I think it's cool to think damping force is damping coefficient times velocity of the displacement. When the shock is very quick, the dampening force is higher.
Pascals law would apply to a single side of a piston, the whole point of the piston though is that it constrains flow and forces there to be a pressure differential across the piston, meaning you cant apply pascals law from one side of the piston to the other.
That deserves millions of views. Thanks a lot.
Glad it helped!
thanks, everyone else just shows maths and that same diagram and you were the only one to show an actual example
Any excuse to go ride my motorcycle...
@@INTEGRALPHYSICS Lmaoo
Concepts tought with ease and practical application approach. Thanks a lot
Glad to hear it was helpful. I had fun making this vid.
Great Content Mate, you got Practical and Theoretical knowledge keep sharing knowledge....
I think it's cool to think damping force is damping coefficient times velocity of the displacement. When the shock is very quick, the dampening force is higher.
Generally speaking, think of the spring as a POSITION dependent force and the damper as a VELOCITY dependent force.
what a hero,,,thanks
Thanks man
You're welcome!
👍
it is also known as pascal principle
Pascals law would apply to a single side of a piston, the whole point of the piston though is that it constrains flow and forces there to be a pressure differential across the piston, meaning you cant apply pascals law from one side of the piston to the other.