632 



moniiicae, sive 11126,146 partibus azoti :z: 26,146 - 9^1 76 

 zz: i6,9"0. Propterea compositi eiunt 100 partes azoti 

 ex 64,905 p. amnionii et 35,095 p. adaucli ponderis, 

 et 100 partes ammoniacac ex 53,ii4 P- amrnonii et 

 46,1886 p. halomeleogenii. Quoniam dcnique ex 100 

 partibiis azoti producuntur i56, 935 parles oxiduli azoti ; 

 2j3,86 p. oxidi azoti; 289,77 p. acidi nitrosi (t 327,76 

 p. acidi nitrici, continebuntLir in 100 partibiis : 



oxïdiiU azoti 41, 358 amrnonii et 58,642 augmenti ejtisdcm, 



oxidi azoti 30,349 ~ ~ — 69^651 



acidi nitrosi 22,399 -— 7 7, 601 



acidi nitrici 19,803 — 80,197. 



His dalis, ex analysibiis nitratum definire licear qiian- 

 titatem halomeleogenii in acido nîtrico. In nitrate ammo- 

 niacae invenit Berzclius 67,625 partes acidi 21,143 par- 

 tibus ammoniacae conjiinctas. At secundum lemmata no- 

 stra erunt in 21,143 p. ammoniacae, 11, 23 p. amrnonii 

 et 9,913 p. halomeleogenii: propterea latebiint in 67,625 

 p, acidi nitrici 19,826 p. halomeleogenii. Cum vero in 

 eodem acido auctum sit ammonium pondère 54*233, con- 

 tinebit idem acjuae ad bases saturandas inefficacis partes 

 54,233—19, 826^^34,407. In nitrate plumbi inveniun- 

 tur , secundum analysin a Chevreuil praestitam, 33 p. acidi 

 et 67 p. plumbi jQavi. Continent vero 67 p. oxidi plumbi 



