How can I calculate the range and trajectory of a ping pong ball launcher?

AI Thread Summary
To calculate the range and trajectory of a ping pong ball launcher, understanding the effects of air pressure and drag is crucial. A 40mm tube with air flowing at 6 bar may create suction, helping the ball drop in if positioned correctly. Calculating drag force involves basic aerodynamics, but accounting for spin complicates trajectory predictions. While some resources exist for similar projects, precise calculations may be challenging without knowing how the ball exits the launcher. Overall, using kinematics and basic drag principles will provide a foundation for estimating flight details.
chris_tams
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Hi there. I'm at bath uni. Our group is building a ping pong ball launcher. Here are some issues we encountered.

If the ball is to drop vertically into a 40mm tube with air flowing at 6bar(does this mean anything?) will it drop in or will it blow back out.

Also I'm not to sure how to calculate the drag force on the TT ball through the air. I need to calculate its range and trajectory. Obviously this will change when spinning. Is it possible to take spinning into account on paper?

Is there a standard integral i need to calculate the drag at each velocity?

Any help will do.

Thanks
 
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chris_tams said:
If the ball is to drop vertically into a 40mm tube with air flowing at 6bar(does this mean anything?) will it drop in or will it blow back out.
Think about how an airbrush works...
 
I don't know much about that kind of stuff but I know alittle. Concerning the loading question, the balls should actually be sucked into the barrel as long as the hopper tube is perpendicular to the barrel. As for the drag and trajectory this site should help http://lennon.csufresno.edu/~nas31/nsa/pballCalc.html it's for paintball but it's similar to your question.
 
Well i know that if you make it as a orange gun, and you fired a orange the orange would get to speeds of about 300km/h and travel 1km there abouts, but that is using a internal combustion. Any way would'nt the line of fire be fairly linear? so you could just graph it.
 
Sowhatalot said:
Well i know that if you make it as a orange gun, and you fired a orange the orange would get to speeds of about 300km/h and travel 1km there abouts, but that is using a internal combustion.

What, at 6 bar like the OP stated? Don't think so!

Any way would'nt the line of fire be fairly linear? so you could just graph it.

No, gravity would ensure that the path isn't linear.


Chris, is this a first year group build project? Unless you're on an AE course, I'd probably expect them to be looking for you just to use kinematics and some basic aerodynamics (drag) to determine the flight details. You're right in stating that spin will affect your trajectory, but I don't think there's any way you'll be able to take this into account, since you have little idea of how the ball will emerge from the launcher. Anyway, you haven't posted for a while so I guess you've got exams on at the moment...
 

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