A lump of clay with a mass of 0.0050 kg traveling at 11.5 m/s collides at...

One lump of clay traveling at 35 m/s overtakes a second lump traveling at 13.0 m/s....

One lump of clay traveling at 35 m/s overtakes a second lump traveling at 13.0 m/s. After collision, they are stuck together. What is their common velocity? (a)27.7 s , (b)35.6 s , (c)40.1 s , (d)56.7 s .

One lump of clay traveling at 35 m s overtakes a second lump traveling at 13.0...

One lump of clay traveling at 35 m s overtakes a second lump traveling at 13.0 m/s. After collision, they are stuck together. What is their common velocity? (a) 27.7 m/s , (b) 35.6 m/s , (c) 40.1 m/s , (d)56.7 m/s .

A 1-kg clay block collides with 3-kg clay block at a 90° angle with each other....

A 1-kg clay block collides with 3-kg clay block at a 90° angle with each other. After the collision, they become a 4-kg lump of clay. Assuming that each had an initial speed of 11 m/s prior to the collision, and ignoring friction with the surface they are traveling on, what is the magnitude and direction of the final velocity vector for the 4-kg lump of clay?

A mass M is traveling to the right at 7m/s and collides with another mass 2M...

A mass M is traveling to the right at 7m/s and collides with another mass 2M traveling to the left at 4 m/s. The collision is ELASTIC! Find the two masses velocity after collision and the percentage of energy lost in the collision.

Car A of mass 1,274 kg is traveling east at 13.2 m/s when it collides with...

Car A of mass 1,274 kg is traveling east at 13.2 m/s when it collides with car B of mass 1,596 kg which is traveling at 14.6 m/s at 71.4 degrees N of W. The two cars stick together after the collision. What is the magnitude of the final velocity of the cars?

A railroad car of mass 22 500 kg is traveling east 5.50 m/s and collides with...

A railroad car of mass 22 500 kg is traveling east 5.50 m/s and collides with a railroad car of mass 30 000 kg traveling west 1.50 m/s. Find the velocity of the railroad cars that become coupled after the collision.

A curling stone of mass 20 kg and initially traveling at 2.0 m/s collides head-on with...

A curling stone of mass 20 kg and initially traveling at 2.0 m/s collides head-on with a lighter stone of mass 15 kg which is initially at rest. After the collision the struck stone has a speed of 1.6 m/s in the same direction as the initial velocity of the heavy stone. a) What is the final velocity of the heavy stone? b) Is this collision elastic? Explain. If the collision is not elastic, find the macroscopic energy lost in...

A 2.50 kg mass moving 7.50 m/s to the right collides head on with a 4.90...

A 2.50 kg mass moving 7.50 m/s to the right collides head on with a 4.90 kg mass. After the collision the 2.50 kg mass is moving 5.00 m/s to the left and the 4.90 kg mass is moving 4.88 m/s to the right. a. Calculate the velocity of the 4.90 kg mass before the collision b. If the collision lasts for 0.0625 seconds calculate the force that acted on each mass during the collision.

A car (mass = 1020 kg) is traveling at 27.2 m/s when it collides head-on with...

A car (mass = 1020 kg) is traveling at 27.2 m/s when it collides head-on with a sport utility vehicle (mass = 2900 kg) traveling in the opposite direction. In the collision, the two vehicles come to a halt. At what speed was the sport utility vehicle traveling?

A 1 kg object traveling east with 1.5 m/s collides with a 0.01 kg object traveling...

A 1 kg object traveling east with 1.5 m/s collides with a 0.01 kg object traveling north at 100 m/s. when they collide they become one object. what is the speed of the combined mass just immediately after they collide? a) 1.49 m/s b) 1.78 m/s c) 2.48 m/s d) 1.88 m/s