1 so VOl. 5s The Preparation of Selenic Acid Selenic acid is commonly

added and refluxing is continued until oxidation. (1) Morris, Trans. Wisconsin Acad. Sci., 19, 369 (1918). (2) Dennis and Roller, THIS JOURNAL, 41, 94...
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VOl. 5s

NOTES The Preparation of Selenic Acid

is complete. Any undecomposed hydrogen peroxide and most of the water are removed by distillation on a steam-bath under reduced pressure Selenic acid is commonly prepared by the (water aspirator). Remaining traces of moisture method of Morris.' The method involves the are removed by passage through the solution of a precipitation of silver selenite and subsequent slow stream of dried air (over phosphorus pentoxidation of this salt to selenic acid by bromine oxide) at a temperature of 150-180' and a presin aqueous solution. Unoxidized selenious acid sure of 4-6 mm. Higher temperatures than 160' is removed with hydrogen sulfide. Dennis and are to be avoided to prevent thermal decomposiKoller2 report that some selenic acid is reduced tion of selenic acid. The remaining viscous in the latter reaction with resultant contamina- liquid has a specific gravity of approximately 2.6. tion of the product. Moreover, the method is The yield of selenic acid is 192-195 g. tedious, and inasmuch as relatively large amounts The crystalline acid may be obtained readily of silver salts are involved it is not well suited to by seeding the liquid at room temperature in a large scale production. dry atmosphere. Solid selenic acid for seeding The oxidation of selenious acid with hydrogen purposes may be obtained by cooling a small porperoxide has received some attention. Partial tion of the liquid with solid carbon dioxide. Crysoxidation has been reported by Meyer and Heider3 tallization takes place rapidly with the formation and Huff and McCrosky.* It is the purpose of of long needle-shaped crystals which are very delithis paper to describe a method for the production quescent. The acid is effectively dried by pumpof relatively large amounts of selenic acid using ing dry air over the crystals for several days at hydrogen peroxide as the oxidizing agent. low pressure. The resulting product gives a freezing point of 55-56', and analyzes 99.8% seExperimental Preparation of Materials.-Selenium dioxide lenic acid. FROM THE was prepared by oxidizing the commercial grade CONTRIBUTION 'CHEMISTRY LABORATORY of powdered selenium with nitric acid. The prod- GENERAL STATECOLLEGE OF WASHINGTON NOVEMBER 12, 1935 PULLMAN, WASHINGTON RECEIVED uct was purified by sublimation. Hydrogen peroxide was the 100 volume, 30% product "Albone C."6 Equation for Approximating Heat Capacities of Procedure.-One hundred and fifty grams of Gases Calculated from Spectroscopic Data resublimed selenium dioxide is added to 500 g. BY I. N . GODNEV of 30% hydrogen peroxide in a 1-liter flask and In order to approximate the heat capacities of allowed to stand for twenty-four hours. The mixture is then refluxed in an all-glass apparatus gases calculated from spectroscopic data Spencer for twelve hours. Oxygen is bubbled through and Justice' recently applied in the range 300the solution during the refluxing to produce thor- 1500'K. the equation C, = a bT CP (1) ough agitation and to maintain an oxidizing atThe failure of equations of this type to represent mosphere. A small portion is then withdrawn and is tested for the presence of selenious acid actual heat content data2 forced Chipman and with a solution of sulfur dioxide in water. The Fontana3 to propose the following expression for test sample is discarded. If selenious acid is heat capacities of solids and gases C, = a bT cT-'/r (2) shown to be present, more hydrogen peroxide is added and refluxing is continued until oxidation The latter authors have shown that this equation (1) Morris, Trans. Wisconsin Acad. Sci., 19,369 (1918). is applicable to heat capacities of gases calculated 41, 949 (1919). (2) Dennis and Roller, THISJOURNAL, from spectroscopic data up to 2000'K. (3) Meyer and Heider, Bcr., 48, 1154 (1915). BY L. I. GILBERTSON AND G. B. KING

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61, 1457 (1929). (4) Huff and McCrosky, Tars JOURNAL, (5) Hydrogen peroxide was kindly furnished by E. I. du Pout

de Nemours and Company, Incorporated.

(1) Spencer and Justice, THISJOURNAL, 66, 2311 (1934). (2) Maier and Kelley, ibid., 64, 3243 (1932). (3) Chipman and Fontana, ibid., 61, 48 (1935).