Water can make a flat surface more slippery, which will decrease the amount of friction
Surface types can affect the force of friction because as the surface gets rough and rougher it has more friction and smooth surface has less friction. if we compare the affect of friction force on a ice and road. Road is much more rough than the ice chunk and if we slide a ice hockey puck on each of the surfaces, we get that smoother surfaces has less friction.
The force of friction between the bike tires and the wet surface is reduced compared to a dry surface, leading to decreased braking effectiveness. The water on the wet surface acts as a lubricant, reducing the grip between the tires and the road, which requires a longer stopping distance for the bike.
Yes, surface area can affect static friction. Generally, larger surface area will result in greater static friction because there is a larger area for interlocking between the surfaces, increasing the resistance to sliding.
Surface area does not directly affect friction; rather, friction is related to the roughness of the surfaces in contact. An increase in surface area may lead to an increase in friction if there are more contact points between the surfaces. However, the type and condition of the surfaces, as well as the force pressing them together, also play a significant role in determining friction.
The variable that does not affect friction is the surface area in contact. Friction is primarily influenced by the nature of the surfaces in contact, the applied force, and the roughness of the surfaces. The surface area does not have a direct effect on the frictional force generated between two surfaces.
friction
the smoother a surface is, the less friction it produces.
the rougher the surface is, the more friction there will be
answer it yourself ;)
surface friction and sliding friction
The nature of the surface. A measure of this is the coefficient of friction.
Surface types can affect the force of friction because as the surface gets rough and rougher it has more friction and smooth surface has less friction. if we compare the affect of friction force on a ice and road. Road is much more rough than the ice chunk and if we slide a ice hockey puck on each of the surfaces, we get that smoother surfaces has less friction.
when you slide across a surface and then see an affect after.
The force of friction between the bike tires and the wet surface is reduced compared to a dry surface, leading to decreased braking effectiveness. The water on the wet surface acts as a lubricant, reducing the grip between the tires and the road, which requires a longer stopping distance for the bike.
Yes, surface area can affect static friction. Generally, larger surface area will result in greater static friction because there is a larger area for interlocking between the surfaces, increasing the resistance to sliding.
Surface area does not directly affect friction; rather, friction is related to the roughness of the surfaces in contact. An increase in surface area may lead to an increase in friction if there are more contact points between the surfaces. However, the type and condition of the surfaces, as well as the force pressing them together, also play a significant role in determining friction.
The variable that does not affect friction is the surface area in contact. Friction is primarily influenced by the nature of the surfaces in contact, the applied force, and the roughness of the surfaces. The surface area does not have a direct effect on the frictional force generated between two surfaces.