M, M2 R friction The figure above illustrates a system comprising a rigid support structure having a cross-sectional shape of a right-triangle. The angle at the top is equal 90° and the angle on the lower-left is 0. The bottom side (hypotenuse) is horizontal and the two remaining sides serve as left-side and right-side inclined planes. A 1* block having mass Mi is positioned on the left-side inclined plane and a 2nd block having mass M2 is positioned on the right-side inclined plane. An ideal rope under tension T extends from the 1t block parallel to the left-side plane toward an ideal fixed-axis pulley located at the top of the structure. The rope extends over the pulley and then continues parallel to the right-side plane to the 2nd block. The right-side plane is friction-less but the left-side plane has a coefficient of static friction (S). All parts of this system are remaining at rest. a) Provide a list of the magnitudes of the forces acting on the 1* block, using symbolic names or mathematical expressions. Include subscripts when needed to distinguish these magnitudes from the magnitudes of the forces acting on the 2nd block. b) Draw a free-body diagram of the 1* block using the symbols/expressions from part (a).

Transcribed Image Text:

M, M2 R friction The figure above illustrates a system comprising a rigid support structure having a cross-sectional shape of a right-triangle. The angle at the top is equal 90° and the angle on the lower-left is 0. The bottom side (hypotenuse) is horizontal and the two remaining sides serve as left-side and right-side inclined planes. A 1ª block having mass Mi is positioned on the left-side inclined plane and a 2nd block having mass M2 is positioned on the right-side inclined plane. An ideal rope under tension T extends from the 1* block parallel to the left-side plane toward an ideal fixed-axis pulley located at the top of the structure. The rope extends over the pulley and then continues parallel to the right-side plane to the 2nd block. The right-side plane is friction-less but the left-side plane has a coefficient of static friction (S). All parts of this system are remaining at rest. a) Provide a list of the magnitudes of the forces acting on the 1t block, using symbolic names or mathematical expressions. Include subscripts when needed to distinguish these magnitudes from the magnitudes of the forces acting on the 2nd block. b) Draw a free-body diagram of the 1* block using the symbols/expressions from part (a).