(c) Figure Q2 (c) shows a belt drive used to transmit power from electric motor A to a fan. The electric motor A is rotated at 4000 RPM. The diameter of electric motor pulley A and fan's pulley B is 50 mm and 180 mm respectively. (iii) Find the velocity ratio of both pulley A and B. (iv) Calculate the operating speed of the fan. (v) Determine the belt speed. (vi) Find the angular acceleration of both pulley A and B if the tangential acceleration of the belt is 0.8 m/s².
(c) Figure Q2 (c) shows a belt drive used to transmit power from electric motor A to a fan. The electric motor A is rotated at 4000 RPM. The diameter of electric motor pulley A and fan's pulley B is 50 mm and 180 mm respectively. (iii) Find the velocity ratio of both pulley A and B. (iv) Calculate the operating speed of the fan. (v) Determine the belt speed. (vi) Find the angular acceleration of both pulley A and B if the tangential acceleration of the belt is 0.8 m/s².
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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Question
Transcribed Image Text:Fan
О 180 тm
в
Ø- 50 mm
Figure Q2 (c)
Transcribed Image Text:(c)
Figure Q2 (c) shows a belt drive used to transmit power from electric motor A to a
fan. The electric motor A is rotated at 4000 RPM. The diameter of electric motor pulley
A and fan's pulley B is 50 mm and 180 mm respectively.
(iii)
Find the velocity ratio of both pulley A and B.
(iv)
Calculate the operating speed of the fan.
(v)
Determine the belt speed.
(vi)
Find the angular acceleration of both pulley A and B if the tangential
acceleration of the belt is 0.8 m/s?.
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