./constellation_north.html>
------------------------------------------------------------------------
Constellations
asterisms, clusters of stars, star names
* The northern constllations: a mid-winter night-time view judging
from the position of old man Orion. Credit: Mount Wilson
Observatory StarMap program by Bob Donahue
. StarMap is fortran
program, but it's been broke since 2000jan03. Download site: Univ.
of Tennesse, Knoxville Astro course
; more
precisely here
. *
------------------------------------------------------------------------
Whan Zephirus eek with his swete breeth
Inspired hath in every holt and heeth
The tendre croppes, and the yonge sonne
Hath in the Ram his halfe cours y-ronne, ...
---- Chaucer (HH-2) <../../../writer/chaucer.html>, / Canterbury Tales,
The Prologue, / lines 5--8. The Ram is Aries and the Sun will be in
Aries in April. See Aries and the Ecliptic in the figure above.
------------------------------------------------------------------------
<./const_001.png> Since prehistory humans have noticed
the stars, of course. Over the course of a human life-time and
even many generations don't seem to move much, except for the
daily westward overall circling and the much slower overall motion
due to the precession of the equinoxes
<../celestial_sphere/celestial_sphere.html>. Both daily circling
and precessions are physically caused by the motions of the Earth,
of course---but this was not understood until after Copernicanism
was accept in the course the 17th century. These Earth-originated
motions do not change the relative angular positions of the stars.
There is a small relative motion among the stars due the Earth's
revolution around the Sun: the famous stellar parallax not
discovered until 1838 (No-419 <../../../writer/north.html>).
Actually, the stars do have significant relative motion
if you wait long enough or measure carefully enough. This motion
is due to both the motion of the stars through space and the
motion of the Sun through space. But one can say that the relative
positions of the stars are relatively fixed: hence they are called
the fixed stars.
<./const_002.png> Now in fact the stars close enough to
the Earth to be easily seen are to a large degree actually spread
randomly in space. There are some physically groupings of stars
(i.e., star clusters), but they are relatively few in our
naked-eye range. The Milky Way has, of course, a varying
distribution, but over relatively small part where we see bright
stars, the distribution is relatively constant---allowing for
random spacing. We do see the Milky Way's variation, of course,
but only through the Mikly Way band (which is what the ancients
thought of as the Milky Way itself) which was not resolved into
stars until the advent of the telescope (No-335
<../../../writer/north.html>).
From the above two points, we can say that the naked-eye
stars are relatively fixed and relatively randomly placed in
space. This means that there will random spatial groupings of
stars in space. Furthermore there will be random groupings of
stars in angle as seen from Earth.
These random groupings in angle do not correspond to
spatial groupings in general. Some stars close together in angle
may be hundreds of light-years apart. Since stars vary in
intrinsic luminosity by more than 10**9 (Se-605
<../../../writer/seeds.html>, small star catalogue
<../magnitude/star_catalogue.html>), the apparent brightness of
any individual star is not at all a reliable measure of that
star's distance. A bright star may have low luminosity, but be
relatively close or it could have a high luminosity and be
relatively distant. Without modern astronomical techniques, one
simply cannot tell.
<./const_003.png> The upshot of the proceeding points is
that groupings of stars in angle usually have no fundamental
physical significance. They are usually just a consequence of our
vantage point on Earth. But in pre-modern times before the size
and nature of space were known, it was plausible to believe that
the groupings were of fundamental importance: this belief is a
basic ingredient of astrology, of course. The fading of the belief
dealt yet another death blow to astrology---but it never died.
The groupings are *NOT CLEAR-CUT*. It is possible to
divide the stars into many different sets of groups. And
historically this is what happened. Different cultures selected
different sets of groupings to recognize as fixed groups which in
English, of course, are called *CONSTELLATIONS*.
<./jeffery_big_dipper.png> We can't know for sure how
*ANCIENT CONSTELLATIONS* were settled on or why. Probably the
process was somewhat random and the name assigned to a
constellation in many cases may have been just *MNEMONIC* without
implying anything intrinsic about the nature of the constellation.
The *BIG DIPPER* was certainly so called because it looks like a
set of dots outlining a dipper. But even with connecting lines
(which, of course, arn't on the sky) most constellations look like
the object they are named for * ONLY* in an
abstract-in-eye-of-the-beholder way. Without connecting lines,
except for Big and Little Dippers, the constellation shapes have
almost no relation to the names assigned to them.
The constellation names
were no doubt often assigned to honor a god or a legend. For
example, * TAURUS * (the Bull) which goes back at least to the
Babylonians of the 5th century BC and, perhaps, much earlier, may
honor a bull god or a sacred bull. The Golden Calf of the Bible is
not forgotten. When the *GREEKS* acquired Taurus from the
Babylonians, they assigned their own bull myth to Taurus: it is
*ZEUS* in the shape of a bull that he used to carry off Europa
<../../../writer/ovid_europa.html>: but enough of that.
<../zodiac/alien_taurus.png> It is not clear to the
author of these notes (that's me you know) how *SACRED*
constellations ever were in the tradition that Europe inherited.
They don't seem to have ever been directly worshipped or ritually
honored so far as I can tell. In astrology, the *SIGNS* of the
Zodiac <../glossary/zodiac.html> are technically not the
constellations of the same name, but 30 degree segments of the
Ecliptic <../celestial_sphere/celestial_sphere.html> that
constellation of that name occupied about 500 BC. However, a
popular identification of the sign with the constellation of the
same name seems perfectly fair to me---there's no reason to be
consistent about astrology.
<./yin_yang.png> As mentioned above there have been many
assigments of constellations. For example, Chhien Lu-Chih (5th
century) working in the *CHINESE TRADITION* of astronomy grouped
1464 stars into *284 CONSTELLATIONS* (No-139--140
<../../../writer/north.html>). The Yin-Yang symbol (shown to the
right) doesn't represent a constellation, but astronomical
interpretations of it are possible: e.g., night and Moon (Yin) and
day and Sun (Yang).
(Actually the web offers a plethora of sites on the
Yin-Yang that mostly don't look very trustworthy, but the Yin-Yang
page of Dorothy Wilkins
has
references. The quote on the figure comes from a herbal medicine
page , but it agrees
sort of with the better documented /Tao Te Ching / translation of
Stan Rosenthal
. I've
also figured out that the /Tao Te Ching / is not the same as the
/I Ching/
.)
<../mesopotamia/babylonian_cosmos.png> At least some of
*ANCIENT CONSTELLATIONS* that have found there way into the modern
constellation canon may go back to the *ANCIENT MESOPOTAMIANS* of
2000 BC
.
The uncharted southern part of the sky known to the Greek poet
Aratus (circa 270 BC)
would have been below the southern horizon for observers of
latitude about 36 degrees north circa 2000 BC allowing for the
precession of the equinoxes <../celestial_sphere>. Babylon is
about 33 degrees north.
The *GREEKS* had close contacts with *BABYLONIAN
ASTRONOMY* after Alexander's conquest of the Persian empire (circa
330 BC) (No-17,35,39,93 <../../../writer/north.html">) and
probably acquired the Babylonian constellations sometime after
330. Aratus describes them in his poem / Phaenomena/. *PTOLEMY*
<../ptolemy.html> in his catalogue groups his 1022 fixed stars in
48 constellations many (most???) following the Babylonian
constellations. Ptolemy's constellations are the basic set of
classical constellations from which modern constellations are
derived.
<./bayer_augsburg_1603_002.html> In the *16TH AND 17TH
CENTURIES* new constellations were added by celestial
cartigraphers to group southern stars that were below the horizon
of the Mediterranean area. The first new southern constellations
seem to have been introduced by *JOHANN BAYER*
in his
/Uranometria/ (Augsburg, 1603): he made up 12 new ones including
Tucana (Toucan), Grus (Crane), and Phoenix.
In the 17th and 18th centuries there was a lot of making
up of new constellations to fill in gaps between the ancient ones.
Many of these didn't survive at all. For example, Julius Schiller
in his / Coelum Stellatum Christianum / (Augsburg, 1627) replaced
all the traditional constellations with Christian versions: the
Zodiac <../zodiac/zodiac.html> got changed into the Twelve
Apostles and the Argo Navis (an ancient constellation that didn't
survive) became Noah's Ark <./schiller_augsburg_1627_001.jpg>.
Johannes Hevelius introduced 11
new constellations in his / Firmamentum Sobiescianum sive
Uranographia / (Gdansk (Danzig), 1690) of which 7 survived to the
modern list: *SCUTUM SOBIESCANUM* (the modern name is just Scutum:
see figure to the right), Canes Venatici, Leo minor, Lynx,
Sextans, Lacerta (the lizard), and Vulpecula (the fox with the
goose). (Hevelius was one of the great observational astronomers
of the 17th century.) Some of these constellation names are merely
following traditional nomenclature: animals and simple devices
(e.g., Sextans means sextant). But Scutum Sobiescanum means Shield
of Sobiesky named in honor of the Polish King John III Sobiesky
who repulsed a Turkish invasion 1673.
<./flamstead_paris_1795_002.html> A later attempt to
insert new constellations occurs in the 1795 Paris revision of
John Flamstead's (1646--1719) star atlas. In proximity to *ORION
AND TAURUS* are the *TELESCOPE OF HERSCHEL* in honor of William
Herschel the discoverer of Uranus and the *HARP OF GEORGE* in
honor of maybe George III---actually it doesn't seem likely that a
king would find honor in Paris in 1795---maybe it's George
Washington's harp: I never knew he played.
<./iau_88_constellation.png> In 1922 the International
Astronomical Union (IAU) at it's first meeting decided---perhaps
arrogating to itself the right to decide---on a fixed list of 88
constellations. These include many of the traditional
constellations of Ptolemy and some of the modern inventions
particularly for southern hemisphere sky. The Telescope of
Herschel didn't make the cut though there is a Telesopium in the
sourthern sky. Some ancient constellations failed to get in too
like the southern Argo Navis---it was divided into Carina (the
Keel), Puppis (the Poop [i.e. stern]), and Vela (the Sails)---and
Antinoos <./flamstead_paris_1795_003.jpg>: see Ian Ridpath's Star
Tales .
In 1930 the IAU assigned to each constellation a fixed area on the
Celestial Sphere <../celestial_sphere/celestial_sphere.html>:
these areas cover the entire Celestial Sphere and effectively
become the constellations for modern astronomical purposes.
A good list of the modern 88 constellations is at the
Munich Astro Archive
. The Archive
gives the astronomical details and the mythical background if
there is one. The constellations include 14 humans, 19 land
animals, 10 water creatures, 9 birds, 2 insects, 2 centaurs, a
head of hair (Coma Berenices [Berenice's Hair]), a serpent, a
dragon, a flying hourse (Pegasus), a river, and 29 inanimate
objects including a telescope and a ship's sail. There are more
objects in the above enumeration because some constellations
include multiple objects.
<./jeffery_big_dipper.png> In addition to the *IAU
OFFICIAL CONSTELLATIONS*, there are *OBSOLETE* and *UNOFFICIAL
CONSTELLATIONS* and other recognized groups of stars. Any of these
groups can be called an *ASTERISM*. (Asterism is from the Greek
asterismos derived from asterizein meaning to mark with stars
[Ba-76 <../../../writer/barnhart.html>].) The most famous asterism
is the Big Dipper which is still often called a constellation in
it's own right, but it is not in the official IAU 88 constellation
list: it is part of Ursa Major (the Great Bear). A good
photographic image of Ursa Major is at the Stellar Scenes site of
Naoyuki Kurita: Naoyuki Kurita's Ursa Major (the Great Bear)
. Similarly
the Little Dipper (part of Ursa Minor [the Small Bear]) is an
asterism. Polaris (the North Star or the Pole Star) is at the end
of the handle of the Little Dipper: in year 2000 epoch coordinates
it is only 44 arcminutes, 9 arcseconds from the North Celestial
Pole (NCP) <../celestial_sphere/celestial_sphere.html>. Other well
well known asterisms are presented by the Munich Astro Archive
.
(To find Polaris easily locate the Big Dipper (which
overall is a much brighter, more obvious asterism than the Little
Dipper) and the two stars farthest from the handle: a line from
these stars (called the pointer stars) up from the Big Dipper runs
pretty nearly into Polaris: see the northern winter-night sky map.
<./constellation_north.html>)
As mentioned above constellations are generally *NOT*
physical groups of stars: in fact none of the IAU 88
constellations are physical groups???. But some of the asterisms
are physical groups. The most famous are probably the Pleiades
(M45) (see below right and SEDS Pleiades
or Steven Gibson's
Pleiades ) and
Hyades (see SEDS Hyades
) which
are both open star clusters in Taurus. (A good photographic image
of Taurus showing the Pleiades and Hyades is at the Stellar Scenes
site of Naoyuki Kurita: Naoyuki Kurita's Taurus
.)
<./noao_pleiades_001.jpg>
* The Pleiades, an open star cluster, in Taurus at about 410
lyr and spanning about 40 lyr. The glow around the star is
reflected starlight from interstellar dust. Credit:
NOAO/AURA/NSF
. *
An open cluster is group of stars formed in a common star forming
region. Because of spatial compactness and because the stars
formed nearly at the same time (by astronomical standards), open
clusters are of great astrophysical importance in learning star
properties. As groups of stars the Pleiades and Hyades have been
known in many cultures since prehistoric times. Hesiod
(circa 8th
century BC) mentions them in his / Works and Days/:
But when the Pleiades and Hyades
And great Orion sink, the time has come
To plough; and fittingly the old year dies.
---We-78 <../../../writer.html>
All good rural advice I assume. Chaucer
<../../../writer/chaucer.html> cleverly alludes to them in the /
Canturbury Tales/: see Chaucer <../../../writer/chaucer.html>.
The name Pleiades may be derived from Pleione (a
mythical mother)
which is also the name of one of the brighter stars. In Europe
they have also been called the Seven Sisters and their Japanese
name is Subaru like the car and the telescope. Usually 6 Pleiades
at least can be seen with the naked eye; 9 can be seen under good
conditions; 14 were claimed visible by Kepler. Telescopically, the
cluster has over 500 stars.
To find the Pleiades locate Orion and Sirius (the
brightest star in the sky) off to the lower left of Orion
(south-east on the sky). A line from Sirius though the belt of
Orion and then through the bright orangy Aldebaran (the eye of
Taurus) leads pretty much to the Pleiades---a distinct close
little group of six or more stars. The northern constellations map
to the right illustrates the method. <./constellation_north.html>
* The northern constllations: a mid-winter night-time view
judging from the position of old man Orion. Credit: Mount
Wilson Observatory StarMap program by Bob Donahue
. StarMap is
fortran program, but it's been broke since 2000jan03.
Download site: Univ. of Tennesse, Knoxville Astro course
;
more precisely here
.
*
(Yours truly admits to never having done this, but in principle it
should work.) The Hyades are the stars about Aldebaran. But
Aldebaran is not part of the physical Hyades cluster: it is a
foreground star at about 60 lyr; the Hyades are at about 150
lyr---they are closest star cluster to Earth, except for the very
spread out Ursa Major cluster
.
Part of the sky lore that goes with constellations are
the *TRADITIONAL STAR NAMES* given to the brightest stars. These
names have, of course, derived from a hodge-podge of sources over
the millennia.
* Possibly Al Sufi (903--986)
, the
Persian astronomer who fixed many of the names of the fixed
stars in his / Book of the Fixed Stars/. Credit: Medieval
Islamic artist; modern credit ??? (but believed to be public
domain); download site Wolfgang Steinicke's list of NGC/IC
observers
. *
For example, the brightest star is Sirius in the constellation
Canis Major (the Big Dog or just the Dog). Sirius is a
Latinization of the Greek Seiros meaning scorching or scorcher.
This is name is because Sirius has it's heliacal rising
<../glossary/heliacal.html> is in mid-July (No-12
<../../../writer/north.html>), and heralds the hottest time of the
year in the northern hemisphere---the Dog days. Many star names
are Latinizations of Arabic names. For example, Aldebaran, the
brightest star in Taurus---it's the eye of the Bull with a
distinct orangy color---is in original Arabic Ad-Dabaran meaning
the following of Pleiades.
Johann Bayer
in his
/Uranometria/ made the innovation of naming stars <./alphabet.png>
according to their relative brightness in the constellation in
which they were found (Se-12 <../../../writer/seeds.html>). To
indicate their brightness he used Greek letters in order of
decreasing brightness: alpha for brightest, beta for 2nd
brightness, gamma for third brightest, etc. To indicate the
constellation he appended the Latin possessive form of the
constellation name: hence Aldebaran, the brightest star, in Taurus
becomes * ALPHA TAURII* or alpha Tau for short.
<./bayer_augsburg_1603_001.html> Bayer's assignment of
brightnesses doesn't always accord with the modern assignment---in
fact the agreement is pretty poor---but his nomenclature is
retained. The Bayer names complement and supplement the
traditional names: they don't replace them. The invention of the
telescope in 1608 (No-328 <../../../writer/north.html>, Lecture
4.8 <../../../course/c_ast101/lecture/lec004.html>), of course,
revealed myriads of new faint stars and Bayer's system became
inadequate eventually. Other star name systems became necessary:
the most basic of these is simply to name the star by its
declination and right ascension coordinates
<../celestial_sphere/celestial_sphere.html>. A longer discussion
of modern star naming systems is given by Jim Kaler
of the
University of Illinois.
<./alien_constellation.png> Why do we astronomers still
want constellations? As we argued above we now understand that
they have no fundamental physical significance? Partially, it is
just that astronomers and folks in general are *FOND* of their
constellations---they're traditional and part of the romance of
astronomy---so we should keep them in an orderly fashion. There is
also a practical use for both professional and amateur
astronomers. The modern constellations (i.e., patches of the sky)
provide a useful rough and easily memorized location system. One
can always locate an object precisely using declination and right
ascension <../celestial_sphere/celestial_sphere.html>, but for
just a *ROUGH LOCATION* one can use constellation mnemonics: e.g.,
for Polaris and the Pleiades as described above. Also for a rough
position one can say the object is in such or such a
constellation. For example, one can say there is a bright
supernova in Virgo: this is a relatively frequent occurrence since
there is a large nearby cluster of galaxies in Virgo (the Virgo
cluster), and so bright supernovae are relatively frequently found
in Virgo. (Supernovae occur only a few times per century in large
galaxies, but if you are looking at many galaxies in a cluster
you'll see them much more often.)
The locution object x is in constellation y, although
perfectly natural given the modern definition of constellation,
does have astrological suggestiveness as if there was a magic
sympathy between object and constellation---Venus is Virgo or
Venus is in Taurus---but this is just a vestige of where we've
come from.
* Images *
1. Constellations from the Great Celestial Atlases
<./linda_hall.html> Downloaded from Linda Hall Library exhibit.
2. Constellations of the northern sky <./const_north.gif> The
northern constllations: a mid-winter night-time view judging
from the position of old man Orion. Credit: Mount Wilson
Observatory StarMap program by Bob Donahue
. StarMap is
fortran program, but it's been broke since 2000jan03.
Download site: Univ. of Tennesse, Knoxville Astro course
;
more precisely here
.
3. Naoyuki Kurita's Andromeda
The
three brightest stars left to right are Almaak, Mirach, and
Alpheratz (Sirrah). The fuzzy object some ways above Mirach
and just above the a line corner is the Andromeda Galaxy
(M31): it is the farthest naked-eye object one can see at
???? Mpc and the closest large galaxy to us. Al-Sufi
(903--986) seems to have been the first to note it.
4. Naoyuki Kurita's Aquila
5. Naoyuki Kurita's Ophiuchus
6. Naoyuki Kurita's Orion
7. Naoyuki Kurita's Taurus
with
Saturn and the Pleiades. See a close-up of the Naoyuki
Kurita's Pleiades
8. Naoyuki Kurita's Ursa Major (the Great Bear)
* Sites *
1. Constellation FAQs
Useful list of tidbits. The ``who invented them'' is
probably most unique. But it's wrong about the Greeks
getting the Babylonian constellations from Egypt. The Greeks
probably got them directly from the Babylonians
(No-17,35,39,93 <../../../writer/north.html">).
2. Constellation Photos
Good for private study, not for class showing.
3. Earth & Sky radio show star name pronounciation
Just in case you want to know how to pronounce Fomalhaut.
4. Hawaiian Astronomical Society Constellation List
Decent maps for study, but not for class showing and not
downloadable.
5. Ian Redpath's Star Tales
A sampler from his book it seems. Just the standard myths,
but he does have some obsolete constellations.
6. Jordanian Astronomical Society on Arabic star names
I trust this is an
authoritative source.
7. Jim Kaler on constellations
Good
pictures with lines and Bayer's / Uranometria images / too.
8. Jim Kaler on star names
Good on
modern star naming procedures.
9. Jim Kaler on stars
A big
list of stars and descriptions is available.
10. John Walker's Your Sky
Catalogs of charts including constellations. They arn't
images and they're a bit cluttered, but Walker declares them
all to be public domain.
11. Linda Hall Library exhibit
/
Out of This World The Golden Age of the Celestial Atlas/. I
hope this page doesn't go away. Images are free for
non-commercial use with credit given.
12. Mark Hurn's
index of star names.
13. Mount Wilson's StarMap by Bob Donahue
This great
service is now broke since 2000jan03 and no one wants to fix
it.
14. Munich Astro Archiv Constellation Pages
Good modern astronomical
objects in constellations. Some star maps, but the
constellation lines are too faint. Supported by one of my
old afiliations: the Sternwarte Muenchen.
15. Naoyuki Kurita's Constellation Pages
Best images so far and with lines. Really good actually.
They are long exposures to bring out star colors, faint
stars, and nebulae.
16. Steven Gibson's
star name meanings. The Stars are ordered by constellation.