| John Charles Snowball - 1838 - 114 pągines
...conclusion may be drawn. The pressure exercised by 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 fluid.... | |
| Society for the diffusion of useful knowledge - 1839 - 380 pągines
...of these, is proportional to the depth. 75. The pressure on any surface immersed in a fluid is equal to the weight of a column of the fluid whose base is equal to the area of the surface pressed, and height equal to the depth of the centre of gravity of... | |
| Charles Haynes Haswell - 1844 - 298 pągines
...PRHSSUIiE. The pressure of a fluid on any surface, whether vertical, olihque, or horizontal, is equal to the weight of a column of the fluid, whose base is equal to the surface pressed, and height equal to the distance of the centre of gravity of the surface... | |
| John Curr - 1847 - 194 pągines
...experiment agrees precisely with the theory of Emerson, that the force of a fluid in motion is equal to a column of the fluid whose base is the section of...falling body, to acquire the velocity of the fluid ; consequently, Banks' experiment differs from Hutton's theory just as 2 to 1. The theory of Hutton... | |
| John Curr - 1847 - 194 pągines
...The real resistance to a plane, by a fluid acting in a direction perpendicular to its face, is equal to the weight of a column of the fluid, whose base is the plane, and altitude equal to that which is due to the velocity of the motion, or through which a heavy... | |
| Artizan club (London, England) - 1847 - 338 pągines
...which a quiescent fluid oppose* to a plane surface moving through it with a given velocity, is equal to the weight of a column of the fluid whose base is the plane, and altitude the game as that which is due to the velocity of motion ; that is, the height through... | |
| Johann Heinrich Jacob Müller - 1847 - 612 pągines
...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 the... | |
| William Holms Chambers Bartlett - 1850 - 640 pągines
...c'); but, employing the notation of the sucking-pump just described, c + c' = 6; which is obviously the weight of a column of the fluid whose base is the area of the piston and altitude the height of the discharge-pipe above the level of the water in the... | |
| William Holms Chambers Bartlett - 1850 - 662 pągines
...but, employing the notation of the sucking-pump just described, c + c' = b; 588 which is obviously the weight of a column of the fluid whose base is the area of the piston and altitude the height of the discharge-pipe above the level of the water in the... | |
| Charles Haynes Haswell - 1851 - 346 pągines
...PRESSURE. The pressure of a fluid on any surface, whether vertical, oblique, or horizontal, is equal to the weight of a column of the fluid, whose base is equal to the surface pressed, and height equal to the distance of the centre of gravity of the surface... | |
| |