1:43 Wait but I thought nothing in the universe is ever at rest? You mention matter or mass will either stay at rest or move in a straight line if nothing acts upon it. But isn’t there law or rule stating nothing in the universe is actually at rest? That is very interesting if true to think that nothing is ever fully at rest, everything is moving. Or am I wrong here?
Because it arises from your choice of reference frame. This means it's not a proper Newtonian Force. There is no "equal-and-opposite" for the Coriolis acceleration.
Good to see you Dr. Kendall.
I would like to mention that gemini (google's ai) recommended me ur video while i was asking my doubts abt this very topic
Contained herein is information unavailable to Kings 100 years ago. And there's seven of us watching
Well, at least you’re here.
Can't wait!!🙌
Thank you, this is really helpful!
Thank you
You're welcome
This is a great explanation, thank you!
You're very welcome!
Great video! One question: if the force of gravity cancels out with the reaction by the table, why does the ball presses against the table?
Amazing
1:43 Wait but I thought nothing in the universe is ever at rest? You mention matter or mass will either stay at rest or move in a straight line if nothing acts upon it. But isn’t there law or rule stating nothing in the universe is actually at rest? That is very interesting if true to think that nothing is ever fully at rest, everything is moving. Or am I wrong here?
Great video
How is it that each time we study a rotating body, we only consider mv²/r and a', and we neglect coriolis acceleration
Because it arises from your choice of reference frame. This means it's not a proper Newtonian Force. There is no "equal-and-opposite" for the Coriolis acceleration.