that breaks when its tension is T=1N. At time t=D0, 0 = 0. The plates rotate with a constant angular acceleration. If the string breaks when = 1/4 determine the magnitude of the angular acceleration. Consider the system shown in the figure below. The block has a mass of 1Kg and it is placed on the plate AB which is pivoted at point A. The coefficient of friction between the plate and the block is µ=0.1. The block is attached to a string R=1m
that breaks when its tension is T=1N. At time t=D0, 0 = 0. The plates rotate with a constant angular acceleration. If the string breaks when = 1/4 determine the magnitude of the angular acceleration. Consider the system shown in the figure below. The block has a mass of 1Kg and it is placed on the plate AB which is pivoted at point A. The coefficient of friction between the plate and the block is µ=0.1. The block is attached to a string R=1m
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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please show derivation of equations freebody diiagram and complete steps
please solve in 30 mins i will give you positive feeback
![Consider the system shown in the figure below. The block has a mass of 1Kg and it is placed on the plate AB which is
pivoted at point A. The coefficient of friction between the plate and the block is u=0.1. The block is attached to a string
that breaks when its tension is T=1N. At time t=0, 9 = 0. The plates rotate with a constant angular acceleration. If the
string breaks when 9 = 1/4 determine the magnitude of the angular acceleration.
A
R=1m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4ef1eeef-5275-4cee-9b8b-a8bea1e65c36%2F366cb669-e02a-4b62-b102-a09070c50f99%2Fz9c2em8_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider the system shown in the figure below. The block has a mass of 1Kg and it is placed on the plate AB which is
pivoted at point A. The coefficient of friction between the plate and the block is u=0.1. The block is attached to a string
that breaks when its tension is T=1N. At time t=0, 9 = 0. The plates rotate with a constant angular acceleration. If the
string breaks when 9 = 1/4 determine the magnitude of the angular acceleration.
A
R=1m
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