If you have doubt in any part
of the solution, feel free to ask.
whicle The driver forgot to tie lerates forward at 7. A clay block of mass m...
3. A block of mass 3m sits at rest on a horizontal, frictionless surface. Suddenly another block with mass m comes sliding in from the left with speed vo to the right. The blocks collide and stick together. Determine the speed of the blocks after the collision.
6. Consider a horizontal spring with spring constant k. A block with mass m is pushed far to the left against the spring until the spring is compressed a distance r relative to its relaxed length. A second block, which is stationary and also has a mass m, is located to the right of the spring im rrm a) We release the first block from rest. Due to the force from the spring, it slides to the right and eventually...
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
6. Consider a horizontal spring with spring constant k. A block with mass m is pushed far to the left against the spring until the spring is compressed a distance r relative to its relaxed length. A second block, which is stationary and also has a mass m, is located to the right of the spring im rrm a) We release the first block from rest. Due to the force from the spring, it slides to the right and eventually...
Block B has a mass of 2.40kg and is moving to the left at a speed of 3.70m/s. Block A has a mass of 4.50kg and is moving to the right. The two blocks undergo a perfectly inelastic collision. What should the velocity of the Block A be in order to have the two blocks move to the left with a speed of 0.64 m/s after the collision?
Block B has a mass of 3.80kg and is moving to the left at a speed of 2.20m/s. Block A has a mass of 3.00kg and is moving to the right. The two blocks undergo a perfectly inelastic collision. What should the velocity of the Block A be in order to have the two blocks move to the left with a speed of 0.37 m/s after the collision?
A block of mass m -2.00 kg collides head on with a block of mass m- 10.0 kg initially at rest on a rough horizontal surface. The block m strikes m2 with a speed of 4.00 m/s. Immediately after the very brief inelastic collision, the 2.00 kg block bounces back with a speed of 1.20 m/s. Ignore the effect of friction during the collision. (a) 4pts.] Calculate the speed of the 10.0 kg block immediately after the collision. (b) 4...
Block B has a mass of 3.60kg and is moving to the left at a speed of 3.80m/s. Block A has a mass of 7.20kg and is moving to the right. The two blocks undergo a perfectly inelastic collision. What should be the velocity of Block A in order to have the two blocks remain at rest after the collision?
A block of mass m1 = 1.0 kg initially moving to the right with a speed of 3.2 m/s on a frictionless, horizontal track collides with a spring attached to a second block of mass m2 = 3.4 kg initially moving to the left with a speed of 2.6 m/s as shown in figure (a). The spring constant is 530N/m. (A) Find the velocities of the two blocks after the collision. (B) During the collision, at the instant block 1...