INDEX                                            415
j
SCHWARTZ, EL    (1) Viscosity and its Importance for the Chemistry of Cellu-
loid in Theory and Practice.    Z. Chem. Ind. Kolloid. 12, 32 (1913);
10 pp.; J. Soc. Chem. Ind. 32, 191; Moniteur Scientifique, 49 (1915);
(2)  Viscosity  of Nitrocellulose Solutions.    Z.   Chem.  Ind.   Kolloide
12, 32 (1913); (3) Viscosity and Its Meaning in the Chemistry of Cellu-
1                     loid.    Koll. Z. 12, 32 (191-); 10 pp.; (4) Celluloid: The Necessity of
j                     Colloid-Chemical Views in this Industry.    Kolloidchem. Beihefte 6,
:                     90 (1914); 36pp.
<               SCHWEDHELM, H.    (1) Calculating the Viscosity of Mixtures of Two Oils of
Different Viscosities from these Viscosities.    Chem. 21 tg. 44, 638 (1920);
I                     (2) Die Zahigkeit von Olen und anderen Fliissigkeiten als Funktion
j                     der Temperatur.    Chem. Ztg. 46, 41 (1921); 1 p.
SCHWEDOFF, T.    Recherches experimentales sur la cohesion des liquides.
II. Viscosit6 des liquides.    J. de phys. (2) 9, 34 (1890); 13 pp.    Con-
gres de Physique 1, 478 (1900).
SCHWEIDLER,  E.  VON.    197,  t)ber die innere Reibung   und Elektrische
Leitungsfahigkeit von Quecksilber und einigen Amalgamen.    Wien.
j                     Sitzungsber. (2A) 104, 273 (1895); 8 pp.
SEARLE, A. B.    Clays and Clay Products.    Dept. Sci. Ind. Research, Brit.
Assoc. Adv. Sci. Third Report on Colloid Chem. (1920); 42 pp.
,               SEARLE, G. P. C.    (1) Simple Viscometer for Very Viscous Liquids.    Proc.
\                     Camb. Phil. Soc. 16, 600 (1913); 6 pp.; (2) A Method of Determining
I                     Viscosity of Air.    Proc. Camb. Phil. Soc. 17, II, 153 (1913); 39 pp.
|               SEATON, M., PROBECK, E., and SAWYER, G.   Viscosity of Varnishes.    J.
;                     Ind. Eng. Chem. 9, 35 (1917); 5 pp.
•               SEELIS, K.    Measurement of the Brownian Molecular Motion as a function
of Viscosity.    Z. physik. Chem. 86, 682 (1913); 57 pp.
SEGEL, M.    235, Uber eine Methode zur Bestimmung der inneren Ileibung
'                     fester Korper.    Physik. Z. 4, 493 (1903); 2 pp.
j               SELLARIO, A.   Viscosity of Insulating Liquids in the Electric Field.    Nuovo
I                     cimento 11, 395 (1916); 16 pp.
j               SENTER,  G.   Viscosity and Association in Binary  Mixtures of Liquids.
j                     Proc. Chem. Soc. 25, 292 (1910); 3 pp.
SHAEFER, C. & FRANKENBERG, G.   The Influence of Temperature upon
I                     Turbulent Currents.    Physik. Z. 14, 89 (1913); 5 pp.
\               SHARPLES,  P.    Relation  Between the  Melting  Point  and  Viscosity   of
1                     Refined Tars.    J. Ind. Eng. Chem. 6, 285 (1914); 1 p.; Am. Gas Light
!                     J. 100,247 (1914); 1 p.
;               SHAW, W.   Proc. Camb. Phil. Soc. 7, 21 (1892).
SHEPPARD, S. E.   329, Measurement of the Absolute Viscosity of Very
;                      Viscous Media.    J. Franklin Inst. 182, 697 (1916); 2 pp.; J. Ind. Eng.
Chem. 9, 523 (1917); 4 pp.
j               SHEPPARD, S. E. and SWEET, S. S.   The elastic properties of gelatin jellies.
J. Amer. Chem. Soc. 43, 539 (1921); 8 pp.
SHORY, U. S.   The Effect of the Method of Preparation on the Viscosity
of a Casting Slip.    J. Am. Ceram. Soc. 3, 286 (1920); 10 pp.
SHTTKOWSKI, N. E.    (1) Hydrodynamische Theorie der Reibung gut gefett-
eter fester Korper.    J. d. Russ. Phys. Chem. Gesell 18, 209 (1886);