
infinitesimal
geometry by,
193,
209n
General
relativity, theory
of. See Gravitation,
relativistic
theory of, dynamic
field and
Gravitation,
relativistic
theory of,
static
field
Geodesic,
194, 195,
209n
Geometry:
infinitesimal,
193,
209n;
practi-
cal,
104n
Gesellschaft Deutscher Naturforscher
und
Ärzte
(GDNA):
AE's lecture
(1909),
110;
AE's lecture
(1913):
126,
295,
297, 298,
299, 358, 470, 471n, 487-500, 581,
dis-
cussion
following,
505-509
Gibbs,
Josiah Willard
(1839-1903),
561
Gravitational
constant,
135, 137,
492, 497;
calculation
of,
413n, 421n, 431n, 447n; in
'Entwurf'
and
Newton's
theory,
348,
360,
365,
468
Gravitational
potential,
influence
on
physical
laws
of,
488
Gravitation,
relativistic
theory of, dynamic
field,
127, 183,
201-269, 303-339,
360-
472, 475-476, 478-484, 487-500,
505-
509, 547-550,
567-569, 572-576,
580-
581,
584-586,
589-596, 616-620;
deflec-
tion of
light rays in,
295,
299,
422, 475,
479, 490,
498,
507, 548,
586; energy
of
continuous
mass
distribution
in, 311,
491,
494;
energy
of
point
mass
in, 308,
490;
'Entwurf'
theory:
see
'Entwurf'
theory
of
AE
and
Marcel
Grossmann;
equation
of
motion of continuous
mass
distribution
in,
214n, 246n, 247n, 249n, 310-312;
equa-
tion of motion of
point
mass
in, 193,
214n,
249n, 307-309, 489; field
equations,
196-
197,
262,
312-318,
338-339, 482-483,
492, 496,
568,
574,
575,
581, 593,
595;
field of
rotating ring, 127,
194,
359,
464;
field of
rotating
shell, 295,
359,
432-434;
field of
rotating
sun: see
Perihelion;
force
on
continuous
mass
distribution
in,
311,
491,
494; force
on
point
mass
in, 308,
490;
Lagrange formalism,
213,
248,
308,
489-
490;
momentum
of
continuous
mass
dis-
tribution
in,
311, 491, 494;
momentum
of
point
mass
in, 308,
490;
postulates of,
488;
question
of reduction
to
a
scalar
of,
321-323
(see
also
Nordström, Gunnar,
theory
of
gravitation
of);
ugly
dark
spot
on,
297
Gravitation,
relativistic
theory
of,
static
field,
122-128, 130-144,
147-162, 175-178,
181-186,
251,
305-307; acceleration
in,
130-137,
175,
252n,
478,
489;
deflection
of
light rays
in, 123;
and
electrodynamics,
124,
147-154; energy
density of, 124,
161-162,
567; energy
of
point
mass
in,
138,
176,
186,
306;
entropy
of
a
system
in,
155; equation
of motion of
point
mass
in,
135-140,
162, 176,
305-307;
field
equa-
tions,
123,
125,
135, 137,
156-162, 202n;
field of
a
static
sun: see
Perihelion;