- #1
nzur
- 2
- 0
Hey folks,
I just wonder how you guys think about this.
Assume that there is a spring pendulum rotating at hinge (Free swing or forced swing).
In this case, can I calculate force transmissibility (transmitted force amplitude to ground via spring devided by centrifugal force amplitude) ?
or is it not logical because centrifugal force is not excitation force to the system ?
The point is, if there is a rotation, spring would vibrate more than the case w/o rotation. So I want to quantify how much the rotation affect to the vibration.
Does it make sense to you?
Any kind of comment will be very appreciated. Thanks!
I just wonder how you guys think about this.
Assume that there is a spring pendulum rotating at hinge (Free swing or forced swing).
In this case, can I calculate force transmissibility (transmitted force amplitude to ground via spring devided by centrifugal force amplitude) ?
or is it not logical because centrifugal force is not excitation force to the system ?
The point is, if there is a rotation, spring would vibrate more than the case w/o rotation. So I want to quantify how much the rotation affect to the vibration.
Does it make sense to you?
Any kind of comment will be very appreciated. Thanks!