Principles of the Mechanics of Machinery and Engineering, Volume 2Lea and Blanchard, 1848 |
Inhoudsopgave
168 | |
202 | |
206 | |
210 | |
214 | |
218 | |
226 | |
228 | |
44 | |
47 | |
57 | |
62 | |
67 | |
68 | |
99 | |
101 | |
105 | |
112 | |
122 | |
134 | |
137 | |
144 | |
150 | |
158 | |
234 | |
236 | |
240 | |
245 | |
252 | |
255 | |
261 | |
266 | |
275 | |
279 | |
286 | |
290 | |
302 | |
307 | |
Overige edities - Alles bekijken
Principles of the Mechanics of Machinery and Engineering: Applied mechanics Julius Weisbach Volledige weergave - 1849 |
Principles of the Mechanics of Machinery and Engineering: Applied mechanics Julius Weisbach Volledige weergave - 1849 |
Principles of the Mechanics of Machinery and Engineering, Volume 2 Julius Ludwig Weisbach Volledige weergave - 1848 |
Veelvoorkomende woorden en zinsdelen
a₁ abutment angle applied arch arms axis axle back-water balance bar iron beam bottom breadth breast wheels bridge buckets c₁ cast iron cells centre co-efficient construction cotang cotg curb curved deflexion depth diameter direction discharge distance dynamometer efficiency equal experiments extrados fall feet lbs feet per second floats force formula Franklin Institute friction G₁ girders greater gudgeons h₁ hence horizontal inclination length less lever line of resistance load machine maximum mean number of revolutions overshot wheel P₁ penstock piers pipe plates Poncelet's prejudicial resistance pressure quantity of water radius rafter ratio revolutions per minute rotation shown in Fig shrouding sluice spandril square inch strain strength surface suspension bridges tang thickness thrust tion tube turbines v₁ velocity vertical vis viva voussoirs wall water wheel weight G weir width wrought iron