Finding the initial height of a roller-coaster [HELP]

AI Thread Summary
To find the initial height of a roller coaster, the conservation of energy principle is applied, where potential energy (PE) and kinetic energy (KE) are considered. The equations PE = mgh and KE = 1/2 mv² are fundamental, with g set at 9.80 m/s² and the final height (hf) at 20.0 m. It is suggested to cancel the mass when equating initial and final energies, leading to the conclusion that the initial height could be 20.0 m. However, to clear the loop, the roller coaster must have a minimum speed at the top, requiring the calculation of this speed based on the loop's diameter. Understanding the relationship between centripetal force, gravitational force, and the necessary speed is crucial for determining the correct initial height.
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Homework Statement



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Homework Equations



PE = mgh
KE = \frac{1}{2}mv^{2}
W = ΔKE
W = Fd

The Attempt at a Solution



g = 9.80m/s^{2}
hi = ?
hf = 20.0m

PEi + KEi = PEf + KEf

mghi = mghf

Would you then cancel the masses out? If you did, the initial height would be 20.0m. Am I right? Thanks in advance to anyone who helps.
 
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In order to clear the loop, the roller coaster needs to be moving with some speed at the top, and thus have kinetic energy, otherwise it will fall down. Try to find the minimum speed necessary to have a nonzero normal force at the top of the loop. Hope this helps!
 
Poley said:
In order to clear the loop, the roller coaster needs to be moving with some speed at the top, and thus have kinetic energy, otherwise it will fall down. Try to find the minimum speed necessary to have a nonzero normal force at the top of the loop. Hope this helps!

How would I find the initial speed, since I'm only given a diameter of 20.0m?
 
At the top of the loop, the centripetal force is the sum of the gravitational force and the normal force (both are directed radially inward). At the minimum possible speed necessary, the normal force at the very top of the loop will be zero. Therefore, the only component of the centripetal force is the gravitational force. Now, using the given diameter, you should be able to find the minimum speed necessary at the top of the loop, and then use conservation of energy to find the minimum initial height. Let me know if this makes sense.
 

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