Yes, linearly. The more it weighs, the more friction.
Weight affects friction by increasing the force pressing the surfaces together, resulting in more friction. Mass does not directly affect friction, but it influences the normal force, which in turn affects friction. Generally, higher weight or mass leads to higher friction.
No, weight does not directly affect the amount of friction between an object and a surface. The factors that affect friction are the nature of the surfaces in contact and the force pushing them together. The normal force, which is perpendicular to the surface, is what influences the frictional force, not the weight of the object.
Kinetic friction is independent of the weight of the object. It is determined by the nature of the surfaces in contact and the force pressing them together. The weight of the object affects the normal force, which in turn affects the frictional force, but the coefficient of kinetic friction remains constant for a given surface.
Weight affects the frictional force between two surfaces. As weight increases, the normal force between the surfaces also increases, which in turn increases the frictional force. This means that greater weight can result in higher friction between surfaces.
The weight of an object affects friction by increasing the normal force acting between the object and the surface it is on. Friction is directly proportional to the normal force, so as the weight of the object increases, so does the frictional force. This means that heavier objects will experience greater friction when moving across a surface compared to lighter objects.
Weight affects friction by increasing the force pressing the surfaces together, resulting in more friction. Mass does not directly affect friction, but it influences the normal force, which in turn affects friction. Generally, higher weight or mass leads to higher friction.
no, friction just changes the motion of an object.
No, weight does not directly affect the amount of friction between an object and a surface. The factors that affect friction are the nature of the surfaces in contact and the force pushing them together. The normal force, which is perpendicular to the surface, is what influences the frictional force, not the weight of the object.
Kinetic friction is independent of the weight of the object. It is determined by the nature of the surfaces in contact and the force pressing them together. The weight of the object affects the normal force, which in turn affects the frictional force, but the coefficient of kinetic friction remains constant for a given surface.
Weight affects the frictional force between two surfaces. As weight increases, the normal force between the surfaces also increases, which in turn increases the frictional force. This means that greater weight can result in higher friction between surfaces.
The weight of an object affects friction by increasing the normal force acting between the object and the surface it is on. Friction is directly proportional to the normal force, so as the weight of the object increases, so does the frictional force. This means that heavier objects will experience greater friction when moving across a surface compared to lighter objects.
By using kinetic friction
I think you are asking whether friction is proportionalto weight in which case the answer is yes In other words if you double the weight you double the friction or halve the weight to halve the friction.
if there is friction on the hill it will slow you down
it affects motion by friction a friction pull it down or up
Mass affects friction by increasing the normal force between the surfaces, which in turn increases the frictional force. Surface type affects friction by altering the coefficient of friction between the surfaces - rougher surfaces typically have higher coefficients of friction which results in greater frictional forces.
The graph of force of friction vs total weight is typically linear, following the equation of force of friction = coefficient of friction * total weight. As total weight increases, the force of friction also increases proportionally. The slope of the graph represents the coefficient of friction.