Latent heat of fusion of ice . Fig. 1.—The calorimeter, assembled as used. Fig. 2.— The calorimeter, detail of parts osbkoinSe°nHarper] Latent Heat of Fusion of Ice 239 probably about 1 part in 2000); and for this reason the less pre-cise method of mixtures was used as a direct and independentcheck. The methods of manipulation are described more in detaillater (pp. 242-245). 2. CALORIMETER A calorimetric outfit originally developed for use with combus-tion bombs, but which has proved very well adapted to variouscalorimetric problems, was used without modifications for thepresent investigation.
Latent heat of fusion of ice . Fig. 1.—The calorimeter, assembled as used. Fig. 2.— The calorimeter, detail of parts osbkoinSe°nHarper] Latent Heat of Fusion of Ice 239 probably about 1 part in 2000); and for this reason the less pre-cise method of mixtures was used as a direct and independentcheck. The methods of manipulation are described more in detaillater (pp. 242-245). 2. CALORIMETER A calorimetric outfit originally developed for use with combus-tion bombs, but which has proved very well adapted to variouscalorimetric problems, was used without modifications for thepresent investigation. This calorimeter is described briefly more detailed description of it will be communicated in thepaper cited in footnote 23, p. 260. Fig. 1 shows the jacket and the induction motor as they appearin use. The stirrer mounted in the cover. automatically keeps waterfrom the jacket circulating through the cover. The parabolicspeed indicator mounted on top of this stirring shaft indicatesthe speed of stirring. The current and potential leads to the electric heatin
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