Easy but hard problem (loop-the-loop) normal force?

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
1 reply · 6K views
daivinhtran
Messages
68
Reaction score
0

Homework Statement



The Gravitron single-car roller coaster consists of a single loop-the-loop. The car is initially pushed, giving it just the right mechanical energy so the riders on the coaster will feel "weightless" when they pass through the top of the circular arc. How heavy will they feel when they pass through the bottom of the arc (that is, what is the normal force pressing up on them when they are at the bottom of the loop)? Express the answer as a multiple of mg (their actual weight). Assume any effects of friction or of air resistance are negligible.

Homework Equations



Fc= M(ac)
N + Mg = M(ac) ( at the top)
N - Mg = M(ac) (at the bottom)

The Attempt at a Solution



N + Mg = M(ac)
because the riders feel weightless, the normal force is zero
==>>> g = ac

So at the botoom
N - Mg = M(ac)
N -Mg = Mg
N = 2Mg <==== it's a wrong answer :(

(however the problem is in Work-energy chapters, so I think it has to deal with that)
I solved it without any energy involved
 
Physics news on Phys.org
daivinhtran said:

Homework Statement



The Gravitron single-car roller coaster consists of a single loop-the-loop. The car is initially pushed, giving it just the right mechanical energy so the riders on the coaster will feel "weightless" when they pass through the top of the circular arc. How heavy will they feel when they pass through the bottom of the arc (that is, what is the normal force pressing up on them when they are at the bottom of the loop)? Express the answer as a multiple of mg (their actual weight). Assume any effects of friction or of air resistance are negligible.

Homework Equations



Fc= M(ac)
N + Mg = M(ac) ( at the top)
N - Mg = M(ac) (at the bottom)

The Attempt at a Solution



N + Mg = M(ac)
because the riders feel weightless, the normal force is zero
==>>> g = ac

So at the bottom
N - Mg = M(ac)
N -Mg = Mg
N = 2Mg <==== it's a wrong answer :(

(however the problem is in Work-energy chapters, so I think it has to deal with that)
I solved it without any energy involved
It's correct that the centripetal acceleration, ac, is equal to g (and is downward) at the top of the loop. However, ac does not have the same value at the bottom of the loop, because the roller coaster car is moving much faster at the bottom.