Mechanical Energy - Two Questions

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SUMMARY

The discussion focuses on two physics problems involving mechanical energy. The first problem requires calculating the height reached by an Olympic runner's center of mass when launched with an initial vertical speed of 2.2 m/s. The second problem involves determining the initial height of a pendulum bob released to achieve a speed of 1.9 m/s at the bottom of its swing. Key concepts include the application of kinematic equations and energy conservation principles.

PREREQUISITES
  • Understanding of kinematic equations for vertical motion
  • Familiarity with the conservation of mechanical energy principle
  • Basic knowledge of kinetic and potential energy calculations
  • Ability to manipulate algebraic formulas
NEXT STEPS
  • Study kinematic equations for vertical motion in physics
  • Learn about the conservation of energy in mechanical systems
  • Explore potential energy and kinetic energy relationships
  • Practice solving problems involving projectile motion and pendulum dynamics
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Students studying physics, educators teaching mechanics, and anyone interested in understanding the principles of mechanical energy and motion.

JeremyM
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The questions read...

1.) An Olympic runner leaps over a hurdle. If the runner's initial vertical speed is 2.2 m/s, how much will the runner's center of mass be raised during the jump?

2.) A pendulum bob is released from some initial height such that the speed of the bob at the bottom of the swing is 1.9 m/s. What is the initial height of the bob?


What are the formulas I would use? I only want the formulas for now because I would like to try and solve it myself. Thanks!
 
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Well, I won't give you the formulas, but I'll give you a hint or two.

On the first one, the problem is the same as if you asked "what height would an object reach if it's initial speed were 2.2 m/s vertically upward?". The fact that they're asking about the runner's COM makes no difference.

For number 2, think about it from energy considerations - at the bottom of its arc, the pendulum bob has a certain amount of kinetic energy. Where did that energy come from?
 

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