 | James Ferguson - 1776 - 546 σελίδες
...through in a fecond, when the water afts upon them fo, as to have the greateft power to turn the mill. 4. Divide the circumference of the wheel in feet by the velocity of its floats in feet per fecond, and the quotient fhall be the number of feconds in which the wheel turns round.... | |
 | John Imison - 1796 - 476 σελίδες
...thro' in a fecond, when the water afts upon them fo as to have the greatcft power to turn the mill. IV. Divide the circumference of the wheel in feet by the velocity of its floats in feet per fecond, and the quotient fhall be the number of feconds in which the wheel turns round.... | |
 | Andrew Mackay - 1804 - 354 σελίδες
...through in a second, when the water acts upon them so as to have the greatest power to turn the mill. IV. Divide the circumference of the wheel, in feet, by the velocity of its floats, in feet, per second, and thç quotient shall be the number of seconds in which the wheel turns round.... | |
 | Olinthus Gregory - 1806 - 590 σελίδες
...of feet the water moves per fecond. 3. Divide the velocity of the water by 3 ; and the quotient will be the velocity of the floats of the wheel in feet per fecond. 4. Divide the circumference of the wheel in feet, by the velocity of its floats; and the quotient... | |
 | William Marrat - 1810 - 512 σελίδες
...through in a second, when the water acts upon them, so as to have the greatest power to turn the mill. 4. Divide the circumference of the wheel in feet, by. the velocity of its floats in feet per second, and the quotient will be the number of seconds in which the wheel turns round.... | |
 | Olinthus Gregory - 1815 - 582 σελίδες
...of feet the water moves per second. 3. Divide the velocity of the water by S ; and the quotient will be the velocity of the floats of the wheel in feet...one turn or revolution of the great water-wheel, on the axis of which is fixed the cog-wheel that turns the trundle. 51. Divide 60 by the number of seconds... | |
 | Charles Hutton - 1815 - 686 σελίδες
...the water moves pelsecond. 3. Divide the velocity of the water by 3 (or 2) ; and the quotient will be the velocity of the floats of the wheel in feet...one turn or revolution of the great waterwheel, on the axis of which is fixed the cog-wheel that turns the trundle. 5. Divide 60 by the number of seconds... | |
 | James Smith - 1815 - 684 σελίδες
...through in a second, when the water acts upon them so as to have the greatest power to turn the mill. 4. Divide the circumference of the wheel in feet by the velocity of its floats in feet per second, and the quotient will be the number of seconds in which the wheel turns round.... | |
 | 1816 - 762 σελίδες
...it mixes with the meal, and cannot be feparated from it by any means. The circumference of the wheel by the velocity of its floats, and the quotient will be the number of feconds in one turn of the great water wheel, on whofe axis the cog-wheel that turns the trundle is... | |
 | Alexander Jamieson - 1821 - 448 σελίδες
...through in a second, when the water acts upon them so as to have the greatest power to turn the mill. Divide the circumference of the wheel in feet by the velocity of its floats in feet per second, and the quotient will be the number of seconds in which the wheel turns round.... | |
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... 4. Divide the circumference of the wheel in feet by the velocity of its floats in feet per second, and the quotient will be the number of seconds in which the wheel turns round. 
