_Names of the Bases._ _Names of the Neutral Salts._
Argill Nitro-muriat of argill.
Ammoniac ammoniac.
Oxyd of antimony antimony.
silver silver.
a.r.s.enic a.r.s.enic.
Barytes barytes.
Oxyd of bis.m.u.th bis.m.u.th.
Lime lime.
Oxyd of cobalt cobalt.
copper copper.
tin tin.
iron iron.
Magnesia magnesia.
Oxyd of manganese manganese.
mercury mercury.
molybdena molybdena.
nickel nickel.
gold gold.
platina platina.
lead lead.
Potash potash.
Soda soda.
Oxyd of tungstein tungstein.
zinc zinc.
_Note._--Most of these combinations, especially those with the earths and alkalies, have been little examined, and we are yet to learn whether they form a mixed salt in which the compound radical remains combined, or if the two acids separate, to form two distinct neutral salts.--A.
SECT. XX.--_Observations upon the Nitro-Muriatic Acid, and its Combinations._
The nitro-muriatic acid, formerly called _aqua regia_, is formed by a mixture of nitric and muriatic acids; the radicals of these two acids combine together, and form a compound base, from which an acid is produced, having properties peculiar to itself, and distinct from those of all other acids, especially the property of dissolving gold and platina.
In dissolutions of metals in this acid, as in all other acids, the metals are first oxydated by attracting a part of the oxygen from the compound radical. This occasions a disengagement of a particular species of gas not hitherto described, which may be called _nitro-muriatic gas_; it has a very disagreeable smell, and is fatal to animal life when respired; it attacks iron, and causes it to rust; it is absorbed in considerable quant.i.ty by water, which thereby acquires some slight characters of acidity. I had occasion to make these remarks during a course of experiments upon platina, in which I dissolved a considerable quant.i.ty of that metal in nitro-muriatic acid.
I at first suspected that, in the mixture of nitric and muriatic acids, the latter attracted a part of the oxygen from the former, and became converted into oxygenated muriatic acid, which gave it the property of dissolving gold; but several facts remain inexplicable upon this supposition. Were it so, we must be able to disengage nitrous gas by heating this acid, which however does not sensibly happen. From these considerations, I am led to adopt the opinion of Mr Berthollet, and to consider nitro-muriatic acid as a single acid, with a compound base or radical.
TABLE _of the Combinations of Fluoric Acid, with the Salifiable Bases, in the Order of Affinity._
_Names of the Bases._ _Names of the Neutral Salts._
Lime Fluat of lime.
Barytes barytes.
Magnesia magnesia.
Potash potash.
Soda soda.
Ammoniac ammoniac.
Oxyd of zinc zinc.
manganese manganese.
iron iron.
lead lead.
tin tin.
cobalt cobalt.
copper copper.
nickel nickel.
a.r.s.enic a.r.s.enic.
bis.m.u.th bis.m.u.th.
mercury mercury.
silver silver.
gold gold.
platina platina.
And by the dry way, Argill Fluat of argill.
_Note._--These combinations were entirely unknown to the old chemists, and consequently have no names in the old nomenclature.--A.
SECT. XXI.--_Observations upon the Fluoric Acid, and its Combinations._
Fluoric exists ready formed by Nature in the fluoric spars[42], combined with calcareous earth, so as to form an insoluble neutral salt. To obtain it disengaged from that combination, fluor spar, or fluat of lime, is put into a leaden retort, with a proper quant.i.ty of sulphuric acid, a recipient likewise of lead, half full of water, is adapted, and fire is applied to the retort. The sulphuric acid, from its greater affinity, expels the fluoric acid which pa.s.ses over and is absorbed by the water in the receiver. As fluoric acid is naturally in the ga.s.seous form in the ordinary temperature, we can receive it in a pneumato-chemical apparatus over mercury. We are obliged to employ metallic vessels in this process, because fluoric acid dissolves gla.s.s and silicious earth, and even renders these bodies volatile, carrying them over with itself in distillation in the ga.s.seous form.
We are indebted to Mr Margraff for our first acquaintance with this acid, though, as he could never procure it free from combination with a considerable quant.i.ty of silicious earth, he was ignorant of its being an acid sui generis. The Duke de Liancourt, under the name of Mr Boulanger, considerably increased our knowledge of its properties; and Mr Scheele seems to have exhausted the subject. The only thing remaining is to endeavour to discover the nature of the fluoric radical, of which we cannot hitherto form any ideas, as the acid does not appear to have been decomposed in any experiment. It is only by means of compound affinity that experiments ought to be made with this view, with any probability of success.
TABLE _of the Combinations of Boracic Acid, with the Salifiable Bases, in the Order of Affinity._
_Bases._ _Neutral Salts._
Lime Borat of lime.
Barytes barytes.
Magnesia magnesia.
Potash potash.
Soda soda.
Ammoniac ammoniac.
Oxyd of zinc zinc.
iron iron.
lead lead.
tin tin.
cobalt cobalt.
copper copper.
nickel nickel.
mercury mercury.
Argill argill.
_Note._--Most of these combinations were neither known nor named by the old chemists. The boracic acid was formerly called _sedative salt_, and its compounds _borax_, with base of fixed vegetable alkali, &c.--A.
SECT. XXII.--_Observations upon Boracic Add and its Combinations._