Homework Answers
An Atwood's machine consists of two weights, m, = 3.2 kg and m2 = 2 kg,...
An Atwood's machine consists of two weights, m, = 3.2 kg and m2 = 2 kg, connected by a by a string over a pulley of mass m, -1.7 kg and radius r = 0.2 m. Assume the pulley is a uniform solid cylinder (disk). The system is released from rest when my is 1.6 m above the floor, and my begins on the floor. Assume there is no friction in the pulley. Take the ground to be the location...
An Atwood's machine consists of two weights, m 3.4kg and m2 1.1 kg, connected by a by a string over a pulley of mas...
An Atwood's machine consists of two weights, m 3.4kg and m2 1.1 kg, connected by a by a string over a pulley of mass mp-2.3 kg and radius r-0.28 m. Assume the pulley is a uniform solid cylinder (disk) 1m7 177 The system is released from rest when mj is 2.7 m above the floor, and m2 begins on the floor. Assume there is no friction in the pulley. Take the ground to be the location of zero GPE kg...
m2 mi h - 2 kg, m2 Problem 1 refers to the figure below. In the...
m2 mi h - 2 kg, m2 Problem 1 refers to the figure below. In the figure below m2 is attached to a rope that goes over pulley and then the rope is attached to mi. mi 4 kg, and the pulley has a moment of inertia I = 0.4 kg · m2 and a radius r = 0.2 kg. mi, m2, and the pulley are initially at rest. There is no friction between my and the table and my...
4, A uniform solid sphere of mass M 10.0 kg and radius R 0.50 m rotates...
4, A uniform solid sphere of mass M 10.0 kg and radius R 0.50 m rotates about a vertical axis on frictionless bearings. A massless cord passes around the equator of the sphere, over a pulley of rotational inertia 1-1.60 kg. m2, and radius r = 0.40 m, and is attached to a block of mass m 8.00 kg which is released from rest. The cord does not slip on the sphere or pulley, and the pulley bearings are frictionless....
A uniform spherical shell of mass M = 16.0 kg and radius R = 0.690 m...
A uniform spherical shell of mass M = 16.0 kg and radius R = 0.690 m can rotate about a vertical axis on frictionless bearings (see the figure). A massless cord passes around the equator of the shell, over a pulley of rotational inertia I = 0.140 kg·m2 and radius r = 0.110 m, and is attached to a small object of mass m = 3.10 kg. There is no friction on the pulley's axle; the cord does not slip...
m2 m1 Two blocks, m, = 1.0 kg and m2 = 0.25 kg, are connected with...
m2 m1 Two blocks, m, = 1.0 kg and m2 = 0.25 kg, are connected with a very light rope (neglect its mass) over a pulley with mass M = 0.5 kg and radius R = 0.25 m and moment of inertia I = 1/2 MR as shown in the drawing. The coefficient of kinetic friction between mand the table, HK = 0.4. Find a, the angular acceleration of the pulley.
Consider the system shown in the figure below with m_1 = 24.0 kg, m_2 = 12.6...
Consider the system shown in the figure below with m_1 = 24.0 kg, m_2 = 12.6 kg, R = 0.260 m, and the mass of the pulley M = 5.00 kg. Object m_2 is resting on the floor, and object m_1 is 4.60 m above the floor when it is released from rest. The pulley axis is frictionless. The cord is light, does not stretch, and does not slip on the pulley. Calculate the time interval required for m_1 to...
Two objects are connected to a cord, and the cord is hung over a pulley connected...
Two objects are connected to a cord, and the cord is hung over a pulley connected to the ceiling, as shown in the figure below mg The masses of the objects are m 17.0 kg and m2 12.0 kg, the mass of the pulley is M 5.00 kg, and the radius of the pulley is R 0.300 m. Object m2 is initially on the floor, and object m, is initially 5.00 m above the floor when it is released from...
Two masses, mA = 29.0 kg and mg = 42.0 kg are connected by a rope...
Two masses, mA = 29.0 kg and mg = 42.0 kg are connected by a rope that hangs over a pulley (as in the figure). The pulley is a uniform cylinder of radius R. 0.311 m and mass 3.4 kg. Initially, mis on the ground and mp rests 2.5 m above the ground. MA 25 m Part A If the system is now released, use conservation of energy to determine the speed of me just before it strikes the ground....
Two blocks, M=2.0 kg, m1 = 1.0 kg and m2 = 2.0 kg, are connected by...
Two blocks, M=2.0 kg, m1 = 1.0 kg and m2 = 2.0 kg, are connected
by a light string as shown in the figure. The radius of the pulley
is R=1.0 m and its rotational inertia is I =1/2MR^2, the speed of
the masses as m1 raised for 5 m is:
An Atwood's machine consists of two weights, m, = 3.2 kg and m2 = 2 kg, connected by a by a string over a pulley of mass m, -1.7 kg and radius r = 0.2 m. Assume the pulley is a uniform solid cylinder (disk). The system is released from rest when my is 1.6 m above the floor, and my begins on the floor. Assume there is no friction in the pulley. Take the ground to be the location...
An Atwood's machine consists of two weights, m 3.4kg and m2 1.1 kg, connected by a by a string over a pulley of mass mp-2.3 kg and radius r-0.28 m. Assume the pulley is a uniform solid cylinder (disk) 1m7 177 The system is released from rest when mj is 2.7 m above the floor, and m2 begins on the floor. Assume there is no friction in the pulley. Take the ground to be the location of zero GPE kg...
m2 mi h - 2 kg, m2 Problem 1 refers to the figure below. In the figure below m2 is attached to a rope that goes over pulley and then the rope is attached to mi. mi 4 kg, and the pulley has a moment of inertia I = 0.4 kg · m2 and a radius r = 0.2 kg. mi, m2, and the pulley are initially at rest. There is no friction between my and the table and my...
4, A uniform solid sphere of mass M 10.0 kg and radius R 0.50 m rotates about a vertical axis on frictionless bearings. A massless cord passes around the equator of the sphere, over a pulley of rotational inertia 1-1.60 kg. m2, and radius r = 0.40 m, and is attached to a block of mass m 8.00 kg which is released from rest. The cord does not slip on the sphere or pulley, and the pulley bearings are frictionless....
m2 m1 Two blocks, m, = 1.0 kg and m2 = 0.25 kg, are connected with a very light rope (neglect its mass) over a pulley with mass M = 0.5 kg and radius R = 0.25 m and moment of inertia I = 1/2 MR as shown in the drawing. The coefficient of kinetic friction between mand the table, HK = 0.4. Find a, the angular acceleration of the pulley.
Consider the system shown in the figure below with m_1 = 24.0 kg, m_2 = 12.6 kg, R = 0.260 m, and the mass of the pulley M = 5.00 kg. Object m_2 is resting on the floor, and object m_1 is 4.60 m above the floor when it is released from rest. The pulley axis is frictionless. The cord is light, does not stretch, and does not slip on the pulley. Calculate the time interval required for m_1 to...
Two objects are connected to a cord, and the cord is hung over a pulley connected to the ceiling, as shown in the figure below mg The masses of the objects are m 17.0 kg and m2 12.0 kg, the mass of the pulley is M 5.00 kg, and the radius of the pulley is R 0.300 m. Object m2 is initially on the floor, and object m, is initially 5.00 m above the floor when it is released from...
Two masses, mA = 29.0 kg and mg = 42.0 kg are connected by a rope that hangs over a pulley (as in the figure). The pulley is a uniform cylinder of radius R. 0.311 m and mass 3.4 kg. Initially, mis on the ground and mp rests 2.5 m above the ground. MA 25 m Part A If the system is now released, use conservation of energy to determine the speed of me just before it strikes the ground....
Two blocks, M=2.0 kg, m1 = 1.0 kg and m2 = 2.0 kg, are connected
by a light string as shown in the figure. The radius of the pulley
is R=1.0 m and its rotational inertia is I =1/2MR^2, the speed of
the masses as m1 raised for 5 m is:
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