Freebody Diagram for 100kg Person on 1kg Scale

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Discussion Overview

The discussion revolves around the construction of freebody diagrams for a scenario involving a 100 kg person standing on a 1 kg scale, which is on an accelerating platform. The context includes considerations of different observers and their perspectives on the forces acting in a non-inertial frame of reference.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • The initial question involves how to document the freebody diagram for the scale and the person, particularly in a low-gravity environment with upward acceleration.
  • One participant suggests that the freebody diagram for the scale should include an upward force of 1010 N and a downward force of 1000 N, resulting in a net force of 10 N.
  • There is uncertainty about whether the freebody diagram for the person should depict a single upward force of 1000 N.
  • Participants discuss the perspectives of three observers: the person on the scale, an observer on a non-accelerating platform, and an observer on the accelerating platform, questioning whether they would draw the same freebody diagrams.
  • One participant argues that observers 1 and 3, being in the same non-inertial frame, should draw the same diagram, while observer 2, in an inertial frame, would have a different perspective.
  • Another participant mentions that the accelerating observers must account for fictitious forces when applying Newton's laws.

Areas of Agreement / Disagreement

Participants express differing views on whether all three observers would create the same freebody diagram, with some asserting they should while others highlight the differences in their frames of reference. The discussion remains unresolved regarding the specific diagrams each observer would draw.

Contextual Notes

The discussion includes assumptions about the observers' knowledge and perspectives, as well as the implications of being in inertial versus non-inertial frames. There is no consensus on how these factors affect the freebody diagrams.

TVP45
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This is not a homework question. I was preparing a problem sketch when I was questioned about a freebody diagram, and realized I didn't have an absolutely dead-certain answer. I know how to work the problem; I need help in documentation, that is, what the freebody diagram should look like. To make the question simple, I'll use a gedanken instance.

Suppose a 100 kg person is standing on a 1 kg scale that is sitting on a small platform. The small platform is located in a part of the universe that has little gravity. The platform is accelerating upward at 10 m/s^2.

I draw the freebody diagram for the scale as having 2 forces acting on it: 1010 N upward and 1000 N downward. The net force is 10 N which, for m = 1 kg, gives a = 10 m/s^2). That seems OK.

Now, my conundrum. Should I draw the freebody diagram for the person as having a single upward force of 1000 N?

As I said, I know how to solve the problem; I'm uncertain how to document it.

As Helen Thomas likes to say, I'll have a follow-up question. Thanks.
 
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Sounds good to me.
 
When drawing a force on a free body diagram, one thing to ask yourself is "What object is applying this force on our object?" If you can't answer that question, then it might not be such a force on the free body diagram.
 
Thanks guys. Here's the follow-up. I'll identify where my little brain gets fried.

Let there be 3 observers of this event:
(1) the person on the scale
(2) a person standing on a nearby platform which is not accelerating
(3) a person standing on the accelerating platform near the scale
Observers 2 and 3 are generally aware of the mass of observer 1 since they are all similar size; however, observers 2 and 3 cannot see either the scale readout or whatever causes the acceleration.
THE QUESTIONS: Do all 3 observers make the same freebody diagram for the scale and observer no. 1 system? Should they?

MY ANSWER: Clearly observer 1 makes the freebody diagram as described before. I think observer 2 does also and nobody has contradicted me...yet. However, I think observer 3 should make the same freebody diagram and I have been challenged on that and I don't have a good answer. Is it, in fact, possible for observer 3 to come up with the same diagram based on his knowledge of the system?

So, there we are. No more followups. Thanks for your input.
Tom
 
I don't see any difference between observer 1 and observer 3: they both are in the same accelerating, non-inertial frame. Only observer 2 is in an inertial frame.

I would say that all three observers should draw the same free body diagram, since they all observe the same real forces. But the accelerating observers must use a modified form of Newton's 2nd law that includes so-called "fictitious" forces.
 
Thanks. I see my error.
Tom
 

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