167. Q.--What expansion does water undergo in its conversion into steam?

A.--A cubic inch of water makes about a cubic foot of steam of the atmospheric pressure.

168. Q.--And how much at a higher pressure?

A.--That depends upon what the pressure is. But the proportion is easily ascertained, for the pressure and the bulk of a given quantity of steam, as of air or any other elastic fluid, are always inversely proportional to one another. Thus if a cubic inch of water makes a cubic foot of steam, with the pressure of one atmosphere, it will make half a cubic foot with the pressure of two atmospheres, a third of a cubic foot with the pressure of three atmospheres, and so on in all other proportions. High pressure steam indeed is just low pressure steam forced into a less space, and the pressure will always be great in the proportion in which the space is contracted.

169. Q.--If this be so, the quantity of heat in a given weight of steam must be nearly the same, whether the steam is high or low pressure?

A.--Yes; the heat in steam is nearly a constant quantity, at all pressures, but not so precisely. Steam to which an additional quantity of heat has been imparted after leaving the boiler, or as it is called "surcharged steam," comes under a different law, for the elasticity of such steam may be increased without any addition being made to its weight; but surcharged steam is not at present employed for working engines, and it may therefore be considered in practice that a pound of steam contains very nearly the same quantity of heat at all pressures.

170. Q.--Does not the quantity of heat in any body vary with the temperature?

A.--Other circumstances remaining the same the quantity of heat in a body increases with the temperatures.

171. Q.--And is not high pressure steam hotter than low pressure steam?

A.--Yes, the temperature of steam rises with the pressure.