Einstein and the Quantum (53 page)
Read Einstein and the Quantum Online
Authors: A. Douglas Stone
Einstein, Eduard,
152
Einstein, Elsa,
164
â
165
,
193
,
194
â
196
,
210
Einstein, Hans Albert,
86
Einstein, Mileva Maric,
4
,
16
,
20
,
22
,
167
; children of,
86
,
87
,
152
,
167
; divorce from Einstein,
194
â
196
; early relationship with Einstein,
23
â
25
; Einsteins' correspondence with,
26
â
27
,
36
,
44
,
46
,
47
,
106
; marriage to Einstein,
48
,
62
,
63
,
129
â
130
,
152
,
164
â
165
; move to Berlin,
167
Electromagnetic (EM) radiation,
7
â
8
,
42
; blackbody,
56
â
60
,
70
â
74
,
78
â
79
,
91
,
97
â
98
,
108
,
138
,
184
â
185
,
291
; Boltzmann's principle and,
56
â
58
; conservation of energy and,
74
â
75
; Einstein's struggles with quantum theory of,
153
â
156
; frequency and,
97
â
98
; gas molecules' interaction with,
189
â
190
; Maxwell's work on,
33
â
34
,
83
; Planck's constant and,
154
â
155
; Rayleigh-Jeans law and,
100
â
102
,
119
â
120
,
292
; thermal radiation law,
291
,
293
â
294
; visible,
11
â
12
,
113
â
119
; wavelengths,
72
â
73
; waves,
81
â
85
; Wien law and,
94
â
99
,
292
.
See also
Maxwell's equations
;
Planck's law
Electrons,
45
,
81
; orbital frequencies,
174
â
178
,
183
â
184
; orbits,
200
â
202
; photoelectric effect and,
78
â
79
; wavefunction,
265
â
267
,
275
â
276
Elementary Principles of Statistical Mechanics
,
49
Elsasser, Walter,
252
“Emission and Absorption of Radiation in Quantum Theory,”
184
â
185
Emission of light: directed,
192
; Einstein's flawed experiment on,
210
â
211
; spontaneous,
186
,
224
â
225
; stimulated
187
,
224
â
225
Emission theory of light,
137
Energy: Dulong-Petit law,
103
â
108
; emission and,
137
,
186
â
187
; fluctuations,
250
â
251
; free,
49
; frequency and,
68
â
69
,
72
; ground state,
185
â
186
,
229
; linear oscillator and,
174
â
175
; orbital,
174
â
178
; peak frequency and,
95
â
96
; photoelectric effect and,
78
â
79
; potential,
68
â
69
,
265
â
266
; quantization of,
97
â
98
,
106
â
110
,
131
â
132
,
219
â
224
,
264
â
265
; Rayleigh-Jeans law,
100
â
102
,
119
â
120
; temperature and,
38
,
96
; thermal,
67
â
68
; ultraviolet catastrophe and,
72
,
98
â
102
,
99
â
100
,
102
; Wien law and,
94
â
99
Entropy,
42
,
51
â
55
,
67
,
238
; additivity of,
238
; blackbody radiation and,
56
â
60
,
74
; Boltzmann's equation for,
51
â
2
,
56
,
58
,
68
,
91
,
115
,
154
,
288
; Bose on,
220
â
222
; calculations using Planck's resonators,
91
â
92
; chance and,
232
â
233
; Second Law of thermodynamics and,
10
,
41
,
54
,
56
,
57
; thermal equilibrium and,
7
,
100
â
102
,
140
,
185
â
186
,
189
,
224
,
250
,
291
; Third Law of thermodynamics and,
144
,
238
Equilibrium, thermal,
185
â
186
Ether, the,
83
â
85
,
99
â
100
,
132
Failure of Planck-Wien Law,
9
â
11
Faraday, Michael,
26
,
30
â
31
,
34
â
35
Fermi, Enrico,
269
First Law of thermodynamics,
41
,
48
â
49
Fluctuations, energy,
250
â
251
Force, fluctuating,
191
Force-carrying particle.
See
Photons
Formal education of Einstein,
15
â
20
,
46
â
47
Franck, James,
276
Free energy,
49
Frequency,
68
â
69
,
72
,
75
â
76
,
293
; electron orbital,
174
â
178
,
183
â
184
; low,
98
â
99
; peak,
95
â
96
; rest,
248
; transition,
270
â
271
Friction,
190
Fundamental constants,
116
â
117
Fusion theory of light,
137
â
138
,
281
Gas(es): Boltzmann's constant and,
51
â
55
; Boyle's Law and,
38
,
221
; ideal gas law,
221
,
230
â
238
,
261
; interaction with radiation,
189
â
190
; molecular motion,
39
â
41
,
51
â
55
; particles,
81
,
96
; photon gas,
221
â
223
,
230
; pressure,
38
; quantum ideal,
229
,
230
â
232
,
235
â
238
.
See also
Energy
Geiger, Hans,
211
,
283
â
284
; experiment on atomic nucleus,
172
; experiment with Bothe on Compton Effect,
283
; experiment on elementary charge,
114
,
138
;
General theory of relativity,
84
,
123
,
161
,
183
,
207
; Einstein's struggle with,
283
; equivalence principle and,
123
; expedition to test,
204
; reaction to,
162
,
205
.
See also
Theory of relativity
German Physical Society,
5
,
8
,
10
â
11
,
12
â
13
,
179
,
201
Gibbs, Josiah Willard,
49
â
50
,
51
,
56
,
91
,
95
,
259
Gladstone, William,
31
Gordon, Walter,
273
Gravitational attraction,
232
Gravitational constant,
154
Grossman, Marcel,
20
,
21
â
22
,
45
Haber, Fritz,
145
,
163
â
164
,
165
; World War I and,
168
,
169
Harmonic oscillation,
199
â
200
,
270
Hartog, P. J.,
218
Hasenohrl, Fritz,
259
Heat: entropy,
42
,
51
â
55
; laws of thermodynamics and,
9
â
10
,
41
; Planck's work on light and,
5
,
6
â
7
; specific,
97
,
103
â
110
,
141
,
146
â
147
Heisenberg, Werner,
212
,
226
,
238
,
255
,
268
â
269
,
284
; Bohr and,
268
,
269
â
270
; Born on,
269
; discovery of uncertainty principle,
278
; on light absorption,
270
â
271
; matrix mechanics of,
272
â
274
; nomination for Nobel prize,
280
; on transition frequencies,
270
â
271
Herzog, Albin,
15
Higgs boson,
217
Ideal gas law,
221
,
229
â
230
; Einstein on,
230
â
238
; Schrödinger and,
261
â
263
Japan, Einstein's visit to,
212
â
213
Jaumann, Gustav,
151
Jeans, James Hopwood,
10
â
11
,
99
â
102
,
126
â
127
,
131
,
292
;
Dynamical Theory of Gases
,
99
; Solvay and,
149
Jewish identity of Einstein,
208
â
209
Jordan, Pascual,
192
,
255
,
271
,
272
Kallmann, Hartmut,
273
Kamerlingh-Onnes, Maryke,
195
Kirchoff, Gustav,
25
Kirchoff's law,
291
Kurlbaum, Ferdinand,
5
,
8
,
11
â
12
,
58
,
99
,
143
Langevin, Paul,
157
,
225
,
241
â
242
,
249
â
250
Laplace, Pierre Simon de,
29
,
40
,
42
Laub, Jakob,
122
,
124
â
125
,
133
,
153
Laws of thermal radiation: mathematical statement of radiation laws,
293
â
294
; overview of radiation laws,
291
â
292
; Planck's law,
5
,
8
,
51
,
74
,
134
,
196
,
292
; Planck-Wien Law,
5
,
8
,
9
â
12
,
58
(
see also
Wien's law
this entry
); Rayleigh-Jeans Law,
100
,
119
â
120
,
125
,
220
,
288
,
291
â
294
; Stefan-Boltzmann Law,
72
â
73
101
; Wien's law,
9
,
11
,
58
,
74
,
94
â
99
,
246
,
287
,
292
â
294
.
See also
Blackbody radiation
;
Thermal radiation
