The 38-kg uniform disk A and the bar BC are at rest and the 9-kg uniform disk D has an initial angular velocity w₁ of magnitude 440 rpm when the compressed spring is released and disk D contacts disk A. The system rotates freely about the vertical spindle BE. After a period of slippage, disk D rolls without slipping. Knowing that the magnitude of the final angular velocity of disk D is 176 rpm, determine the final angular velocities of bar BC and disk A. Neglect the mass of bar BC. A 300 mm B E The angular velocity of bar BC is WBC= The angular velocity of disk A is wa = 001 36.6 16.9 115 mm rpm 2. rpm
The 38-kg uniform disk A and the bar BC are at rest and the 9-kg uniform disk D has an initial angular velocity w₁ of magnitude 440 rpm when the compressed spring is released and disk D contacts disk A. The system rotates freely about the vertical spindle BE. After a period of slippage, disk D rolls without slipping. Knowing that the magnitude of the final angular velocity of disk D is 176 rpm, determine the final angular velocities of bar BC and disk A. Neglect the mass of bar BC. A 300 mm B E The angular velocity of bar BC is WBC= The angular velocity of disk A is wa = 001 36.6 16.9 115 mm rpm 2. rpm
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:The 38-kg uniform disk A and the bar BC are at rest and the 9-kg uniform disk D has an initial angular velocity w₁ of magnitude 440
rpm when the compressed spring is released and disk D contacts disk A. The system rotates freely about the vertical spindle BE. After
a period of slippage, disk D rolls without slipping. Knowing that the magnitude of the final angular velocity of disk Dis 176 rpm,
determine the final angular velocities of bar BC and disk A. Neglect the mass of bar BC.
A
300 mm
B
E
The angular velocity of bar BC is WBC
The angular velocity of disk A is w A =
D
@01
115 mm
C
36.6
16.9 rpm.
rpm 2.
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