Force on m by 2m such that m is stationary on M

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The discussion revolves around a physics problem involving two masses, m1 and M, connected by a massless string, with a focus on static friction. Participants are tasked with determining if a coefficient of static friction μs exists that allows m1 to remain stationary on M. The problem also explores whether the scenario changes when the masses are interchanged. Users express confusion over missing information necessary to solve the equations provided. Clarification on the problem setup and additional details are requested to proceed with the calculations.
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Homework Statement


A mass m1 is placed upon a second mass M on a horizontal surface. A massless string connects mass m1 to mass m2. If the coefficient of static friction between M and the horizontal surface is μs, answer the following:
a) There is a coefficient of static friction μs between M and m1 such that m1 will remain stationary on M. Prove or disprove.
b) If the masses are now interchanged such that m1 is switched with m2, then the answer to part (a) remains the same. Prove or disprove.

Homework Equations


m1+M=m2
ƩFx=F-T
ƩFy=N-mg


The Attempt at a Solution


N=mg
 
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Please supply the rest of the information. There's obviously some missing.
 
Thats all that my teacher gave me, you can see why I am struggling. Thanks anyway :)
 

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