Identifying the Forces Acting on a Box: A, B, C, D, E?

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Homework Help Overview

The discussion revolves around identifying the forces acting on a box being pushed across a level floor without friction. Participants are tasked with determining which forces from a provided list apply to the box, considering Newton's third law and the concept of free body diagrams.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore which forces should be included in a free body diagram, specifically questioning the relevance of forces exerted by the box on other objects versus those acting on the box itself.

Discussion Status

The conversation has led to a clearer understanding of the criteria for including forces in the free body diagram, with some participants affirming the necessity to focus solely on forces acting on the box.

Contextual Notes

Participants are navigating the implications of Newton's third law in the context of free body diagrams, leading to discussions about which forces are relevant for the box in this specific scenario.

ysk1
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Question:

Bob is applying a horizontal force to a box across a level floor. The box can slide across the floor without friction.

Identify the forces acting on the object of interest. From the list below, select the forces that act on the box.

A. gravitational force acting on the box (box's weight)
B. force of the floor on the box (normal force)
C. force of the box on the floor
D. force of Bob on the box
E. force of the box pushing on Bob






I know that A, B, and C are true, but I'm confused of D and E.
In free body diagram, do you also include Newton's 3rd law, which is D and E?

Thank you.
 
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ysk1 said:
I know that A, B, and C are true, but I'm confused of D and E.
In free body diagram, do you also include Newton's 3rd law, which is D and E?
Careful! The key to a proper free body diagram for the box is to show all forces acting on the box and only those forces. The fact that the box, via Newton's 3rd law, also exerts forces on other objects is irrelevant. (They may be important for another part of the problem, of course.)

Better rethink your answers.
 
Do I include only the forces that act ON the object, but not the forces that the object exerts on others?
Considering that, I think the correct answers are A, B, and D?
Am I correct?
 
ysk1 said:
Do I include only the forces that act ON the object, but not the forces that the object exerts on others?
Exactly.

Considering that, I think the correct answers are A, B, and D?
Am I correct?
Yes you are.
 
Now I have a clear grasp of drawing the free body diagram.
Thank you so much for your help. :smile:
 

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