A power shaft running at a steady speed of 175 rev/min drives a counter- shaft through a single-plate friction clutch of external and internal diameters 375 and 225 mm respectively. The masses on the countershaft have a radius of gyration of 250 mm and a total mass of 350 kg. The axial spring load operating the clutch is 450 N, and p the time required to reach full speed from rest, and the work dissipated due to clutch slip during that time. (U. Lond.) 0-3. Assuming uniform acceleration, determine (Ans. : 9-9 s; 3-67 kJ)
A power shaft running at a steady speed of 175 rev/min drives a counter- shaft through a single-plate friction clutch of external and internal diameters 375 and 225 mm respectively. The masses on the countershaft have a radius of gyration of 250 mm and a total mass of 350 kg. The axial spring load operating the clutch is 450 N, and p the time required to reach full speed from rest, and the work dissipated due to clutch slip during that time. (U. Lond.) 0-3. Assuming uniform acceleration, determine (Ans. : 9-9 s; 3-67 kJ)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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ower shaft running at a steady speed of 175 rev/min driy 8 single-plate friction clutch of external and intern mm respectively. The masses on the countershaft have £ 250 mm and a total mass of 350 kg. The axial spring I 198 450 N, and 4 = 0-3. Assuming uniform acceleration guired to reach full speed from rest, and the work dissipad during that time. (U. Lond.) (Ans. : 99 g
Transcribed Image Text:. A power shaft running at a steady speed of 175 rev/min drives a counter-
shaft through a single-plate friction clutch of external and internal diameters
375 and 225 mm respectively. The masses on the countershaft have a radius of
gyration of 250 mm and a total mass of 350 kg. The axial spring load operating
the clutch is 450 N, and u = 0-3. Assuming uniform acceleration, determine
the time required to reach full speed from rest, and the work dissipated due to
clutch slip during that time. (U. Lond.)
(Ans. : 9.9 s; 3-67 kJ)
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