Is This a Conservation of Angular Momentum Problem?

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Homework Help Overview

The problem involves two individuals on a light board balanced on a fulcrum, with one person jumping straight up. The discussion centers around whether this scenario relates to the conservation of angular momentum and how it affects the motion of the second person.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the application of conservation principles, questioning if the scenario qualifies as a conservation of momentum problem. There is also a consideration of angular momentum and its implications for the system's dynamics.

Discussion Status

The discussion is active, with participants exploring the conservation of angular momentum and its relevance to the problem. Some guidance has been offered regarding the conservation of angular momentum and its implications for the velocities of the individuals involved.

Contextual Notes

There is a focus on the assumptions regarding the board's mass and whether it rotates during the jump. The initial conditions of the system are noted, including the angular momentum being zero before the jump.

Kchu
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i don't know how to solve this problem is it a conservation of momentum problem?

because can't you just use

mv=mv?
 

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What exactly is the problem?
 
oops! =]

**Two people are standing on a very light board that is balanced on a fulcrum. The lighter person suddenly jumps straight up at 1.5m/s
Just after he jumps, how fast will the heavier person be moving?**
 
Consider conservation of angular momentum.
 
mrv=mrv but it doesn't rotate?
 
Assuming you mean that to be [itex]m_1 r_1 v_1 = m_2 r_2 v_2[/itex], then that is correct. What makes you think it doesn't rotate? (If the board doesn't rotate, the second man would have speed = 0.)

A bit more explanation may help.

The total angular momentum of the system about the fulcrum is conserved. It starts out at zero before the man jumps and remains at zero after the man jumps. The system consists of both men and the board. (Since the board is light, we can ignore its mass and angular momentum.)

What is the angular momentum of the man after he jumps? Then what must be the angular momentum of the other man? (Don't forget that angular momentum has an orientation; think clockwise versus counterclockwise.) Use that to figure out the second man's speed.
 

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