Finding Friction Coefficient on Ice | Puck Velocity and Forces Question

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Homework Help Overview

The discussion revolves around determining the friction coefficient between a puck and ice after the puck is hit with an initial velocity of 5 m/s and subsequently comes to a stop. Participants explore the forces acting on the puck during its motion.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • The original poster attempts to analyze the forces acting on the puck, questioning whether any forward force exists after the puck is hit. They express uncertainty about assuming the force exerted by the puck is zero and seek clarification on this point.

Discussion Status

Some participants have confirmed the original poster's assumption regarding the absence of a forward force after the puck is struck, indicating a productive exchange of ideas. However, the discussion does not reach a definitive conclusion on the overall problem.

Contextual Notes

Participants note that the problem involves a scenario where the puck is not being acted upon by external forces such as pulling or pushing after its initial hit, which influences their reasoning about the forces involved.

dnt
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forgot some details to the question but that's ok because i have a general one: a puck is hit with an initial velocity of 5 m/s and comes to a stop some time later. the question is find the friction coefficient of the ice and puck.

anyways, when making a forces diagram, i know the friction points back but does anything point forward? is there a force pushing it (after its been hit) and if so, how do you find it?

what i did to solve it was say the net force equals Fpuck - Ffriction = ma

they gave the mass and i solved for acceleration using regular kinematics but i had to assume Fpuck was 0. is that true? the answer came out correct but i don't know why the Fpuck=0.
 
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and boy am i glad i didnt forget the p...
 
dnt said:
forgot some details to the question but that's ok because i have a general one: a puck is hit with an initial velocity of 5 m/s and comes to a stop some time later. the question is find the friction coefficient of the ice and puck.

So far so good.

anyways, when making a forces diagram, i know the friction points back but does anything point forward? is there a force pushing it (after its been hit) and if so, how do you find it?

If it isn't being pulled, pushed, attracted by a magnet, etc then there is no force other than friction acting in the direction of motion.

they gave the mass and i solved for acceleration using regular kinematics but i had to assume Fpuck was 0. is that true? the answer came out correct but i don't know why the Fpuck=0.

It is correct, for the reason given above.
 
excellent. thanks.
 

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