Cart A has a mass of 5.00 kg is going to the right at a speed of 0.500 m/s and strikes cart B which is travelling to the left at an unknown speed. After the collision cart A and cart B are stuck together and are travelling to the left with a speed of 0.400 m/s. What was the velocity of cart B immediately before the collision? Cart B has a mass of 2.00 kg. (My professor gave the answer...
Cart A has a mass of 6.50 kg and is going to the right at a speed of 2.60 m/s and Cart B has an unknown mass and is going to the left with a speed of 3.25 m/s. They collide and Cart A is seen going to the left at 4.13 m/s while Cart B is seen to now be going to the right with the speed of 1.40 m/s. A. What is the mass of Cart B? B....
A cart of mass M traveling to the right on a frictionless track with a speed 4v0 collides with another cart of mass 2M traveling to the left with a speed v0. If this collision is perfectly elastic, and carts travel in opposite directions after collision, determine the speeds of the two carts immediately after the collision in terms of M and v0.
A cart of mass M traveling to the right on a frictionless track with a speed 4v0 collides with another cart of mass 2M traveling to the left with a speed v0. If this collision is perfectly elastic, and carts travel in opposite directions after collision, determine the speeds of the two carts immediately after the collision in terms of M and v0
A cart of mass M traveling to the right on a frictionless track with a speed 4v0 collides with another cart of mass 2M traveling to the left with a speed v0. If this collision is perfectly elastic, and carts travel in opposite directions after collision, determine the speeds of the two carts immediately after the collision in terms of M and v0.
A cart of mass M traveling to the right on a frictionless track with a speed 4v0 collides with another cart of mass 2M traveling to the left with a speed v0. If this collision is perfectly elastic, and carts travel in opposite directions after collision, determine the speeds of the two carts immediately after the collision in terms of M and v0.
A cart of mass M traveling to the right on a frictionless track with a speed 4v0 collides with another cart of mass 2M traveling to the left with a speed v0. If this collision is perfectly elastic, and carts travel in opposite directions after collision, determine the speeds of the two carts immediately after the collision in terms of M and v0.
A cart of mass M traveling to the right on a frictionless track with a speed 4vo collides with another cart of mass 2M traveling to the left with a speed vo. If this collision is perfectly elastic, and carts travel in opposite directions after collision, determine the speeds of the two carts immediately after the collision in terms of Mand Vo
Mass of Cart 1: 0.263 kg Mass of Cart 2:0.273 kg Run # Velocity Cart 2 before collision (m/s) Bumper Type Magnetic Magnetic Hook-n-pile Hook-n-pile Both Both Velocity Cart 1 before collision (m/s) 0.3940 0.2142 0.4397 0.3251 0.4282 0.3483 1 2 3 4 5 6 Velocity Cart 1 before collision (m/s) -0.01857 0.000335 0.2053 0.1548 0.07012 0.06005 Velocity Cart 2 after collision (m/s) 0.3728 0.2043 0.2010 0.1557 0.2982 0.2527 0 Run # Momentum Momentum Momentum Momentum 1 before 2 before...
If a 0.25 kg cart moving to the right with a velocity of +0.31 m/s collides inelastically with a 0.5 kg cart traveling to the left with a velocity of -0.22 m/s, what is the total momentum of the system before the collision?