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Explains the characteristics of argon, where it is found, how it is used by humans, and its relationship to other elements found in the periodic table.
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Introduces the Noble Gases and teaches how these elements are connected, found, used, and structured.
The users of this volume will find (1) the experimental solubility data of argon gas in liquids as reported in the scientific literature, (2) tables of smoothed mole fraction solubility data for the systems which were studied over a temperature interval, and (3) tables of either tentative or recommended solubility data when two or more laboratories reported solubility data over the same range of temperature and pressure for a system. Users have the option of using the experimental values, either directly or in their own smoothing equations, or of using the smoothed values prepared by the compilers and evaluators
This book presents a compilation of articles written by notable scientists from around the world focusing on recent research involving the noble gas argon. The inert argon gas has low thermal conductivity and when combined with its low cost, has favorable usage in the generation of laboratory electrical discharges and plasmas at low and high pressure, for a range of applications in industry, environmental preservation, and medical and general research.
The emission of short wavelength visible light from argon-hydrogen mixtures irradiated by a pulsed 1.7 MeV electron beam has been studied, as well as the absorption of 4416A radiation in the mixture. Absorption was found to increase faster than linearly with increased argon pressure. A new multipass gain or absorption measuring technique was devised which measures small amounts of gain with high sensitivity. At the highest excited state density obtained, 3 x 10 to the 13th power /cc, the absorption in argon-hydrogen mixtures is positive.