Force and Motion Homework: Solving for Mass Comparison on Slopes

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Two blocks on frictionless slopes are connected by a pulley, with the left slope at a 60-degree angle and the right at 20 degrees. The book states that the mass on the right should be 2.5 times that of the left. The equations of motion for both masses involve tension and gravitational forces, with attempts to solve for the tension in each case. The user struggles to equate the tensions derived from both slopes, indicating a need to focus on the force components parallel to the inclines for clarity. Understanding these components is crucial for accurately determining the mass relationship.
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Homework Statement


Two blocks rest on slopes and are coonected by a pulley. The left hand slope makes a 60 degree ngla with the horizontal. The right hand slope makes a 20 degree angle. How should the masses compare if the objects do not slide along the frictionless slopes? Book answer is that right hand mass is 2.5 times the left hand mass.


Homework Equations


F = ma


The Attempt at a Solution



For the left-hand mass T + Flg + Nleft = 0

For the right-hand mass T + Frg + N right = 0

Coordinates y is vertical and x is horizontal

Solving for the y components in the left hand mass:

Mlg sin 30 degrees + T sin 60 degrees - Mlg = 0

T = 0.5 Mlg/0.866

Solving for the y components in the right-hand mass:

T sin20 degrees - Mrg + Mrg sin 70 degrees = 0

T = 0.06 Mrg/ 0.342

Equating the two Ts, Mr = 0.5 Ml (0.342)/ (0.866)(0.06) = 3.3
 
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I'm having a hard time following what you did. Hint: Consider force components parallel to the inclines.
 

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