INDEX. 



369 



Justinian, conjectures on the physical ! 

 causes of volcanic eruptions, 243. 



Kamtz, isobarometric lines, 315; doubts 

 on the greater dryness of mountain air, 

 334. 



Kant, Emanuel, "on the theory and struc- 

 ture of the heavens," 50, 65 ; earth- 

 quake at Lisbon, 210. 



Keilhau on the ancient sea-line of the 

 coast of Spitzbergen, 296. 



Kepler on the distances of stars, 88; on 

 the density of the planets, 93 ; law of 

 progression, 95 ; on the number of com- 

 ets, 99 ; shooting stars, 113 ; on the ob- 

 scuration of the sun's disk, 132 ; on the 

 radiations of heat from the lixed stars, 

 136 ; on a solar atmosphere, 139. 



Kloden, shooting stars, 119, 124. 



Knowledge, superficial, evils of, 43. 



Krug of Nidda, temperature of the Gey- 

 ser and the Strokr intermittent fount- 

 ains, 222. 



Krusenstem, Admiral, on the train of a 

 fire-ball, 114. 



Kuopho, a Chinese physicist, on the at- 

 traction of the magnet, and of amber, 

 188. 



Kupfl'er, magnetic stations in Northern 

 Asia, 191. 



Lamanon, 187. 



Lambert, suggestion that the direction of 

 the wind be compared with the height 

 of the barometer, alterations of temper- 

 ature, humidity, &c., 315. 



Lamont, mass of Uranus, 93 ; satellites of 

 Saturn, 96. 



Language and thought, their mutual alli- 

 ance, 56 ; author's praise of his native 

 language, 56. 



Languages, importance of their study, 

 357, 359. 



Laplace, his "Systeme du Monde," 48, 

 62, 92, 141 ; mass of the comet of 1770, 

 107; on the required velocity of masses 

 projected from the Moon, 121, 122 ; on 

 the altitude of the boundaries of the at- 

 mosphere of cosmical bodies, 141 ; zo- 

 diacal Ught, 141 ; lunar inequalities, 166 ; 

 the Earth's form and size inferred from 

 lunar inequalities, 168, 169 ; his estimate 

 of the mean height of mountains, 301 ; 

 density of the ocean required to be less 

 than the earth's for the stability of its 

 equilibrium, 305 ; results of his perfect 

 theory of tides, 306. 



Latin writers, their use of the term "Mun- 

 dus," 70, 71. 



Latitudes, Northern, obstacles they, pre- 

 sent to a discovery of the laws of Na- i 

 ture, 36 ; earliest acquaintance with the ; 

 governing forces of the physical world, I 

 there displayed, 36 ; spread from thence 

 of the germs of civiUzation, 36. i 



Latitudes, tropical, their advantages for 

 the contemplation of nature, 33 ; pow- 

 erful impressions, from their organic 

 richness and fertility, 34 ; facilities they 

 present for a knowledge of the laws of | 



Q 



nature, 35 ; brilliant display of shooting 

 stars, 113. 



Laugier.his calculations to prove Halley'a 

 comet identical with the comet of 1378, 

 described in Chinese tables, 109. 



Lava, its mineral composition, 234. 



Lavoisier, 62. 



Lawrence (St.), fiery tears, 124 ; meteoric 

 stream, 125. 



Leibnitz, his conjecture that the planets 

 increase in volume in proportion to 

 their increase of distance from the 

 Sun, 93. 



Lenz, observationg on the mean level of 

 the Caspian Sea, 297 ; maxima of dens- 

 ity of the oceanic temperature, 304 ; 

 temperature and density of the ocean 

 under difl'erent zones of latitude and 

 longitude, 306. 



Leonhard, Karl von, assumption on for- 

 mations of granular limestone, 263. 



Leverrier, planet Neptune. See Trans- 

 lator's note, 90, 91. 



Lewy, observations on the varying quan- 

 tity of oxygen in the atmosphere, ac- 

 cording to local conditions, or the sea- 

 sons, 311, 312. 



Lichtenberg, on meteoric stones, 118. 



Liebig on traces of ammoniacal vapors in 

 the atmosphere, 311. 



Light, chromatic polarization of, 52 ; trans 

 mission, 88 ; of comets, 104-106 ; offix^ 

 ed stars, 105 ; extraordinary lightness 

 instances of, 142-144 ; propagation of, 

 153 ; speed of transit, 153, 154. See Au 

 rora. Zodiacal Light, &c. 



Lignites, or beds of brown coal, 283, 284 



Lines, isogonic (magnetic equal devia 

 tion), 177, 181-185; isoclinal (magnetic 

 equal inclination), 178, 179, 181-185 

 isodynamic (or magnetic equal force) 

 181, 185-194 ; isogeothermal (chthoniso 

 thermal), 219 ; isobarometric, 315 ; iso 

 thermal, isotheral, and isochimenal, 317, 

 327, 328, 348. 



Line of no variation of horary decUnation 

 183 ; lower limit of perpetual snow, 329- 

 332; phosphorescent, 113. 



Lisbon, earthquake of, 210, 211, 213, 214. 



Lord on the limits of the snow-line on the 

 Himalayas, 32. 



Lottin, his observations of the Aurora, 

 with Bravais and Siljerstrom, on the 

 coast of Lapland, 195, 200, 201. 



Lowenorn, recognized the coruscation of 

 the polar light in bright sunshine, 196. 



Lyell, Charles, investigations on the nu 

 merical relations of extinct and organ- 

 ic life, 274, 275 ; nether-formed or hyp- 

 ogene rocks, 249 ; uniformity of the pro- 

 duction of erupted rocks, 257. See notes 

 by Translator, 203, 244, 257. 



Mackenzie, description of a remarkable 

 eruption in Iceland, 23G. 



Maclear on a Centauri, 88 ; parallaxes 

 and distances of fixed stars, 153 ; in- 

 crease in brightness of rj Argo, 153. 



Madler, planetary compression of Uranus, 

 96 ; distano*j of the innermost satellite 



