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Known Space
© Copyright 1996, Jim Loy
Known Space is a term invented by science fiction writer Larry Niven, to
denote the region of space surrounding the Sun, a region which will be very
well known in the early days of interstellar space travel. Known Space
(including the Solar System) is in a spiral arm of the Milky Way Galaxy, and is
all in orbit around the galaxy's center. This brief survey of Known Space may
give some insights into the solar system.
Note: The star classes (G0, for example) are called spectral classes.
They merely show the star's color (and therefore temperature, as a star is a
nearly perfect "black-body"). The list of colors: O (blue) B (blue) A
(blue-white) F (white) G (yellow) K (orange) M (red). Astronomy students use
the mnemonic "Oh Be A Fine Girl (or Guy), Kiss Me" to remember this
sequence.
See What Is A light year? for the definitions of light
year and parsec.
0. The Solar System: The Solar System contains a star (called the
Sun) with 4 large planets, 4 small planets (including Earth) which are closer
to the Sun than the large planets, and many smaller objects (including Pluto)
in orbit around it. Most of the planets have moons orbiting them. The larger
objects (planets and minor planets) orbit the Sun roughly in a plane, about the
Sun's equator, from West to East, the same direction that the Sun rotates. The
Sun is a G2 star, which makes it fairly normal for its mass.
1. Alpha
Centauri (Rigil Kentaurus): Alpha Centauri is 1.31 parsecs (4.3 light
years) from the Sun. In other words, it takes light 4.3 years to go from Alpha
Centauri to the Sun. Alpha Centauri is a G2 star much like the Sun, and is the
third brightest star in the sky. It is 60° 44' South of the equator, and is
South of the horizon for viewers in the USA. Alpha Centauri is the largest star
of a multiple star system. There are theoretical reasons for believing that
multiple star systems normally do not have planets. Alpha Centauri A has a
somewhat smaller, orange (K0) companion star Alpha Centauri B, orbiting the
primary star. Actually, they orbit each other, with the center of mass being
between the two stars. Alpha Centauri B would be easily visible, without a
telescope, if it were not so close to Alpha Centauri A. A third star,
Proxima Centauri (Alpha Centauri C) orbits a great distance away from
the other two stars. This star is a small red dwarf (type M5), and is currently
closer to the Sun than the other two, which makes it the star which is closest
to us, besides the Sun. Proxima is too faint to be seen without a telescope.
Note: The other red dwarfs in this article are very roughly similar
in size to Alpha Centauri C.
2. Barnard's Star: Barnard's Star is a red dwarf (M5), 1.83 parsecs
(6.0 light years) from us, in the constellation Ophiuchus. It is 4° 37'
North of the equator, making it visible in the USA. But, it is too faint to be
seen without a telescope. Barnard's Star was discovered because of its large
proper motion (as were most of the faint stars on this list); in other words it
moves noticeably (from year to year) through the background of distant stars.
This motion is 10.34 seconds of arc per year; it takes Barnard's Star about 174
years to move across the angular width of the full moon. The proper motion is
the result of its closeness to us, combined with a fairly large velocity
through space. In recent years, Barnard's Star has become even more famous, as
it has an unseen companion orbiting it (see addendum, below). This object is
probably a very large planet, much larger than Jupiter. Although unseen, this
companion makes Barnard's Star move from side to side, as they orbit each
other. One large planet is likely to be accompanied by other, smaller planets.
3. Wolf 359: Wolf 359 is a very dim red dwarf (M6), 2.32 parsecs (8.1
light years) from us. It is 7° 10' North of the equator, and is too faint
to be seen without a telescope. Wolf 359 was discovered because of its
moderately large proper motion (as were most of the faint stars in this list).
4. Lalande 21185: This star (also called BD +36° 2147) is a
rather large red dwarf (M2), 2.49 parsecs (8.2 light years) from us. It is
36° 8' North of the equator, and is too faint to be seen without a
telescope. It too has an unseen companion, which is likely to be a very large
planet (see addendum below).
5. Sirius
(Alpha Canis Major): Sirius is a White Giant (A1), 2.65 parsecs (8.7 light
years) from us. Sirius is the brightest star in the sky, because of its large
size, and its closeness to us. It is 16° 41' South of the equator, and can
be seen near the Southern horizon, in most of the USA. Sirius is a double star,
with a white dwarf companion, Sirius B. These orbit each other. White dwarfs
are much tinier than red dwarfs (too tiny to be seen in my diagrams). A white
dwarf is normally a star which has died and contracted (maybe after exploding)
after burning most of the nuclear fuel in its core.
6. Luyten 726-8: This star (also called UV Ceti) is actually two red
dwarfs (M5.5 & M6) in orbit around each other. They are 2.74 parsecs (9.0
light years) from us. Neither star can be seen without a telescope.
7. Ross 154: This is a red dwarf (M4.5), 2.90 parsecs (9.3 light
years) from us, and cannot be seen without a telescope.
8. Ross 248: A red dwarf (M5.5), 3.16 parsecs (10.3 light years) from
us, and cannot be seen without a telescope.
9. Epsilon
Eridani: An orange star (K2), 3.28 parsecs (10.8 light years) from us, and
is easily seen (as a fairly dim star) without a telescope. It is 9° 33'
South of the equator.
10. Luyten 789-6: A red dwarf (M5.5), 3.31 parsecs (11.1 light years)
from us, and cannot be seen without a telescope.
11. Ross 128: A red dwarf (M5), 3.32 parsecs (11.1 light years) from
us, and cannot be seen without a telescope.
12. 61
Cygni: A double orange star (K5 & K7), 3.43 parsecs (11.2 light years)
from us. It can just barely be seen without a telescope. 61 Cygni A has an
unseen companion, probably a very large planet (see addendum below).
13. Epsilon Indi: An orange star (K5), 3.44 parsecs (11.4 light
years) from us, and can be seen without a telescope as a fairly faint star.
14. Procyon
(Alpha Canis Minor): A white giant star (F5), 3.48 parsecs (11.3 light
years) from us. It is the 8th brightest star in the sky. It has a companion
white dwarf.
15. BD +59° 1915: A double red dwarf (M4 & M5), 3.52 parsecs
(11.6 light years) from us, and cannot be seen without a telescope.
16. BD +43° 44: A double red dwarf (M2.5 & M4), 3.55 parsecs
(11.6 light years) from us, and cannot be seen without a telescope.
17. CD -36° 15693: A red dwarf (M2), 3.59 parsecs (11.7 light
years) from us, and cannot be seen without a telescope.
18. Tau
Ceti: A star somewhat more yellow the Sun (G8), 3.67 parsecs (12.0 light
years) from us, and is easily visible without a telescope (as a fairly dim
star). It has an unseen companion, which may be a large planet (see
addendum below).
19. BD +5° 1668: A red dwarf (M4), 3.76 parsecs (12.3 light
years) from us, and is not visible without a telescope.
20. CD -39° 14192: A large red dwarf (M0), 3.85 parsecs (12.6
light years) from us, and is not visible without a telescope.
21. CD -45° 1841: A large red dwarf (M0), 3.91 parsecs (12.7
light years) from us, and is not visible without a telescope.
22. Kruger 60: A double red dwarf (M3 & M4.5), 3.94 parsecs (12.8
light years) from us, and is not visible without a telescope.
23. Ross 614: A double red dwarf (M4.5 & M?), 4.02 parsecs (13.1
light years) from us, and is not visible without a telescope.
24. BD -12° 4523: A red dwarf (M4.5), 4.02 parsecs (13.1 light
years) from us, and is not visible without a telescope.
25. von Maanen's Star: A white dwarf (dZ7), 4.28 parsecs (14.0 light
years) from us, and is not visible without a telescope.
26. Wolf 424: A double red dwarf (M5.5 & M6), 4.37 parsecs (14.2
light years) from us, and is not visible without a telescope.
What about all of those bright stars you see every night which I
didn't list? Most of those are large Blue Giants, and others are huge Red
Giants. These stars are very bright, and are more distant than the above stars.
An example is Betelgeuse (See the diagram on the left), which is a red giant
about 150 parsecs (500 light years) away (close, really), the brightest star in
the constellation Orion, and the 12th brightest star in the sky. In the
diagram, we see Betelgeuse with the Sun next to it for comparison. Betelgeuse
varies in size, from the red disk in the diagram, down to the black circle
(labeled "smallest") at the right side of the diagram. At its
largest, Betelgeuse (one of the largest stars known) is more than 900 times
larger than the Sun. Betelgeuse is about 20 times more massive than the Sun.
Years ago, the Sun was (and still is, sometimes) called a yellow dwarf,
because it is smaller and dimmer than most stars that you can see without a
telescope. The Sun is certainly not anywhere as large as Betelgeuse or as
bright as Sirius. But, as you can see from the above list, the Sun is larger
and brighter than most stars in Known Space. Of the 26 nearest stars and star
systems in my table, only seven can be seen without a telescope. There are a
lot of red dwarfs out there. And Known Space can be assumed to be fairly
representative of most of galactic space.
Sky & Telescope did a similar article in their August 1996 issue.
But, I seem to have beaten them to the punch, as I say at parties. Theirs uses
more recent data (see below).
Addendum:
Since I made the above list, all of the possible planets that I mentioned
have been found to be either non-existent or uncertain. In particular, the
planet around Barnard's star was found to be due to an error in the star's
position. More accurate data made Barnard's Star's oscillations go away. Many
planets have been found out there. Of the stars above, only Epsilon Eridani
(not suspected of having a planet, in the above article) is definitely known to
have a planet. Lalande 21185 may have a couple planets.
Here is a more up-to-date list (2001) of the nearest stars:
|
name |
parsecs |
light
years |
type
D=dwarf |
mag. |
abs.
mag. |
RA
hr min |
decl.
deg min |
proper
motion
"/yr |
comments |
|
Sun |
|
|
G2 |
-26.72 |
4.85 |
|
|
|
|
| 1 |
Alpha Cent.
Rigil Kentaurus
Proxima |
1.34
1.34
1.30 |
4.36
4.36
4.22 |
G2
K0
M5.5 |
0.01
1.34
11.09 |
4.38
5.71
15.53 |
14 39
14 39
14 29 |
-60 50
-60 50
-62 40 |
3.710
3.724
3.853 |
nearest |
| 2 |
Barnard's Star |
1.83 |
5.96 |
M4.0 |
9.53 |
13.22 |
17 57 |
+04 41 |
10.358 |
|
| 3 |
Wolf 359 |
2.39 |
7.78 |
M6.0 |
13.44 |
16.55 |
10 56 |
+07 00 |
4.696 |
|
| 4 |
Lalande 21185 |
2.54 |
8.29 |
M2.0 |
7.47 |
10.44 |
11 03 |
+35 58 |
4.802 |
|
| 5 |
Sirius
Alpha Can. Maj. |
2.63 |
8.58 |
A1
DA2 |
-1.43
8.44 |
1.47
11.34 |
06 45 |
-16 42 |
1.339 |
|
| 6 |
UV Ceti
L726-8 |
2.68 |
8.72 |
M5.5
M6.0 |
12.54
12.99 |
15.40
15.85 |
01 39 |
-17 57 |
3.368 |
|
| 7 |
Ross 154 |
2.97 |
9.68 |
M3.5 |
10.43 |
13.07 |
18 49 |
-23 50 |
0.666 |
|
| 8 |
Ross 248 |
3.16 |
10.3 |
M5.5 |
12.29 |
14.79 |
23 41 |
+44 10 |
1.617 |
|
| 9 |
Epsilon Eri. |
3.23 |
10.5 |
K2 |
3.73 |
6.19 |
03 32 |
-09 27 |
0.977 |
1 planet |
| 10 |
Lacaille 9352
CD-36 4253 |
3.29 |
10.7 |
M1.5 |
7.34 |
9.75 |
23 05 |
-35 51 |
6.896 |
|
| 11 |
Ross 128 |
3.35 |
10.9 |
M4.0 |
11.13 |
13.51 |
11 47 |
+00 48 |
1.361 |
|
| 12 |
EZ Aquarii
L789-6 |
3.45 |
11.3 |
M5.0
?
? |
13.33
13.27
14.03 |
15.64
15.58
16.34 |
22 38 |
-15 18 |
3.254 |
|
| 13 |
Procyon
Alpha Can. Min. |
3.50 |
11.4 |
F5
DA |
0.38
10.70 |
2.66
12.98 |
07 39 |
+05 13 |
1.259 |
|
| 14 |
61 Cygni |
3.50 |
11.4 |
K5.0
K7.0 |
5.21
6.03 |
7.49
8.31 |
21 06 |
+38 44 |
5.281
5.172 |
|
| 15 |
Gl 725
LHS-58&59 |
3.53 |
11.5 |
M3.0
M3.5 |
8.90
9.69 |
11.16
11.95 |
18 42 |
+59 37 |
2.238
2.313 |
|
| 16 |
Gl 15
BD+43 44 |
3.56 |
11.6 |
M1.5
M3.5 |
8.08
11.06 |
10.32
13.30 |
00 18 |
+44 01 |
2.918 |
|
| 17 |
Epsilon Indi |
3.63 |
11.8 |
K5 |
4.69 |
6.89 |
22 03 |
-56 47 |
4.704 |
|
| 18 |
DX Cancri
G51-15 |
3.63 |
11.8 |
M6.5 |
14.78 |
16.98 |
08 29 |
+26 46 |
1.290 |
|
| 19 |
Tau Ceti |
3.64 |
11.9 |
G8 |
3.49 |
5.68 |
01 44 |
-15 56 |
1.922 |
|
| 20 |
GJ 1061 |
3.66 |
11.9 |
M5.5 |
13.03 |
15.21 |
03 36 |
-44 30 |
0.831 |
|
| 21 |
YZ Ceti
L725-32 |
3.72 |
12.1 |
M4.5 |
12.02 |
14.17 |
01 12 |
-16 59 |
1.372 |
|
| 22 |
Luyten's Star |
3.79 |
12.4 |
M3.5 |
9.86 |
11.97 |
07 27 |
+05 13 |
3.738 |
|
| 23 |
Kapteyn's Star |
3.92 |
12.8 |
M1.5 |
8.84 |
10.87 |
05 11 |
-45 01 |
8.670 |
|
| 24 |
AX Micro.
CD-39 14192 |
3.95 |
12.9 |
M0.0 |
6.67 |
8.69 |
21 17 |
-38 52 |
3.455 |
|
| 25 |
Kruger 60 |
4.03 |
13.1 |
M3.0
M4.0 |
9.79
11.41 |
11.76
13.38 |
22 27 |
+57 41 |
0.990 |
|
| 26 |
Ross 614 |
4.09 |
13.3 |
M4.5
? |
11.15
14.23 |
13.09
16.17 |
06 29 |
-02 48 |
0.930 |
|
| 27 |
Gl 628
BD-12 4253 |
4.24 |
13.8 |
M3.0 |
10.07 |
11.93 |
16 30 |
-12 39 |
1.189 |
|
| 28 |
Gl 35
van Maanen's Star |
4.31 |
14.1 |
DZ7 |
12.38 |
14.21 |
00 49 |
+05 23 |
2.978 |
|
| 29 |
Gl 1
CD-37 15492 |
4.36 |
14.2 |
M3.0 |
8.55 |
10.35 |
00 05 |
-37 21 |
6.100 |
|
| 30 |
Wolf 424 |
4.39 |
14.3 |
M5.5
? |
13.18
13.17 |
14.97
14.96 |
12 33 |
+09 01 |
1.811 |
|
| 31 |
Gl 83.1
L1159-16 |
4.45 |
14.5 |
M4.5 |
12.27 |
14.03 |
02 00 |
+13 03 |
2.079 |
|
| 32 |
LHS 288
L143-23 |
4.49 |
14.7 |
M5.5 |
13.92 |
15.66 |
10 44 |
-61 11 |
1.657 |
|
| 33 |
Gl 687
BD+68 946 |
4.54 |
14.8 |
M3.0 |
9.17 |
10.89 |
17 36 |
+68 20 |
1.309 |
|
| 34 |
LHS 292
LP731-58 |
4.54 |
14.8 |
M6.5 |
15.60 |
17.32 |
10 48 |
-11 20 |
1.644 |
|
| 35 |
Gl 674
CD-46 11540 |
4.54 |
14.8 |
M3.0 |
9.38 |
11.09 |
17 28 |
-46 53 |
1.050 |
|
| 36 |
GJ 1245
G208-44&45 |
4.54 |
14.8 |
M5.5
M6.0
? |
13.46
14.01
16.75 |
15.17
15.72
18.46 |
19 53 |
+44 24 |
0.731 |
|
| 37 |
Gl 440
L145-141 |
4.62 |
15.1 |
DQ6 |
11.50 |
13.18 |
11 45 |
-64 50 |
2.688 |
|
| 38 |
GJ 1002
G158-27 |
4.69 |
15.3 |
M5.5 |
13.76 |
15.40 |
00 06 |
-07 32 |
2.041 |
|
| 39 |
Gl 876
BD-15 6290 |
4.70 |
15.3 |
M3.5 |
10.17 |
11.81 |
22 53 |
-14 15 |
1.174 |
2 planets |
| 40 |
WX Urs. Maj.
BD+44 2051 |
4.85 |
15.8 |
M1.0
M5.5 |
8.77
14.48 |
10.34
16.05 |
11 05 |
+43 31 |
4.511
4.531 |
|
| 41 |
Gl 380
BD+50 1725 |
4.86 |
15.8 |
M7.0 |
6.59 |
8.16 |
10 11 |
+49 27 |
1.452 |
|
| 42 |
Gl 388
BD+20 2465 |
4.89 |
15.9 |
M3.0 |
9.32 |
10.87 |
10 19 |
+19 52 |
0.506 |
|
| 43 |
Gl 832
CD-49 13515 |
4.93 |
16.1 |
M3.0 |
8.66 |
10.20 |
21 33 |
-49 00 |
0.819 |
|
| 44 |
LP 944-020 |
4.96 |
16.2 |
M9.0 |
18.50 |
20.02 |
03 39 |
-35 25 |
0.439 |
|
| 45 |
Gl 682
CD-44 11909 |
5.01 |
16.3 |
M4.5 |
10.95 |
12.45 |
17 37 |
-44 19 |
1.176 |
|
| 46 |
Omicron 2 Eri. |
5.03 |
16.4 |
K1
DA4
M4.5 |
4.43
9.52
11.19 |
5.92
11.01
12.68 |
04 15 |
-07 39 |
4.088
4.073
4.073 |
Sigma 2? |
| 47 |
EV Lacertae
BD+43 4305 |
5.05 |
16.5 |
M3.5 |
10.22 |
11.70 |
22 46 |
+44 20 |
0.841 |
|
| 48 |
70 Oph.
Gl702 |
5.10 |
16.6 |
K0
K5 |
4.20
6.05 |
5.66
7.51 |
18 05 |
+02 30 |
0.971 |
|
| 49 |
Altair
Alpha Aql. |
5.13 |
16.7 |
A7 |
0.77 |
2.22 |
19 50 |
+08 52 |
0.661 |
|
| 50 |
Gl 1116 |
5.23 |
17.1 |
M5.5
? |
14.06
14.92 |
15.47
16.33 |
08 58 |
+19 45 |
0.874 |
|
Each of these stars has several names. See other sources for more accurate
positions (RA and decl.). In particular, see
The 100 Nearest Star
Systems.
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