1.Two identical carts are moving on a frictionless surface with constant velocity v (cart 1 v...

1. Two identical carts are moving on a frictionless surface with constant velocity v (cart 1...

1. Two identical carts are moving on a frictionless surface with constant velocity v (cart 1 v cart 2 -v). After they collide elastically what is their final velocities? 2. Two identical carts are moving on a frictionless surface with constant velocity v (cart 1 v cart 2 -v). After they collide inelastically they stick together. What are their final velocities? Please explain.

Two identical carts, each with a mass of 150-g, collide while moving on a surface. Initially,...

Two identical carts, each with a mass of 150-g, collide while moving on a surface. Initially, cart 1 moves at +2.2 m/s and cart 2 moves at +4.2 m/s. After the collision, cart 1 is moving at +3.9 m/s while cart 2 moves at +2.0 m/s. a. Draw a Momentum Diagram for the collision. b. Determine the momentum of each cart before and after the collision. c. Determine the total momentum before and after the collision. d. Was momentum conserved...

2 air carts collide and stick together. cart one is M1 = 0.755 kg and initial...

2 air carts collide and stick together. cart one is M1 = 0.755 kg and initial speed of 0.435 m/s the cart to right is initially at rest with mass m2= 0.300kg. a.find the velocity of the center of mass before the carts Collide and stick together b. find the velocity of the center of mass after the carts Collide and stick together c. find the kinetic energy of the system before and after the Collision

Two frictionless carts collide and stick together in a perfectly inelastic collision, due to a magnetic...

Two frictionless carts collide and stick together in a perfectly inelastic collision, due to a magnetic or mechanical coupling, on a one-dimensional track. Cart 1 has mass 200 grams and an initial velocity of 2 m/s. Cart 2 has mass 900 g, and is initially stationary. What is the velocity of the two carts together after the collision?

1. Assume the cart has a mass of m, and that the carts are oriented so...

1. Assume the cart has a mass of m, and that the carts are oriented so that their velcro bumpers face each other. one of the carts is placed on middle of the track and the other on the far left of the track. suppose you push the cart gently on the left side toward the cart at rest so that the carts collide. mass of cart is .05123 kg a) if the velocity of the moving cart is v...

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at...

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at an initial velocity of 0.25080m/s, the target cart is at rest. The Incident cart has a mass of 995.8 g and the target cart has a mass of 490.3 g. The carts stick together, the final velocity after collision is 0.077302 m/s. The collision is considered inelastic. a) What is the Initial Momentum of the carts? b) What is the Final Momentum of the...

1) You collide two cartselastically. One 2-kg cart is moving to the right at 3 m/s,...

1) You collide two cartselastically. One 2-kg cart is moving to the right at 3 m/s, and the other is a 3-kg cart that is heading to the left at 4 m/s. a) What are the final velocities of each cart? b) What are the final and initial total momentums? How do they compare? c) What are the final and initial total kinetic energies? How do they compare? 2) You collide two carts inelastically. One 2-kg cart is moving to...

1. If a 2kg hockey puck moving on a frictionless surface at a velocity of 3m/s...

1. If a 2kg hockey puck moving on a frictionless surface at a velocity of 3m/s and moving on the x axis collides with a 4kg hockey puck travelling at 2m/s and moving on the y axis prior to collision collide, what is the final velocity and direction of each of the pucks if the 2kg puck is travelling at -1.5 m/s at 30˚ above the horizontal? (assume they don’t stick together) Draw a before and after picture.

A 2.9-kg cart is rolling along a frictionless, horizontal track towards a 1.7-kg cart that is...

A 2.9-kg cart is rolling along a frictionless, horizontal track towards a 1.7-kg cart that is held initially at rest. The carts are loaded with strong magnets that cause them to attract one another. Thus, the speed of each cart increases. At a certain instant before the carts collide, the first cart's velocity is +4.3 m/s, and the second cart's velocity is -2.8 m/s. (a) What is the total momentum of the system of the two carts at this instant?...

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at...

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at an initial velocity of 0.44374 m/s, the target cart is at rest. The Incident cart has a mass of 490.3 g and the target cart has a mass of 497.4 g. The final velocity of the incident cart is 0.043994 m/s and the final velocity of the target cart is 0.001001 m/s. The collision is elastic. a) What is the Initial Momentum of the...