The Journal of Physical Chemistry, Volume 8Cornell University, 1904 - Chemistry |
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acetic acid action alkali alloys aluminum amalgam amyl alcohol anode antimony atomic AuCd barium benzene boiling-point boundary curve cadmium calcium calculated carbon cathode cell Chem chemical Chemistry Clark cell composition compound Comptes rendus concentration cooling copper crystallization curve current density decomposition determined dielectric constant dilute dioxide dissolved electrical electrodes electrolytic electrolytic dissociation electromotive force Elektrochemie equation equilibrium ethyl ethyl alcohol eutectic experiments formation formula freezing-point gases given glass heat hydrochloric acid hydrogen iodide iodine ions Jour liquid lithium chloride measurements metal method mixture molecular weight nickel nitrate obtained oxide oxygen percent phosphorus phys plate platinum potassium present quintuple point radium reaction salts saturated separate single potential sodium solid phase solu solubility solvent substances sulphate sulphide sulphuric acid TABLE temperature theory tion tube vapor pressure voltage Volts Amperes Weston cell Zeit zinc ΙΟ
Popular passages
Page 666 - Electro-Chemistry. Part I. General Theory, By RA Lehfeldt. Including a Chapter on the Relation of Chemical Constitution to Conductivity. By TS Moore.
Page 382 - . " It seems probable that in these phenomena we are actually witnessing the bombardment of the screen by the electrons hurled off by radium with a velocity of the order of that of light, each scintillation rendering visible the impact of an electron on the screen.
Page 90 - Boiling-point Method. Theoretical Discussion. The Application of the Boiling-point Method to the Determination of Molecular Weights in Solution. Part III.—The Conductivity Method. The Application of the Conductivity Method to the Measurement of Electrolytic Dissociation.
Page 590 - Le sulfate de soude offre le second exemple d'un corps dont la solubilité décroît lorsque la température augmente, à partir d'un certain terme, car M. Dalton a déjà reconnu à la chaux la même propriété. On a tracé dans la planche la ligne de solubilité
Page 382 - may be due to the presence of hydrogen liberated from the heated poles. It has already been pointed out that one of the effects of a hydrogen atmosphere on a metallic arc is to introduce enhanced lines into the spectrum, and the presence of hydrogen under the new conditions of experiment is indicated in the case of magnesium and zinc by the appearance of the
Page 382 - About every ion moves an atmosphere of the solvent, whose dimensions are determined by the individual characteristics of the ion. The atmospheres of multivalent or compound ions differ from those of monatomic
Page 83 - radioactivity must be regarded as a process which lies wholly outside the sphere of known controllable forces and cannot be created, altered or destroyed.'
Page 382 - coefficient as the viscosity of water, provided that the atmosphere itself does not change its dimensions with the temperature. If, however, the atmosphere become, for example, smaller with increasing temperature, the temperature
Page 670 - Lehfeldt. Including a Chapter on the Relation of Chemical Constitution to Conductivity. By TS Moore.
Page 382 - with the dimensions of the atmosphere. The direct action between the ion and the outer portion of the solvent diminishes as the atmosphere becomes of greater thickness.