Philips Atlas of the Universe

ATLAS OF THE UNIVERSE

Mars

M

ars, the first planet beyond the orbit of the Earth, has

always been of special interest, because until relative-

ly recently it was thought that life might exist there. Less

than a century ago, there was even a prize (the Guzman

Prize) offered in France to be given to the first man to

establish contact with beings on another world – Mars

being specifically excluded as being too easy!

Mars is considerably smaller and less dense than the

Earth, and in size it is intermediate between the Earth and

the Moon. The escape velocity of 5 kilometres per second

(3.1 miles per second) is high enough to hold down a thin

atmosphere, but even before the Space Age it had become

clear that the atmosphere is not dense enough to support

advanced Earth-type life; neither could oceans exist on

the surface. The axial tilt is much the same as ours, so

that the seasons are of similar type even though they are

much longer. The orbital period is 687 days. The axial

rotation period, easily measured from observations of the

surface markings, is 24 hours 37 minutes 22.6 seconds, so

that a Martian ‘year’ contains 668 Martian days or ‘sols’.

The orbit of Mars is decidedly eccentric. The distance

from the Sun ranges between 249 million and 207 million

kilometres (between 155 million and 129 million miles),

and this has a definite effect upon Martian climate. As

with Earth, perihelion occurs during southern summer,

so that on Mars the southern summers are shorter and

warmer than those of the north, while the winters are

longer and colder.

At its nearest to us, Mars may come within 59 million

kilometres (36 million miles) of the Earth, closer than any

other planet apart from Venus. Small telescopes will then

show considerable surface detail. First there are the polar

ice-caps, which vary with the seasons; at its greatest extent

the southern cap may extend down to latitude 50°, though

at minimum it becomes very small. Because of the more

extreme climate in the southern hemisphere, the variations

in the size of the cap are greater than those in the north.

The dark areas are permanent, though minor variations

occur; as long ago as 1659 the most conspicuous dark

feature, the rather V-shaped patch now known as the Syrtis

Major, was recorded by the Dutch astronomer Christiaan

Huygens. Originally it was assumed that the dark areas

were seas, while the ochre tracts which cover the rest of the

planet represented dry land. When it was found that the

atmospheric pressure is too low for liquid water, it was

believed that the dark areas were old sea-beds filled with

vegetation. This view was generally accepted up to the

time of the first fly-by made by Mariner 4, in 1965.

There are various bright areas, of which the most

prominent is Hellas, in the southern part of the planet. At

times it is so bright that it has been mistaken for an extra

polar cap, and it was once thought to be a snow-covered

plateau, though it is now known to be a deep basin.

In general the Martian atmosphere is transparent, but

clouds can be seen in it, and there are occasional dust-

storms which may spread over most of the planet, hiding

the surface features completely. What apparently happens

is that if the windspeed exceeds 50 to 100 metres per sec-

ond (160 to 320 feet per second), tiny grains of surface

material are whipped up and given a ‘skipping’ motion,

known technically as saltation. When they strike the sur-

face they force still smaller grains into the atmosphere,

where they remain suspended for weeks. Widespread dust-

storms are commonest when Mars is near perihelion, and

the surface winds are at their strongest.

The first reasonably reliable maps of Mars date back

to the 1860s. The various features were named, mainly

after astronomers; the old maps show Mädler Land,

Lassell Land, Beer Continent and so on. (The latter name

honoured Wilhelm Beer, a German pioneer of lunar and

planetary observation.) Then, in 1877, G. V. Schiaparelli

produced a more detailed map and renamed the features,

so that, for example, the most prominent dark marking

on Mars, the V-shaped feature drawn by Huygens so long

ago, and formerly known as the Kaiser Sea, was renamed

Syrtis Major. It is Schiaparelli’s nomenclature, modified

and extended, which we use today.

Schiaparelli also drew strange, artificial-looking lines

across the ochre deserts, which he called canali or

channels; inevitably this was translated as ‘canals’ and the

suggestion was made that the features might be artificial

waterways. This view was championed by Percival

Lowell, who built the great observatory at Flagstaff in

The rotation of Mars.

A series of images taken by

Charles Capen with the

Lowell refractor. The V-

shaped Syrtis Major appears

on the left-hand picture; the

extreme right-hand picture

shows the Meridiani Sinus.

The south polar cap is much

in evidence. The main

markings shown on these

pictures can be seen with

moderate-sized telescopes

when Mars is well placed.

 Marsphotographed by

Charles Capen with the

61-cm (24 inch) Lowell

refractor. The south polar

cap, at top, is prominent.

The very dark feature to

the left is Meridiani Sinus,

which includes the small

crater which makes the

zero for Martian longitude.

To the right of Meridiani

is the dark mass which

includes Margaritifer

Sinus and Aurorae Sinus.

(According to the new

nomenclature, ‘Sinus’

has become ‘Planum’.)

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