Post by: Arkandea on February 23, 2010, 06:18:38 am
Can someone please explain whats the difference between the two types of friction I have mentioned? I am aware rolling friction is force that opposes direction of movement but static friction can either be in the same direction of movement or resisting it? I'm talking about wheels of course.
Thanks
Post by: QuantumJG on February 23, 2010, 12:13:14 pm
- Static friction (fs). Say we are pushing an object with force, Fpush, then:
fs
fs(max) = μsN
This basically means that if:
- Fpush > μsN, the object will move.
- Fpush = μsN, the object will be on the verge of moving.
- Fpush < μsN, the object won't move.
- Kinetic Friction (fk). The kinetic friction force is nearly always constant, so:
fk = μkN
- The rolling friction force (fk). The rolling friction force is also nearly constant so:
fr = μrN
Another fact:
- μs > μk > μr
The reason being for this is that friction is due to the molecular bonds an object makes.
Post by: appianway on February 23, 2010, 05:45:50 pm
When considering the direction of the frictional force, consider the direction that motion is likely to be in if motion were to occur (ie if the frictional force was to be lessened). It can't really be said friction can be in the same direction of motion - if it's static, it's not moving. In some situations, the direction of motion could occur in either way - in these instances, complete two models looking at the frictional force in both directions (this might come into play in circular motion if you have something moving with the plane that it's lying on).
The coefficients form nice approximations, but just keep in mind that they're approximations.