The velocity of a particle moving in the x-y plane is given by (6.91i +7.17j) m/s at time t = 5.61 s. Its average acceleration during the next 0.017s is (2.7i+ 4.3j) m/s². Determine the velocity v of the particle at t= 5.627 s and the angle between the average- acceleration vector and the velocity vector at t = 5.627 s. Answers: v=i e= i i+ i j) m/s

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Dynamics of Rigid Bodies - Mechanical Engineering The velocity of a particle moving in the x-y plane is given by (6.91i + 7.17j) m/s at time t = 5.61 s. Its average acceleration during the next 0.017 s is (2.7i + 4.3j) m/s^2. Determine the velocity v of the particle at t = 5.627 s and the angle O between the average-acceleration vector and the velocity vector at t = 5.627 s. Subject: Mechanical Engineering
The velocity of a particle moving in the x-y plane is given by (6.91i +7.17j) m/s at time t = 5.61 s. Its average acceleration during the
next 0.017 s is (2.7i+ 4.3j) m/s². Determine the velocity v of the particle at t = 5.627 s and the angle between the average-
acceleration vector and the velocity vector at t = 5.627 s.
Answers:
V = (
i
0= i
i+
i
j) m/s
Transcribed Image Text:The velocity of a particle moving in the x-y plane is given by (6.91i +7.17j) m/s at time t = 5.61 s. Its average acceleration during the next 0.017 s is (2.7i+ 4.3j) m/s². Determine the velocity v of the particle at t = 5.627 s and the angle between the average- acceleration vector and the velocity vector at t = 5.627 s. Answers: V = ( i 0= i i+ i j) m/s
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