Australian Sky & Telescope - April 2018

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12 AUSTRALIAN SKY & TELESCOPE April 2018


DISCOVERIES by David Ellyard

Riddle of the rings


Centuries of study have opened our eyes to Saturn’s wonders.


T


he rings that surround Saturn
are among the great wonders
of the Solar System, even more
so nowadays when spacecraft and
powerful telescopes have revealed their
astonishingly intricate beauty.
Galileo was the first to glimpse them
with his primitive telescope in 1610, but
he couldn’t understand what he saw. The
planet appeared to be not a simple disk
like Mars or Jupiter, but displayed some
sort of protuberances on either side. Did
Saturn have ‘ears,’ or was the planet
really three planets in close proximity,
with the big one in the middle? He was
even more puzzled two years later when
the phenomenon disappeared (as a result
of the Earth passing through the plane
of the ‘rings’ and seeing them edge-on).
In time it returned.
By the end of the 17th century, using
much better telescopes, observers such
as Christian Huygens and Robert Hooke
had solved the mystery. As Huygens
announced in 1655 in a statement
hidden in an anagram (to protect his
priority in the discovery, as Galileo had
done), “Saturn is surrounded by a flat
ring that nowhere touches the planet”.
Confirming the discovery, Hooke was
able to see that the rings cast a shadow
on the planet and the planet cast a
shadow on the rings.
As time went by and technology
improved, we learned more. Jean-
Dominique Cassini found there were
several rings, not just one, and his

name became synonymous with the
major division within them. Now we
know there are many rings, dozens,
hundreds depending on how they are
counted. When the Pioneer and Voyager
spacecraft visited the planet late in the
20th century, they showed the rings
looking like the grooves of an LP record.
But what were they made from,
and how had they formed? A century
after Cassini, the great mathematician
Pierre-Simon Laplace proved the ring
or rings could not be solid, since the
powerful gravity of the planet, pulling
differentially on various parts of the
ring(s), would tear it apart. Perhaps a
number of ringlets might survive, or a
ring made out of some sort of liquid.
Half a century on again, James Clark
Maxwell sorted it out. No pattern of
solid rings or ringlets or liquid rings
would survive. The rings must be made
of countless tiny fragments, all orbiting
the planet independently like so many
minute moons. If that were so, each
fragment would be controlled by the
same laws that guide the motions of
the planets... laws devised in the early
17th century by Johannes Kepler. This
would require the particles making up
the inner edge of a ‘ring’ to move more
quickly that those near the outer edge.
And so it proved. In 1895 — on April
9, which is why were are celebrating the
discovery this month — US astronomer
James Keeler of Allegheny Observatory
announced the results of a study

undertaken with a spectroscope (which
breaks light up into its many colours).
Comparing light reflected from the
inner part of a ring with that bouncing
off an outer region, he saw shifts in the
colour of the light (due to the Doppler
Effect) consistent with the predicted
differences in orbital speed. So Maxwell
was right. A few years later Russian
astronomer Aristarkh Belopolsky of
Pulkovo Observatory found the same
thing, using methods that also showed
that the clouds of Jupiter moved at
different speeds at different latitudes.
As to how the rings were formed,
again the gravity of the planet is the key
factor. The region of the rings lies with
the ‘Roche Limit’ for Saturn, where
gravitational forces from the planet
would tear apart any large object. The
rings are made up from matter left over
from the formation of the planet and
which might have formed into a moon,
had Saturn allowed it.
So the major mystery of the rings
of Saturn was solved, but recent
observations, such as by the successful
(and recently ended) Cassini mission,
have thrown up many more questions.
More rings, the intricate patterns and
movements within them, and the role
of tiny embedded moons, will keep
researchers going for many years yet.

■ DAVID ELLYARD presented SkyWatch
on ABC TV. His StarWatch StarWheel
sold over 100,000 copies. NASA/JPL-CALTECH/SPACE SCIENCE INSTITUTE
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