A 1.8-kg collar is attached to a spring with unstretched length of 1.03 m. The collar moves in the vertical plane around a circular ring, which has a radius of 1.03 m. The collar has a speed of 13 m/s at position 1, where 0-45°. The spring has stiffness of 120 N/m Position I V₁ m/s Position 2 WAM Choose... Choose... Position 3 2R A-Calculate collar speed at position 2 where 0 = 30⁰ B-Knowing the collar reaches position 3, (where 0 = 0°) with a speed of 11.43 m/S, calculate the magnitude of the normal reaction (in N) between the collar and the ring at position 3 ww AP
A 1.8-kg collar is attached to a spring with unstretched length of 1.03 m. The collar moves in the vertical plane around a circular ring, which has a radius of 1.03 m. The collar has a speed of 13 m/s at position 1, where 0-45°. The spring has stiffness of 120 N/m Position I V₁ m/s Position 2 WAM Choose... Choose... Position 3 2R A-Calculate collar speed at position 2 where 0 = 30⁰ B-Knowing the collar reaches position 3, (where 0 = 0°) with a speed of 11.43 m/S, calculate the magnitude of the normal reaction (in N) between the collar and the ring at position 3 ww AP
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:A 1.8-kg collar is attached to a spring with unstretched length of 1.03 m. The collar moves in the
vertical plane around a circular ring, which has a radius of 1.03 m. The collar has a speed of 13 m/s at
position 1, where 0 =45°. The spring has stiffness of 120 N/m
Position 1
V₁ m/s
Position 2
Choose...
Choose...
Position 3
2R
A-Calculate collar speed at position 2 where 0 = 30°
B-Knowing the collar reaches position 3, (where 0 = 0°) with a speed of 11.43 m/S,
calculate the magnitude of the normal reaction (in N) between the collar and the ring
at position 3
ww
0₂
0₁
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