ATLAS OF THE UNIVERSEATLAS OF THE UNIVERSE
The Magellan Mission
ATLAS OF THE UNIVERSE
▲Magellan.Released from
the cargo bay of the space
Shuttle Atlantison 4 May
1989, the spacecraft reached
Venus on 10 August 1990.
After 37 silent minutes while
it swung around the back
of the planet, it emerged
in a perfect orbit. Its radar
mapping programme was
completed by September
1992, and it began a cycle of
gravity mapping. Magellan
has set a record for the
amount of data gathered
by a space mission.T
he various American and Russian spacecraft to Venus,
launched between 1961 and 1984, had provided a great
deal of information about the planet, but there was still
need for better radar coverage. This was the purpose of
the Magellan probe, launched from the Shuttle Atlantison
4 May 1989. It was hoped that the resolution would be far
better than anything achieved by the earlier missions, and
so it proved. Radar mapping began in September 1990,
and by 1993 over 98 per cent of the planet’s surface had
been covered. Cycle 4 ended on 24 May of that year. One
cycle is 243 Earth-days, during which Venus rotates com-
pletely beneath the spacecraft’s orbital plane. When
Magellan first went into orbit round Venus, the period was
3.2 hours, and the minimum distance was 289 kilometres
(180 miles), though in September 1992 this was reduced
to 184 kilometres (115 miles).
Magellan could resolve features down to 120 metres
(400 feet). The main dish, 3.7 metres (12 feet) across,
sent down a pulse at an oblique angle to the spacecraft,
striking the surface below much as a beam of sunlight will
do on Earth. The surface rocks modify the pulse before
it is reflected back to the antenna; rough areas are radar-
bright, smooth areas are radar-dark. A smaller antenna
sends down a vertical pulse, and the time-lapse between
transmission and return gives the altitude of the surface
below to an accuracy of 10 metres. Magellan has shown
fine details on the volcanic surface. There are for examplemultiple lava flows, with varying radar reflectivity indi-
cating rocky and smoother areas. There are flows which
have clearly been due to very liquid lava, and even show
river-like meandering. The features known as tesserae are
high, rugged tracts extending for several thousands of
kilometres; one of these is Alpha Regio, shown on the
facing page. Magellan showed many ‘coronae’, caused by
plumes of hot material rising from below the surface.
Arachnoids, so far found only on Venus, are so named
because of their superficial resemblance to spiders’ webs;
they are circular to ovoid in shape, with concentric rings
and intricate outward-extending features. They are similar
in form to the coronae – circular volcanic structures
surrounded by ridges, grooves and radial lines. There are
strange-looking objects which have been nicknamed
‘pancakes’; these too are of volcanic origin. There are
strong indications of explosive vulcanism here and there.
The crater Cleopatra on the eastern slopes of the Maxwell
Montes is about 100 kilometres (62 miles) in diameter.
The scale and colours of the images shown here are
products of the computer processing; for example, the
vertical scale in the image of Gula Mons seen at top right
in the main picture has been deliberately increased to
accentuate its features. The colours are not as they would
be seen by an observer on the planet – assuming that he or
she could get there. For example, the bright patches repre-
senting lava flows would not appear so to the naked eye.C Atl of Univ Phil'03stp 2/4/03 3:02 pm Page 74