Part, §

 1  II, 15| minutes~ ~ ~ 48) 30240 kan. an hour~ ~ ~ 630 tunnor of water~ ~
 2  II, 15|       of water~ ~ 24 hours [an hour~ ~ ~ 2520~ ~ 1260~ ~ ~ 15120
 3  II, 16|        skålpund of water in an hour. The machine delivers 30240
 4  II, 16|    delivers 30240 kannor every hour~ ~ 6 1/4 skålpund~ ~ ~ 181440~ ~
 5  II, 17|         48) 10080 kannor in an hour~ ~ ~ 210 tunnor an hour~ ~
 6  II, 17|        hour~ ~ ~ 210 tunnor an hour~ ~ 24 hours~ ~ ~ 840~ ~
 7  II, 17|        63000 skalpund V.W. per hour, because 10080 kannor per
 8  II, 17|       because 10080 kannor per hour=~ ~ 10080~ ~ 6 1/4 skålpund~ ~ ~
 9  II, 17| skeppund, 10 lispund water per hour.~ ~
10  II, 18|      draws from the mine every hour, namely 472 skeppund 10
11  II, 18|      force-work delivers every hour, namely, 157 skeppund 10
12  II, 18|       is able to deliver every hour.~ ~
13  II, 20|   117,600 skålpund water in an hour. (This machine, which is
14  II, 20|      skålpund water less in an hour than the Dannemora machine.)
15  II, 21|      draws 117600 skålpund per hour.~ ~ ~ ~This again delivers
16  II, 21|    consequently 71400 more per hour.~ ~ ~ ~The fire-machine
17 III, 35|    about 9000 tunnor water per hour can be proved in the following
18 III, 35|       drawing 630 tunnor in an hour from a depth of 30 fathoms,
19 III, 35|  deliver 8820 tunnor water per hour.~ ~If such a machine were
20 III, 38|       1000 tunnor of water per hour, would quite well be able