HEAT OF COMBUSTION 105 calorimeter itself. The weights of these (and the known specific heat of the materials of the calorimeter), taken with the weight of the substance burned and the temperature rise, furnish the necessary data for the calculation. Emerson Fuel Calorimeter.—Following is a description of the Emerson calorimeter and also directions for making the deter- mination of fuel value. Bomb.—The bomb, made of steel, consists of two cups joined by means of a heavy steel nut. The two cups are machined at their contact faces with a tongue and groove, the joint being made tight by means of a lead gasket inserted in the groove. The lining is of sheet nickel, platinum or gold, spun in to fit. The bomb is closed by a milled wrench or spanner. The pan holding the combustible is of platinum or nickel, and the supporting wire of nickel. (See Fig. 28.) Calorimeter.—The jacket is a double walled copper tank, the space between the walls being filled with water. The calo- rimeter can is made as light as is possible, of sheet brass, nickel plated. Stirring Device.—The stirrer is directly connected to a small motor and it is enclosed in a tube to facilitate its action in circu- lating the water. The stirrer is mounted on a post on the calo- rimeter jacket as is also the thermometer holder. Ignition Wire.—Unless ignition of the fuel requires a very high temperature a platinum resistance wire is suitable. For ignition of such substances as are used in determining the water equivalent of the calorimeter (naphthalene or cane sugar) or of anthracite coal an iron wire is more certain in its action because it burns and produces a higher temperature. When iron wire is used a correction of 1600 calories per gram of wire is subtracted from the total calories obtained from the fuel combustion. This is the heat of oxidation of the iron. Formation of Nitric Acid.—When any nitrogenous organic matter is burned in air practically all of the nitrogen is liberated in the elementary form. On account of the high concentration of oxygen in the calorimeter bomb a considerable portion of the nitrogen is oxidized and the products dissolve in the water which is formed by the combustion of hydrogen. A dilute solution of nitric acid is thereby formed. This gives rise to a positive error