...+ P) = A . MB P. Hence X + Y = A.EB; or the whole force exerted in the case of equilibrium is equal to the weight of a column of water whose base is equal to that of the piston, and altitude the distance between the surface of the water and the point to which...

...form, the de- resistance gree of it, by the foregoing considerations, would be ascertained by finding the weight of a column of water whose " base is equal to her midship section, and whose height equal to that from which a body must fall to acquire the velocity...

...pressure upon the side. Hence the total pressure upon the side of a vessel containing water will be equal to the weight of a column of water whose base is equal to the area of that side, and whose height is equal to one half the depth of the liquid in the vessel, or,...

...pressure upon the side. Hence the total pressure upon the side of a vessel containing water will be equal to the weight of a column of water whose base is equal to the area of that side, and whose height is equal to one-half the depth of the liquid in the „ " " vessel...

...x 5- x aw = 2h x aw ; (14) m that is, the normal impulse of water against a plane surface is equal to the weight of a column of water whose base is equal to the cross-section of the stream, and whose height is twice the head of water to which the velocity is due....

...height is equal to the depth of the liquid. 3. The Pressure of Water on the sides of a Vessel is equal to the weight of a column of water whose base is equal to the area of the side, and whose height is equal to one-half the depth of the liquid. Owing to this law...

...height is equal to the depth of the liquid. 3. The Pressure of Water on the sides of a Vessel is equal to the weight of a column of water whose base is equal to the area of the side, and whose height is equal to one-half the depth of the liquid. Owing to this law,...

...of the vessel. This rule is applied in finding the downward pressure on a horizontal surface. Find the weight of a column of water whose base is equal to the given surface, and whose height is equal to the depth of the given surface below the surface of the...

...water on every portion of the surface of the vessel containing it and in contact with it, is equal to the weight of a column of water whose base is equal to its unit area and whose height is equal to its depth below the surface to the vertical centre of the...

...in one up stroke = 62-3a//¿ = PI. Therefore P = 62'3a7t. That is, the pull on the pump-rod is equal to the weight of a column of water, whose base is equal to the area of the bucket, and whose height is the total head. Hence when friction is neglected, P is independent...