What Range of Values of m2 Will the Blocks Remain at Rest?

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SUMMARY

The discussion focuses on determining the range of values for mass m2 that will keep two connected blocks at rest when released from a stationary position. The scenario involves mass m1 on an inclined plane at angle θ, connected to mass m2 via a frictionless pulley. The coefficients of static friction (μ) and kinetic friction (uk) are critical in applying Newton's First Law to calculate the maximum mass m2 that allows the system to remain stationary.

PREREQUISITES
  • Understanding of Newton's First Law of Motion
  • Knowledge of static and kinetic friction coefficients
  • Familiarity with inclined plane physics
  • Basic algebra for solving equations
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  • Study the application of Newton's First Law in static equilibrium scenarios
  • Learn about calculating forces on inclined planes
  • Explore the effects of friction on motion and rest
  • Investigate the relationship between mass and acceleration in pulley systems
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Students of physics, educators teaching mechanics, and anyone interested in understanding forces in static equilibrium systems.

Pearce_09
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Ok the question is
Mass m1 is on an inclined surface at angle @ and is connected to a second hanging block with mass m2 by a cord passing over a small, frictionless pulley. the oeficient of static friction is u and the coefficient of kinetic friction is uk.
I first had to find m2 when m1 is moving up the ramp
and then i had to fine m2 when m1 is moving down the ramp. I can do those
im just haveing problems with

for what rage of values of m2 will the blocks remain at rest if they are released from rest?
 
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Work it out with Newton 1st Law to find the max mass to stay at rest.
 

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