Read The Story of Astronomy Online
Authors: Peter Aughton
solar parallax,
123
â4
Solovine, Maurice,
212
solstices, precession of,
42
Sosigenes,
41
South, James,
189
â90
space exploration,
305
â25
spectrographs,
205
spiral nebulae,
231
â4,
237
â8
Spirit
rover,
309
Spitzer Space Telescope,
322
â3
Sputnik I
,
305
stars
ancients' understanding of movements,
47
,
48
death,
252
â8
distribution in sky,
186
â7,
189
â91
and element formation,
253
,
254
,
256
â7,
265
â9,
297
â8
escape velocities,
271
globular star clusters,
235
â6
Helvelius' maps,
127
magnitudes and positions,
36
â7,
57
,
86
â7,
200
â1,
204
â5,
229
â31,
341
â4
photographs,
204
spectral features,
205
â6,
231
â3
stellar parallax,
200
â1,
204
â5,
341
supernovae,
83
â4,
91
,
257
â8,
261
â9,
325
telescopes lead to discovery of many more,
102
â3
variable stars,
230
â1,
236
,
237
â8,
342
why they shine,
245
â7,
251
â2
see also individual stars by name
steady-state theory,
243
,
297
,
327
â9
stellar parallax,
200
â1,
204
â5,
341
Strabo,
33
Stukeley, William,
132
Sumerians,
16
â18
Sun
ancients' understanding of movements,
2
,
5
â10,
13
,
23
,
26
,
44
,
48
and Babylonians,
19
classification as star,
154
and Copernican cosmology,
71
â80,
104
â8
death,
252
â4
distance from Earth and size,
29
â30,
38
â40,
46
,
152
,
177
distance from planets,
94
gravitational effect on planets' orbits,
138
â45
position in Milky Way,
186
â7,
235
â6,
346
solar parallax,
123
â4
solar wind,
323
space observation of,
323
why it shines,
251
â2
worship,
14
see also
eclipses, solar; stars
supernovae,
83
â4,
91
,
257
â8,
261
â9,
325
super-sphere,
285
â6
Tariq ibn Ziyad,
66
telescopes
Allen Telescope Array,
274
â5
Chandra,
322
Compton,
322
examples through history,
2
Hale,
237
Horrocks' poem about,
115
Hubble Space,
237
,
241
,
317
,
319
â22,
345
invention,
100
â1
Jodrell Bank,
261
Keck Telescopes,
321
new techniques,
321
radio,
259
â63
Spitzer Space,
322
â3
Tempel 1 (comet),
324
â5
tensor calculus,
224
Thales,
23
thermodynamics,
298
â9
3C 48 (star),
279
tides,
10
time
and special theory of relativity,
213
,
215
time measurement
on board ship,
172
â6
and distance from equator,
169
â70
length of months,
42
and longitude calculation,
163
â76
origin of days of the week,
19
origin of minutes and seconds,
18
see also
calendars; clocks and watches
Tombaugh, Clyde,
318
Towneley, Richard,
152
trigonometry,
57
Triton,
317
Tully, Brent,
342
21-cm hydrogen line,
342
â3,
346
â7
Twin Quasar,
223
umbra,
28
uncertainty principle,
250
unified field theory,
333
â7
universe
expansion,
221
â2,
231
â2,
239
â43,
353
â7
“Great Debate,”
233
â4
measuring,
340
â9
nature of,
285
â9
size,
187
â8,
200
â1,
231
â4,
237
â9
steady-state theory,
243
,
297
,
327
â9
structure,
344
â52
Uraniborg,
84
â6
uranium,
249
Uranus,
182
â4,
312
,
317
,
360
â1
Urban VIII, Pope (Cardinal Barberini),
104
,
105
,
106
Urey, Harold,
364
vacuum energy theory,
356
Venera
probes,
310
Venus
ancients' understanding of movements,
10
and Copernican cosmology,
77
,
78
death,
253
exploration,
310
â11
orbit and size,
119
â23
phases,
102
use to determine EarthâSun distance,
177
Viking
missions,
307
â8
virtual particles,
300
â1
voids,
352
Vostok I
,
305
â6
watches
see
clocks and watches
water hole,
274
wave equation,
250
Whiston, William,
170
â1
white dwarfs,
254
Wickens, John,
129
Wilkinson Microwave Anisotropy probe,
329
Willis, Roger,
173
Winteler, Jost,
211
wormholes,
279
Wren, Christopher,
138
â40,
165
â6
zero,
55
zodiac constellations,
12