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Ordinary Meeting, 2004 January 10
held
at The Geological Society, Burlington House, Piccadilly, London W1
Tom
Boles, President
Ron
Johnson, Nick Hewitt and Nick James,
Secretaries
The President opened the third meeting of the
114th session, welcoming an exceptionally full audience to the
Christmas Meeting. However, he regretted that the first item of
business was less happy, for Jeremy Cook, a past Director of the
Lunar Section, had passed away suddenly on December 21. Furthermore,
Lionel Mayling, who had previously held positions as both Treasurer
and Assistant Treasurer to the Association, had lost a long battle
with ill-health on January 4. A minute's silence was observed in
their honour. Dr Nick Hewitt proceeded to read the minutes of the
November meeting, which were approved and signed. The Papers
Secretary reported that Council had approved one paper to appear in
the Journal:
Stonehenge
astronomers and the precession of the Equinox,
by David Hughes.
Mr
Boles announced that 20 new members were proposed for election. The
26 members who had been proposed at the previous meeting were
approved and duly elected. The next meeting at the present venue
would be on March 31, when the main speaker would be Meghan Gray,
with a talk entitled Dark
Matter and Gravitational Lensing.
Before then, the Association's fourth Observers' Workshop would
take place at the Open University in Milton Keynes on February 28,
and a meeting of the Deep Sky Section on March 6 in Northampton. The
President then proceeded to introduce Prof Malcolm Longair,
Jacksonian Professor of Natural Philosophy at Cambridge University.
The President joked that to give a full CV of Prof Longair would
require longer than the talk itself, citing his former position as
Astronomer Royal for Scotland, and present post as head of the
Cavendish Laboratory, Cambridge, as two of his most notable
appointments. It gave Mr Boles great pleasure to welcome Prof Longair
to deliver the 2004 Christmas Lecture, entitled Astrophysics
and Cosmology in the 21st Century.
Prof
Longair spoke with great clarity, his excitement for his subject
clearly evident. He has since kindly provided his own summary of the
address, found elsewhere in this Journal. The talk was followed by
enthuastic applause, after which the meeting broke for tea.
The
meeting re-convened after the tea break and the President invited Mr
Mobberley to give his Sky Notes.
The January Sky
Mr Mobberley opened his presentation with a summary
of the discoveries made in 2003. There had been thirty-three comet
discoveries, most by LINEAR and NEAT, but Vello Tabur, an amateur
astronomer, had also snatched a discovery from the southern
hemisphere. Five galactic novae had been discovered in 2003, by
Japanese patrollers, Nick Brown in Australia and one by Bill Liller
in Chile. As far as supernovae were concerned, over 300 had been
discovered, with our own President, Tom Boles, discovering an
incredible thirty himself. Mark Armstrong had added sixteen to his
impressive tally and had secured over 80,000 images in the process.
His total was now up to fifty-five discoveries, from over a third of
a million images checked since 1995! Indeed, Tom and Mark were the
world's leading individual (i.e. not working as a team) patrollers.
Ron Arbour had discovered four of the brightest supernovae discovered
in 2003: his Supernova 2003ie in NGC 4051 was the seventh brightest
of 2003. Eight new UK Supernovae (five by Mark and three by Tom) had
been discovered since the last BAA meeting. Mr Mobberley explained
how he had secured his own first discovery on December 18th, of a
nova in M31. He thanked Tom, Mark and Guy Hurst who had helped him
validate the claim.
On
January 14th the Moon would occult the bright double star Gamma
Virginis and the speaker showed how the star would be placed with
respect to the Moon's limb. With help from Jonathan Shanklin, Mr
Mobberley then explained how the comets 2001 Q4 (NEAT) and 2002 T7
(LINEAR) were developing in the southern and northern skies. Mr
Shanklin also showed a light curve of 2P/Encke, compiled from BAA
observations. Both Q4 and T7 were brightening steadily. The paths of
a number of much fainter comets, essentially CCD targets, were also
described. Mr Mobberley then showed a short animation of the approach
of NASA's Stardust probe to the nucleus of Comet Wild 2. The shots
of the nucleus were only the third such set of images ever obtained,
after Halley and Borrelly.
The
planet Venus was slowly creeping into the evening sky and a chart of
its movement was shown. Joining Mr Mobberley from the audience, Dr
McKim then explained how the recent Martian dust storm had evolved
and, following this, pictures from the NASA Spirit probe were shown.
Mr
Mobberley also showed some extraordinarily high quality images of
Mars and Saturn taken in mid December, by Damian Peach. The speaker
thought the Saturn image must surely be the best image ever taken
from the Earth's surface, and it was taken from Buckinghamshire
with a Celestron 11 telescope! For amateurs with the ability to take
high quality images, many spots on Saturn's globe could be recorded
and followed at the present time. Moving on to Jupiter, Mr Mobberley
explained the major bright and dark spots on the giant planet's
disc and how they were currently being followed by advanced imagers,
most using webcams.
The
speaker showed that two BAA asteroids, 2602 Moore and 4084 Hollis
were currently close together near the Beehive cluster M44; both
would peak at around 15th mag. For binocular viewers, asteroids Ceres
and Hebe were now well placed in Gemini and Canis Minor respectively.
As
January turned into February the 2 kilometre diameter Apollo asteroid
6239 Minos would pass within ten million kilometres of Earth, peaking
at around mag 14.3.
Finally,
Mr Mobberley explained that, on November 23rd 2003, after eighteen
years of trying, Andrew Elliott had managed to video tape an asteroid
occulting a star, from his home at Warton in Lancashire. The asteroid
was 102 Miriam (mag 12.7) and it had occulted an 11.4 mag. star in
northern Orion. A copy of the video, showing the star disappear for
ten seconds, re-emerge and then, some time later, separate from the
star, was shown.
The
President thanked Mr Mobberley for his Sky Notes and then explained
that as the scheduled final speaker was unwell, Dr Hewitt would be
giving a talk on his own specialist area, the Deep Sky.
What's in a Name?
The
following talk, Dr Hewitt explained, would be a somewhat informal
tour of a little of the nomenclature of astronomy. Much of the
language used by stargazers seemed exotic, but somehow beautiful;
often foreign-sounding to Western ears, but very bewildering to the
newcomer. Even accomplished northern observers could feel themselves
thrust back into this state of perplexity upon their first visit
south. As an example, the names of the constellations were derived
from a rich stew of zoological names, often deeply embroiled in
ancient mythology, and mixed with more modern additions. The speaker
hoped that what followed would provide insights into many familiar,
and a few unfamiliar, objects.
Constellation
names, the speaker explained, were a tool which made the sky easier
to navigate, or an aide memoir to help in memorising groups of stars.
Each civilisation had attached its own associations to various areas
of the sky, each with its own mythology attached. Some of these
required more imagination than others, Capricorn being one of the
more fanciful. With only ten stars, each of mag 3-4, forming the
outline, to modern eyes a mythical creature with the horns of a goat
and the tail of a fish seemed not the most obvious connection to
draw. Indeed, to many, a boat seemed to spring to mind. However,
astronomers would appear, in general, an imaginative group, and the
more elaborate image is now taken for granted; its origins completely
forgotten. Just as we can so readily perceive clouds to take the form
of real objects or creatures, it seemed perhaps that this was a
prehistoric instance of the Rorschach inkblot test at work. And, as
to whether this was no more than the hallucinations of a drunken
Babylonian, the speaker could but only speculate. The origins of the
constellations being a vast subject in its own right, the speaker
moved briskly on.
Browsing
any star atlas, a novice was sure to become rapidly baffled by the
hotchpotch of Greek letters, Arabic numerals, even Roman numerals in
some older atlases, as well as the vast array of catalogue numbers
that form stellar names. Many of the more conspicuous stars, or
groups of stars, had not surprisingly acquired more memorable
designations and nicknames. As an example, the speaker used the
well-known stars around Orion, each with familiar informal names:
Betelgeuse, Bellatrix, Rigel, and further out, Aldebaran and Sirius.
Some names were ancient, many more modern; some were widespread,
whilst others were very personal. Each age had brought its own
distinctive flavour to the art. More modern nicknames included "Jack
and his Wagon", common British names for Mizar and Alcor (separated
by a little under 12'). Popular names for nebulae were, Dr Hewitt
added, invariably modern since in all but the brightest cases, their
discoveries had to await the telescopic era. Even naked eye nebulae
were typically neglected previously as too faint to warrant
attention.
In
the modern era, stars had received nicknames for a wide range of
reasons. Cor Caroli, otherwise known as α Canes Venatici, was
assigned its new name in 1725 by Halley, in honour of Charles II. It
was claimed by court physician Sir Charles Scarborough that it had
shined most brilliantly on 1660 May 29, the eve of the new king's
return to London at the end of the Commonwealth era. Physicians would
evidently go to extreme lengths to win favour with a new monarch! The
origin of the names Sualocin and Rotanev for α and β Delphinus
respectively had long remained a mystery after their first spurious
appearance in the Palermo
Catalogue of 1814. The
explanation was eventually uncovered to lie in their inversions to
form "Nicolaus Venator", a Latinised form of the name of Piazza's
assistant and successor, Niccolo Cacciatore.
Moving
onto groups of stars, the speaker had found definitions of the word
"asterism" somewhat elusive in the astronomical literature, but
the word was increasingly in very common usage. Many such groupings
were of ancient origin, such as the Plough, the Little Dipper or the
Square of Pegasus. Each helped to highlight a prominent area of a
constellation, and were useful celestial signposts. The most ancient
qualifiers for such status were almost invariably open clusters, such
as the Pleides, the Hyades, Praesepe and Coma Berenices. Some of
these names could be traced back beyond the earliest literature we
have, for example, Homer made reference to the Hyades cluster in his
writings. Other asterisms, such as the Summer Triangle and the Teapot
in Sagittarius, were more recent additions, the former having been
coined by Sir Patrick Moore. Many newer additions were so faint that
they had not warranted much attention before the telescopic era, but
now provided instantly recognisable and invaluable signposts to
asteroid and nova patrollers. The speaker's personal favourites
included Brocchi's Cluster, named after a chart-maker at the AAVSO
at the turn of the 20th century, Dalmiro F. Brocchi, though now often
called after its conformational lookalike, "The Coathanger".
Another favourite was Kemble's Cascade, a group of 20 stars in the
mag 7-10 range, cascading into NGC 1502 in Camelopardis. A more
modern addition, it had been named by Walter Scott Houston after it
was pointed out to him in a letter from Father Lucian Kemble in 1980.
Being found in a constellation with few bright stars, it was ideally
located for deep sky observation.
Some
deep sky observers, particularly those working in America, were very
keen on forming new asterisms. A great hero of this cause had been
the late Walter Scott Houston, who wrote his Deep
Sky Wonders column for
Sky and Telescope
from 1946 until his death in 1993, his last column appearing in July
1994, and who had enthusiastically and persuasively encouraged their
construction. However, the speaker questioned the value of scanning
the sky with binoculars seeking to instigate new nomenclature –
recent additions ranging from the Broken Engagement ring of Ursa
Major to the Red Necked Emu of Cygnus.
The
speaker moved onto the names assigned to deep sky objects, so
numerous and of such varying types that they invited a vast array of
descriptive terms. The need for many of these had had to await the
telescopic era, or even later until the widespread use of photography
in the case of more diffuse objects, galaxies in particular. The
early deep sky observers, working at the dawn of this vast field,
made full use of the opportunity to construct elaborate descriptions
of the systems they observed. The disappearance of such florid
language as used by these pioneers was a loss that the speaker
regretted in the modern electronic age, and so he used the closing
minutes of his talk to put forward some of these more poetic
dipictions.
For
example, upon discovering the Ring
Nebula, M57, in 1779,
Darquier in Toulouse said of it "a
very dull nebula but perfectly outlined; as large as Jupiter and
looks like a fading planet".
Messier thought it to be a ring of unresolved stars, meanwhile
William Hershel described it as both "a ring of stars" and "a
perforated nebula", coining the term "planetary nebula" in
comparison of its disk to that of a planet. John Hershel was the
first to comment upon the inner light as "like a gauze stretched
over a hoop". The word "ring" first appeared in descriptions by
d'Arrest and Smyth, and would seem to have stuck.
The
famous Crab Nebula,
M1, was discovered by John Bevis in 1731, later being noted by
Messier on 1758 September 12. The name "crab" was not to appear
until 1844, when Lord Rosse described the filaments as like "the
legs of a crab". As for the Dumbell
Nebula, M27, the
speaker recalled Messier's description upon its discovery in 1764
as an "oval nebula with no star". William Hershel later described
a "double stratum of stars", whilst John Hershel noted the
luminosity filling of a lateral cavities, and first used the name
"dumb-bell" of it. Lord Rosse commented upon "an external ring
like a chemical retort".
Messier
had been the first to stumble upon the Whirlpool
Galaxy, M51, in 1773,
whilst observing a comet. His friend Méchain noted its outlying
companion galaxy, NGC 5195, a few years later, in 1781. Rosse
provided a beautiful description: "spiral convolutions... with
successive increase of optical power, the structure has become more
complicated". He was convinced that NGC5195 was physically
connected to its neighbour NGC5194, drawing it as such. In the
photographic age, this conviction has been vindicated, though the
connecting tail is very faint. The name "whirlpool" described
well its appearance, but was of unknown origin, quite possibly one of
Rosse's many attributions. Next
the speaker moved to the Trifid
Nebula, M20,
discovered by Le Gentil and named by John Hershel, who said of it
"...singularly trifid, consisting of three bright and irregularly
formed nebulous masses... they enclose and surround a sort of
3-forked rift or vacant area, abruptly and uncouthly crooked and
quite devoid of nebulous light..."
After
discussing a few further jewels from the deep sky treasure trove,
each illustrated with fine images, many from the Association's
active deep sky observers, the speaker went on to discuss the changes
brought by the modern photographic age. Diffuse, large, low surface
brightness objects had been properly recognised for the first time,
including the Helix
Nebula, NGC 7293, and
the Eskimo Nebula,
NGC 2392. In recent decades, with modern photographic and CCD
equipment, amateurs had become able to image these objects which had
previously only been accessible to professionals. The Hubble Space
Telescope was now pushing the frontiers to even deeper sky objects:
the Cartwheel Galaxy,
the Egg Nebula,
the Hourglass Nebula,
and many more.
In
conclusion, the speaker explained that nomenclature had an important
role to play in making astronomy more accessible. Used in moderation,
it could fire the imagination, but there was a danger of inventing
new words in excess. After the applause, the President wished members
a successful new year before adjourning the meeting until February 28
at the Open University in Milton Keynes.
-----
Dominic
Ford and Martin Mobberley
©
2004 Dominic Ford / The British Astronomical Association.
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