Page:The Liquefaction of Gases.djvu/53

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Liquefaction of Gases.
49

identity of every portion of the fluid obtained, yet the crystallization and other characters of the latter seemed to show that it was a pure substance.

Fahr.
°
Atmospheres. Fahr.
°
Atmospheres. Fahr.
°
Atmospheres.
-100 1.02 -50 2.35 0 6.10
 √ -94 1.09  √ -45 2.59 10 7.21
 √ -90 1.15  √ -40 2.86 20 8.41
 √ -83 1.27 -30 3.49  √ 26 9.36
-80 1.33  √ -24 3.95 30 9.94
 √ -74 1.50  √ -20 4.24 40 11.84
-70 1.59  √ -16 4.60  √ 48 13.70
 √ -68 1.67 -10 5.11 50 14.14
-60 1.93  √ -2 5.90  √ 52 14.60
 √ -58 2.00

Carbonic acid.—The solidification of carbonic acid by M. Thilorier is one of the most beautiful experimental results of modern times. He obtained the substance, as is well known, in the form of a concrete white mass like fine snow, aggregated. When it is melted and resolidified by a bath of low temperature, it then appears as a clear, transparent, crystalline, colourless body, like ice; so clear, indeed, that at times it was doubtful to the eye whether anything was in the tube, yet at the same time the part was filled with solid carbonic acid. It melts at the temperature of -70° or -72° Fahr., and the solid carbonic acid is heavier than the fluid bathing it. The solid or liquid carbonic acid at this temperature has a pressure of 5.33 atmospheres nearly. Hence it is easy to understand the readiness with which liquid carbonic acid, when allowed to escape into the air, exerting only a pressure of one atmosphere, freezes a part of itself by the evaporation of another part.

Thilorier gives -100°C. or -148° Fahr. as the temperature at which carbonic acid becomes solid. This however is rather the temperature to which solid carbonic acid can sink by further evaporation in the air, and is a temperature belonging to a pressure, not only lower than