Noyes, Arthur A.
- Garner, Clifford Symes (1938) I. A. The Oxidation Potential of Cerous-Ceric Salts in Aqueous Nitric Acid Solution. B. The Oxidation Potential of Thallous-Thallic Salts in Aqueous Nitric Acid Solution. II. An Attempt to Determine the Electrode Potential and Raman Spectrum of Fluorine. The Entropy of Fluorine. III. A. The Construction of a Low Temperature Vacuum Calorimeter. B. The Heat Capacity of Monofluorotrichloromethane from 60°K to its Boiling Point. Its Heat of Fusion, Heat of Vaporization, Vapor Pressure and Entropy; 10.7907/jzs3-pj92
- Deahl, Thomas Jay (1936) The Oxidation Potential of Cobaltous-Cobaltic Salts in Nitric Acid Solution; 10.7907/BGPA-XC19
- Stitt, Fred Beals (1936) I. Raman Spectra of Some Silicon Compounds. II. Kinetics of Oxidized Silver Solutions; 10.7907/kkz8-ch15
- Coryell, Charles Dubois (1935) The Reduction Potential of Pentavalent Vanadium to Vanadyl Ion in Hydrochloric Acid Solutions. Fluoresenzversuch AnOrganische Daempfe, Besonders Aceton. Studies of the Nature and Reactions of Oxidized Silver Compounds, Especially in Nitric Acid; 10.7907/A37S-KX50
- Baxter, Warren Phelps (1928) Activation of Molecular Hydrogen by Electron Impact. Quantum Yield in the Photochemical Decomposition of Nitrogen Dioxide. Mechanism of the Photochemical Decomposition of Nitrogen Pentoxide; 10.7907/KEEQ-CB73
- Steinour, Harold Heiges (1928) The Potential of Inert Electrons in Sulfurous Acid Solution; 10.7907/M3NF-MT71
- Dalton, Robert Hennah (1928) Activation of Molecular Hydrogen by Electron Impact. Velocity Distribution of Electrons Issuing from Small Holes. Activation of Gases by Electron Impact; 10.7907/1K4P-YQ61
- Prescott, Charles Holden Jr. (1926) The High Temperature Equilibrium Between Zirconium and Carbon; 10.7907/KR4H-HF27
- Dalton, Robert Hennah (1925) A System of Qualitative Analysis for Tellurium, Molybdenum, Iridium, Rhodium and the Copper Group Elements; 10.7907/fy0b-7v23