The Hundred Greatest StarsSpringer Science & Business Media, 7. 5. 2006 - Počet stran: 211 I have always loved the stars. I watch them, photograph one. And you can hardly talk about Zubenelgenubi them, research them, write about them. Their wonder without bringing in Zubeneschamali, so they too are is that they are there not simply for scientists, but for treated within one story. The Sun is not included in the all of us, filling the night sky with their sparkling beauty. 100 list, but instead leads the pack as “Star Zero. ” There are as many different kinds as there are stars Before describing the glories of the 100 stars, an themselves, each an individual. The heavens give us introduction briefs the beginning stargazer on basic bright ones, dim ones, near ones, far ones, the aged, stellar properties and explains the astronomical the young, those that help tell our ancient stories, and terminology, without which we would be continuously those nearly invisible even with the greatest of our tongue-tied. A separate glossary provides a quick technologies. Taken together, they relate the tale of our reminder. Then we move on to the stars themselves. existence, of the birth, life, and death of the Sun on Each of my favorite stars is introduced by a short which we depend. |
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Výsledky 1-5 z 72
Strana vii
... double stars are taken together, such as Sirius B with Sirius A, giving two for the price of one. And you can hardly talk about Zubenelgenubi without bringing in Zubeneschamali, so they too are treated within one story. The Sun is not ...
... double stars are taken together, such as Sirius B with Sirius A, giving two for the price of one. And you can hardly talk about Zubenelgenubi without bringing in Zubeneschamali, so they too are treated within one story. The Sun is not ...
Strana xix
... Double the temperature and the surface emits 16 times as much radiation. To be bright, cool stars must be large in radius. An extreme M giant can have a total, or bolometric, luminosity 20 magnitudes (100 million times) greater than an ...
... Double the temperature and the surface emits 16 times as much radiation. To be bright, cool stars must be large in radius. An extreme M giant can have a total, or bolometric, luminosity 20 magnitudes (100 million times) greater than an ...
Strana xxi
... double. Or two close doubles will orbit each other, and then maybe a fifth star (or another double) will orbit the double-double. True multiples, in which all the stars mutually orbit each other, do exist, but are not stable. (The ...
... double. Or two close doubles will orbit each other, and then maybe a fifth star (or another double) will orbit the double-double. True multiples, in which all the stars mutually orbit each other, do exist, but are not stable. (The ...
Strana xxii
... stars through slight wavelength shifts in the absorption lines. In the ideal case, a closely-spaced double star will produce two observed sets of absorptions that alternately shift back and forth as the stars orbit. The shifts yield ...
... stars through slight wavelength shifts in the absorption lines. In the ideal case, a closely-spaced double star will produce two observed sets of absorptions that alternately shift back and forth as the stars orbit. The shifts yield ...
Strana xxiii
... double-star systems show them to have masses comparable to that of the Sun, most falling between 0.5 and nearly 1.5 solar masses, all packed into a body typically the dimension of Earth. The result is an average density of 1 million ...
... double-star systems show them to have masses comparable to that of the Sun, most falling between 0.5 and nearly 1.5 solar masses, all packed into a body typically the dimension of Earth. The result is an average density of 1 million ...
Obsah
2 | |
14 | 30 |
16 | 34 |
18 | 38 |
104 | 39 |
20 | 42 |
22 | 46 |
110 | 48 |
67 | 136 |
68 | 138 |
69 | 140 |
70 | 142 |
71 | 144 |
72 | 146 |
73 | 148 |
74 | 150 |
24 | 50 |
26 | 54 |
28 | 58 |
130 | 61 |
30 | 62 |
32 | 66 |
34 | 70 |
140 | 73 |
36 | 74 |
38 | 78 |
40 | 82 |
42 | 86 |
44 | 90 |
46 | 94 |
150 | 97 |
48 | 98 |
50 | 102 |
51 | 104 |
52 | 106 |
53 | 108 |
54 | 110 |
55 | 112 |
56 | 114 |
57 | 116 |
58 | 118 |
59 | 120 |
60 | 122 |
61 | 124 |
62 | 126 |
63 | 128 |
64 | 130 |
65 | 132 |
66 | 134 |
HZ 21 | 152 |
Mizar and Alcor Mu Cephei Mu Columbae MXB 1730335 | 153 |
76 | 154 |
200 | 155 |
77 | 156 |
78 | 158 |
79 | 160 |
80 | 162 |
81 | 164 |
82 | 166 |
83 | 168 |
84 | 170 |
85 | 172 |
86 | 174 |
87 | 176 |
88 | 178 |
89 | 180 |
90 | 182 |
91 | 184 |
92 | 186 |
93 | 188 |
94 | 190 |
95 | 192 |
96 | 194 |
97 | 196 |
98 | 198 |
99 | 200 |
100 | 202 |
STAR | 203 |
Acrux Adhara AG Draconis Albireo Algol Alpha Centauri Alphard Antares Arcturus Barnards Star Beta Canis Majoris Beta Cassiopeiae Beta Lyrae B... | 204 |
RS Ophiuchi SGR 1900+14 Sigma Octantis Sirius 16 Cygni 61 Cygni Spica SS Cygni SS 433 | 205 |
HD 93129A | 207 |
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Absolute visual magnitude absorptions accretion Alpha astronomers atoms Beta binary black hole bright brighter brightest brown dwarfs Capella carbon carbon stars Cassiopeiae celestial central stars Cephei cloud companion constellation cool core Cygni Cygnus Delta Delta Cephei disk distance double star dust Earth eclipse emissions energy Epsilon Eridani Eta Carinae fainter fusing fusion Galaxy Galaxy’s Gamma giant star gravity helium Hubble Space Telescope hydrogen infrared interstellar ionized J. B. Kaler kilometers per second light luminous Lyrae magnetic fields main sequence million Mira Mizar naked-eye neutron star nova Observatory Ophiuchi orbit Orionis pair percent period planetary nebula planets Polaris pole pulsar radiation radio radius Residence rotation second-ascent seconds of arc Sigma Octantis Significance Sirius solar luminosities solar masses spectral spectrum speed spin star’s stellar subgiant supergiant supernova surface surrounding Tauri temperature Thuban tion Tycho’s Ursa variable Vega visible wavelengths white dwarf wind X-ray