displacement laws,
123
‘Does the Inertia of a Body Depend Upon its Energy Content?’ (Einstein),
168–70
,
172
Dorato, Mauro,
84
Dostoyevsky, Feodor,
109
Dr. Euler’s Fabulous Formula
(Nahin),
91–92
DuBois, W.E.B.,
230
Dunn, Stephen,
266
‘Dynamical Theory of the Electromagnetic Field, A’ (Maxwell),
142
dynamic proofs,
31
dynamis,
50
E
=
mc
2
,
see
Einstein’s special theory of relativity
‘
E
=
mc
2
’ (Einstein),
178
ecoterrorism,
92
Eddington, Arthur,
201–4
,
205
,
206–8
Egyptians, ancient,
26
,
273
n
–74
n
Ehrenhaft, Felix,
184
Eidgenössiche Technische Hochschule (ETH),
191–93
,
196–97
,
222
Einstein, Albert,
17
,
33
,
45
,
156–79
,
179,
181
,
182
,
185–208
,
222
,
235
,
242
,
243
,
247
contrarian role played by,
130
on Copenhagen interpretation,
259–60
ether disproved by,
166
particle theory espoused by,
217–18
playful attitude of,
183–84
Pythagorean theorem proved by,
44
quantum theory and,
191
,
215
,
217
,
221
,
259–60
Roosevelt’s letter from,
175
unified emotional life and career of,
232–34
Einstein: His Life and Universe
(Isaacson),
210
‘Einstein A Go-Go’ (Landscape),
156–57
Einstein’s equation for general relativity,
82
,
110
,
167
,
185–208
,
227
,
268
bending of starlight predicted by,
185–87
,
193–95
,
198–99
,
200
,
201–8
Einstein’s equation for general relativity (
continued
)
conveying meaning of,
209–13
covariance in,
189
,
192
,
197
,
198–200
,
293
n
–94
n
equivalence principle in,
189–95
,
196
geometry of space-time in,
196–97
,
199
,
208
gravitational red shift and,
193
,
200
,
207
Mercury’s orbital precession explained by,
190–91
,
194
,
198
,
200
,
202
,
206
Minkowski’s space-time concept in,
191–93
,
196
Newton’s gravity law vs.,
188
,
190–91
,
207–8
Pythagorean theorem in,
33
,
192
,
279
n
sets of terms in,
199
,
208
,
293
n
–94
n
space-time curvature in,
185
,
186
,
196
,
206
,
207–8
thought experiment associated with,
187–89
Einstein’s special theory of relativity (
E
=
mc
2
),
33
,
92–93
,
149
,
156–79
,
157,
193
,
197
,
235–36
,
239
,
267
,
268
in atomic physics,
168–69
,
171–77
confirmations of,
172–73
as congener,
177–78
contraction of space and time in,
163
–
64
,
166–67
,
191
faster-than-light travel prohibited by,
128
,
164
mass-energy concept in,
46–47
,
156
,
168–77
,
178–79
,
185
,
194
and Newtonian vs. Maxwellian mechanics,
158–64
,
165–68
,
187
,
188
as popular culture icon,
92
,
156–57
,
177–79
,
235
Pythagorean theorem in,
33
,
166–67
,
167
speed of light in,
33
,
156
,
157
,
158–64
,
165
,
168–71
,
189
,
290
n
thought experiment associated with,
165
,
187
‘Einstein’s Third Paradise’ (Holton),
232–34
electrodynamics, electromagnetism,
113
,
122
,
124–25
,
126
,
132–51
,
158–64
,
165–69
,
216
displacement current in,
141
,
142
effects of,
139–40
mathematics of,
135
,
136
,
137–39
,
141
Newtonian view of,
135
physical models of,
139–42
,
140,
149
as structural foundation of modern era,
133
,
152
see also
Maxwell’s equations
electromagnetic fields,
133
electromagnetic waves,
123
,
133
,
143–44
discovery of,
145–47
light as,
141–42
as traveling through ether,
141–42
,
147
electrons,
205
,
216–17
,
222
,
225–26
,
238
,
239
,
251
,
253
,
255–57
,
298
n
electrostatic potential ψ,
143
,
147
,
149
,
150
,
151
Elegant Universe, The
(Greene),
211
Elementary Sketch of Physiology
(Magendie),
84
Elements
(Euclid),
22
,
32
,
35
,
59
,
95
,
98
,
129
,
278
n
in 1851 Crystal Palace exhibition,
42
Pythagorean theorem proof in,
22
,
24
,
27–28
,
28,
29
,
31
,
34
,
42
,
273
n
Elements of Algebra
(Euler),
98
Elizabeth I, Queen of England,
57
energy,
112
,
118
,
121
,
123
,
125
,
129
,
168
–
69
,
215
,
216
,
217–18
,
239
,
241
in Einstein’s mass-energy concept,
46–47
,
156
,
168–77
,
178–79
,
185
,
194
kinetic,
169
energy flux theorem,
289
n
entropy,
111
,
112
,
118
,
121–22
,
125
,
129
see also
thermodynamics, second law of
Epitome to Copernican Astronomy
(Kepler),
67
,
74
equations:
algebraic,
95
classification of,
274
n
in crazy-idea letters,
183
creative process in formulation of,
17–18
as cultural icons,
107–10
derivation of term,
14–16
determinate,
15
human genesis of,
16–18
indeterminate,
15
motivating trigger in birth of,
38
in
1984,
107–8
in scientific papers,
183
secular,
297
n
as tools of ongoing scientific enquiry,
92–93
,
105
unexpected productivity of,
147
wonder inspired by,
13–14
,
18–20
,
44
,
271–72
equipartition theorem,
121
,
126–27
earth’s motion with respect to,
126
,
144–45
,
161–62
,
166
Einstein’s disproof of,
166
electrodynamics and,
135
,
136
,
139
,
141
,
143
electromagnetic waves as traveling through,
141–42
,
147
Michelson-Morley experiment on,
147–49
,
161–64
Et Tu, Babe
(Leyner),
110
see also Elements
(Euclid)
analysis organized by,
95–96
,
98–99
,
104
,
105
,
136
background of,
93–94
death of,
98
Frederick the Great’s epithet for,
97
symbolic notation developed by,
96–97
,
98
Euler’s equation,
91–106
as evidence in criminal trial,
92
functions linked by,
99–106
Experimental Researches in Electricity
(Faraday),
135
exponential functions,
99–106
Fabric of the Cosmos, The
(Greene),
211
falling apple legend,
69
,
70
,
88–90
falling bodies:
Aristotle’s theories of,
70–71
impetus acquired by,
54
Faraday, Michael,
135–36
,
137–40
electronic state postulated by,
135
,
138
,
140
lines of force concept of,
135
,
136
,
137–39
Farmelo, Graham,
274
n
Fermat’s last theorem,
33
Fermi, Enrico,
174–75
on electrodynamics,
133
,
145
,
151
Euler’s equation praised by,
91
on Newton’s law of gravity,
78
personality of,
232
‘Field Equations of Gravitation, The’ (Einstein),
199
final theory,
68
FitzGerald, George,
126
,
146–47
,
148
,
151
,
162–63
,
166
,
167
,
187
Fizeau, Armand,
141
Flanagan, Hallie,
156
flat earth cosmos,
25–26
Flatland: A Romance of Many Dimensions
(Abbott),
211
fluxions, theory of,
96
force,
46–48
,
51–58
,
59
,
60
,
61–62
,
63
,
71
,
78
,
81
,
128
,
188
,
199
,
207
derivation of term,
58
external vs. internal,
53
,
59
,
78
Galileo’s conception of,
58
Greek sympathies as,
71
heat as,
114–15