Fantastic explanation and experiment. I'm trying to understand the dynamics of riding electric unicycles and one of the biggest unknowns in the gyroscopic calculations is the moment of inertia of the rim and tire. This looks like the best way to measure it. Thank you so much for the video!
Nice. I just was filling report of laboratory work in our university and found out it's all based on this video :D like we did everything step by step as You.
Fantastic explanation and experiment. I'm trying to understand the dynamics of riding electric unicycles and one of the biggest unknowns in the gyroscopic calculations is the moment of inertia of the rim and tire. This looks like the best way to measure it. Thank you so much for the video!
Nice work, and relevant to a school project here in NZ!
Great video!! Well explained, helpful and practical!
Thanks:-) This one took me a while. I was pleased how it turned out, but wasn't sure anyone else would like it.
Nice. I just was filling report of laboratory work in our university and found out it's all based on this video :D like we did everything step by step as You.
Your amusing you make physics like game I wish to study in your claas
can you explain more about finding the acceleration from experimental data.
Look up the QUADREG function in your TI-89.
I wonder if cavemen were drawing stuff like this in the sand.
I hope so. That would be great :-)
@@purdueMET Why Not. Right?
Nice video. I think "ax = radius times alpha" should be "ax = radius times second derivative of alpha)"'
alpha is already the second derivative of theta (angular disposition)
repairing the rims with cnc cut gonna cause so much imbalance i guess
It might. Rims definitely need to be balanced.