Exploring Momentum and Kinetic Energy in Physics Experiment

A. What is the total momentum of the system before the collision?

1. Calculate the individual momenta of each cart before the collision.
2. Determine the total momentum of the system.

B. What is the velocity of the 2 carts after the collision?

1. Apply the conservation of momentum principle to find the velocity after collision.

C. What is the momentum change of each cart?

1. Calculate the difference between the momentum of each cart before and after the collision.

D. What is the total kinetic energy before and after the collision?

1. Determine the kinetic energy of each cart before the collision.
2. Explore if kinetic energy is conserved after the collision.

E. What is the average force and acceleration experienced by each cart?

1. Use the concept of impulse to calculate average force and acceleration.
2. Explain any differences experienced by the two carts.

F. What speed would cart 2 need to have for the carts to be stationary after the collision?

1. Set the total momentum after the collision to zero to find the required speed of cart 2.

Answer:

The given data presents an exciting physics experiment where two carts collide on a frictionless track and stick together. Let's delve into the dynamics of momentum and kinetic energy to understand the outcomes of the collision.

Total Momentum Calculation:

Before the collision, Cart 1 with a mass of 625 g and a speed of 2.9 m/s has a momentum. Cart 2, with a mass of 210 g and a speed of -3.6 m/s (opposite direction), also possesses momentum. By adding these individual momenta, we find the total momentum of the system before collision.

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