ounces of this salt in the form of ointment, administered to a dog by rubbing it over his nose, and letting him lick it off and swallow it, had no effect whatever.[1]
CHAPTER V.
OF POISONING WITH ACETIC ACID.
Acetic acid, although in its ordinary state undoubtedly possessed
of little activity as a poison, has nevertheless proved in some circumstances
deleterious, and capable of occasioning death even in the
human subject. It exists in various forms. The most common is
ordinary vinegar, in which it is much diluted. Another common
form is the pyroligneous vinegar, pyroligneous acid, or pyroligneous
acetic acid, as it is variously called, which when impure has a reddish-brown
colour, but when pure is almost or altogether colourless, and
the strength of which is much greater than that of common vinegar.
What is called proof vinegar has a density about 1005, and contains
about four per cent. of concentrated acid. The pyroligneous acid
sold in the shops of this town has a density about 1035, and contains
about 25 per cent.; but the pyroligneous acid of the London Pharmacopœia
is stronger, for its density is 1050, and 100 parts contain
about 50 of the strong acid. A third form is the concentrated or
pure acetic acid of the apothecary, which is familiarly known as the
chief ingredient and menstruum of a common perfume, aromatic
vinegar.
Section I.—Of the Tests for Acetic Acid.
In all its forms acetic acid is easily known by its very peculiar odour, together with its acid reaction on litmus. But if farther evidence of its nature be required, it will be requisite to neutralise the fluid suspected to contain it with carbonate of potass, and then to procure the acetate of potass by evaporation. This salt is known by its extreme tendency to deliquesce, and by a concentrated solution in water, yielding, when distilled with sulphuric acid, a fluid possessing the peculiar odour and pungency of concentrated acetic acid.
When in a state of compound admixture with organic substances, such as the contents of the stomach, it has been proved by late researches of Orfila,[2] that this acid may be present in considerable proportion without distinctly reddening litmus. For such mixtures the following process of analysis, devised by the Parisian professor, will be found convenient and effectual. The fluid being put into a retort with a receiver attached, the retort is to be heated in a muriate of lime bath till the residuum be dry. The distilled fluid may then be tested tentatively for sulphuric and muriatic acids; and these being