An Atwood machine is made from a mass of 0.5 kg and a heavier unknown mass....
An Atwood machine is made from a mass of 0.5 kg and a heavier unknown mass. When both masses are located at a height of 0.45 m above the ground, they have a speed of 1.75 m/s. What is the unknown mass?
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An Atwood machine is made from a mass of 0.5 kg and a heavier
unknown mass....
Thanks for your help. I need to solve it using the conservation of the energy An...
Thanks for your help. I need to solve it using the conservation of the energy An Atwood machine is made from a mass of 0.5 kg and a heavier unknown mass. When both masses are located at a height of 0.45 m above the ground, they have a speed of 1.75 m/s. What is the unknown mass?
only a,b, and c 3. In the Atwood machine the heavier body on left has mass...
only a,b, and c
3. In the Atwood machine the heavier body on left has mass M = 1 kg, while the lighter body on right has mass m = 0.9 kg. The system is initially at rest, there is no friction and the mass of the pulley is negligible. (a) write down the algebraic expression for the full energy E at the initial instant when the larger mass is at elevation h and the smaller mass is at elevation...
please do part B! Part 2: Problems Problem 1:12 points An Atwood machine is made of...
please do part B!
Part 2: Problems Problem 1:12 points An Atwood machine is made of two masses m! = 0 15 kg and m2 = 0 1 kg attached to lightweight (i.e. massless) string placed over a pulley. As always the string does not stretch. The pulley is made of a disk of mass M-0.5 kg and radius R = 0.1 m. The two masses are initially at rest at the same height yinitial-0.75 m above the ground. Use...
An Atwood machine consists of a mass of 3.5 kg connected by a light string to...
An Atwood machine consists of a mass of 3.5 kg connected by a light string to a mass of 6.0 kg over a frictionless pulley with a moment of inertia of 0.0352 kg ∙ m2 and a radius of 12.5 cm. If the system is released from rest, what is the speed of the masses after they have moved through 1.25 m if the string does not slip on the pulley? Please note: the professor has told us that the...
An Atwood machine is constructed using a hoop with spokes of negligible mass. The 2.3 kg...
An Atwood machine is constructed using a hoop with spokes of negligible mass. The 2.3 kg mass of the pulley is concentrated on its rim, which is a distance 23.5 cm from the axle. The mass on the right is 1 kg and on the left is 1.65 kg. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the linear acceleration a of the hanging masses?
Suppose you have a system of two masses strung over a pulley. Mass 1 (6.7 kg)...
Suppose you have a system of two masses strung over a pulley. Mass 1 (6.7 kg) hangs on the right side of the pulley suspended over the ground at height 0.8 m. Mass 2 (2.6 kg) hangs over the left side of the pulley and rests on the ground. The pulley is a uniform disk of mass m and radius 13.9 cm. When the system is released, Mass 1 moves down and Mass 2 moves up, such that Mass 1...
Please write legibly and show a symbolic process and show the calculation. We have analyzed the...
Please write legibly and show a symbolic process and show the
calculation.
We have analyzed the Atwood machine (two masses connected by a string, hanging over a pulley) in a couple of different ways, but always with a massless pulley. Now let's consider an Atwood machine where the pulley does have some mass. Masses one and two, the hanging masses, have mass 1.2 kg and 2.6 kg. They are initially suspended at rest a height 0.8 m above the ground....
1. An Atwood Machine consists of weights attached to the two ends of a pulley. For...
1. An Atwood Machine consists of weights attached to the two ends of a pulley. For this machine, the pulley is a thin disk which has a radius of 2m, mass 1 is 8 kg and mass 2 is 5 kg, and both masses start at 5 meters above the ground. When we release the system from rest: How fast will mass 1 be moving right before it hits the ground? b. How fast will mass 2 be moving right...
An Atwood machine, similar to an elevator with a counter-weight, is initially at rest. On one...
An Atwood machine, similar to an elevator with a counter-weight, is initially at rest. On one side is a mass of 2.0 kg and on the other side is a masss of 1.00 kg. A massless cord that passes over a pulley connects the two weights. The pulley has a mass of 4.00 kg, a radius of 0.2m, no friction, and can be treated as a uniform disk. When the heavier mass has fallen 0.50m, what is its linear speed...
In the modified atwood machine, the weight of mass A is 288 grams. The weight of...
In the modified atwood machine, the weight of mass A is 288
grams. The weight of mass B is 124 grams, and it is hanging 58 cm
above the ground. When the system is released from rest, it takes
1.75 seconds for mass B to hit the floor. Determine the coeffecient
of kinetic friciton between mass A and the table, and determine the
energy dissipated by the system.
only a,b, and c
3. In the Atwood machine the heavier body on left has mass M = 1 kg, while the lighter body on right has mass m = 0.9 kg. The system is initially at rest, there is no friction and the mass of the pulley is negligible. (a) write down the algebraic expression for the full energy E at the initial instant when the larger mass is at elevation h and the smaller mass is at elevation...
please do part B!
Part 2: Problems Problem 1:12 points An Atwood machine is made of two masses m! = 0 15 kg and m2 = 0 1 kg attached to lightweight (i.e. massless) string placed over a pulley. As always the string does not stretch. The pulley is made of a disk of mass M-0.5 kg and radius R = 0.1 m. The two masses are initially at rest at the same height yinitial-0.75 m above the ground. Use...
An Atwood machine is constructed using a hoop with spokes of negligible mass. The 2.3 kg mass of the pulley is concentrated on its rim, which is a distance 23.5 cm from the axle. The mass on the right is 1 kg and on the left is 1.65 kg. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the linear acceleration a of the hanging masses?
Please write legibly and show a symbolic process and show the
calculation.
We have analyzed the Atwood machine (two masses connected by a string, hanging over a pulley) in a couple of different ways, but always with a massless pulley. Now let's consider an Atwood machine where the pulley does have some mass. Masses one and two, the hanging masses, have mass 1.2 kg and 2.6 kg. They are initially suspended at rest a height 0.8 m above the ground....
1. An Atwood Machine consists of weights attached to the two ends of a pulley. For this machine, the pulley is a thin disk which has a radius of 2m, mass 1 is 8 kg and mass 2 is 5 kg, and both masses start at 5 meters above the ground. When we release the system from rest: How fast will mass 1 be moving right before it hits the ground? b. How fast will mass 2 be moving right...
In the modified atwood machine, the weight of mass A is 288
grams. The weight of mass B is 124 grams, and it is hanging 58 cm
above the ground. When the system is released from rest, it takes
1.75 seconds for mass B to hit the floor. Determine the coeffecient
of kinetic friciton between mass A and the table, and determine the
energy dissipated by the system.
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