Part, §

 1 Int    |        or engine, which by the power of the atmosphere, would
 2 Pre,  2|      pressed with a tremendous power on the piston, caused its
 3 Pre,  9|       they always ascribed the power to the steam, which, however,
 4 Pre,  9|    agent by means of which the power is obtained.~ ~
 5 Exp    |           which presses with a power equal to a weight of 21575
 6 Exp    |        be proportionate to the power with which the air is pressing
 7 Exp    |       the relation between the power and the load.~ ~M. The injection-pipe
 8 Exp    |     the heat, of its expanding power, so that it shrinks and
 9 Exp    |        describe:-- firstly the power; secondly, the effect or
10   I    |                 CONCERNING THE POWER.~ ~
11   I,  1|                       1.~ ~The power or force which the Dannemora
12   I,  1|     victualie-weight, and this power is derived from the weight
13   I,  2|      it will be found that the power of the fire-machine varies
14   I,  2|      therefore constitutes the power of the machine).~ ~
15   I,  3|    lift a weight equal to this power.~ ~
16   I,  4|        4.~ ~The weight and the power of the fire-machine may
17   I,  4|     skeppund possess a greater power of approaching the centre
18   I,  5| realise with what a miraculous power the air is able to press
19   I,  5|       the weight and wonderful power of expansion and elasticity
20   I,  9|     when heated is derived the power or effect of the fire-machine.
21   I, 11|   proves that only half of the power of the machine has been
22  II, 20|        difference, not only in power but also in cost, between
23  II, 21|        interest to compare the power as well as the effect of
24  II, 21|     616 square inches, and the power equal to 12937 1/2 skålpund
25  II, 21|       7 square inches, and the power equal to 21575 skålpund,
26 III, 28|       may be the difference in power between 24, 25 26, 28, 33
27 III, 35| fathoms, when only half of its power is being used, as is shown
28 III, 35|    Dannemora.~ ~As however the power of the machine is twice
29 III, 35|  allowed to utilize its entire power, it would be able to draw
30 III, 35|    nine inch pumps; for as the power of the fire-machine (as
31 III, 35|      weight or pondus from the power, 53 skeppund, 18 lispund,
32 III, 37|        its wonderful might and power, as well as its durability.~ ~
33 III, 43| contrivances and to the actual power which it is able to develop.~ ~
34 III, 43| instruments which derive their power from water and winds, as
35 III, 43|     only a certain part of the power of water can be utilized,
36 III, 43|         that what is gained in power will necessarily be lost
37 III, 44|       will be able to get more power out of this quantity if
38 III, 44|      their vicinity from which power can be transferred by a
39 III, 44|     insufficiency of the water power or the means of transmitting
40 III, 46|              46.~ ~The size or power of the machine can always
41 III, 46|       by one of 48 inches, the power of which is equal to 96
42 III, 46|       width of my cylinder the power of the machine will be correspondingly
43 III, 46|       or tools, upon which the power in the form of the weight
44 III, 47|       of its structure and the power as well as the ways in which
45 III, 47|      as the ways in which this power can be applied.~ ~