Like Jupiter's, the rings of Uranus are very dark but like Saturn's they are composed of fairly large particles ranging up to 10 meters in diameter in addition to fine dust. There are 11 known rings, all very faint; the brightest is the Epsilon ring. Shepherd Moons are important in maintaining the Epsilon ring. The Uranian rings were the first after Saturn's to be discovered. This was of considerable importance since we now know that rings are a common feature of large planets, not a peculiarity of Saturn alone.
Uranus' Satellites
Uranus has at lesat 20 named moons plus a number recently discovered which
as yet have not been given official names.
Unlike the other bodies in the solar system which have names from classical
mythology, Uranus' moons take their names from the writings of Shakespeare and
Alexander Pope. They form three distinct classes:
the 11 small very dark inner ones discovered by Voyager 2, the 5 large
ones (above), and the newly discovered much more distant ones.
Most have nearly circular orbits in the plane of Uranus'
equator (and hence at a large angle to the plane of the ecliptic);
the orbits of the outer 4 moons are much more elliptical (non-circular).
Miranda, Ariel, Umbriel, Titania and Oberon are the 5 main major moons of Uranus, ranging is size from 236 to 761 km in radius (still rather small: Earth's Moon is 3400 km).
Miranda is about half water ice and half rocky material and the surface is all mixed up with heavily cratered terrain intermixed with weird grooves, valleys and cliffs. In 1986, Voyager 2 passed closest to Miranda than any other moon. Scientists were being viewed on LIVE TV as the first images where being read down. Explaining the bizarre hitherto unknown terrain proved quite an embarrassment and the usual impressive and esoteric technical jargon of the scientists gave out. They resorted to using such terms as "chevron", "race track", and "layer cake" to describe Miranda's unique features.
There are no more missions planned to Uranus and Neptune. The data from Voyager 2 may be all we have for a very long time. However, groundbased images can still be quite revealing! See here