If you remove the cone that’s oscillating the most, would another take over and start oscillating the same way? Or is the pronounced oscillation directly tied to the location ?
I don't know exactly what you mean by 'pi by 2 out of phase' - wether its multiplied or divided by 2, but if they were out of phase surely that would be pi phase difference between them and not pi/2 or 2pi? Im not sure but great demo!
From my observation, as the cones are further from the 'driver' pendulum, the amplitude increases, but why does the most left paper cone do not behave this way?
The amplitude is related to the length of the string. When the length is equal it has max resonance. It's not a perfect model. I had to make it by hand😀
Great demo! Just watching some experiments for my physics p5 exam and this was worth it!
Lovely that is what they are for. Much appreciated. 👍
Really clear,good work
Great Demonstration!
Can you explain how you are doing that???
Clear explanation. I like this.
If you remove the cone that’s oscillating the most, would another take over and start oscillating the same way? Or is the pronounced oscillation directly tied to the location ?
It is the length of string that causes the resonance. It has to be the same as the driver mass length.
thank you!!
Thank you very much
Thank you
Your welcome ❤️
I love having physics fun
Thank you!
thank you sir!!
Most welcome!
I don't know exactly what you mean by 'pi by 2 out of phase' - wether its multiplied or divided by 2, but if they were out of phase surely that would be pi phase difference between them and not pi/2 or 2pi?
Im not sure but great demo!
Mangotangochick it is divided by 2 just an old fashioned English phrase.
Thank you very much for your response!
From my observation, as the cones are further from the 'driver' pendulum, the amplitude increases, but why does the most left paper cone do not behave this way?
The amplitude is related to the length of the string. When the length is equal it has max resonance. It's not a perfect model. I had to make it by hand😀
Excellent
When do we have pie?
Half a pi!
The phase is pi/2 not pi interesting
Think mechanics.
is it pie multiplied by 2 or pie divided on two?
Brandon Mohammed multiplied
Divide by two!
@@RanjanKumar-gr3ob idiot
@@mrk2938 you tell him
Ranjan Kumar yeah you noddy imagine thinking it’s multiplied by 2
Anyone from 11th Non-medical coaching??
?
🖐🏻
@@aurora2551 sorry but I didn't recognised you tho🤔.
One such question came in KVPY 2007 SB, 2007