the weight of the object,
what its outside consists of,
the nature of the surface it resting on.
No. The speed of the object does not affect the amount of friction between an object and the surface. Friction is affected by the types of surfaces in contact, smoother surfaces produce less friction, and the weight of the object moving horizontally affects the resistance relative to the two surfaces in contact. Greater weight causes greater resistance.
Yes. Double the weight and double the friction.
1.nature of the substance and the surface (roughness or smoothness). 2.mass of the object.
The coefficiant of friction between the two surfaces and the normal reaction force of the object lying on the surface
Friction is what causes an object to stop. Friction is cause by having and ridgy type ground forcing the object to stop.
No. The speed of the object does not affect the amount of friction between an object and the surface. Friction is affected by the types of surfaces in contact, smoother surfaces produce less friction, and the weight of the object moving horizontally affects the resistance relative to the two surfaces in contact. Greater weight causes greater resistance.
Yes. Double the weight and double the friction.
No, it doesn't, the only important thing is the force perpendicular to the surface (weight) and friction coefficient.
1.nature of the substance and the surface (roughness or smoothness). 2.mass of the object.
The coefficiant of friction between the two surfaces and the normal reaction force of the object lying on the surface
coefficientThe amount of friction divided by the weight of an object forms a dimensionless number called the coefficient of friction.
Friction always want to retard the motion of a moving object. So friction slows down and finally stops a moving object.
Friction is what causes an object to stop. Friction is cause by having and ridgy type ground forcing the object to stop.
the smoother a surface is, the less friction it produces.
Friction does not affect inertia, but it affects momentum. Momentum is the product of the mass of an object and its speed. Friction forces, if present, will always act to decrease the momentum of a moving object.
Yes Friction=Reaction force x COF Reaction force = mass x gravity So Friction=mass x gravity x COF ^ Change the mass, change the friction
Force due to friction opposes an object in motion, and any forces that propel that object.