Amusement Park Centripetal Force Around A Loop

AI Thread Summary
The discussion revolves around calculating the forces acting on a rider in The Roundup amusement park ride, which features an 18.0 m-diameter rotating ring. Key calculations include determining the force exerted by the ring on the rider at both the top and bottom of the ride, as well as the maximum rotation period that prevents riders from falling off at the top. Participants emphasize the need to consider both gravitational force and centripetal acceleration in their calculations. The confusion arises from the differing velocities at the top and bottom of the ride, highlighting the importance of a force diagram to clarify the forces at play. Understanding these dynamics is crucial for accurately solving the physics problems presented.
GoSS190
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In an amusement park ride called The Roundup, passengers stand inside a 18.0 m-diameter rotating ring. After the ring has acquired sufficient speed, it tilts into a vertical plane. Suppose the ring rotates once every 4.90 s. and the rider's mass is 58.0 kg.

A.) With how much force does the ring push on her at the top of the ride?

B.) With how much force does the ring push on her at the bottom of the ride?

C.) What is the longest rotation period of the wheel that will prevent the riders from falling off at the top?

If anyone could help me with these questions that would be great. Thanks



I tried this using the equations to find v = (2pi(r)) / T

but then i realized that the velocity is different at the top than at the bottom. I am stumped as to how to find the velocity then find the force.

I think the equation for force at the top is (m(vtop)2) / R

Can anyone help me out with this though please
 
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GoSS190 said:
In an amusement park ride called The Roundup, passengers stand inside a 18.0 m-diameter rotating ring. After the ring has acquired sufficient speed, it tilts into a vertical plane. Suppose the ring rotates once every 4.90 s. and the rider's mass is 58.0 kg.

A.) With how much force does the ring push on her at the top of the ride?

B.) With how much force does the ring push on her at the bottom of the ride?

C.) What is the longest rotation period of the wheel that will prevent the riders from falling off at the top?

If anyone could help me with these questions that would be great. Thanks

I tried this using the equations to find v = (2pi(r)) / T

but then i realized that the velocity is different at the top than at the bottom. I am stumped as to how to find the velocity then find the force.

I think the equation for force at the top is (m(vtop)2) / R

Can anyone help me out with this though please

No. That's not what's going on.

Draw a force diagram. You have 2 forces acting on the 58 kg person.

There's weight - which always acts down and there is the radial acceleration from the rotation of the ride. So there are two forces. What is the difference between looking at the forces between the top and the bottom then?
 
The force at the top would be adding to each other while at the bottom they would be opposing. But how do u find the normal force?
 
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