Taking the mechanical equivalent as 1400 foot-pounds per degree centigrade, determine the heat produced in stopping by friction a fly-wheel 112 Ibs. in mass, and 2 ft. Examples in Physics - Page 184de Daniel Evan Jones - 1896 - 348 pagesAffichage du livre entier - À propos de ce livre
| Great Britain. Education Department. Department of Science and Art - 1894 - 894 pages
...how much external work is done in the expansion ? Density of mercury = 13'6 g = 981 cm per sec. 42. What do you understand by the mechanical equivalent of heat ? Taking the mechanical equivalent as 1,400 footpounds per degree centigrade ; determine the heat produced in stopping by friction a fly-wheel... | |
| Edwin Edser - 1899 - 498 pages
...0-031. ,, melting point = 335°C. „ latent heat of fusion = 5 '37. — (S. & A. Adv., 1895.) (6) What do you understand by the Mechanical Equivalent of Heat ? Taking the mechanical equivalent as 1,400 ft. -lbs. per degree Centigrade [per lb. of water] ; determine the heat produced in stopping... | |
| William Watson - 1902 - 1022 pages
...Show how to calculate the work done against the friction between the cones. Int. Sci. (H.) 1889. 4. What do you understand by the mechanical equivalent...stopping by friction a fly-wheel 112 Ibs. in mass, and 2 ft. in radius, rotating at the rate of I turn per second, assuming the whole mass concentrated in the... | |
| William Watson - 1903 - 974 pages
...Show how to calculate the work done against the friction between the cones. Int. Sci. (H.) 1889. 4. What do you understand by the mechanical equivalent...heat produced in stopping by friction a fly-wheel 112 UK. in mass, and 2 ft. in radius, rotating at the rate of i turn per second, assuming the whole mass... | |
| Edwin Edser - 1903 - 496 pages
...Heat? Taking the mechanical equivalent as 1,40x3 ft.-lbs. per degree Centigrade [per Ib. of water] ; determine the heat produced in stopping by friction...mass, and 2 feet in radius, rotating at the rate of one turn per second, assuming the whole mass concentrated in the rim. (S. & A. Adv., 1894.) (7) (live... | |
| William Watson - 1911 - 1018 pages
...34204 metres. 3. In one form of apparatus for finding the mechanical equivalent of heat a hollow 4. What do you understand by the mechanical equivalent of heat? Taking the mechanical equivalent as 7400 foot-pounds per degree centigrade, determine the heat produced in stopping by friction a flywheel... | |
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