The horizontal distance to which a fluid will spout from a horizontal pipe in any part of the side of an upright vessel, below the surface of the fluid, is equal to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of... Scientific Dialogues - Page 86by Jeremiah Joyce - 1815 - 260 pagesFull view - About this book
| James Ferguson - Astronomy - 1814 - 420 pages
...waface of the fluid, is equal to twice the length of s a perpendicular to the side of the vessel, pipes. drawn from the mouth of the pipe to a semicircle described upon the altitude of the fluid : and therefore, the fluid will spout tq the greatest distance possible from a pipe, whose mouth... | |
| Jeremiah Joyce - Science - 1815 - 264 pages
...the fluid, is equal ;to< twice the length of a perdendicular to the side of the vessel, drawn frorn the mouth of the pipe to !a, semicircle described...that the fluid should spout the farthest possible ? . , . . .THE MOTION OF FLUIDS. 93 Charles. In the centre : for the line d 2 seems to be the greatest... | |
| Jeremiah Joyce - Science - 1815 - 446 pages
...below the surface of the fluid, is equal to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of the pipe to a semicircle...what part the pipe should be placed, in order that £he fluid should spout the farthest possible ? Charles. In the centre : for the line d 2 seems to... | |
| James Smith - Industrial arts - 1815 - 942 pages
...below the surface of the fluid, is equal to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of the pipe to a semi-circle described upon the altitude of the fluid ; and therefore the distance will be the greatest possible, when the mouth of the pipe is at... | |
| Alexander Jamleson - 1821 - 456 pages
...below the surface of the fluid, is equal to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of the pipe to a semicircle described upon the altitude of the fluid : and therefore the spout will be to the greatest distance possible from a pipe whose mouth is... | |
| John Imison - Art - 1822 - 528 pages
...below the surface of the fluid, is equal to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of the pipe to a semicircle described upon the altitude of the fluid : and, therefore, the spout will be to the greatest distance possible from a pipe whose mouth... | |
| James Ferguson - Eclipses - 1823 - 406 pages
...surface of the fluid, is equal from pipes. to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of the pipe to a semicircle described upon the altitude of the fluid : and therefore, the fluid will spout to the greatest distance possible from a pipe, whose mouth... | |
| Jeremiah Joyce - Astronomy - 1824 - 224 pages
...below the surface of the fluid, is equal to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of the pipe to a semicircle described upon the altitude of the vessel. 25. Of several pipes, placed horizontally in the side of an upright vessel, that in the centre will... | |
| Luke Herbert - Industrial arts - 1824 - 394 pages
...fluid, is equal to twice the length of a perpendicular to the side of the vessel drawn from the month of the pipe to a semicircle described upon the altitude of the fluid ; and, therefore, the spout will be to the greatest distance possible from a pipe whose mouth... | |
| Perry Fairfax Nursey - Industrial arts - 1827 - 472 pages
...below the surface of the fluid, is equal to twice the length of a perpendicular to the side of the vessel, drawn from the mouth of the pipe to a semicircle described upon the altitude of the fluid. And since the greatest of all the lines which could be thus drawn would be the radius of the... | |
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