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A block (can be treated as point particle) of mass m is released from a vertical...
1a. 1b. 1c. 1d. In the figure, a small block of mass m is released from...
1a. 1b. 1c. 1d.
In the figure, a small block of mass m is released from rest and slides down a frictionless surface through heighth and then sticks to a uniform vertical rod of mass M and length d. The rod pivots about point o through angle before momentarily stopping. Find e in terms of the variables given and g. Ar In the figure, a small 0.372 kg block slides down a frictionless surface through height h = 0.918 m...
A uniform rod of mass M and length L is released from its horizontal position. The...
A uniform rod of mass M and length L is released from its horizontal position. The rod pivots about a fixed frictionless axis at' onc end and rotates countcrclockwise duc to gravity. It collides and sticks to another rod with same length and mass which is ver- tically at rest. (For a rod with mass M and length L, the moment of inertia about an axis through its one end is given by1-ML) L,M L, M Initial Final (a)(5 pts.)...
Block A of mass, mA = 1.7 kg is shot from a spring device of spring...
Block A of mass, mA = 1.7 kg is shot from a spring device of spring constant, k = 700 N/m along a frictionless horizontal surface. The initial compression of the spring is 0.300 m. The shot makes the block rise to another horizontal level at a height h= 1m above the first. On this horizontal it collides with another stationary block B of mass mB = 3.5 kg. The blocks stick together and encounter a rough surface. The blocks...
In the figure, a block of mass m = 11 kg is released from rest on...
In the figure, a block of mass m = 11 kg is released from rest on a frictionless incline of angle θ = 26°. Below the block is a spring that can be compressed 3.4 cm by a force of 320 N. The block momentarily stops when it compresses the spring by 5.3 cm. (a) How far does the block move down the incline from its rest position to this stopping point? (b) What is the speed of the block...
1. A block of mass m = 0.23 kg slides with initial velocityv0 = 1.4...
1. A block of mass m = 0.23 kg slides with initial velocity
v0 = 1.4 m/s along a frictionless surface (as in the
figure). The block next slides through a region of length d = 0.25
m with kinetic friction. After passing through the friction region,
the block slides up a curved ramp until momentarily coming to rest
at a height h above the level surface. If the kinetic friction
coefficient μ k = 0.204, what height h does...
2. Starting from rest, a block of mass m slides down a frictionless incline at angle...
2. Starting from rest, a block of mass m slides down a frictionless incline at angle θ(0◦ < θ < 90◦) where it runs into a spring of spring constant k. When the block momentarily stops, it has compressed the spring by distance x. Find expressions for (a) the distance the block slides down the incline from when it is released to when it momentarily stops (b) the distance between the point of the first block-spring contact and the point...
Before Collision M m After Collision V/2 M m A block having mass m slides on...
Before Collision M m After Collision V/2 M m A block having mass m slides on a frictionless surface and runs into a block of mass M which is initially at rest. The blocks stick together and their speed after the collision is half the speed the moving block had before the collision. How do the masses of the blocks compare? M<m M = m M>m
In the figure below, block-2 of mass M = 1 Kg is at rest on a...
In the figure below, block-2 of mass M = 1 Kg is at rest on a frictionless surface and touching the end of an un-stretched spring whose spring constant is 200 N/m. The other end of the spring is fixed to a wall. Block-1 of mass 2 Kg, travelling at speed v_1 = 4 m/s, collides with block-2 and the two blocks stick together. When the blocks momentarily stop, by what distance is the spring compressed?
Question 12 of 14 > Final position A small block of mass m slides to the...
Question 12 of 14 > Final position A small block of mass m slides to the left on a frictionless, horizontal surface with speed u. Then, the block slides up a rough ramp that has an incline angle of 8. The coefficient of kinetic friction between the ramp and box is p. The acceleration due to gravity is g. Rough surface Initial position What is the height h of the block when its speed up the ramp equals nu, where...
1a. 1b. 1c. 1d.
In the figure, a small block of mass m is released from rest and slides down a frictionless surface through heighth and then sticks to a uniform vertical rod of mass M and length d. The rod pivots about point o through angle before momentarily stopping. Find e in terms of the variables given and g. Ar In the figure, a small 0.372 kg block slides down a frictionless surface through height h = 0.918 m...
A uniform rod of mass M and length L is released from its horizontal position. The rod pivots about a fixed frictionless axis at' onc end and rotates countcrclockwise duc to gravity. It collides and sticks to another rod with same length and mass which is ver- tically at rest. (For a rod with mass M and length L, the moment of inertia about an axis through its one end is given by1-ML) L,M L, M Initial Final (a)(5 pts.)...
1. A block of mass m = 0.23 kg slides with initial velocity
v0 = 1.4 m/s along a frictionless surface (as in the
figure). The block next slides through a region of length d = 0.25
m with kinetic friction. After passing through the friction region,
the block slides up a curved ramp until momentarily coming to rest
at a height h above the level surface. If the kinetic friction
coefficient μ k = 0.204, what height h does...
Before Collision M m After Collision V/2 M m A block having mass m slides on a frictionless surface and runs into a block of mass M which is initially at rest. The blocks stick together and their speed after the collision is half the speed the moving block had before the collision. How do the masses of the blocks compare? M<m M = m M>m
In the figure below, block-2 of mass M = 1 Kg is at rest on a frictionless surface and touching the end of an un-stretched spring whose spring constant is 200 N/m. The other end of the spring is fixed to a wall. Block-1 of mass 2 Kg, travelling at speed v_1 = 4 m/s, collides with block-2 and the two blocks stick together. When the blocks momentarily stop, by what distance is the spring compressed?
Question 12 of 14 > Final position A small block of mass m slides to the left on a frictionless, horizontal surface with speed u. Then, the block slides up a rough ramp that has an incline angle of 8. The coefficient of kinetic friction between the ramp and box is p. The acceleration due to gravity is g. Rough surface Initial position What is the height h of the block when its speed up the ramp equals nu, where...
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