A) Use Torque for the rotation, using the tangential portion of the force
Torque = F * r
B) Use F = m a for the velocity, using the portion of the force going into the sphere
e.g. - If you have a force applied directly to the center of the sphere, none of the force is tangential
If you have a force applied across the surface of the sphere (tangent to the curve) all of the force is going to go into rotation
@HellGateSc2: Go
If I'm thinking straight...
A) Use Torque for the rotation, using the tangential portion of the force Torque = F * r
B) Use F = m a for the velocity, using the portion of the force going into the sphere
e.g. - If you have a force applied directly to the center of the sphere, none of the force is tangential If you have a force applied across the surface of the sphere (tangent to the curve) all of the force is going to go into rotation
@HellGateSc2: Go
Is the force acting on the center of the sphere?