A block with mass mb = 1.9 kg is connected by a rope across a 50-cm-diameter,...
A block with mass mb = 1.9 kg is connected by a rope
across a 50-cm-diameter, 2.0 kg pulley, as shown in (Figure 1).
There is no friction in the axle, but there is friction between the
rope and the pulley; the rope doesn't slip. The weight is
accelerating upward at 1.2 m/s2. What is the tension in the rope on
the right side of the pulley?
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A block with mass mb = 1.9 kg is connected by a rope
across a 50-cm-diameter,...
The pulley is 14 cm in diameter and has a mass of 2.9 kg.
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 14 cm in diameter and has a mass of 2.9 kg. As the pulley turns, friction at the axle exerts a torque of magnitude 0.55 N.m. Part A If the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor?
A 1.5kg block is connected by a rope across a 50cm -diameter, 2.0kg , frictionless pulley,...
A 1.5kg block is connected by a rope across a 50cm -diameter,
2.0kg , frictionless pulley, as shown in the figure. A constant 10N
tension is applied to the other end of the rope. (Figure 1)
Starting from rest, how long does it take the block to move 30cm
? Express your answer using two significant figures.
A 1.5kg block is connected by a rope across a 50cm -diameter, 2.0kg , frictionless pulley, as shown in the figure. A constant...
A 50.0-kg block and a 100.0-kg weight are connected with a rope, passing over a pulley...
A 50.0-kg block and a 100.0-kg weight are connected with a rope, passing over a pulley as shown in the picture. The 50.0-kg block is on a surface with a coefficient of friction of mu_k = 0.50. The pulley is a solid disc whose radius is 0.20 m and whose rotational inertia is 2.0 kg m^2. The rope does not stretch or slip. When released from rest, what is the acceleration of the system?
The two blocks in the figure below are connected by a massless rope that passes over...
The two blocks in the figure below are connected by a massless
rope that passes over a pulley. The pulley has a diameter of 10 cm.
Block A has a mass of 4.0 kg and block B has a mass of 2.0 kg.
Block A is accelerating downward at 2.5 m/s2. What is
the moment of inertia, I, of the pulley?
How do you solve this problem using free body diagrams and
Newton second law? Please show all the steps....
A block of mass 2.20 kg is accelerated across a rough surface by a rope passing...
A block of mass 2.20 kg is accelerated across a rough surface by
a rope passing over a pulley, as shown below. The tension in the
rope is 10.0 N, and the pulley is 10.0 cm above the top of the
block. The coefficient of kinetic friction is 0.400. a. Determine
the acceleration of the block when x = 0.400 m. b. Find the value
of x at which the acceleration becomes zero.
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 12 cm i...
The two blocks in the figure(Figure 1) are connected by a
massless rope that passes over a pulley. The pulley is 12 cm in
diameter and has a mass of 3.0 kg . As the pulley turns, friction
at the axle exerts a torque of magnitude 0.52 N⋅m .Part AIf the blocks are released from rest, how long does it take the
4.0 kg block to reach the floor?
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over...
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 15 cm in diameter and has a mass of 3.0 kg . As the pulley turns, friction at the axle exerts a torque of magnitude 0.49 N m 4.0 kg 1.0 m 2.0 kg If the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor? Express your answer to two...
Two blocks are connected by a massless rope that passes over a pulley. The pulley is...
Two blocks are connected by a massless rope that passes over a pulley. The pulley is 12 cm in diameter and has a mass of 2.0 kg. As the pulley turns, friction at the axle exerts a torque of magnitude 0.50 Nm. If the blocks are released from rest, how long does it take the 4.0-kg block to reach the floor? 4.0 kg 1.0 m Answer: 2.0 kg t = 1.1 s
Rope connected two objects in the inclined plane, A block of mass m1 = 22.9 kg...
Rope connected two objects in the inclined plane, A block of mass m1 = 22.9 kg is at rest on a plane inclined at Theta = 35.0 degree above the horizontal. The block is connected via a rope and mass less pulley system to another block of mass m2 = 26.1 kg. as shown in the figure. The coefficients of static and kinetic friction between block 1 and the inclined plane Is MU_s is unknown. If the blocks are released...
A massless rope is tied to a 14kg block is draped over a pulley. The 51kg...
A
massless rope is tied to a 14kg block is draped over a pulley. The
51kg pulley has a radius of 47 cm and the pulley rotates so that
the rope does not slip on the pulley. The right side of the rope is
pulled down with a tension of 303N. What is the acceleration of the
block? You may treat the pulley as a disk. Ignore any frictional
torque in the axle.
A 1.5kg block is connected by a rope across a 50cm -diameter,
2.0kg , frictionless pulley, as shown in the figure. A constant 10N
tension is applied to the other end of the rope. (Figure 1)
Starting from rest, how long does it take the block to move 30cm
? Express your answer using two significant figures.
A 1.5kg block is connected by a rope across a 50cm -diameter, 2.0kg , frictionless pulley, as shown in the figure. A constant...
A 50.0-kg block and a 100.0-kg weight are connected with a rope, passing over a pulley as shown in the picture. The 50.0-kg block is on a surface with a coefficient of friction of mu_k = 0.50. The pulley is a solid disc whose radius is 0.20 m and whose rotational inertia is 2.0 kg m^2. The rope does not stretch or slip. When released from rest, what is the acceleration of the system?
The two blocks in the figure below are connected by a massless
rope that passes over a pulley. The pulley has a diameter of 10 cm.
Block A has a mass of 4.0 kg and block B has a mass of 2.0 kg.
Block A is accelerating downward at 2.5 m/s2. What is
the moment of inertia, I, of the pulley?
How do you solve this problem using free body diagrams and
Newton second law? Please show all the steps....
A block of mass 2.20 kg is accelerated across a rough surface by
a rope passing over a pulley, as shown below. The tension in the
rope is 10.0 N, and the pulley is 10.0 cm above the top of the
block. The coefficient of kinetic friction is 0.400. a. Determine
the acceleration of the block when x = 0.400 m. b. Find the value
of x at which the acceleration becomes zero.
The two blocks in the figure(Figure 1) are connected by a massless rope that passes over a pulley. The pulley is 15 cm in diameter and has a mass of 3.0 kg . As the pulley turns, friction at the axle exerts a torque of magnitude 0.49 N m 4.0 kg 1.0 m 2.0 kg If the blocks are released from rest, how long does it take the 4.0 kg block to reach the floor? Express your answer to two...
Two blocks are connected by a massless rope that passes over a pulley. The pulley is 12 cm in diameter and has a mass of 2.0 kg. As the pulley turns, friction at the axle exerts a torque of magnitude 0.50 Nm. If the blocks are released from rest, how long does it take the 4.0-kg block to reach the floor? 4.0 kg 1.0 m Answer: 2.0 kg t = 1.1 s
Rope connected two objects in the inclined plane, A block of mass m1 = 22.9 kg is at rest on a plane inclined at Theta = 35.0 degree above the horizontal. The block is connected via a rope and mass less pulley system to another block of mass m2 = 26.1 kg. as shown in the figure. The coefficients of static and kinetic friction between block 1 and the inclined plane Is MU_s is unknown. If the blocks are released...
A
massless rope is tied to a 14kg block is draped over a pulley. The
51kg pulley has a radius of 47 cm and the pulley rotates so that
the rope does not slip on the pulley. The right side of the rope is
pulled down with a tension of 303N. What is the acceleration of the
block? You may treat the pulley as a disk. Ignore any frictional
torque in the axle.
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