How much does a body weight in free fall?

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Homework Help Overview

The problem context involves a scenario where a body with a mass of 50 kg is weighed on a scale inside an elevator that is in free fall. The original poster questions the weight of the body in this situation, initially suggesting it would remain the same as on the surface due to the constant effect of gravity.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the implications of the elevator's free fall on the normal force and the weight measurement, questioning how the acceleration of the elevator affects the forces acting on the body and the scale.

Discussion Status

The discussion is progressing with participants clarifying concepts related to free fall and normal force. Some have confirmed the understanding that in free fall, the normal force is effectively zero, indicating a shift in how weight is perceived in this context.

Contextual Notes

Participants are exploring the assumptions related to gravitational force and normal force in a non-standard environment, such as an elevator in free fall. The original poster's concern about their English proficiency is noted but does not impact the technical discussion.

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Homework Statement


Well, that's all, my mid-term exam came a question that asked me: if a body with mass of 50 kg was weighed on a scale that is inside an elevator in free fall, how much will it weight?

I supposed that the same it would weight on the surface, since gravity never stops acting on us, as long as we're on the earth, I.E. 490 N

Was that the correct answer?


P.D. Sorry for my TERRIBLE English, but I do what I Can to make my self as clear as possible :D
 
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If the elevator is in free-fall, then that means the scale and the body are experiencing a net acceleration of equal magnitude. What might this tell you about the normal force of the scale acting on the body (which would be the same as the force of the body's acceleration acting on the scale)?

To illustrate, what do you perceive when you are riding in an elevator and it begins to accelerate downward?
 
I think I get what you say.

So, since the elevator is in free fall, so are the objects, accelerating at the same speed, Which means they're bot moving downwards, so there's no Normal force acting on the scale.

Is that right?
 
That's correct. If the contents of the elevator are all accelerating at a rate of 9.8N/kg downward, there is no net force due to gravity between the objects. For some pretty interesting applications of this property, take a look at Wikipedia's page on "zero-gravity" plane rides:

http://en.wikipedia.org/wiki/Vomit_Comet
 

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