The road is a 2D surface in this case. Hence friction could have 2 directions. The friction is not there in the direction of the inclined surface. Whereas friction will be there in the direction into the plane which is what is required for it to move.
Centripetal acceleration always acts towards the centre(left) but if you place a observer at the centre it will become centrifugal force and act in the right direction
Maybe you can try to do the experiment at home. Replace the car by a marble (or any little ball), and throw it tangentially on a banked track. It will either slip down to the center of the track, slip away outside of the track, or stay in the track (depending on the velocity)@@truthphilic7938
Thank you so much... This is Very Very Helpful Who need this... Great...
It is confusing that math and physics use prime notation differently. It seems like a small matter to ask physics and math notation to be consistent.
if the road is frictionless, wouldn't the car not move at all?
The road is a 2D surface in this case. Hence friction could have 2 directions. The friction is not there in the direction of the inclined surface. Whereas friction will be there in the direction into the plane which is what is required for it to move.
Yeah, I had the same thought. and I figured it must be a rocket-propelled car with the tires just sliding along the surface.😅
I am confused about the overshoot and oscillation part. Could anyone please explain ?
Same here
A more math based approach would be strongly appreciated 👍
MIT 8.03 sc has a better explanation
why didnt you consider friction force in free body force diagram?
bc there is non, fricktionless
Shouldn't the acc. on the inclined "plane" point to the right
Centripetal acceleration always acts towards the centre(left) but if you place a observer at the centre it will become centrifugal force and act in the right direction
@@vibhanshbhatia4171 Hey, how can a car travel on the plane which has no friction?
Maybe you can try to do the experiment at home. Replace the car by a marble (or any little ball), and throw it tangentially on a banked track. It will either slip down to the center of the track, slip away outside of the track, or stay in the track (depending on the velocity)@@truthphilic7938
i love you
great
Awsm sir
why is no one talking about the fact that this guy is writing everything down, backwards??
Flipped footage most likely lol
@@louwashe Lol I didn't know that was possible!
Notice his shirt buttons are on the wrong side?