A weight of mass 1.03 kg is suspended by a string wrapped around a pulley wheel,...
A weight of mass 1.03 kg is suspended by a string wrapped around a pulley wheel, which consists of a solid disk of mass 4.96 kg and radius 1.37 m. The system is released from rest. Over what vertical distance does the hanging mass move in 3.0 seconds? Ignore friction and drag forces, and assume that the string does not slip.
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A weight of mass 1.03 kg is suspended by a string wrapped around
a pulley wheel,...
A weight of mass 1.03 kg is suspended by a string wrapped around a pulley wheel,...
A weight of mass 1.03 kg is suspended by a string wrapped around a pulley wheel, which consists of a solid disk of mass 4.96 kg and radius 1.37 m. The system is released from rest. Over what vertical distance does the hanging mass move in 3.0 seconds?
A weight of mass 1.66 kg is suspended by a string wrapped around a pulley wheel,...
A weight of mass 1.66 kg is suspended by a string wrapped around a pulley wheel, which consists of a solid disk of mass 4.03 kg and radius 0.603 m. The system is released from rest. Over what vertical distance does the hanging mass move in 3.0 seconds? Ignore friction and drag forces, and assume that the string does not slip.
Two blocks are connected by a string that is wrapped around a pulley wheel. The light...
Two blocks are connected by a string that is wrapped around a pulley wheel. The light block with mass 5.3 kg sits a flat table; the heavier block, which is twice as massive, is suspended below the pulley. There is friction acting between the lighter block and the table with a coefficient of friction 0.79. The system is released from rest. What is the speed of the blocks after the bottom block has fallen 4.2 meters in units of meters/second?...
A string is wrapped around a pulley of mass M, radius R, and moment of inertial....
A string is wrapped around a pulley of mass M, radius R, and moment of inertial. The string is attached to a mass m; the mass m is then released. Treat the pulley as if it were a uniform disk (a) Find the acceleration of the mass m as it falls. (b) How would your answer to part (a) above change if we ignore the motion of the pulley (effectively setting the mass M -0)? m
A light string is wrapped around the outside of a 2.0-kg-wheel whose radius is 75 cm....
A light string is wrapped
around the outside of a 2.0-kg-wheel whose radius is 75 cm. The
wheel has a frictionless axel that allows it to rotate but prevents
its center of mass from moving. Assume the moment of inertia of the
wheel is the same as that of a point particle of equal mass at the
same radius from the axel. The string is then attached to a 3.0-kg
hanging mass that is released from rest. While the mass...
A solid, 3.00-kg disk has a string wrapped around its circumference as shown below. The string...
A solid, 3.00-kg disk has a string
wrapped around its circumference as shown below. The string is
attached to the ceiling. When the disk is released, it accelerates
downward as the string unrolls. The disk has a radius of 20.0 cm.
What will be the linear velocity of its center of mass after it
falls through a distance of 3.00 meters? (Note: not all the
information given is needed.) Ignore friction.
Ans: 6.26 m/s
A light rope is wrapped several times around a large wheel with mass M= 18.0 kg...
A light rope is wrapped several times around a large wheel with mass M= 18.0 kg and radius R= 0.750 m. the wheel rotates without friction about a horizontal axis. The free end of the rope is tiedto a suitcase (mass m= 3.00 kg). The siutcase is released from the rest and decends a height h=4.00m to reach the ground. We assume that (i) the wheel is a solid uniform disk and (ii) the rope unwinds without slipping. Find the...
(c) A string is wrapped many times around a frictionless pulley, which is a uniform disk...
(c) A string is wrapped many times around a frictionless pulley, which is a uniform disk of mass M. The string is connected to a hanging mass of massm. What is the speed of the hanging mass after it falls a distance h from rest? (d) A ceiling fan accelerates uniformly at a rate of 3rad/s^2 from rest. How long does it take for the acceleration of a point 1.2 m from the center to have a magnitude of 6m/s^2
A chain with negligible mass is wrapped around a gear of radius R = 2.0 meters,...
A chain with negligible mass is wrapped around a gear of radius R = 2.0 meters, and it cannot slip. The gear rotates without friction about an axis through its center. A weight of mass M = 14 kg a suspended from the end of the chain. When the system is released from rest it is observed that the weight descends 10 meters in 2.0 seconds. What is the moment of inertia j of the gear (assuming it is a...
In the figure, a very light rope is wrapped around a wheel o radius R =...
In the figure, a very light rope is wrapped around a wheel o radius R = 2.0 m and does not slip. The wheel is mounted with frictionless bearings on an axle through Its center. A block of mass 14 kg is suspended from the end of the rope. When the system is released from rest it is observed that the block descends 10 m in 2.0 s. What is the moment of Inertia of the wheel?
A string is wrapped around a pulley of mass M, radius R, and moment of inertial. The string is attached to a mass m; the mass m is then released. Treat the pulley as if it were a uniform disk (a) Find the acceleration of the mass m as it falls. (b) How would your answer to part (a) above change if we ignore the motion of the pulley (effectively setting the mass M -0)? m
A light string is wrapped
around the outside of a 2.0-kg-wheel whose radius is 75 cm. The
wheel has a frictionless axel that allows it to rotate but prevents
its center of mass from moving. Assume the moment of inertia of the
wheel is the same as that of a point particle of equal mass at the
same radius from the axel. The string is then attached to a 3.0-kg
hanging mass that is released from rest. While the mass...
A solid, 3.00-kg disk has a string
wrapped around its circumference as shown below. The string is
attached to the ceiling. When the disk is released, it accelerates
downward as the string unrolls. The disk has a radius of 20.0 cm.
What will be the linear velocity of its center of mass after it
falls through a distance of 3.00 meters? (Note: not all the
information given is needed.) Ignore friction.
Ans: 6.26 m/s
A chain with negligible mass is wrapped around a gear of radius R = 2.0 meters, and it cannot slip. The gear rotates without friction about an axis through its center. A weight of mass M = 14 kg a suspended from the end of the chain. When the system is released from rest it is observed that the weight descends 10 meters in 2.0 seconds. What is the moment of inertia j of the gear (assuming it is a...
In the figure, a very light rope is wrapped around a wheel o radius R = 2.0 m and does not slip. The wheel is mounted with frictionless bearings on an axle through Its center. A block of mass 14 kg is suspended from the end of the rope. When the system is released from rest it is observed that the block descends 10 m in 2.0 s. What is the moment of Inertia of the wheel?
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