Cadmium oxide is unaltered when exposed upon platinum wire in the flame of oxidation.  When heated upon charcoal in the flame of reduction it disappears in a very short time, while the charcoal is coated with a dark orange or yellow powder, the color of which is more visible after it is cooled.  The portions of this sublimate furthest from the assay present a visible iridescent appearance.  This reaction of cadmium is so characteristic and sensitive that minerals (for instance, calamine, carbonate of zinc) which contains from one to five per cent. of carbonate of cadmium, will give a dark yellowish ring of cadmium oxide, a little distance from the assay, after being exposed for a few moments to the flame of reduction.  This sublimate is more visible when cold, and is produced some time previous to the reduction of the zinc oxide.  If a vapor of the latter should appear, it indicates that it has been exposed too great a length of time to the flame.

Borax dissolves a considerable quantity of cadmium oxide upon a platinum wire to a clear yellow bead, which, when cold, is almost colorless.  If the bead is nearly saturated with the cadmium oxide, it appears milk-white when intermittingly heated.  If the bead is completely saturated, it retains its opalescent appearance.  Upon charcoal, and in the flame of reduction, the bead intumesces, the cadmium oxide becomes reduced to metal; this becomes volatilized and re-oxidized, and sublimes upon the charcoal as the yellow cadmium oxide.

In the oxidation flame, microcosmic salt dissolves a large quantity of it to a clear bead, which, when highly saturated and while hot, is yellowish colored, but colorless when cold.  By complete saturation, the bead is enamel-white when cold.

Upon charcoal, in the flame of reduction, the bead is slowly and only partially reduced, a scanty sublimate being produced on the charcoal.  The addition of tin promotes the reduction.

Carbonate of soda does not dissolve cadmium oxide in the oxidation flame.  In the reduction flame, upon charcoal, it is reduced to metal, and is volatilized to a red-brown or dark, red sublimate of cadmium oxide upon the charcoal, at a little distance from the assay the charcoal presenting the characteristic iridescent appearance.  This reaction is still more sensitive if the cadmium oxide is heated per se in the reduction flame.

Antimony (Sb).—­This metal is found in almost every country.  It principally occurs as the tersulphide (SbS^{3}), either pure or combined with other sulphides, particularly with basic sulphides.  Sometimes it occurs as the pure metal, and rarer in a state of oxidation as an antimonious acid and as the oxysulphide.

In the pure state, antimony has a silver-white color, with much lustre, and presents a crystalline structure.  The commercial and impure metal is of a tin-white color, and may frequently be split in parallel strata.  It is brittle and easily pulverized.  It melts at a low red heat (810 deg.), is volatilized at a white heat, and can be distilled.  At common temperatures it is not affected by the air.  At a glowing heat it takes fire, and burns with a white flame, and with white fumes, forming volatile antimonious acid.  Common acids oxidize antimony, but dissolve it slightly.  It is soluble in aqua regia (nitro-hydrochloric acid).