1336 



Warburg — Washington. 



the mechanism of absorpt. III: Water as an 

 absorpt. liquid (m. F. F. Tootitt). IV: The use 

 of petroleum producta as absorpt. liquids. 

 V: Recommended procedura for determining 

 porosity by methods of absorpt. (m. E. N. 

 Bunting). VI: Determinat. of porosity by the 

 method of gas expansion (m. E. N. Bunting). 

 VII: The determinat.of the porosity of highly 

 vitrified bodies (m. E. N. Bunting), 58 S. 

 (4 & 5, 21/22). — High temperature research, 

 3 S. — Products of the calcinat. of flint & 

 cbalcedony (m. L. Navias), 23 S. (5, 22). 



Amer. Ceram. Soe. Trans.: The latent heats 

 of fusion of lime & magnesia (19, 1917). 



Amer. Chem. Soc. Journ. : The theory & 

 practice of the iodometric determinat, of arse- 

 nious acid, 15 S. (30, 1908). — The hydrat. of 

 Ions determined by transference experiments 

 in the presence of a non-electrolyte, 33 S. 

 (31, 09). — A simple syst, of thermodyn. che- 

 mistry based upon a modificat. of the method 

 of Camot, 35 S. — The fundamental law for 

 a general theory of soluts., 18 S. (33, 10). — 

 The laws of concentrated soluts. II: The esti- 

 mat. of degree of ionizat. of electrolytes in 

 moderately concentrated Solutions, 17 S. — 

 III: The ionizat. & hydrat. relations of elec- 

 trolytes in aqueous solut. at zero degrees. 

 A. Cesium nitrate, potassium Chloride & lithium 

 Chloride (m. Duncan A. Macinnes), 27 S. 

 (33, 11). — The iodine coulometer & the va- 

 lue of the Faraday (m. St. J. Bates), 27 S. (34, 

 12). — An improved apparatus for measuring 

 the conductiv. of electrolytes (m. J. E. Bell), 

 7 S. — The laws of concentrated soluts. V: 

 1. The equilibrium betw. arsenious acid & io- 

 dine in aqueous solut. 2. A general law for 

 chemical equilibrium in Solutions containing 

 ions. 3. The energetics of the react. betw. arse- 

 nious acid & iodine (m. K. Strachan), 34 S. 

 — A precision viscosimeter for the measurem. 

 of relative viscosity, & the relative viscosities 

 of water at 0», 18», 25« & 50» (m. G. Y. Wil- 

 liams), 13 S. — The viscosities & conducti- 

 vities of aqueous soluts. of raffinose (m. G. 

 Y. Williams), 4 S. (35, 13). — The measure- 

 ment of vapor pressure lowering by the air 

 Saturation method (m. E. 0. Heuse), 13 S. — 

 The ionic hydration & transference numbers of 

 caesium chloride (m. E. B. Miliard), 6 S. (37, 

 15). — The cheory of the design of conductivity 

 cells (38, 16). — The telephone receiver as an 

 indicating instrum. for use with the alternating 

 current bridge (m. Karr Parker) (39, 17). — 

 The equivalent conductance of electrolytes in 

 dilute aqueous Solution. I: The water correct. 

 II: The extrapolat. of conductivity data to 

 zero concentrat. III: A study of dilute soluts. 

 of potassium chloride. IV: Two laws governing 

 the ionizat. equilil». of strong electrolytes in 

 dilute soluts. & a new rule by means of which 

 the equivalent conductance at infinite dilut. 

 can be determined from a single conductance 

 measurem. (40, 18). — The laws of concentrated 

 soluts. VI: The general boiling-law (m. J. 

 W. Read). — Some physical properties of 

 mannite & its aqueous soluts. by Joseph M. 

 Braham (41, 19). — The extrapolat. of 

 conductivity data to zero concentrat., 10 & 

 3 S. (4Ä, 20). 



Amer. Electrochem. Soc. Trans.: The elec- 

 trical conductance of concentrated aqueous 

 soluts. of electrolytes (21, 1912). 



Amer. Phys. Soc. Bev.: The determinat. 

 of the audibility current of a telephone receiver 

 with the aid of the Wheatstone bridge (9, 

 1917). — The viscosity- temperat'ore curves of 



six varieties of optical glass (15, 20). — The 

 dynamics of capillary flow, 11 S. (17, 21). 



Franklin Inst. Journ.: Physical chemistry 

 & ceramics (1922). 



Illinois Water Supply Associat. Proc: The 

 significance of the term alkalinity in water 

 analysis & the determinat. of alkalinity by 

 means of indicators {2, 1910). 



Ind. Eng. Chem. Journ.: The place of the 

 university in chemical war work (10, 1918). — 

 A selected bibliography of books, in the english 

 language, dealing with ceramic chemistry & 

 the ceramic Industries (m. C. W. Parmelee & 

 R. K. Hursh), 3 S. (13, 21). 



Ingenieria Internacional: Quimica fisica y 

 technologia (4, 1920). 



Jahrb. d. Radioakt. & Elektronik: D. neueren 

 Forschgn. üb. d. Hydrate in Lösg., 118 S. (5 & 

 6, 1908/09). 



Journ. de Chlm. phys.: Guye: Syst. simple 

 de chimie thermodyn. basee sur une modificat. 

 de la methode de Carnot, 57 S. — Loi fonda- 

 mentale pour une thöorie generale d. soluts., 

 31 S. (8, 1910). 



Met. & Chem. Engr.: Ceramics & the war 

 (18, 1918). — Physical chemistry & techno- 

 logy, 3 S. (23, 20). 



Science: The new Internat, imion of pure 

 & applied chemistry (50, 1919). 



Tech. Eng. News; The ceramic industries 

 (1, 1920). 



Technology Quarterly: An improved appa- 

 ratus for the measurem. of transference num- 

 bers in soluts. of the halogen acids & their 

 salts. — Hydrates in soluts.; a review of re- 

 cent experim. & theoret. contributs. (21, 1908). 



The Clayworker: The organizat. of our ce- 

 ramic resources for national service (69, 1918). 

 — Report for the committee on ceramic che- 

 mistry, national research Council (70, 18). 



Univ. of 111. Bull. : The departm. of ceramic 

 engineering of the Univ. of Illinois (14, 1917). 



U. ot I. Eng. Exp. Sta. Bull.: Dissolved 

 gases in glass (m. F. F. Footitt & E. N. Bun- 

 ting) (1921). 



Washington, Acad. Proc: The hydrat. of 

 the ions of cesium chloride derived fr. trans- 

 ference experim. in the presence of raffinose 

 (m. E. B. Miliard), 5 S. — The freezing -point- 

 solubility law for ideal Solutions (m. J. W. Read), 

 4 S. (1, 1915). — A method of determining 

 the distribut. of pore sizes in a porous material, 

 1 S. (7, 21). —The relat. of chalcedony to the 

 other forms of silica (m. L. Navias), 5 S. (8, 22). 



Zeitschr. d. Vereins t. deut. Zuckerindustrie: 

 Einfluß V. Salzen auf d. Drehgsvermögen v. 

 Rohrzucker (60, 1910). 



Zeitschr. f. Elektrochemie: Cäsiumnitrat & 

 d. Massenwirkgs.- Gesetz (m. D. A. Mac In- 

 nes), 7 S. (17, 1911). 



Zeitschr. f. physik. Chemie: Ostwald: , Be- 

 stimmg. d. Hydratat. v. Ionen durch Über- 

 führgsversuche in Gegenwart eines Nichtelek- 

 trolyten, 42 S. (66, 1909). — Einfaches System 

 d. thermodynam. Chemie, beruhend auf e. 

 Modifikat. d. Carnotschen Methode, 43 S. — 

 D. Fundamentalgesetz für e. allgem. Theorie d. 

 Lösgn., 25 S. (74, 10). 



IV Washington, Henry Stephens, 

 Dr. phil. 1893 Leipzig; seit 96 als Privat- 

 mann im eigenen Laborat., Locust, N. J., 

 arbeitend; * 1867, Jan. 15, Newark, N. J. 



Chemical analysis of igneous rocks published fr. 

 1884 to 1900, with critical discussion of cha- 

 racter & use of analyses, 495 S., London 1904. 



