Conquering the Physics GRE Section 1.1 Prob. 3

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Discussion Overview

The discussion revolves around a physics homework problem involving two blocks with different masses and coefficients of friction. Participants are trying to determine the minimum force required to keep one block stationary relative to another while addressing the forces acting on each block.

Discussion Character

  • Homework-related
  • Technical explanation

Main Points Raised

  • The original poster presents their attempt at a solution, which involves a calculation for the minimum force based on their force diagrams.
  • Some participants question the interpretation of the problem, suggesting a possible misunderstanding regarding whether the problem asks for a minimum or maximum force.
  • Participants discuss the forces acting on both blocks, including gravitational forces, normal forces, applied forces, and frictional forces.
  • Clarifications are made regarding the correct representation of forces in the diagrams, with emphasis on identifying all forces acting on each block.

Areas of Agreement / Disagreement

There is no consensus on the correctness of the original solution presented by the poster. Participants are collaboratively working through the problem, but disagreements about the interpretation of the problem and the forces involved remain unresolved.

Contextual Notes

Participants have noted the need for clarity in the force diagrams and the definitions of the forces involved, but specific assumptions or missing details have not been fully addressed.

coca-cola
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Homework Statement


Two blocks of masses M and m are oriented as shown in the diagram. The block M moves on a surface with coefficient of kinetic friction μ_1, and the coefficient of static friction between two blocks is μ_2. What is the minimum force F which must be applied to M such that m remains stationary relative to M?

The diagram essentially looks like Utah rotated 90 degrees clockwise.


Homework Equations


∑F=ma
F_f = F_N * μ

The Attempt at a Solution



I drew force diagrams for both objects and summed up the forces, as is standard with these problems. My answer was:

g * (μ_1 * M + (m / μ_2))

The book tells you the correct answer and this is not it. I have triple checked my diagrams but I can't find my error.

Any help is greatly appreciated!
 
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coca-cola said:
The diagram essentially looks like Utah rotated 90 degrees clockwise.
:biggrin:

coca-cola said:
What is the minimum force F ...

Did you mean to say "What is the maximum force ...?" (Or am I misunderstanding the problem?)
Edit:
TSny said:
Does the attached diagram correctly show the configuration?

Ahh, that diagram makes more sense as to why they asked for the minimum (I was imagining utah rotated 90 degrees in the other direction)
 
Last edited:
Hello, coca-cola.

To help you find your error, we'll need to see the details of your work. You might start by describing the force diagrams.

How many forces do you have acting on M? Can you describe the nature of each force and the direction of each force?

Same questions for the forces acting on m.

Does the attached diagram correctly show the configuration?
 

Attachments

  • two blocks.png
    two blocks.png
    497 bytes · Views: 907
The attached diagram is a correct representation and it states "...minimum force F..." in the problem. I have three forces on the smaller block:

Force to the right exerted by the bigger block
Gravity downwards
The frictional force that keeps the block up upwards

On the larger block, 5 forces:

Gravity downwards
Normal force upwards
Applied force to the right
Force from the smaller block to the left
Frictional force to the left
 
coca-cola said:
The attached diagram is a correct representation and it states "...minimum force F..." in the problem. I have three forces on the smaller block:

Force to the right exerted by the bigger block
Gravity downwards
The frictional force that keeps the block up upwards

Good

On the larger block, 5 forces:

Gravity downwards
Normal force upwards
Applied force to the right
Force from the smaller block to the left
Frictional force to the left

I think there is one more force on the larger block. Can you identify it?
 
The only one that I can think of is a frictional force exerted downward on the larger block. Is this correct?
 
Yes. Good.
 
Haha yes! Thank you very much!
 
You're welcome. That's a nice exercise.
 

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