An Atwood’s machine has m1 = 0.105 kg, m2 = 0.100 kg, hung from a 5.00...
An Atwood’s machine has m1 = 0.105 kg, m2 = 0.100 kg, hung from a 5.00 cm radius solid disk pulley which has mass M = 0.100 kg. (Assume the wheel is in the shape of a disk I = MR2/2.) If mass m1 falls 1m from rest, what is its speed in m/s?
Homework Answers
Concept - use work energy theorem to find the speed of the masses after they fall as shown below
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An Atwood’s machine has m1 = 0.105 kg, m2 = 0.100 kg, hung from
a 5.00...
An Atwood’s machine has m1 = 0.105 kg, m2 = 0.100 kg, hung from a 5.00...
An Atwood’s machine has m1 = 0.105 kg, m2 = 0.100 kg, hung from a 5.00 cm radius solid disk pulley which has mass M = 0.100 kg. (Assume the wheel is in the shape of a disk I = MR2/2.) What is the angular acceleration of the pulley in rad/s2?
An Atwood's machine has one block of m1 = 0.370 kg and the other is of...
An Atwood's machine has one block of m1 = 0.370 kg and the other is of m2 = 0.420 kg. The disk pulley, which is mounted in horizontal, frictionless bearings, has a radius of 5.0 cm. When released from rest, the heavier block is observed to fall Δy = 92.0 cm in 4.7 sec. For the following questions, return your answers rounded to 4 significant figures. 1.) The rate of acceleration of each block is m/s2. 2.) The tension in...
An Atwood's machine has one block of m1 = 0.150 kg and the other is of...
An Atwood's machine has one block of m1 = 0.150 kg and the other is of m2 = 0.210 kg. The disk pulley, which is mounted in horizontal, frictionless bearings, has a radius of 5.0 cm. When released from rest, the heavier block is observed to fall Δy = 80.0 cm in 4.0 sec. The moment of inertia for the pulley is: kg m2.
A m1 = 14.1 kg mass and a m2 = 10.6 kg mass are suspended by...
A m1 = 14.1 kg mass and a m2 = 10.6 kg mass are suspended by a pulley that has a radius of R = 11.4 cm and a mass of M = 3.18 kg, as seen in the figure below. The cord has a negligible mass and causes the pulley to rotate without slipping. The pulley rotates without friction. The masses start from rest d = 2.79 m apart. Treating the pulley as a uniform disk, determine the speeds...
A m1 = 14.6 kg mass and a m2 = 11.1 kg mass are suspended by...
A m1 = 14.6 kg mass and a
m2 = 11.1 kg mass are suspended by a pulley
that has a radius of R = 11.8 cm and a mass of M
= 2.52 kg, as seen in the figure below.
The cord has a negligible mass and causes the pulley to rotate
without slipping. The pulley rotates without friction. The masses
start from rest d = 3.13 m apart. Treating the pulley as a
uniform disk, determine the speeds...
Objects with masses m1 = 8.0 kg and m2 = 5.00 kg are connected by a...
Objects with masses m1 = 8.0 kg and m2 = 5.00 kg are connected by a light string that passes over a frictionless pulley as in the figure below. If, when the system starts from rest, m2 falls 1.00 m in 1.70 s, determine the coefficient of kinetic friction between m1 and the table.
A block of mass m1 = 1.95 kg and a block of mass m2 = 5.50...
A block of mass m1 = 1.95 kg and a block of mass m2 = 5.50 kg are connected by a massless string over a pulley in the shape of a solid disk having radius R = 0.250 m and mass M = 10.0 kg. The fixed, wedge-shaped ramp makes an angle of θ = 30.0° as shown in the figure. The coefficient of kinetic friction is 0.360 for both blocks. A wedge in the shape of a right trapezoid...
Block 1 has a mass of m1 = 450 g and Block 2 has a mass...
Block 1 has a mass of
m1 = 450 g and Block 2 has a mass of m2 = 500 g. The pulley, which
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2 accelerates downward at a rate of 0.425 m/s2 without the cord
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Moments of inertia for uniform objects about their centers...
A block of mass m1 1.80 kg and a block of mass m2 5.55 kg are...
A block of mass m1 1.80 kg and a block of mass m2 5.55 kg are connected by a massless string over a pulley in the shape of a solid disk having radius R = 0.250 m and mass M = 10.0 kg. These blocks are allowed to move on a fixed block-wedge of angle e 30.0°. The coefficient of kinetic friction is 0.360 for both blocks. Draw free-body diagrams of both blocks and of the pulley. M, R Mig...
A m1=14.0kg object and a m2 = 12.0 kg are suspended, joined by a cord that...
A m1=14.0kg object and a m2 = 12.0 kg are suspended, joined by a cord that passes over a pulley with a radius of 10.0 cm and a mass of 3.00 kg. The cord has a negligible mass and does not slip on the pulley. The pulley rotates on its axis without friction. The objects start from rest 3.00 apart. Treating the pulley as a uniform disk, determine the speeds of the two objects as they pass each other.
A m1 = 14.6 kg mass and a
m2 = 11.1 kg mass are suspended by a pulley
that has a radius of R = 11.8 cm and a mass of M
= 2.52 kg, as seen in the figure below.
The cord has a negligible mass and causes the pulley to rotate
without slipping. The pulley rotates without friction. The masses
start from rest d = 3.13 m apart. Treating the pulley as a
uniform disk, determine the speeds...
Block 1 has a mass of
m1 = 450 g and Block 2 has a mass of m2 = 500 g. The pulley, which
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its center, has a radius of 5.00 cm. When released from rest, Block
2 accelerates downward at a rate of 0.425 m/s2 without the cord
slipping on the pulley. What is the rotational inertia of the
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Moments of inertia for uniform objects about their centers...
A block of mass m1 1.80 kg and a block of mass m2 5.55 kg are connected by a massless string over a pulley in the shape of a solid disk having radius R = 0.250 m and mass M = 10.0 kg. These blocks are allowed to move on a fixed block-wedge of angle e 30.0°. The coefficient of kinetic friction is 0.360 for both blocks. Draw free-body diagrams of both blocks and of the pulley. M, R Mig...
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