COMPLETE FREEZING-POINT CURVES OF BINARY ALLOYS. 
37 
Table IIa.— Freezing Points of Alloys made 
by adding Lead to Silver. 
200 (jrams Silver. 
! 
i 
(!•) 
Total weight 
of lead present. 
Percentage of 
lead. 
(3.) 
Atomic 
percentage of 
lead. 
(4.) 
Freezing point on 
the Centigrade 
scale. 
(5.) 
Atomic fall. 
1 
1 
0 
0 
0 
959-12 
i 
2-OOd 
0-99 
•52 
954-34 
9-2 
4‘004 
1-96 
1-03 
949-0 
9-8 
d'OOo 
2-92 
1-54 
944-0 
9-8 1 
lO-OOo 
4-76 
2-54 
934-4 
9-72 
14'335 
6-69 
3-61 
924-3 
9 67 
77 
924-5 
20-335 
9-23 
5-04 
910-4 
9-67 
.30-335 
13-17 
7-33 
886-6 
9-89 
45-335 
18-48 
10-57 
853-4 
10-00 
60-34 
23-18 
13-60 
820-0 
10-23 
80-34 
28-66 
17-32 
782-7 
10-19 
105-34 
34-50 
21-56 
741-6 
130-34 
39-46 
25-37 
710-0 
160-33 
44-50 
29-49 
684-1 
200-34 
50-04 
34-32 
659-5 
134’84 (jrams Silver. 
135-07 
50-04 
34-32 
659-2 
'T' 1 
175-07 
56-49 
40-38 
635-4 
215-07 
61-47 
45-42 
619-3 
77 
7 • 
(308-5) 
1 
255-07 
65-42 
49-66 
606-2 
[ 
295-07 
68-63 
53-30 
596-1 
77'7 grams Silve 
170-00 
68-63 
53-30 
596-3 
+ 
210-00 
73-00 
58-51 
580-8 
255-00 
76-61 
63-12 
563-0 
315-00 
80-22 
1 
67-90 
548-3 
* The secoud freezing- jjoiut was taken on the resumption of the experiment after a night’s interval, 
t Residue of tlie above alloy after the removal of ISO'-i gi-ams ; the freezing point was taken after a 
night’s interval. » 
X Residue after the removal of 18-2'2 gi-ams. 
