Investigating the Relationship Between Liquid Volume, Bounce Height, and Energy Loss in Bouncing Balls
This experiment explores how the amount of liquid inside a ping pong ball affects its bounce height, energy loss, and overall performance. By analyzing the relationship between liquid volume, fall height, and mechanical energy, fascinating insights were obtained. As the fall height increases, the loss of mechanical energy decreases, while increasing the water volume leads to higher energy loss. These findings provide valuable data for further studies in physics and material science.
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Presentation Transcript
26. Bouncing balls Maria Krasnova Team from Belarus
Aim Make a small hole in a ping pong ball, fill it with some liquid and seal the hole. Drop the ball from the fixed height and investigate how depending on the amount of liquid inside high it bounces,
Theoretical part Loss of mechanical energy can be calculated as: E=mg(h-H0) h height of bounch H0=const=0,1m height of fall
Theoretical part KE=max, PE=0 KE=0, PE=max
Conclusion As the fall height increases, the loss of mechanical energy decreases As the volume of the water increases, the loss of mechanical energy also increases
Thank you for attention! Maria Krasnova Team from Belarus
