Impact force from a falling object

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SUMMARY

The discussion centers on calculating the impact force of a 1kg bubble-wrapped object dropped from a height of 1 meter, utilizing formulas such as velocity (m/s) = √2gh, kinetic energy (joules) = 1/2(mv²), and impact force (Newtons) = joules/distance traveled after impact. The user inquires about the effects of stacking a second identical object on top and whether the bubble wrap would influence the impact force experienced by each object. Suggestions include analyzing the scenario using a model of two masses connected by springs, which simplifies the problem to wave transmission theory.

PREREQUISITES
  • Understanding of basic physics concepts such as force, mass, and acceleration.
  • Familiarity with the formulas for calculating velocity, kinetic energy, and impact force.
  • Knowledge of wave transmission theory and its applications in physics.
  • Experience with simulation tools for visualizing physical systems, such as spring-mass models.
NEXT STEPS
  • Research "wave transmission theory" to understand the dynamics of forces between connected masses.
  • Explore the use of "spring-mass systems" in physics to model impact scenarios.
  • Learn how to apply "Newton's laws of motion" to analyze the effects of stacking objects during impact.
  • Utilize online simulators or animations to visualize "spring dynamics" and their impact on mass interactions.
USEFUL FOR

Physics students, engineers, and anyone interested in understanding the dynamics of impact forces and wave transmission in physical systems.

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I used some formulas to determine the impact force of a bubble wrapped 1kg object dropped 1 meter and traveling .03m after impact. But I need some help with the next part. What if an identical bubble wrapped 1kg object is placed on top and both are dropped at the same time? Will the wrapping between the two objects cause the top object to feel the same impact force? Will the bottom object feel more impact force or does the wrapping between them eliminate any influence from the top object? Thanks!
 
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Hi
Which formulas?
 
Sophie,
I appreciate the quick response. I used these formulas: velocity(m/s) = √2gh, kinetic energy(joules) = 1/2(mv²), impact force(Newtons) = joules/distance traveled after impact, equivalent G-force = Newtons/(kg*gravity). I also cheated and used the calculator at this Georgia State U website: http://hyperphysics.phy-astr.gsu.edu/hbase/flobi.html

Thanks
 
I think you have chosen a very difficult problem to solve here. You may be better to consider the case of two masses connected by springs, with a second spring between the first mass and the wall. Then the second mass would only be experiencing forces from the first mass during the impact. That would boil down to a fairly straightforward 'waves on a short transmission line' problem.
 
Ok, now you are way over my head. Where can I get info to learn about 'waves on a short transmission line'?
 
Sorry. But you could appreciate that two masses and two springs could be a simpler problem than your original one.
It's a matter of writing an equation to describe the situation and then solving it. Easy if you say it quickly! Haha
It's the basics of all wave transmission theory.
 
http://www.ph.biu.ac.il/~rapaport/java-apps/spring.html" is an animation which will give you an idea of what I'm describing. You can build a system of two springs and three masses in a line (not what you actually wanted but it's a start) and you can see what happens to the mass at one end when you twitch the mass at the other end.
You can extend this to what happens when one mass happens to be huge (a wall).
Have a look ands see if it helps.
 
Last edited by a moderator:
Sophie,
Thanks for the link. I went to it and played with the mass and springs which gave me a better understanding of the physics involved. I also sent an email to the creator of the site to see if he would be able to add gravity to it. That would really be a help!
 

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