Two blocks slide toward each other along a horizontal surface of negligible friction and collide head-on. The masses and the velocities of the blocks prior to the collision are shown above. During the collision, the impulse on the block of mass 6M has magnitude J. The impulse on the block of mass 4M during the collision has magnitude
2J/3
3J/4
4J/3
31/2
Option C it would be J
Two blocks slide toward each other along a horizontal surface of negligible friction and collide head-on. The masses and the velocities of the blocks prior to the collision are shown above. During the collision, the impulse on the block of mass 6M has mag
Two blocks have masses mi = 5 kg and m2 = 1 kg and speeds v1 = 2 m/s and v2 = 5 m/s. The objects slide directly toward each other along a frictionless horizontal surface and collide. After the collision, block mi is at rest. (Hint: impulse, linear momentum conservation) a. What is the magnitude of the impulse, Jil, exerted on block mı during the collision? b. What is the magnitude of the impulse, 1J21, exerted on block me...
Two blocks of mass 0.30g and 0.20g are moving towards each other along a horizontal frictionless surface with velocities of 0.500m/s and 1.000m/s respectively. c. Find the final velocity of each block if the collision is completely elastic.
Problem 3 (20 points: Two blocks, mA 12.0 kg, mB-5.0 kg slide along a frictionless horizontal surface towards one another as shown below. Assuming the collision is perfectly elastic, determine the velocity of each block after impact, the total amount of kinetic energy the system loses, and the magnitude of the impulse felt by block A during the collision. VB 5.0 m/s VA-3.0 m/s
1. A block with weight W = 30 N is on a flat horizontal surface. You pull to the right with a force F = 16 N. There is gravity present and the coefficient of friction is static = 0.4 and kinetic - 0.25. You are also pulling straight up with an applied force of 12 N. Now what are: The normal force N-_ the frictional force f- the net force on the block Foot and acceleration a = 2....