Since the specific weight of silver subchloride is greater than that of silver chloride, these figures prove that the subchloride is also present.
Schertel[74] distinguished two layers in fragments of silver from the Hildesheim silver find, the outermost of which proved to be silver chloride: Silver 75.
All utensils, distilled water, the nitric acid and the beakers must be free from chlorides, as the presence of these will cause precipitation of silver chloride, thereby introducing an error.
Silver chloride AgCl, a white salt, is still less soluble in water, a liter of water at 18° dissolving 0.
A particularly accurate method of determining silver consists in precipitating it as silver chloride by means of a standardized solution of sodium chloride.
Hence it is with albumenized paper which is weakly salted with a silver chloride a weak sensitizing bath may be used, whilst if it be rich in the chloride it must be of proportionate strength.
Silver chloride, lead chloride, and mercurous chloride are insoluble in water and acids, and can be prepared by adding hydrochloric acid to solutions of compounds of the respective elements.
Why is the silver sulphide first changed into silver chloride?
How do you account for the fact that a precipitate of silver chloride is not formed?
The precipitate is silver chloride (AgCl) and contains 75.
For example, one part by weight of silver chloride contains (and, if pure, always contains) 0.
With this amount of alloy each 2 milligrams of silver chloride formed is equivalent to 1 degree of fineness, so that the weight of the silver chloride obtained (stated in milligrams and divided by 2) will give the degree of fineness.
There are several volumetric methods; but that based on the precipitation of silver chloride in neutral solution, by means of a standard solution of silver nitrate (using potassium chromate as indicator), is preferred.
Silver chloride, AgCl, is fusible and is decomposed with difficulty, whilst Ag{2}O is easily decomposed.
Silver chloride, which is insoluble in water, is soluble in hydrochloric acid.
Hydrochloric acid is also produced by the ignition of certain metallic chlorides in a stream of hydrogen, especially of those metals which are easily reduced and difficultly oxidised--for instance, silver chloride.
Acidify as nitric acid, precipitate as silver chloride by sodium chloride or hydrochloric acid, and reduce as vide III, below.
The above list will hopefully provide you with a few useful examples demonstrating the appropriate usage of "silver chloride" in a variety of sentences. We hope that you will now be able to make sentences using this group of words.
