INDEX
611
lectures:
course on
electricity
and
mag-
netism
at ETH, 67n, 68n;
course on
kinetic
theory
of heat
at University
of
Zurich,
170n, 189n,
579n;
course on
relativity at University
of
Berlin,
44-
66; inaugural
lecture
to
Prussian Acad-
emy
of
Sciences, 20-23;
lectures
on
Ampère’s
molecular
currents to
Deut-
sche
Physikalische
Gesellschaft
(DPG), 145, 147,
151-169, 271-275;
lecture
on
Jacobi’s theorem
to DPG,
578n;
lecture
on
perihelion
motion of
Mercury to
Prussian
Academy
of Sci-
ences,
234-242;
lecture
on
quantum
theorem of Sommerfeld and
Epstein
to
DPG,
556-566;
lectures
on
quantum
theory
to
DPG, 30-38,
398n;
lecture
on
theory
of Tetrode and Sackur
to DPG,
261n;
lecture
on
theory
of
water
waves
and of
flight to
DPG, 402n;
memorial
lecture for Karl Schwarzschild
to
Prus-
sian
Academy
of
Sciences, 359-361
Einstein-De Haas
effect,
148. See
also
Ampère’s
molecular
currents
Einstein-Richardson effect.
See
Einstein-De
Haas effect
Einstein,
Elsa
(1876-1936):
letter
to
Ehrenfest, Paul,
417
Einstein,
Hans Albert
(1904-1973):
letter
from
AE,
147
Einstein,
Ilse
(1897-1934), 535n,
537n
Electrodynamics,
21, 45-48, 59-66,
264-
268, 360, 365, 457, 476, 525-526, 577;
and
Ampère’s
molecular
currents,
146,
151, 173, 191; contiguous
action
interpre-
tation
of,
457;
covariant formulation
of,
59-65, 67n, 68n, 105-109,
129n, 135,
264-268, 327-330, 408n;
field
equations
for
moving
media:
46, 73,
with
polariza-
tion
currents, 108-109,
without
polarization
currents,
107;
field
equations
for
stationary
media, 65-66, 266;
field
equations
for
vacuum, 59, 106,
264-267,
327-330, 340;
and
general relativity,
105-
109,
226, 264-267, 269n, 294, 318,
325-
326, 327-330, 536n;
law of conservation
of
energy
in, 65;
law
of conservation of
energy-momentum in,
109,
219, 264,
267-
268; law
of conservation of
momentum in,
66;
Maxwell field
tensor, 59-63,
106,
264-267, 327-328;
and
quantum theory,
356, 364, 368, 370n, 382, 384, 385, 387,
388, 392, 395;
retarded
potential,
348,
350;
and
special relativity, 4,
26, 59-65,
75,
132,
264, 266, 280, 325, 328, 330,
433,
437, 452, 453-455, 458, 459,
527.
See
also Electron
theory,
Lorentz’s
Electromagnetism.
See
Electrodynamics
Electron, 454, 458-459, 536n;
charge of,
364, 370n, 526;
circulating
intra-atomic:
146,
147,
151-152,
153, 165, 169, 170n,
173, 174,
183,
189n, 191,
determination of
sign
of
charge
of,
163-165, 179, 183-184,
189n,
192
(see
also
Ampère’s
molecular
currents); equation
of motion
of, 64-65,
458-459;
gyromagnetic
factor
of, 148,
149; positive,
165,
179; radiating:
146,
147, 152, 173, 191,
and
gravitational
waves, 356; specific charge of,
147,
148,
152,
168,
170n, 175,
184,
188, 189n,
192
Electron
theory, Lorentz’s, 45-48,
61,
67n,
151,
169,
170n, 173, 189n, 191,
437, 452;
field
equations of, 106
Electrostatics,
476
Energy: current, 98; density,
98,
355, 392;
equipartition
theorem
of,
383, 390, 398n,
577; fluctuations,
of
oscillator, 365; free,
31, 250, 251;
of
gravitational waves,
353-
356;
inertia
of:
see
Mass-energy equiva-
lence; kinetic,
64, 103,
383, 389, 390,
454,
456, 542; law
of conservation
of,
4,
65,
100,
238-239, 455, 456;
of mixture of
molecules,
31;
of oscillator molecule:
see
Oscillator;
of
point
mass,
64,
103,
454,
456;
potential, 545;
transfer
by
radiation,
366-367,
385-387, 396-397;
zero-point:
see
Zero-point energy
Energy
states,
degeneracy
of,
39n
Energy-momentum:
law
of conservation
of:
of
electromagnetic
field,
109,
219, 264,
267-268,
of
gravitational
field, 319-321,
323-324, 346n,
of
matter,
9, 11,
97-101,
219-220, 221, 246, 248,
324-325,
350-
351, 550,
of
matter
and
gravitational field,
9, 100, 120,
221, 247,
324, 351, 414-415,
416n, 493; vector,
of
point mass, 103, 125,
127-128, 544
Ensemble:
canonical,
36,
250, 384;
microca-
nonical,
36,
562