of August lasts about six hours, and the earth travels at the rate of eighteen miles in a second, it follows that the breadth of this ring at the place where the earth crosses it is 4,043,520 miles. In Fig. 4, A B represents a portion of the orbit of the comet of 1862, No. III., which is identical with that (Fig. 2) of the August shower.
The calculations of Schiaparelli, Oppolzer, Peters, and Le Verrier, have also discovered the comet producing the meteors of the November
Fig. 4.
Orbits of the August and November Meteor-Showers.
(Orbits of Comets III., 1862, and I., 1866.)
shower, and have found it in the small comet of 1866, No. I., first observed by Tempel, of Marseilles. Its transformation into a ring of meteors has not proceeded nearly so far as that of the comet of 1862, No. III. Its existence is of a much more recent date; and, therefore, the dispersion of the meteoric particles along the orbit, and the consequent formation of the ring, is but slightly developed.
According to Le Verrier, a cosmical nebulous cloud entered our