- #1
Lorax
- 42
- 0
=mv^2
----------R
r
How do you calculate the r on the side?
Also is centrifugal force = to magnet force?
----------R
r
How do you calculate the r on the side?
Also is centrifugal force = to magnet force?
Lorax said:=mv^2
----------R
r
How do you calculate the r on the side?
Also is centrifugal force = to magnet force?
Sirus said:Lorax, don't forget that centrifugal force doesn't actually exist.
dextercioby said:WHAT? It definitely exists.It's an inertial force (the name says:"centrifugal inertial force") and appears in every system which undergoes nonlinear movement.But only in the nonienrtial(accelerated) reference system.Did u ever go with a car/bus and took a turn...?
Daniel.
The r value is used to determine the distance between the center of rotation and the object experiencing centrifugal or magnet force. This distance is crucial in understanding the strength of these forces and how they affect the object.
In centrifugal force, the r value is calculated by dividing the velocity squared by the radius of rotation. In magnet force, the r value is the distance between the center of the magnet and the object.
The r value has an inverse relationship with centrifugal and magnet force. As the r value increases, the force decreases, and vice versa. This means that the farther an object is from the center of rotation or the magnet, the weaker the force it experiences.
Centrifugal force is a fictitious force that appears to act on an object moving in a circular path. It is caused by the object's inertia and is directed away from the center of rotation. Magnet force, on the other hand, is a real force that is exerted by a magnet on another object due to the interaction of magnetic fields.
No, the r value cannot be negative in either centrifugal or magnet force calculations. The r value represents a distance, and distance cannot be negative. If a negative r value is obtained, it may indicate an error in the calculation or an incorrect understanding of the forces at play.