3. Calculate the torque and the rotation speed at the input pulley if the output pulley needs to rotate at 100 rpm and produce a torque of 500 in-lb. Assume that there is no stretching and no slippage. Output Pulley d4 = 5" Input Pulley d1 = 1" Idler Pulley d2 = 3" d3 = 2" Figure 1: A pulley drive mechanism. The diameters of pulleys, d1, d2, d3, and d4, are 1", 3", 2" and 5", respectively.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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3. Calculate the torque and the rotation speed at the input pulley if the output pulley needs to
rotate at 100 rpm and produce a torque of 500 in-lb. Assume that there is no stretching and no
slippage.
Output
Pulley
d4 = 5"
Input Pulley
Idler Pulley
d1 = 1"
d2 = 3"
d3 = 2"
Figure 1: A pulley drive mechanism. The diameters of pulleys, d1, d2, d3, and d4, are 1", 3", 2"
and 5", respectively.
Transcribed Image Text:3. Calculate the torque and the rotation speed at the input pulley if the output pulley needs to rotate at 100 rpm and produce a torque of 500 in-lb. Assume that there is no stretching and no slippage. Output Pulley d4 = 5" Input Pulley Idler Pulley d1 = 1" d2 = 3" d3 = 2" Figure 1: A pulley drive mechanism. The diameters of pulleys, d1, d2, d3, and d4, are 1", 3", 2" and 5", respectively.
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