Epicyclic gear box is shown in Figure.2, the gear box has outer gear C with 120 teeth, B has 50, D has 50 and E has 120. 1. Calculate the gear box ratio 2. Find the output speed and holding torque of the gear box, if the input gear has 1570 ??? clockwise, the input power 28.5 ?? and the efficiency is 85.5% 3. You have engaged in open discussion in which you have to evaluate the conditions needed for an epicyclic gear train to become a differential. Using app

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Epicyclic gear box is shown in Figure.2, the gear box has outer gear C with 120 teeth, B has 50, D has 50 and E 
has 120.
1. Calculate the gear box ratio
2. Find the output speed and holding torque of the gear box, if the input gear has 1570 ??? clockwise, 
the input power 28.5 ?? and the efficiency is 85.5%
3. You have engaged in open discussion in which you have to evaluate the conditions needed for an 
epicyclic gear train to become a differential. Using appropriate schematic and hand sketch show how a 
differential works in this application. Also, explain what needed to convert the gearbox in Figure.3 to 
Simple epicyclic differential

Project 2:
D
Output
HIMME
www
B
Input
Figure.2: Epicyclic gear trains used in differential box in an automobile
Epicyclic gear box is shown in Figure.2, the gear box has outer gear C with 120 teeth, B has 50, D has 50 and E
has 120.
1. Calculate the gear box ratio
2. Find the output speed and holding torque of the gear box, if the input gear has 1570
the input power 28.5 kW and the efficiency is 85.5%
3. You have engaged in open discussion in which you have to evaluate the conditions needed for an
epicyclic gear train to become a differential. Using appropriate schematic and hand sketch show how a
differential works in this application. Also, explain what needed to convert the gearbox in Figure.3 to
Simple epicyclic differential
rpm clockwise,
Transcribed Image Text:Project 2: D Output HIMME www B Input Figure.2: Epicyclic gear trains used in differential box in an automobile Epicyclic gear box is shown in Figure.2, the gear box has outer gear C with 120 teeth, B has 50, D has 50 and E has 120. 1. Calculate the gear box ratio 2. Find the output speed and holding torque of the gear box, if the input gear has 1570 the input power 28.5 kW and the efficiency is 85.5% 3. You have engaged in open discussion in which you have to evaluate the conditions needed for an epicyclic gear train to become a differential. Using appropriate schematic and hand sketch show how a differential works in this application. Also, explain what needed to convert the gearbox in Figure.3 to Simple epicyclic differential rpm clockwise,
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