This video was very well made and informative! Your grip on this subject is really displayed throught your fluent presentation of this example and you made it simple to understand. I look forward to seeing more of your educational videos! Sincerely, Nathan
since they both will have the same potential energy (at the same height), does this mean that the linear velocity of the sphere will be lesser than that of the block?
I would think some of the potential energy will be converted into rolling if the object in motion is able to roll. This is an imaginary scenario where both happen to be undergoing translational motion, and happen to be moving at 10m/s. Though if they were dropped from, say, the edge of a skateboarding bowl (accelerating from rest instead of starting at same speed) we might see them move at different speeds
Favorite teacher so far!!
This video was very well made and informative! Your grip on this subject is really displayed throught your fluent presentation of this example and you made it simple to understand. I look forward to seeing more of your educational videos!
Sincerely, Nathan
Wow, this is so kind and lovely to hear. Thanks for taking the time to share.
since they both will have the same potential energy (at the same height), does this mean that the linear velocity of the sphere will be lesser than that of the block?
I would think some of the potential energy will be converted into rolling if the object in motion is able to roll. This is an imaginary scenario where both happen to be undergoing translational motion, and happen to be moving at 10m/s. Though if they were dropped from, say, the edge of a skateboarding bowl (accelerating from rest instead of starting at same speed) we might see them move at different speeds
Absolutely. 👏🏻
atrocious audio :(
Working on it!