Formulae and Molecular Weights of Salts. 
646 Proceedings of the Royal Society of Edinburgh. [Sess. 
Increment of Displacement expressed in Grams Water at 19-5° C. 
to to 
© I- 1 * 
I I 
co co 
CO 
I I 
CD Q 
KBr 
119-1 
KI 
= 166-1 
to 
-jj 
-<rj 
to 
KC10 3 
- 122*6 IIIIIIIIIIIIIIIIIIIIIIIIHIII/ 11111 % 
KBrO s 
67 /////////////////////////////// 2 : 
KI0 3 
_2i4*! //////// 21 
ilium si 
RbCl 
to, 
= 121-0 oj 
01 
RbBr 
= 165*5 || 
OO! 
Bbl 
= 212-5 
CO 
to 
0 
CO 
RbClOg 
-i 69 *o mi/im/mam/m/iumm miim////// 2 1 
RbBrOg 
- 213*5 mmmmmmmmiiiiiiiiiiiiiiiiiiiiiiiiii %\ 
- 21 3 5 iiiiiiiiiiiiiiiiiiiiiiiiiiiIIIiiiIiiiIiiiiiiiiiiii g| 
RbI0 3 
-260*5 mm 11 111 111 111 11 lit 
— 260 5// /////////////////////// 3 
CsCl 
= 168-5 
01 
CsBr 
= 213-0 
tOj 
obi 
cc 
Csl 
= 260-0 
CO 
cb' 
GsCIO —216*5 /////////////////////////////////////////////////////////////////////////^ A 
C»BiO,-2610 ////////////////////////////// /////////////////////////////////// 
CsIOo 
• 308-0 //////////////////////////////////////////// 
' 308 V///////////////////////^ 
The above diagram is illustrative of Table 5, and shows graphically, 
by the heights of the columns, the different increments of displacement 
produced by the dissolution in 1000 grams of water at 19’5 0 C. of gram- 
molecule of each salt of the double Ennead (MR, MR0 3 ). The columns 
representing the increment of displacement produced by salts of the 
Ennead MR0 3 are shaded. 
