A box of mass  on a rough inclined plane of angle  is connected with a string of negligible mass over a pulley in shape of a disk with a moment of inertia  to a bucket of mass . The coefficient of kinetic friction between the block and the surface of the incline is . The mass  is sliding downward as shown in the figure with a magnitude of the acceleration of .

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A box of mass  on a rough inclined plane of angle  is connected with a string of negligible mass over a pulley in shape of a disk with a moment of inertia  to a bucket of mass . The coefficient of kinetic friction between the block and the surface of the incline is . The mass  is sliding downward as shown in the figure with a magnitude of the acceleration of .  

A box of mass m, = 9.7 kg on a rough inclined plane of angle a = 34° is connected with a string of negligible mass over a pulley in shape of a disk with a moment of
1
Mpulley
inertia /=
R to a bucket of mass m, = 1 kg. The coefficient of kinetic friction between the block and the surface of the incline is P= 0.16. The mass m, is
2
sliding downward as shown in the figure with a magnitude of the acceleration of a = 0.2
s2
m,
m2
1. Calculate the tension in the string 7, =
N
2. Calculate the tension in the string 7, =
3. Calculate the mass of the pulley mpulley=
kg.
Transcribed Image Text:A box of mass m, = 9.7 kg on a rough inclined plane of angle a = 34° is connected with a string of negligible mass over a pulley in shape of a disk with a moment of 1 Mpulley inertia /= R to a bucket of mass m, = 1 kg. The coefficient of kinetic friction between the block and the surface of the incline is P= 0.16. The mass m, is 2 sliding downward as shown in the figure with a magnitude of the acceleration of a = 0.2 s2 m, m2 1. Calculate the tension in the string 7, = N 2. Calculate the tension in the string 7, = 3. Calculate the mass of the pulley mpulley= kg.
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