1. A small mass (m = 0.25 kg) is released from rest within and near the...
1. A small mass (m = 0.25 kg) is released from rest within and near the left side of a large spherical shell of material. Which direction will the small mass accelerate?
left
toward the center
right
It will not move
2. The same small mass from question #1 is now released from rest 1000 m from the center of a shell of material. The shell has a radius of 500 m and a mass of 10000 kg. A second shell, whose center is 2500 m from the center of the first shell, has a radius is 500 m and a mass of 5000 kg. The centers of the small mass and both shells are along a straight line with the small mass in between the shells. Toward which shell will the small mass begin to move?
Toward shell 2
Toward shell 1
The mass is equilibrium. It will not move.
Not enough information given
3. Now the small mass from question #2 finds itself inside a solid sphere (m = 1000000 kg and R = 2000 m). If the small mass is halfway between the center of the sphere and the surface, determine its weight.
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1. A small mass (m = 0.25 kg) is released from rest within and
near the...
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5. A small mass m starts from rest and slides from the top of a fixed...
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Example2 25k A solid sphere (mass M, radius R) is released from rest at the top of an inclined plane (angle ?). There is sufficient friction between the incline and the sphere to allow it to roll without slipping. (a) Draw and FBD for the sphere. (b) Find the linear acceleration of the sphere (c) Find the magnitude of the frictional force acting on the sphere. (d) Find the minimum required coefficient of friction to keep the sphere from slipping....
. A small mass m starts from rest and slides from the top of a fixed sphere of radius r (b) Suppose there is friction between the mass and the sphere with friction coefficient μ,-0.1. what is the minimum angle Emin at which the mass will start to slide along the sphere? (c) The mass is now placed just past this minimum angle and released. The coefficient of kinetic friction k is small but not zero. Does the mass fly...
5. A small mass m starts from rest and slides from the top of a fixed sphere of radius r. (a) If the sphere is frictionless, at what angle θ from the vertical does the mass leave the surface? (b) Suppose there is friction between the mass and the sphere with friction coefficient =0.1. What is the minimum angle θmin at which the mass will start to slide along the sphere? (c) The mass is now placed just past this...
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