MARS. 150 



of the satellite upon atmospheric pressure, aqueous depositions, 

 and the dispersion of clouds, will be treated of in the last and 

 purely telluric part of the Cosmos. 



Mars. 



The diameter of this planet, notwithstanding its considera- 

 bly greater distance from the Sun, is only 0'519 of the Earth's, 

 or 3568 geographical miles. The eccentricity of his orbit is 

 0*0932 168, next to Mercury the greatest of all the planetary 

 orbits ; and also on this account, as well as from its proximi- 

 ty to the Earth, the most suitable for Kepler's great discove- 

 ry of the elliptical form of the planetary orbits. His period 

 of rotation* is, according to Madler and "VYilhelm Beer, 24h. 

 37m. 23s. His sidereal revolution round the Sun occupies 1 

 year 32 Id. 17h. 30m. 41s. The inclination of Mars' 's orbit 

 toward the Earth's equator is 24° 44' 24"; his mass, IFI } IT ' 



his density, in comparison to that of the Earth, 0-958. The 

 mass of Mars will be hereafter corrected by means of the dis- 

 turbances which he may experience from his influence with 

 the Comet of De Vico, in the same way that the close approach 

 of Encke's Comet was taken advantage of to ascertain the 

 mass of Mercury. 



The flattening of Mars, which (singularly enough) the great 

 Kbnigsberg astronomer permanently doubted, was first recog- 

 nized by William Herschel (1784). With regard to the amount 

 of the flattening, however, there was long considerable uncer- 



absorbed in the upper strata of our atmosphere, where it converts visi- 

 ble clouds into transparent vapor." The phenomenon of the rapid dis- 

 persion of clouds by the full Moon, when they are not extremely dense, 

 is considered by Sir John Herschel " as a meteorological fact, which," 

 he adds, "is confirmed by Humboldt's own experience and the uni- 

 versal belief of the Spanish sailors in the tropical seas of America." — 

 See Report of the Fifteenth Meeting of the British Association for the 

 Advancement of Science, 1846, Notices, p. 5; and Outlines, p. 201. 



* Beer and Madler, Beitrdge zur Phys. Kenntniss des Sonnensy stems, 

 1841, p. 113, from observations in 1830 and 1832 ; Madler, Astronomie, 

 1849, p. 206. The first considerable improvement in the data for the 

 period of rotation, which Dominique Cassini found 24h. 40m., was the 

 result of laborious observations by William Herschel (between 1777 and 

 1781), which gave24h. 39m. 21-7s. Kunowsky found, in 1821,241). 36m. 

 40s., very near to Madler's result. Cassini's oldest observation of the 

 rotation of a spot upon Mars (Delambre, Hist, de V Astron. Mod., torn, 

 ii., p. 694) appears to have been soon after the year 1670; but in the 

 very rare Treatise, Kern, Diss, de Scintillaiione Stellarum, Wittenb., 

 1686, § 8, I find that the actual discoverers of the rotations of Mars and 

 Jupiter are stated to have been " Salvator Serra and Father iEgidius 

 Franciscus de Cottignez. astronomers of the Collegio Romano." 



