I can't understand that example. In the first case, if you draw in the opposite direction the line (to the "pole") it would move to the left instead of to the right. And in the same pole, all objects should have the same deviation. Am I wrong?
the same thing will happen. in the northern hemisphere, moving objects are deflected to the right regardless of the direction of travel. The Coriolis affect increases as you approach the poles.
In your demonstration, the sheet of paper is moving underneath the ruler which means that a helicopter could hover in the air in while other geographical locations would rotate toward the helicopter. This does not happen in reality.
Best video on RUclips for this, thanks
Very simple and concise! I totally understand Coriolis effect now. Thanks!
holy shit, that guy has four hands!!!!
Underrated comment from 13 years ago. Hope you're doing well!
@Ohawlabibi underrated comment from 5 months ago, hope youre doing well!
How cool!!!! I was looking for ways to teach this on my aviation weather class! Thank you for sharing
Simple and perfect.
Very simple. Good.
This video just saved my ass! Finally
best ever demontration!congrats!
How works in te rotor of the helicopter ???? Thank you
I can't understand that example. In the first case, if you draw in the
opposite direction the line (to the "pole") it would move to the left
instead of to the right. And in the same pole, all objects should have
the same deviation. Am I wrong?
Comepalomitas Segregalepticina was thinking the same thing!
It would move to the right
Excellent sir, thank you very much.
Thank you sir
excellent work.... thanx
What if you walk toward the center from the equator?
the same thing will happen. in the northern hemisphere, moving objects are deflected to the right regardless of the direction of travel. The Coriolis affect increases as you approach the poles.
nice coriolis teaching and explanation
Good experiment
good job.
جميل جدااا
AHA, eventually i understand this. lol
It's an ass shitting. Then you flush. Then you see the Coriolis effect. Glorious.
holy $#!#
Why has no one noticed that it looks like a crapping arse when he draws it fully
In your demonstration, the sheet of paper is moving underneath the ruler which means that a helicopter could hover in the air in while other geographical locations would rotate toward the helicopter. This does not happen in reality.
The air moves with the earth. What are you talking about? "Which means that..." get outta here
Please you can draw properly ok