272 Chemical Nomenclature of Berzelius. 
Sulpharseniates. _ Sulphotungstates. 
Sulpharsenites.(67) Sulphantimoniates. 
Hyposulpharsenites. Sulphantimonites.- 
Sulphochromates. Hyposulphantimonites. 
Hypersulphomolybdates.(68) Sulphostannates.(69) 
Sulphomolybdates. Sulphotantalates.(d) 
B. HALOID SALTS. 
As the remarks just made in relation to the sulphosalts apply also 
to this class, I shall, here, give only a few examples, which will show 
how the series of sulphates may be used to ascertain the name of 
each species of the haloid salts. 
Potassic chloruret. Chloride of potassium.(y)’ 
Sodic chloruret. Chloride of sodium. 
Ammonic cbloruret. Hydrochlorate of ammonia. 
Mercurious chloruret. Protochloride of mercury. 
Mercuric chloruret. Perchloride of mercury. 
Sodic ioduret. Iodide of sodium. 
Ferrous ioduret. Todide of iron. 
Ferric ioduret. 
Potassic ioduret. Iodide of potassium. 
Bioduret of potassium. 
Trioduret of potassium. 
Calcic fluoruret. Fluoride of calcium. 
(67) Containing, the first a compound of sulphur and arsenic corresponding to ar- 
senic acid; the second a compound proportional to arsenious acid, the arsenic and 
arsenious sulphides. The hyposulpharsenites (or sulphohyparsenites) contain real- 
gar, (hyparsenious sulphide.)— Trans. 
(68) The sulphomolybdates contain the molybdic sulphide, (note 41,) ani the hy- 
persulphomolybdates the hypermolybdic sulphide; the first mentioned compound is 
proportional to molybdic acid, the second has no,similar compound in the combina- 
tions of molybdenum with oxygen.—Tvans. 
(69) Contain the stannic sulphide, which corresponds to the stannic oxide, (per- 
oxide of tin.) 
(d) Besides the salts enumerated in the table, “‘ there exist sulphoseleniates, but 
only of the more feeble bases.”’ ‘‘There are known also, sulphaurates, sulphiri- 
dates, sulphoplatinates, &c. but in these salts the affinities of the electro-negative 
sulphuret are very feeble.” ‘It is possible, that, in the dry way, sulphoborates, 
sulphosilicates, sulphotitanates, and sulphotantalates may be formed, which water 
converts at once into oxysalts, with the disengagement of sulphuretted hydrogen. 
Experiment has proved this in relation to the sulphotantalates.” (Vol. Ill, p. 372, 
&e )—Trans. 
(y) The names in this column are those of the common nomenclature.— Trans: 
