Read Origins: Fourteen Billion Years of Cosmic Evolution Online
Authors: Neil deGrasse Tyson,Donald Goldsmith
Further Reading
Adams, Fred, and Greg Laughlin.
The Five Ages of the Universe: Inside the Physics of Eternity
. New York: Free Press, 1999.
Barrow, John.
The Constants of Nature: From Alpha to Omega—The Numbers That Encode the Deepest Secrets of the Universe.
New York: Knopf, 2003.
———.
The Book of Nothing: Vacuums, Voids, and the Latest Ideas About the Origins of the Universe
. New York: Pantheon Books, 2001.
Barrow, John, and Frank Tipler.
The Anthropic Cosmological Principle.
Oxford: Oxford University Press, 1986.
Bryson, Bill.
A Short History of Nearly Everything
. New York: Broadway Books, 2003.
Danielson, Dennis Richard.
The Book of the Cosmos.
Cambridge, MA: Perseus, 2001.
Goldsmith, Donald
. Connecting with the Cosmos: Nine Ways to Experience the Majesty and Mystery of the Universe
. Naperville, IL: Sourcebooks, 2002.
———.
The Hunt for Life on Mars
. New York: Dutton, 1997.
———.
Nemesis: The Death-Star and Other Theories of Mass Extinction
. New York: Walker Books, 1985.
———.
Worlds Unnumbered: The Search for Extrasolar Planets
. Sausalito, CA: University Science Books, 1997.
———.
The Runaway Universe: The Race to Find the Future of the Cosmos.
Cambridge, MA: Perseus, 2000.
Gott, J. Richard.
Time Travel in Einstein’s Universe: The Physical Possibilities of Travel Through Time
. Boston: Houghton Mifflin, 2001.
Greene, Brian.
The Elegant Universe
. New York: W. W. Norton & Co., 2000.
———.
The Fabric of the Cosmos: Space, Time, and the Texture of Reality
. New York: Knopf, 2003.
Grinspoon, David.
Lonely Planets: The Natural Philosophy of Alien Life
. New York: HarperCollins, 2003.
Guth, Alan.
The Inflationary Universe.
Cambridge, MA: Perseus, 1997.
Haack, Susan.
Defending
Science—Within Reason
. Amherst, NY: Prometheus, 2003.
Harrison, Edward.
Cosmology: The Science of the Universe
, 2nd ed. Cambridge: Cambridge University Press, 1999.
Kirshner, Robert.
The Extravagant Universe
:
Exploding Stars, Dark Energy, and the Accelerating Cosmos.
Princeton, NJ: Princeton University Press, 2002.
Knoll, Andrew.
Life on a Young Planet: The First Three Billion Years of Evolution on Earth
. Princeton, NJ: Princeton University Press, 2003.
Lemonick, Michael.
Echo of the Big Bang
. Princeton, NJ: Princeton University Press, 2003.
Rees, Martin.
Before the Beginning: Our Universe and Others.
Cambridge, MA: Perseus, 1997.
———.
Just Six Numbers: The Deep Forces That Shape the Universe
. New York: Basic Books, 1999.
———.
Our Cosmic Habitat.
New York: Orion, 2002.
Seife, Charles.
Alpha and Omega: The Search for the Beginning and End of the Universe
. New York: Viking, 2003.
Tyson, Neil deGrasse.
Just Visiting This Planet: Merlin Answers More Questions About Everything Under the Sun, Moon and Stars.
New York: Main Street Books, 1998.
———.
Merlin’s Tour of the Universe: A Skywatcher’s Guide to Everything from Mars and Quasars to Comets, Planets, Blue Moons and Werewolves.
New York: Main Street Books, 1997.
———.
The Sky Is Not the Limit: Adventures of an Urban Astrophysicist
. New York: Doubleday & Co., 2000.
———.
Universe Down to Earth
. New York: Columbia University Press, 1994.
———, Robert Irion, and Charles Tsun-Chu Liu.
One Universe: At Home in the Cosmos
. Washington, DC: Joseph Henry Press, 2000.
Image Credits
Abbreviations
AURA: Association for University Research in Astronomy
CFHT: Canada, France, Hawaii Telescope
ESA: European Space Agency
ESO: European Southern Observatory
NASA: National Aeronautics and Space Administration
NOAO: National Optical Astronomical Observatories
NSF: National Science Foundation
USNO: United States Naval Observatory
1. WMAP Science Team, NASA
2. S. Beckwith and the Hubble Ultra Deep Field Working Group, ESA, NASA
3. Andrew Fruchter et al., NASA
4. N. Benitez, T. Broadhurst, H. Ford, M. Clampin, G. Hartig, and G. Illingworth, ESA, NASA
5. A. Siemiginowska, J. Bechtold, et al., NASA
6. O. Lopez-Cruz et al., AURA, NOAO, NSF
7. Jean-Charles Cuillandre, CFHT
8. Arne Henden, USNO
9. European Southern Observatory
10. Hubble Heritage Team, A. Riess, NASA
11. High-Z Supernova Search Team, NASA
12. Diane Zeiders and Adam Block, NOAO, AURA, NSF
13. P. Anders et al., ESA, NASA
14. Robert Gendler; www.robgendlerastropics.com
15. Hubble Heritage Team, NASA
16. AURA/NOAO/NSF
17. M. Heydari-Malayeri (Paris Observatory) et al., ESA, NASA
18., 19. Atlas Image obtained as part of the Two Micron All Sky Survey, a joint project of the UMass and the IPAC/Caltech, funded by the NASA and the NSF.
20. Jean-Charles Cuillandre, CFHT
21. Jean-Charles Cuillandre, CFHT
22. J. Hester (Arizona State Univ.) et al., NASA
23. H. Bond and R. Ciardullo, NASA
24. Andrew Fruchter (Space Telescope Science Institute) et al., NASA
25. Jean-Charles Cuillandre, CFHT
26. Rick Scott; members.cox.net/rmscott
27. R. G. French, J. Cuzzi, L. Dones, and J. Lissauer, Hubble Heritage Team, NASA
28. (a)
Voyager 2
, NASA; (b) Athena Coustenis et al., CFHT
29.
Cassini
Imaging Team, NASA
30. (a) and (b)
Galileo
Project, NASA
31.
Magellan
Project, Jet Propulsion Laboratory, NASA
32. Buzz Aldrin, NASA
33. Juan Carlos Casado; www. skylook.net
34. J. Bell, M. Wolff, et al., NASA
35.
Spirit
rover, NASA/Jet Propulsion Laboratory/Cornell
36.
Spirit
rover, NASA/Jet Propulsion Laboratory/Cornell
37. Sandra Haller, Unicorn Projects, Inc.
38. Don Davis, NASA
39. Neil deGrasse Tyson, American Museum of Natural History
40. Sandra Haller, Unicorn Projects, Inc.
Index
accretion model, 188–89
aerobic organisms, 28
AGNs (galaxies with active nuclei), 137
alanine, 242
alien abduction, 281–82
Allen, Paul, 287
Alpha Centauri, 208, 284–85
Alpher, Ralph, 56–57, 58, 59
aluminum, 172, 216, 235
aluminum oxide, 173
aluminum-26, 245
amino acids, 242–43
ammonia, 238, 242, 254, 268, 272
“Anatomy of the World, The: The First Anniversary” (Donne), 20
Anderson, Carl David, 46
Andromeda constellation, 111
Andromeda galaxy, 115, 117
Andromeda nebula, 111, 114, 115
Annalen der Physik,
35
anthropic principle (anthropic approach), 104–5, 107
anthropomorphism, in search for extraterrestrial life, 226
anti-electrons (positrons), 41, 42–43, 46–48
antihydrogen, 47, 50
antimatter, 40, 41, 42, 46–52
generation of, 50
storage of, 49–50
antineutrinos, 41
antineutrons, 48–49
antiquarks, 41
Apollo
program, 191, 195, 196, 258
Archaea, 244
Arecibo, P.R., 285
Ariel, 201
Aristarchus, 204, 230
Aristotle, 230
Arp, Halton, 118–19, 120
asteroid belt, 177
location of, 190, 196–97
as origin of moons of Mars, 191
total mass of objects in, 197
asteroid 13123 Tyson, 203
asteroid 1994KA, 202–3
asteroids, 122, 189, 191, 257, 266
elements named after, 177
and mass extinctions on Earth, 28, 176, 197
naming of, 196–97, 202–3
number of, 177, 193
sizes of, 190
Astrobiology, 232, 233, 250
Astrophysical Journal,
59, 148
n
astrophysics, 15, 33, 113
Atkinson, Robert d’Escourt, 162
Atlas of Peculiar Galaxies
(Arp), 119, 120
atmosphere:
of Earth, 28, 201–2, 220, 237, 260–62, 267
and evaporation, 264
of Mars, 264
of Titan, 270–71
of Venus, 259, 260, 261
atomic bomb, 178
atomic number, 162, 168
atomic weight, 162
atoms, 39
electric charge of, 168
first formation of, 43, 56, 61
aurorae, 201
Bacteria (biological branch), 244
bacteria (organisms), 293
atmosphere modification by, 28
and chemosynthesis, 246
space-borne, possibility of, 196
barred spiral galaxies, 116, 120
Bentley, Richard, 127
Berkeley Cyclotron, 178
beryllium, 170
big bang, 38, 71, 72–73, 96, 127, 166, 168
and cosmic background radiation, 56, 57
hadron era after, 42
and helium content of universe, 169
inflationary epoch after, 26, 84, 85, 128, 129–30
and lithium content of universe, 170
name origin of, 57
phase transition after, 84, 129
Planck era after, 38–39
quark-lepton era after, 40–42
quark-to-hadron transition after, 42
religion and, 44–45
time of decoupling after, 128–29, 130
see also
universe
binary star systems, 87
bismuth, 234
black holes, 33, 44, 68, 79
supermassive class of, 134–38
blazars, 137
Blob, The,
231
Bondi, Hermann, 57
boron, 170
Bose, Satyendranath, 40
bosons, 40, 46
Brookhaven National Laboratories, 41
brown dwarfs, 153
Bruno, Giordano, 205
Buddha, 17
Burbidge, E. Margaret, 159, 160, 161, 164–65
Burbidge, Geoffrey R., 159, 160, 161, 164–65
calcium, 133, 158, 234, 235
Caliban, 201
Callisto, 191
carbohydrates, 246
carbon, 216
chemical bonding of, 171, 172–73, 251
in chemosynthesis, 246, 247
in cosmic dust, 149, 186
in Earth, 216
in organisms, 234, 235, 251–53, 254
stellar production of, 133, 158, 164, 171
carbon dioxide, 28, 173, 238, 246, 260–61, 263, 264
carbon monoxide, 173, 238
Cassini-Huygens
mission, 202, 271–72
Cavendish, Henry, 168
Cepheid variable stars, 114
Cepheus constellation, 114
Ceres, 176–77, 178, 179
cerium, 177
CERN (European Organization for Nuclear Research), 47
Chadwick, James, 163
Charon, 200
chemosynthesis, 246, 251
chlorine, 167, 234, 235
Clementine
lunar orbiter, 258
collision cross sections, 160, 164
Coma Berenices cluster, 65–67
comets, 122, 189, 202, 266
composition of, 193, 238, 253
formation of, 193
orbits of, 197–98
and origin of life on Earth, 238–39, 257
size of, 216, 258
see also
Kuiper Belt; Oort cloud
Comstock, George Cary, 148
continental drift, 236
Copernican principle, 230–32, 234, 235, 275, 278, 279
Copernicus, Nicolaus, 204, 230
Cordelia, 201
Cosmic Background Explorer (COBE), 93, 94, 132
cosmic background radiation (CBR), 54–62, 92–95, 98, 100
and big bang theory, 57–58, 60
discovery of, 58–59
and formation of early universe, 60–62, 71, 76, 129, 130–32
and temperature of universe, 56–57
cosmic year, 121
cosmological constant, 82, 83, 86, 91–92, 96–97, 98, 100, 102–4
anthropic approach to, 104–5, 107
and Einstein’s theory of general relativity, 80–81
cosmology, 56, 62–63, 79, 81, 89
multiverse concept in, 98–107
“Nancy Kerrigan problem” in, 102, 104
Crab constellation, 218
Crab nebula, 111
creation myths, 16, 104
Cretaceous-Tertiary extinction, 239–40
critical density, 83–84, 85, 86, 91
Crumb, R., 107
cyanogen, 60
dark energy, 61–62, 78–97, 98–103, 107
dark matter, 61–62, 64–77, 78, 84
Dark Side of the Moon,
258
Darwin, Charles, 241–42, 245
Day the Earth Stood Still, The,
283
deep sea vents, 245–47
Deimos, 191, 199
deoxyribonucleic acid (DNA), 226, 243, 244
Desdemona, 201
deuterium, 43, 72, 170, 257
Dicke, Robert H., 59
dinosaurs, 28, 239–40
Dirac, Paul A. M., 47–48, 49
“Does the Inertia of a Body Depend on Its Energy Content?” (Einstein), 35–36
Donne, John, 20
Doppler effect, 93, 113, 207–8, 209, 212
Doppler shift, 208, 209–10, 214
Drake, Frank, 227
Drake equation, 227–30, 275–76
dry ice, 263, 264
dust, interstellar, 186, 187, 188, 189, 190
Earth, 187, 199, 204, 215, 251, 253
atmosphere of, 28, 201–2, 220, 237, 260–62, 267
average density of, 125
as center of universe, 204, 230
collisions with, 28, 176, 192–93, 195–96, 197, 216
cosmic seeding and life on, 238–39, 241
diameter of, 126
earliest life on, 236–37
era of bombardment on, 238–40, 241
and extraterrestrial contact, 278–89
formation of, 28, 187, 191–92, 216, 257, 266–67
gravity of, 70
and habitable zone, 266–68
K-T boundary in crust of, 176
life on, 28, 196, 226, 231, 233–49, 251–52, 266–68
mass extinctions on, 28, 176, 238–40, 241
radio wave propagation of, 285
Venus compared with, 259
Earth Versus the Flying Saucers,
283
Eddington, Arthur, 161–62, 163
E=mc
2
,
35–38
Einstein, Albert, 66, 176, 247
and cosmological constant, 79–81, 85–86, 97
general relativity theory of, 25, 64, 79–81
and grand unification theory, 123
special relativity theory of, 35–37, 44, 49, 84, 91, 152, 174
einsteinium, 176
ekpyrotic model, 106–7
electric charge, 48, 168
electricity, 34
electromagnetic force, 26, 38, 39, 75, 76
electromagnetic radiation, 284
electrons, 37
in atoms, 43, 54, 60–61, 163
in early universe, 26–27, 40, 41, 42–43, 53–54, 56
electro-weak force, 26, 39
elements, 27, 133, 139, 156, 293
on Earth, most abundant, 235, 252
heavy, creation of, 158–66, 171, 173–74
six most abundant, 234, 252
elliptical galaxies, 115, 116, 117, 139
elliptical nebulae, 112
energy, 36
see also
dark energy
era of bombardment, 238–40, 241
Essay on Man, An
(Pope), 204
ethane, 254, 268
ethyl alcohol, 272
Eucarya, 244
Europa, 191, 200, 253–54, 268–70, 274
European Organization for Nuclear Research (CERN), 47
European Space Agency (ESA), 220, 271
exosolar planets, 184, 204–21, 275
Doppler shift and detection of, 208, 209–10
Earth-like, detection of, 220–21, 275
first discovery of, 206, 214
life on, 227, 249
measuring properties of, 210–13
orbital distances of, 211, 213, 217, 218–19
orbital periods of, 210–11, 213, 214, 217–18
orbital shapes of, 212–13
extinctions, mass, 28, 176, 238–40, 241
extraterrestrial civilizations:
contacting of, 278, 282–83, 284–86
probability of, 227–30, 275–77, 288
see also
search for extraterrestrial intelligence; unidentified flying objects
extremophiles, 244, 248, 249
Faraday, Michael, 198
Fermi, Enrico, 288
Finnegans Wake
(Joyce), 40
fission, nuclear, 173
Fitzgerald, F. Scott, 221
formaldehyde, 238
Fowler, William, 159, 160, 161, 164–65
Friedmann, Alexander, 81
fungi, 239
fusion, thermonuclear:
critical temperature for, 87, 152
in early universe, 72–73
and heavy elements, 158–66, 171, 173–74
in stars, 27, 33, 87, 152, 156, 157, 169, 170
Galápagos Islands, 245
galaxies, 61, 89, 111–21, 122, 123, 125
with active nucleii (AGNs), 137
barred spiral types of, 116, 120
black holes and, 134–38
classification of, 115–19
collisions of, 119–20
dark matter of, 68–70, 76
discovery of, 111–15
formation of, 27, 133–40
haloes of, 139
Hubble’s classification of, 115–16, 117, 118, 120
and missing mass, 65–70
galaxy clusters, 61, 65–70, 76, 122, 123
galaxy superclusters, 61, 122, 123, 132
Galileo Galilei, 147–48, 148
n
Galileo
spacecraft, 268
Galle, John, 178
gallium, 174–75, 234
gallium chloride, 174–75
gamma rays, 37–38, 49, 54
Gamow, George, 55–57, 58, 59, 81
Ganymede, 191, 269, 270
gases, 253
gas giant planets, 186–87, 214–15, 216, 217
Gell-Mann, Murray, 40
General Catalogue of Nebulae and Clusters of Stars, A
(Herschel), 112
geothermal energy, 245–47, 248, 249, 251
germanium, 252–53
globular star clusters, 139
gluons, 46
Gold, Thomas, 57
Gott, J. Richard, III, 57
graphite, 186
gravitinos, 46
gravity, 34, 38, 61, 79, 91–92
at atomic scale, 50
black holes and, 33
dark matter and, 62, 64–65, 69, 71–72, 74–76, 78
formation of universe and, 25–26, 39
Newton’s law of, 202
planet formation and, 187, 188
and structure of universe, 127, 133–34, 138
Great Gatsby, The
(Fitzgerald), 221
Greece, ancient, 16–17
greenhouse effect, 260–62
guanine, 242
Gulliver’s Travels
(Swift), 199
Guth, Alan, 84
hadrons, 42
Hale Telescope, 119
Halley, comet, 198, 257
Harkins, William D., 162
Hawking, Stephen, 44, 104
Hawking radiation, 44
heat, 34
helium, 160, 169–70
abundance of, 169, 234, 252
in cosmic gas clouds, 19
and formation of universe, 27, 43, 72–73, 132–33, 166
in gas-giant planets, 186, 216
stellar production of, 73, 152, 158, 164, 169
Herman, Robert, 56–57, 58, 59
Herschel, Caroline, 112
Herschel, John, 112, 113
Herschel, William, 111–12, 177, 200
Hewlett-Packard, 287
high-mass stars, 133, 153, 154, 165, 173
Hindenburg,
169–70
Hiroshima, 178, 179
Holmberg, Erik, 119
Homo sapiens,
28
Hooker, Joseph, 241
Hooker Telescope, 114, 115
Hoyle, Fred, 57–58, 159, 160, 161, 164–65
Hubble, Edwin P., 80, 81, 114–15, 291, 292
Hubble constant, 82–83, 89–90, 91
Hubble Deep Field photographs, 140–42
Hubble diagram, 89, 90
Hubble’s law, 89–90
Hubble Space Telescope, 89, 117, 135–36, 140–42, 154, 177, 201
Hyakutake, comet, 198
hydrogen, 50, 242, 246, 257, 259, 261
abundance of, 168, 234
chemosynthesis and, 246
in cosmic gas clouds, 149, 168
and formation of universe, 27, 43, 72–73, 132–33, 166
in gas-giant planets, 186, 216
in organisms, 234, 235, 237, 251–52, 254