Feel the Most Force on a Roller Coaster Loop

In summary, When riding a rollercoaster, the person will feel the strongest force at the bottom of the loop due to a combination of their weight and the normal force provided by the seat pushing against them. The force is greatest at the bottom because that is where the speed is highest and the acceleration is greatest. As they head towards the top of the loop, their speed decreases and the normal force decreases, resulting in a less intense feeling of force.
  • #1
UrbanXrisis
1,196
1
When a roller coster does a loop, what part would the person feel the most force?

I rode a rollercoster several times and the time that I felt the most force was heading up towards the top of the loop. But the force felt throughout the loop should be constant right?
 
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  • #2
Start by identifying the forces involved. As you travel around the loop, what forces act on you? And which of these forces is the one that we "feel"?
 
  • #3
I feel the centripetal force. It acts on me constantly as I go around the loop.
 
  • #4
UrbanXrisis said:
I feel the centripetal force. It acts on me constantly as I go around the loop.
Centripetal means "toward the center". Centripetal force means "the force acting towards the center"; it is not a kind of force, like the force of gravity or the tension in the string.

Saying that the centripetal force pulls you towards the center is just like saying that a vertical force holds you up. Tell me the real forces that act on you as you go around the loop. A "real" force has an actor. For example, one force acting on you is your weight: the earth pulling you downward. But you can't feel your weight. What other forces act on you?
 
  • #5
When I go around the loop, the seat is pushing against me. That's the real force. I feel as if I was being pushed into the seal. I feel this force strongest when I'm heading towards the top of the loop. This force is called the normal force?
 
  • #6
Exactly right! (almost) Yes, it is this "normal" force that you feel; that's the real force of the seat pushing against you. That force and your weight combine to give you a net force which includes any needed centripetal component.

The part that's not right is your statement that you feel this force strongest at the top of the loop. Actually, that's the place where you feel it least. The normal force is greatest at the bottom of a loop (where the speed is greatest and gravity works against you). Of course at the top of the loop things are pretty strange, since the normal force acts the opposite to everyday experience -- the seat is pushing you down rather than holding you up.
 
  • #7
Hi,

I think the reason why you feel the force greatest when heading towards the top of the loop is because that's when your speed is greatest. As you change direction you are accelerating (regardless of whether or not your speed is changing), and in this case, the force needed to accelerate you is the "normal" force provided by the chair. The acceleration is greatest when your speed is greatest, so naturally you feel less force as you head up towards the top (as your kinetic energy is being exchanged for gravitational potential energy).
 

FAQ: Feel the Most Force on a Roller Coaster Loop

How does the design of a roller coaster loop affect the forces on riders?

The design of a roller coaster loop plays a crucial role in determining the forces experienced by riders. A well-designed loop will have a smooth and gradual change in direction, which helps distribute the forces more evenly. On the other hand, a poorly designed loop with sharp turns and sudden changes in direction can cause uncomfortable and potentially dangerous forces on riders.

What is the maximum force that riders can experience on a roller coaster loop?

The maximum force that riders can experience on a roller coaster loop is typically around 4-6 G's. This means that riders will feel a force equal to 4-6 times their body weight. However, the exact maximum force can vary depending on the design and speed of the loop.

How does the speed of a roller coaster affect the forces on riders?

The speed of a roller coaster is directly related to the forces experienced by riders. The faster the coaster travels, the more force it will generate. This is because the force is a product of both speed and the radius of the loop. A higher speed means a greater radius is needed to maintain the loop, resulting in a higher force on riders.

What type of forces do riders feel on a roller coaster loop?

Riders on a roller coaster loop will experience both positive and negative forces. The positive forces, often referred to as G-forces, push riders towards their seats as they go through the loop. On the other hand, the negative forces, also known as airtime, create a sensation of weightlessness as riders are briefly lifted out of their seats.

How do roller coaster engineers ensure the safety of riders on loops?

Roller coaster engineers use computer simulations and physical testing to ensure the safety of riders on loops. They carefully calculate the forces and stresses that riders will experience and design the loop accordingly. They also conduct extensive testing to ensure that the loop can withstand the forces and will not cause any harm to riders.

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