The mass of a sliding object does not directly affect friction. Friction is primarily influenced by the nature of the surfaces in contact and the normal force pressing them together. However, in some cases, a heavier object may increase the normal force, which in turn can increase the friction force.
Static friction and sliding friction. Static friction is the force that stops a mass from sliding and sliding friction is the force that slows down an object that is already sliding. Static friction is stronger than sliding friction, and this difference is reflected in different coefficients of friction for sliding and static friction for a given surface.
No it does not: an objects force due to gravity while going downhill depends on its mass, but the net force is also based on mass - and it just so happens that the mass cancels out when solving for acceleration. so an object with a higher mass results in the same acceleration. Side note: This is not completely true because of air resistance. But if you were wondering what would happen on the moon, a Styrofoam ball and a ball of silver will roll at the same speed :D
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.
Static friction force increases as mass is increased because there is a greater normal force acting on the object, which increases the maximum possible force of static friction. As more mass is added, the surfaces in contact deform more, creating a larger force that opposes motion. This increased force helps prevent the object from sliding until the force of static friction is overcome.
Friction is directly proportional to the mass of an object. As the mass of an object increases, so does the friction between the object and the surface it is moving across. This is because a heavier object has more contact with the surface, resulting in increased friction.
Mass (gravity) & friction!
The force of sliding friction is directly proportional to the mass of the object experiencing the friction. As the mass increases, the force of sliding friction also increases. This relationship is described by the equation: force of friction = coefficient of friction * normal force, where the normal force is equal to the weight of the object (mass * acceleration due to gravity).
Static friction and sliding friction. Static friction is the force that stops a mass from sliding and sliding friction is the force that slows down an object that is already sliding. Static friction is stronger than sliding friction, and this difference is reflected in different coefficients of friction for sliding and static friction for a given surface.
Yes Friction=Reaction force x COF Reaction force = mass x gravity So Friction=mass x gravity x COF ^ Change the mass, change the friction
Sin no
yes
for lifting the object there is no role of friction,but of air friction.since no info,. is given about it so air friction = 0.thereby for lifting we have mg = mass * 9.8 (the wight of the object). and for sliding we have 0.3*mg . therefore 0.7mg of more force is required to lift it.
Yes. Without sliding friction or rolling friction, we would not be able to walk. It is the relationship between gravity, friction, and mass.
No it does not: an objects force due to gravity while going downhill depends on its mass, but the net force is also based on mass - and it just so happens that the mass cancels out when solving for acceleration. so an object with a higher mass results in the same acceleration. Side note: This is not completely true because of air resistance. But if you were wondering what would happen on the moon, a Styrofoam ball and a ball of silver will roll at the same speed :D
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.
Static friction force increases as mass is increased because there is a greater normal force acting on the object, which increases the maximum possible force of static friction. As more mass is added, the surfaces in contact deform more, creating a larger force that opposes motion. This increased force helps prevent the object from sliding until the force of static friction is overcome.
Friction is directly proportional to the mass of an object. As the mass of an object increases, so does the friction between the object and the surface it is moving across. This is because a heavier object has more contact with the surface, resulting in increased friction.