...surface is always formed by the orientation of the least active portion of the molecule toward the vapour phase, and at any surface or interface the change...which the adsorption law is only a special case. If the molecules are monatomic and symmetrical, then the orientation will consist of a displacement of...

...suppose the structure of the surface of a liquid to be at first the same as that of the interior of the liquid, then the actual surface is always formed by...which the adsorption law is only a. special case. If the molecules are monatomic and symmetrical, then the orientation will consist in a displacement of...

...suppose the structure of the surface of a liquid to be at first the same as that of the interior of the liquid, then the actual surface is always formed by...the transition to the adjacent phase less abrupt". Harkins has formulated a new periodic system for the chemical elements, which shows a relation between...

...suppose the structure of the surface of a liquid to be at first the same as that of the interior of the liquid, then the actual surface is always formed by...which the adsorption law is only a special case. If the molecules are monatomic and symmetrical, then the orientation will consist in a displacement of...

...suppose the structure of the surface of a liquid to be at first the same as that of the interior of the liquid, then the actual surface is always formed by...the transition to the adjacent phase less abrupt." It was pointed out that the fundamental idea developed is the same as that developed by Langmuir, namely,...

...emulsifying agent becomes adsorbed at the interface. Harkins has pointed out the general law that " at any surface or interface the change which occurs...the transition to the adjacent phase less abrupt." The orientation of molecules in a liquid-liquid interface is such as to turn like groups towards like...

...suppose the structure of the surface of a liquid to be at first the same as that of the interior of the liquid, then the actual surface is always formed by...which the adsorption law is only a special case. If the molecules are monatomic, and symmetrical, then the orientation will consist in a displacement of...

...at first the same as that of the interior of the liquid, then the actual surface is always formed b\ the orientation of the least active portion of the...which the adsorption law is only a special case. If the molecules are monatomic, and symmetrical, then the orientation will consist in a displacement of...

...Chem. Soo. 3?7 354, 541 (1917) oleic acid and the oarboxyl group in the water. Harkins points out that "at any surface or interface the change which occurs...the transition to the adjacent phase less abrupt." In emulsions, which are systems of two partially non miscible liquids, a third substance or emulsifier...

...emulsifying agent becomes adsorbed at the interface. Harkins has pointed out the general law that " at any surface or interface the change which occurs...the transition to the adjacent phase less abrupt." The orientation of molecules in a liquid/liquid interface is such as to turn like groups towards like...