Solve the Elevator Jump Problem: 9.8m/s

In summary, the speed or velocity of the elevator has no impact on a person's jump capacity. Whether the elevator is moving at a constant velocity or standing still, the person's jump height will remain the same. This is because the acceleration of the elevator, and not its velocity, affects a person's jump capacity. Additionally, it is not possible for a person inside the elevator to determine if it is moving at a constant velocity or standing still without external cues or experiments.
  • #1
MARS
1
0
Okay, so I know that if you are in a free falling elevator and you jump up you will hit the ceiling, something you could not do in an elevator that was still. But if the elevator was falling at a constant velocity, say 50 miles per hour, when you jump up will you also hit the ceiling because you are falling faster than 9.8m/s or will you jump the same height you did in a still elevator or an elevator moving at a constant velocity less than 9.8m/s? Keep in mind that the elevator is going 50 miles per hour at a constant velocity not accelerating like in a free fall.
 
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  • #2
Do you mean 9.8m/s² ?
The velocity has absolutely no effect on your jump capacity.
It is the acceleration of the elevator that changes you jump capacity.
 
  • #3
MARS said:
Okay, so I know that if you are in a free falling elevator and you jump up you will hit the ceiling, something you could not do in an elevator that was still. But if the elevator was falling at a constant velocity, say 50 miles per hour, when you jump up will you also hit the ceiling because you are falling faster than 9.8m/s or will you jump the same height you did in a still elevator or an elevator moving at a constant velocity less than 9.8m/s? Keep in mind that the elevator is going 50 miles per hour at a constant velocity not accelerating like in a free fall.

I Agree with maajdl.

You would weigh the same, and if you could not jump high enough to reach the ceiling of the elevator when it was standing still, then you would not be able jump high enough to reach the ceiling when it is moving. The two situations are exactly equivalent. Even the tidal forces would be the same.

In fact, if you did not know whether or not you and the elevator were moving inertially or standing still (i.e. no noise, no rocking, etc.), then from inside the elevator there would be no experiment that you could perform which would allow you to determine that.
 
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  • #4
What makes you think the speed of 9.8 m/s is relevant to that question?
 
  • #5
It is hard to accept that you would be totally unaware if the lift were traveling downward at uniform velocity - it is not intuitive. This, I think, is because we never (very seldom) actually experience the situation in a form that we recognise. But you can prove it if you take a spring balance and a 1kg mass with you, next time you go in a lift. The mass will register 1kg all the time the lift is moving at steady speed, the 'weight' will change at the start and finish, whilst the lift is accelerating (+ or -). Take a nice long lift journey - like in the Shard or Empire State, where end effects are only a small part of the trip.
 

1. What is the "Elevator Jump Problem"?

The "Elevator Jump Problem" is a thought experiment that involves a person jumping inside an elevator as it is moving. The goal is to determine how far the person will fall and how high they will jump based on the speed of the elevator.

2. Why is the speed of 9.8m/s significant in this problem?

The speed of 9.8m/s represents the acceleration due to gravity on Earth. This means that any object, including a person, will accelerate towards the ground at a rate of 9.8m/s^2 if dropped from a stationary position.

3. How does the speed of the elevator affect the outcome of the problem?

The speed of the elevator will determine the initial velocity of the person jumping. This will impact how high they jump and how far they fall before reaching the ground.

4. Is it possible for the person to jump higher than the initial height of the elevator?

Yes, it is possible for the person to jump higher than the initial height of the elevator. This is because while the elevator is moving, the person will still be accelerating downwards due to gravity. This allows them to reach a higher height before falling back down.

5. What other factors may affect the outcome of this problem?

Other factors that may affect the outcome of this problem include the weight and height of the person jumping, air resistance, and the strength of the elevator's brakes. These factors can change the acceleration and velocity of the person, ultimately impacting how high they jump and how far they fall.

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