➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom Please friends and sir explain me
➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom Please friends and sir explain me
➡️➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom Please friends and sir explain me
Yes, the concept is applicable to flywheels. But be careful! While designing or procuring a flywheel, you would have your own constraints which will be very different from this physics demo. For example, if you want a cheap steel flywheel that can store the maximum energy for a given thickness and radius, the ideal design is to use a solid steel disk of the same thickness and radius.
Hello I was wondering if you could help me with a unique flywheel calculation please? If I had a way of magnetically supporting a huge flywheel like the one illustrated in your video. Lets say 50 meters in diameter. Is it possible to spin that flywheel with an outside rim speed of 1600 km per hour?
@@naight173 ➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom Please friends and sir explain me
Don't see view just see the quality of teaching and education!
➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom
Please friends and sir explain me
This helped me better grasp the concept of rotational momentum. Thank you!
➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom
Please friends and sir explain me
Best lesson ever! As clear as a glass, thanks!
You explained this very well. A big thank you from China!
Thank you 😊 such a nice way of teaching and I hope too see more
He is a nice teacher.
Thank you so much sid .you explained it very well.
Perfect explanation
Such a shame that this video has so low views.
Excellent Appreciated and very well explained Sir..
Could you please show the equation whereby mass and radius cancel out?
thank you sir for explaining this concept
Great demonstration! Thank you!
Great explanation sir
I understand better now thanks alot
wow really clear! love it
But the smaller sphere has a lower moment of inertia and did reach the bottom first.
my savior
Salve dalla 3H , ottimo
Video la ringrazio
Rofl
Smd
Nice
lmb
Barbecue
➡️➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom
Please friends and sir explain me
Would this concept also extend to flywheels? For example, a solid flywheel vs a semi-hollow flywheel? Which flywheel would store the most energy?
Yes, the concept is applicable to flywheels. But be careful! While designing or procuring a flywheel, you would have your own constraints which will be very different from this physics demo.
For example, if you want a cheap steel flywheel that can store the maximum energy for a given thickness and radius, the ideal design is to use a solid steel disk of the same thickness and radius.
well then shouldn't moment of inertia be inversely related to rotational k.e?
Hello I was wondering if you could help me with a unique flywheel calculation please? If I had a way of magnetically supporting a huge flywheel like the one illustrated in your video. Lets say 50 meters in diameter. Is it possible to spin that flywheel with an outside rim speed of 1600 km per hour?
Assume the friction.
where can one get these sets of discs/hoops/sphere of identical mass?
As far as I understood, you don't need identical mass, because it cancels out
@@naight173 ➡️➡️But guys in the last moment of this video, 2 solid sphare which reduii is different how its reach together at the bottom
Please friends and sir explain me
Pretty kek
now a days kids need in exam point of view...nobody wants quality education :-(
kek
Kek