INDEX 375
Phil. Trans. Lond. 136, 573 (1846); 59 pp.; (2) On the Motion of Gases
Part II. Phil. Trans. Lond. 139, 349 (1849); (3) ttber die Bewegung
der Gase. Lieb. Ann. 76, 138 (1850); 13 pp.; (4) On Liquid Trans-
piration in relation to Chemical Composition. Phil. Trans. 151,
373 (1861); (5) On Liquid Transpiration in relation to Chemical Com-
position (abstract of 3). Phil. Mag. (4) 24, 238 (1862); 3 pp.;
(6) Liquid Diffusion applied to Analysis. Phil. Trans. 151, 183 (1861).
S'GRAVESANDE. 1, Philosophiae Newtoniae Institutiones. 1st Ed. (1719);
4th Ed. (1748).
GRAWITZ, E. (1) Klinisch-experimentelle Blutuntersuchungen. Z. f. klin.
Med. 21, 459 (1892); 16 pp.; (2) Do. 22, 411 (1893); 38 pp.
GRAY, A. On the Relation between Temperature and Internal Viscosities
of Solids. The Electrician 22, 838 (1901); British Assoc., Glasgow
629 (1901).
GRAY, A., BLYTH, V. and DXJNLOP, J. On the Effects of Changes of Tempera-
ture on the Elasticities and Internal Viscosities of Metal Wires. Proc.
Roy. Soc. London 67, 180 (1900); 18 pp.
GRAY, A. and WOOD, A. On the Effect of a Longitudinal Magnetic Field
on the Internal Viscosity of Wires of Nickel and Iron, as shown by
Change of the Rate of Subsidence of Torsional oscillations. Proc.
Roy. Soc. 70, 294 (1902); 9 pp.
GRAY, T. T. A comparison of the Engler and Saybolt Viscosities of Mixed
Oils. Orig. Com. 8th Intern. Congr. Appl. Chem. 10, 153 (1912); 5
PP-
GREEN, HENRY. 231, 266, Further Development of the Plastometer and
Its Practical Application to Research and Routine Problems. Proc.
Am. Soc. Testing Materials, II, 20, (1920); 44pp. Cp. Bingham and
Green.
GREEN, W. H. 196, Studies on the Viscosity and Conductivities of some
Aqueous Solutions. Part I. J. Chem. Soc. 93, 2023 (1909); 26 pp.;
Part II. J. Chem. Soc. 93, 2049 (1909); 15 pp. Cp. Proc. Chem. Soc.
24, 187 (1909).
GREINER, E. tlber die Abhangigkeit der Viscositat in Silikatschmelze
von ihrer chemischen Zusammensetzung. Inaug. Diss. Zena (1907);
57 pp.
GRIFFITHS. 197, On the Viscosity and Electrolytic Resistance of a Gelatine
Solution. Proc. Manchester Lit. & Phil. Soc. 41, IX (1896); 2 pp.
GRIFFITHS, A. and GRIFFITHS, MRS. CONSTANCE. Viscosity of Water at
Low Rates of Shear. Proc. Phys. Soc. (London) 33, 231 (1921); 11 pp.
GRIFFITHS, A. and KNOWLES, Miss C. H. The Resistance to the Flow of
Water along a Capillary Soda-Glass Tube at Low Rates of Shear.
Proc. Phys. Soc. (London) 24, 350 (1912).
GRINAHOVSKII, K. P. Cause of the Abnormal Linear Velocity of Crystal-
lization of Supercooled Crystalline Substances. J. Russ. Phys. Chem.
Soc. 45, 1210 (1914); 38 pp.
GRINDLEY, J. H. and GIBSON, A. H. 61, 242, On the Frictional Resistance