b) Figure Q1b shows a compound gear train with Gear A as the pinion (or driver) with an input Power (Pin) of 600 W at Gear A. If Gear A rotates at 139.70 rpm and engages with Gear B, calculate the angular velocity (w) in rad/s for Gears B, C & D; and the input torque (Tin) in at Gear A and output torque (Tout) at Gear D. The number of teeth (N) for gears A, B, C & D are 62 teeth, 34 teeth, 42 teeth and 22 teeth, respectively. Assume 100% efficiency and no frictional losses; and give your answers to two decimal places. GEAR A GEAR C GEAR B GEAR D
b) Figure Q1b shows a compound gear train with Gear A as the pinion (or driver) with an input Power (Pin) of 600 W at Gear A. If Gear A rotates at 139.70 rpm and engages with Gear B, calculate the angular velocity (w) in rad/s for Gears B, C & D; and the input torque (Tin) in at Gear A and output torque (Tout) at Gear D. The number of teeth (N) for gears A, B, C & D are 62 teeth, 34 teeth, 42 teeth and 22 teeth, respectively. Assume 100% efficiency and no frictional losses; and give your answers to two decimal places. GEAR A GEAR C GEAR B GEAR D
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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Transcribed Image Text:b) Figure Q1b shows a compound gear train with Gear A as the pinion (or driver) with an
input Power (Pin) of 600 W at Gear A. If Gear A rotates at 139.70 rpm and engages with
Gear B, calculate the angular velocity (w) in rad/s for Gears B, C & D; and the input
torque (Tin) in at Gear A and output torque (Tout) at Gear D. The number of teeth (N) for
gears A, B, C & D are 62 teeth, 34 teeth, 42 teeth and 22 teeth, respectively. Assume
100% efficiency and no frictional losses; and give your answers to two decimal
places.
GEAR A
GEAR C
GEAR B
GEAR D
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