Starting from rest, it takes 1 second for m1 to fall 1.5m. A ring of unknown mass sits on top of m1 as it falls. If m1=2kg and m2=2.5kg, and the incline is frictionless, what force does m1 put on the ring?
Starting from rest, it takes 1 second for m1 to fall 1.5m. A ring of unknown mass sits on top of m1 as it falls. If m1=2kg and m2=2.5kg, and the incline is frictionless, what force does m1 put on the ring?
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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Starting from rest, it takes 1 second for m1 to fall 1.5m. A ring of unknown mass sits on top of m1 as it falls. If m1=2kg and m2=2.5kg, and the incline is frictionless, what force does m1 put on the ring?
Transcribed Image Text:The image illustrates a physics problem involving an inclined plane and a pulley system.
- A wedge-shaped incline is shown with an angle of 18° with respect to the horizontal plane.
- On the incline, there is a block labeled \(m_2\).
- A pulley is positioned at the top of the incline.
- A string runs over the pulley and is attached to a hanging block labeled \(m_1\), which is suspended vertically.
- The vertical distance from the pulley to the hanging block \(m_1\) is indicated as 1.5 meters.
This setup may be used to study the dynamics of masses on inclined planes, including concepts like tension, gravitational force components, and friction (if applicable).
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