Understanding Conservation of Momentum and Kinetic Energy in Elastic Collisions

What are the outcomes of an elastic collision experiment involving two carts with different masses and initial speeds?

Principles of Conservation of Momentum and Kinetic Energy in Elastic Collisions

Elastic collisions are a fascinating aspect of physics that showcase the conservation laws of momentum and kinetic energy. When two objects collide elastically, they bounce off each other without any loss of kinetic energy, resulting in interesting outcomes that can be analyzed using these conservation principles.

Outcomes of the Elastic Collision Experiment

In the described experiment, involving a 350 g cart with an initial speed of 1.43 m/s colliding with a stationary 550 g cart on a frictionless track, two specific outcomes were recorded:

1. Rebound of the Lighter Cart:

The lighter cart, weighing 350 g, rebounded with a speed of 0.320 m/s after the collision. This rebound signifies that the collision was indeed elastic, as the kinetic energy of the system was conserved. Despite changing direction and experiencing a decrease in speed, the lighter cart retained a portion of its initial kinetic energy.

2. Forward Movement of the Heavier Cart:

On the other hand, the heavier cart, with a mass of 550 g, moved forward post-collision with a speed of 1.10 m/s. This movement confirms the conservation of kinetic energy, as the initial kinetic energy of the lighter cart was transferred to the heavier cart during the collision, propelling it forward.

These outcomes clearly demonstrate the application of the conservation of momentum and kinetic energy in elastic collisions, showcasing how energy is transferred between objects while maintaining overall energy conservation.

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