REPORTS ON THE STATE OF SCIENCE, ETC. 
Table continued from previous page. 
270 
Level in : 
Tin 
No. ad 8 ap per cent. 
9446 24-24 — 
9457 24:87 — 
9460 24-65 + 
9472 25-12 == 
9474 25-54 = 
9476 24-41 = 
9477 24-85 irs 
9478 24-85 tr. 
9483 24-40 == 
9497 26-21 15-0 
9503 25 =F 
9509 26:19 = 
9514 25:72 12:3 
9531 26-25 3°34 
9548 26-99 11:5 
9549 26-25 1-2 
9555 26-12 = 
9562 26-58 ~ 
9567 26:87 26-9 
9583 26-41 pC: 
9597 28-00 + 
9617 27-78 tr 
9620 26-48 — 
9666 29-07 a5 
9676 29-02 is 
9682 30-52 0-6 
9714 30-51 = 
9715 30°38 tr. 
9722 30:48 22-2 
9728 30-23 tr. 
9734 30-49 — 
9740 30-60 12-0 
9742 30-16 == 
9744 30-16 + 
9765 31-64 + 
9767 31-85 +- 
9770 32-20 0-07 
9784 32-11 = 
9789 31-89 =F 
9808 33-03 abs 
9825 33-40 8:3 
9828 32-88 + 
‘Piece of Cop|per’ 36-03 + 
The specimens in the second section of the Table, taken from the lower levels, were 
None of these contained more than traces of iron. 
mark (-+) indicates that the element in question was present but that the quantity 
received at a later date. 
of material was too small for an analysis. 
specimens are found at all levels. 
Three specimens from Ur from the British Museum, which were under examination 
Lead Tron Nickel 
per cent. per cent. per cent, 
tr tr 0-96 
— — 0-34 
tL; 1-08 tr 
tr. tr. — 
tr. 1-4 tr 
tr. tr. — 
1:37 0-76 tr. 
tr. 0-7 0-4 
3:0 1-4 tr. 
3:6 ils tr. 
tr tr. tr. 
tr. 4-1 1-9 
tr. 2:2 0:6 
tr. tr. tr. 
tr traces only -- 
— -, tr. 
tr. ms 1) 
tr. By tr. 
in a 0:37 
0-86 traces only 0-75 
tr. ay 0-25 
tr. 3 tr. 
ts <A 0:23 
s ¥ tr 
ws % 0-82 
tr. 0-48 
It will be seen that both bronze and copper 
for the purpose of studying the process of corrosion, were also analysed. 
A plus 
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