Abstract:It is shown that suspension of drops at the interface of two insoluble liquids represents a satisfactory method of studying the supercooling of water. The temperatures of supercooling thus found depen...It is shown that suspension of drops at the interface of two insoluble liquids represents a satisfactory method of studying the supercooling of water. The temperatures of supercooling thus found depend on the volume of the sample and the rate of cooling. The inter-relation between temperature, volume and time is derived theoretically from simple probability considerations and is shown to be consistent with experiment.Read More
Publication Year: 1953
Publication Date: 1953-08-01
Language: en
Type: article
Indexed In: ['crossref']
Access and Citation
Cited By Count: 416
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