...the vessel containing it, or of any other surface, real or imaginary, in contact with it, is equal to the weight of a column of the fluid, whose base is equal to that particle, and whose height is equal to its depth below the upper surface of the fluid. 4. If,...

...mercury. It has been shown that the pressure of a fluid on a horizontal plane immersed in it was equal to the weight of a column of the fluid whose base is equal to the area of the plane, and whose height is the depth of the plane below the surface of the fluid. The pressure...

...weight of a column of the fluid whose base equals the area of the given surface, and whose height is equal to the depth of the centre of gravity of the surface below the surface of the fluid. Ex. 1. To find the pressure on a rectangular plane 10 in. by 4, when...

...conclusion may be drawn : — The pressure of a fluid, on any horizontal plane placed in it, is equal to the weight of a column of the fluid whose base is the area of the plane, and whose height is the depth of the plane below the horizontal surface of the...

...pressure exerted upon any surface by a heavy fluid is equal to the weight of a cylindrical or prismatic column of the fluid whose base is equal to the surface pressed, and whose altitude is equal to the distance of the centre of gravity of the surface beloio the upper surface...

...advantage. 9. The difference of pressures on a given small area at different depths in a fluid is equal to the weight of a column of the fluid whose base is the given area and whose height is the difference of depths. Show how the principles of hydrostatics,...

...surface is the base. Hence, the vertical component of the pressure on any element of the surface is equal to the weight of a column of the fluid, whose base is the horizontal projection of the element, and whose altitude is the distance of the element from the...

...vessel in which it is contained, is quite independent of the form of the vessel, and is always equal to the weight of a column of the fluid whose base is the bottom of the vessel, and whose height is the vertical distance from the bottom to the surface...

...of a column of liquid, tlte area of whose base is equal to that of the surface, and whose height is equal to the depth of the centre of gravity of the surface. Let the surface be divided into a great number of very small rectangular areas alt a2, a3 and let the...

...plane surfaces applies also to curved surfaces. The total pressure of a fluid upon any surface is equal to the weight of a column of the fluid, whose base is the area of the given surface, and whose height is the depth of the centre of gravity of the surface...