158 Mr Kleeman, On the Properties of a liquid ; 
the equation (9) for these liquids, which, it will be seen, agree 
fairly well with one another, as we should expect. The values” 
of the left-hand side are the mean values given in a table in a 
previous paper*. ; 
Since equation (9) holds independently of the temperature 
and the values of the critical quantities of the substances under 
investigation it can be easily applied to the facts. We may, for 
example, use it to investigate the polymerization of fused metals” 
and salts. The results of such an investigation are given in 
TABLE V. 
| | de 
Symbol of | r | Za/my\4 
eS as | Pl | p14 eee (=) 
Pd 1339 | Wed 07929 "2935 
Pt 1658 2N-32 ‘008024 | 08670 
Hg 435-6 | B39) 01293 08241 
Ss 42 1-811 3°904 322 
Se 70-4 4-26 -2138 5282 
Ag 1824 9-51 09563 -2825 
Bi 381-9 10:04 03759 07652 - 
Zn 812-2 6:48 -4606 ‘7802 
Sn 587-1 7:02 2418 2374 
Sb 244°5 6°41 1447 -2289 
Pb 448 10:37 ‘03877 07691 
Cd 693°5 7975 = efilics -2628 
Fe 950 6:88 4239 1-051 
Au Ole? IGG 004476 08492 
K 363-9 8298 167-4 2-167 
Cu 581 8-217 1275 *8307: 
Na 519-7 9287 699-2 6:232 
iP 41:15 Looe 4-340 3°431 
KBr 48-4 1-991 3:079 003787 
K,CO,, - 160-2 1:90 12-28 -01654 
KCl 69:3 1-45 15°67 701592 
LiCl 63-4 esi 17-74 . 04725 
ico, 152°5 1:765 asi 05360 
NaBr 49 eo ilhe, 2:046 005526 
NaCoO, 179 1:9445 12°52 | 02847 
NaCl 66°5 | 1:500 13:13 | -03251 
Na,SO, 182 ada 2:065 10:02 | 70115 
AgBr 121-4 6°479 0689 0009854 
 ILOGe Glibo 
