Principles of the Mechanics of Machinery and Engineering: Theoretical mechanics.-v. 2. The application of mechanics in buildings. Application of mechanics to machineryH. Bailliere, 1847 |
Términos y frases comunes
a₁ acceleration axis of revolution axle b₁ beam body breadth c₁ c₂ cathetus centre of gravity centrifugal force co-efficient of efflux co-efficient of resistance corresponding cubic feet cycloid cylinder deflexion density depth direction discharge distance elasticity equal equation equilibrium Example Examples.-1 F₁ flexure fluid follows formula G₁ G₂ h₁ h₂ head of water height due hence horizontal hydrometer impact inches inclined plane inertia inversely lastly length London M₁ M₂ manometer mass mean velocity measure mechanical effect metre moment of inertia motion obtain orifice oscillation P₁ P₂ parallel pendulum plate point of application pressure Q₁ radius rectangular resultant Robert Wight S₁ side space specific gravity square surface of water t₁ tang tension terminal velocity tion transverse section tube v₁ velocity of efflux vertical vessel vis viva weight G
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Página 235 - ... plus the product of the mass of the body and the square of the distance between the axes.
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Página 343 - ... is the depth of its centre of gravity below the surface of the liquid.
Página 297 - ... equally true if the body in question be the striking instead of the struck body. For example, the proper point of a bat for striking a ball so as not to jar the hands is the centre of percussion of the bat with respect to an axis passing through the hands.
Página 330 - ... is equal to the weight of a column of water whose base is the section of the piston, and whose height is the distance of the level of the water in the barrel AC, above the level in the reservoir.
Página 332 - The resistance which is opposed to a pump rod in raising water, is ~equal to the weight of a column of water whose base is the area of the piston, and...