Bagnold's law deals with fluid theory. It describes and predicts debris and granular flow down an incline by calculating shear rate.
This is the example of Newton third law and law of inertia.
The force that slows down moving objects is friction, the action of two objects rubbing against each other. This scenario illustrates the action of Newton's Second Law.
1. Static2. Sliding3. Rolling4. Air5. Fluid
Kinetic Friction replaces Static Friction when an object is in motion.
NO friction
Friction has no effect whatsoever on the law. But if friction is present, then the law can't be demonstrated, because the moving object always has an external force acting on it.
newton
if there is friction on the hill it will slow you down
you're not smart
The Law of Solid Friction states that the force of friction between two surfaces is proportional to the normal force pressing the surfaces together and is independent of the contact area between the surfaces. This law applies as long as the surfaces are not in relative motion.
i hope that the friction and magnetism has a contact in common and friction is also about newton's third law...evan magnetism studies newton's second law...i hope that friction is all about attraction and repulsion...attraction and repulsion are common in magnets ...so there might be a deep relationship between friction and magnetism..!!
This is the example of Newton third law and law of inertia.
Friction is a damping force that resists the motion of objects in Hooke's Law. It can affect how quickly an object reaches equilibrium when a force is applied. In real-world situations, the presence of friction can cause deviations from ideal linear behavior predicted by Hooke's Law.
Newton's first law of motion categorizes any force affecting the motion as an external force. Friction being an external force, negates its presence as an integral force of a motion. Hence friction cannot be used to observe first law of motion.
The generalized answer is: Friction is equal to the forces acting upon an object.I know only 2 laws of friction.....The first states that friction between two surfaces is proportional to the force pressing one another am assuming its normal force or the perpendicular force.The other states friction is independent of the contact area. That is, the friction is the same whether the brick is on its large face, the smaller side or the small end. Hope this is accurate.When an object is moving, the friction is proportional and perpendicular to the normal force (N)Friction is independent of the area of contact so long as there is an area of contact.The coefficient of static friction is slightly greater than the coefficient of kinetic friction.Within rather large limits, kinetic friction is independent of velocity.Friction depends upon the nature of the surfaces in contact.
Resistance, like friction, is ultimately a vague concept.
never. according to newton 2nd law if there is no friction the body will never change its status.