 | James Ferguson - Astronomy - 1823 - 418 pages
...outwards by a force equal to the weight of a column of water whose height is TT, and whose area is the area of the apertures. Every part of the tube...are balanced by equal and opposite pressures, the arm AB is at rest. By opening the aperture at A, however, the pressure at that place is removed, and... | |
 | John Nicholson - Machinery - 1825 - 822 pages
...outwards by a force equal to the weight of a column of water whose height is TT, and whose area is the area of the apertures. Every part of the tube...are balanced by equal and opposite pressures, the arm AB is at rest. By opening the aperture at A, however, the pressure at that place is removed, and... | |
 | Industrial arts - 1825 - 490 pages
...outwards by a force equal to the weight of a column of water whose height is T T, and whose area is the area of the apertures. Every part of the tube...are balanced by equal and opposite pressures, the arm AB is at rest. By opening the aperture •t A, however, the pressure at that place is removed,... | |
 | John Nicholson (civil engineer.) - Great Britain - 1825 - 1008 pages
...of water whose height is TT, and whose area is the area of the apertures. Every part of the tube A 6 sustains a similar pressure ; but as these pressures...are balanced by equal and opposite pressures, the arm AB is at rest. By opening the aperture at A, however, the pressure at that place is removed, and... | |
 | Jacob Bigelow - Industrial arts - 1829 - 584 pages
...apertures at A and B, and in this way keeps up a continued horizontal rotary motion around the axis D m. In order to understand how this rotary motion is produced,...pressure at that place is removed, and therefore the area will be carried round in a direction opposite to that of the aperture, by a pressure which is... | |
 | Olinthus Gregory - Mathematics - 1834 - 480 pages
...outwards by a force equal to the weight of a column of water whose height is TT, and whose area is the area of the apertures. Every part of the tube...are balanced by equal and opposite pressures, the arm AB is at rest By opening the aperture at A, however, the pressure at that place is removed, and... | |
 | William Grier - Mechanical engineering - 1836 - 380 pages
...outwards by a force equal to the weight of a column of water whose height is TT, and whose area is the area of the apertures. Every part of the tube...are balanced by equal and opposite pressures, the arm AB is at rest. By opening the aperture at A, however, the pressure at that place is removed, and... | |
 | William Grier - Mechanical engineering - 1836 - 378 pages
...outwards by a force equal to the weight of a column of water whose height is TT, and whose area is the area of the apertures. Every part of the tube...are balanced by equal and opposite pressures, the arm AB is at rest. By opening the aperture at A, however, the pressure at that place is removed, and... | |
 | Jacob Bigelow - Industrial arts - 1840 - 418 pages
...B, and, in this way, keeps up a continued horizontal rotary motion, around the axis, [Dm.] Fig. 167. In order to understand how this rotary motion is produced,...carried round, in a direction opposite to that of the aperture, by a pressure which is due to the height of the column, and area of the aperture. The... | |
 | William Grier - Mechanical engineering - 1842 - 320 pages
...outwards by a force equal to the weight of a column of water whose height is TT, and whose area is the area of the apertures. Every part of the tube...are balanced by equal and opposite pressures, the arm AB is at rest. By opening the aperture at A, however, the pressure at that place is removed, and... | |
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B which are shut up, will be pressed outwards by a force equal to the weight of a column of water whose height is TT, and whose area is the area of the apertures. Every part of the tube AB sustains a similar pressure; but as these pressures are balanced... 
