Calculating Collision Speed: Momentum or Kinetic Energy?

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SUMMARY

To calculate the speed of a lighter object in a collision where both objects come to a stop, conservation of momentum must be utilized. Inelastic collisions do not conserve kinetic energy, making momentum the more reliable method for this scenario. While both momentum and energy conservation principles can be applied, momentum provides a clearer solution due to the complexities introduced by energy loss in inelastic collisions. If multiple unknowns exist, employing both conservation laws may be necessary for accurate results.

PREREQUISITES
  • Understanding of conservation of momentum
  • Knowledge of inelastic collisions
  • Familiarity with kinetic energy equations
  • Basic physics principles regarding motion and forces
NEXT STEPS
  • Study the principles of conservation of momentum in detail
  • Explore inelastic collision scenarios and their implications
  • Learn about the differences between elastic and inelastic collisions
  • Investigate the role of energy loss in real-world collision analysis
USEFUL FOR

Physics students, educators, and professionals in fields such as engineering and mechanics who are interested in collision analysis and the application of conservation laws.

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Hi. Sorry if this looks too beginner-ish question.

Lets say we have two objects moving towards each other. One is heavier than another and we know it's speed. We want to find out how fast should lighter object move so that after the collision both objects would stop.

Question is, what should we use to calculate the speed of the lighter body, kinetic energy's equation or momentum's? Those two give slightly different answers.

Thank you.
 
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If you want the objects to stop after they collide, the total momentum must be zero. Kinetic energy will not be conserved, since the collision must be inelastic. (Momentum is always conserved.)
 
Momentum is always conserved and total energy is always conserved, so you can use either one in principle. But total energy includes kinetic energy, heat energy lost due to friction, potential energy, etc. so it is easier in many problems to use conservation of momentum. Note that if there are enough unknowns, you may need to use both conservation of energy and momentum.
 
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