Part, §

 1 Pre,  5|            this machine measured 21 inches in diameter, and was 7 feet
 2 Pre,  5|         diameter, and was 7 feet 10 inches high. The boiler was 5 feet
 3 Pre,  5|             The boiler was 5 feet 6 inches in diameter and 6 feet 1
 4 Pre,  5|            in diameter and 6 feet 1 inches high. The water in the boiler
 5 Pre,  5|           the boiler stood 4 feet 4 inches high and contained 13 hogsheads;
 6 Pre, 10|             which had a cylinder 28 inches diameter, the inventors
 7 Pre, 10|             bigger one or one of 33 inches diameter according to the
 8 Pre, 10|             the machine with the 28 inches cylinder was scarcely able
 9 Pre, 10|          machine with a cylinder 33 inches diameter and 9 feet long,
10 Exp    |       cylinder, 9 feet long, and 36 inches in diameter.~ ~D. The pipe
11 Exp    |         cold water to a height of 6 inches for the sake of preventing
12 Exp    |            is a strong iron-chain 4 inches thick, on which the piston-rod
13 Exp    |          with a metal pump-barrel 8 inches in diameter.~ ~l. The big
14   I,  1|         with a column of mercury 29 inches high; but the burgermaster
15   I,  1|             his two hemispheres, 18 inches in diameter. This ought
16   I,  2|           piston and a height of 29 inches, which again is equal to
17   I,  2| fire-machine, viz., 1018 2/7 square inches, weighs 21,575 skålpund
18   I,  6|             a pillar of mercury, 29 inches high and 1018 2/7 inches
19   I,  6|            inches high and 1018 2/7 inches in square, weighs 21575
20   I,  6|            contains 1018 2/7 square inches.~ ~
21   I,  7|          means of this table, if 30 inches of mercury is divided by
22   I,  9|         fill a space of 15000 cubic inches and to press against the
23   I, 12|             to be reduced to 6 or 7 inches in diameter instead of the
24   I, 12|           instead of the existing 9 inches.~ ~
25  II, 14|       machine is 9 feet long and 36 inches in diameter; the depth from
26  II, 14|      fire-machine draws water, is 9 inches in diameter; the lift of
27  II, 15|         vessel, one foot high and 8 inches in diameter, which contains
28  II, 17|             has a lift of 3 feet, 3 inches and the metal pump-barrel
29  II, 17|          the metal pump-barrel is 8 inches in diameter; the water-column
30  II, 17|     diameter; the water-column is 8 inches in diameter and I foot high,
31  II, 20|              7 1/2 feet high and 28 inches in diameter. The depth out
32  II, 20|        means of two sets of pumps 8 inches in diameter, with a lift
33  II, 21|     cylinder 7 1/2 feet high and 27 inches in diameter; the piston-area
34  II, 21|        piston-area being 616 square inches, and the power equal to
35  II, 21|         cylinder 9 feet long and 36 inches in diameter; the piston-area
36  II, 21|   piston-area being 1018 2/7 square inches, and the power equal to
37  II, 21|                The pump-tubes are 8 inches in diameter, and the depth
38  II, 21|        pump-tubes in the mine are 9 inches in diameter and the depth
39  II, 21|   considering that one foot of an 8 inches pump contains four kannor
40  II, 21|       minute.~ ~ ~ ~One foot of a 9 inches pump contains 6 kannor .
41 III, 28|            24, 25 26, 28, 33 and 36 inches cylinders, the cost of keeping
42 III, 30|           cylinder, 21/2 feet or 30 inches in diameter and 9 feet long.
43 III, 46|           to the depth. Should a 36 inches cylinder prove insufficient,
44 III, 46|            be replaced by one of 48 inches, the power of which is equal