2. A block of mass m, = 20 kg which lies on an incline frictional surface is connected to another block of mass m, = 100 kg by two massless ropes and two massless, frictionless pulleys as shown in Fig. 1. The inclined surface makes 30° angle with the horizontal line. The coefficient of kinetic friction between the block m, and the inclined surface is 0.12. m, =30° m2 Fig. 1 (a) Draw the free body diagram of block m, block m, and the hanging pulley. (b) Find the accelerations of block m, and block m.
2. A block of mass m, = 20 kg which lies on an incline frictional surface is connected to another block of mass m, = 100 kg by two massless ropes and two massless, frictionless pulleys as shown in Fig. 1. The inclined surface makes 30° angle with the horizontal line. The coefficient of kinetic friction between the block m, and the inclined surface is 0.12. m, =30° m2 Fig. 1 (a) Draw the free body diagram of block m, block m, and the hanging pulley. (b) Find the accelerations of block m, and block m.
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Transcribed Image Text:2. A block of mass m, = 20 kg which lies on an incline frictional surface is connected to
another block of mass m, = 100 kg by two massless ropes and two massless, frictionless
pulleys as shown in Fig. 1. The inclined surface makes 30° angle with the horizontal line. The
coefficient of kinetic friction between the block m, and the inclined surface is 0.12.
m,
=30°
m,
Fig. 1
(a)
Draw the free body diagram of block m, block m; and the hanging pulley.
(b)
Find the accelerations of block m, and block mɔ.
(c)
Calculate the tensions in the two massless ropes.
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