the object moves slower
Friction can be increased by reducing the speed of the moving object. Friction can also be increased by increasing the weight of the moving object.
If an object is moving on the same surface the friction is the same throughout. However, more friction is caused by a rougher surface and less friction is caused by smoother surfaces.
Limiting friction is the case of static friction where an object is right on the edge of moving, any more force applied to the object will cause it to move. Limiting friction is the largest value that the static friction can take
Friction inhibits motion by creating more resistance to the gravity and velocity at work when an object is in motion. The more resistance, the more energy is required to move the object. Unless there is a source of energy replenishing that which is list by moving the object through the resistant object or substance (i.e., sand), the energy will eventually dwindle to the point of exhaustion and the object will stop moving.
I have to guess either gravity or friction.If by that you mean a force that opposes the start of motion, then your force would be static friction.Static friction only occurs before an object starts moving, as opposed to kinetic friction which occurs when the objects is moving or sliding. The equation for static friction is: Ff = (coefficient of static friction) * FNInertia
Limiting friction is the case of static friction where an object is right on the edge of moving, any more force applied to the object will cause it to move. Limiting friction is the largest value that the static friction can take
The general tendency is that there is less friction on a smooth surface. The object will eventually slow down (if there are no forces to keep it moving), but the rate of slowing down will be less than on surfaces that provide more friction.
Friction can be increased by reducing the speed of the moving object. Friction can also be increased by increasing the weight of the moving object.
Friction is independent of speed once an object is moving since faster does not mean more friction.
because the more heavy it is, the more friction it has on a road. the friction slows it down.
If an object is moving on the same surface the friction is the same throughout. However, more friction is caused by a rougher surface and less friction is caused by smoother surfaces.
Limiting friction is the case of static friction where an object is right on the edge of moving, any more force applied to the object will cause it to move. Limiting friction is the largest value that the static friction can take
Because of friction. Every object has 2 friction coefficient values (called Mu and with its own symbol) - one stationary, and the other while the object is moving. It always takes more force (N) to move an object from a stand-still then it does to keep the same object moving.
Weight and surface affect friction. The more mass an object has more friction that will occur ex:/ It would be harder to slide an elephant across a floor than a hockey puck. This is because the large amount of friction on the elephant would slow it down. The smoother the surface the less friction. ex:/ There will be more friction on a floor of sandpaper than there would be on a floor of ice.
Friction inhibits motion by creating more resistance to the gravity and velocity at work when an object is in motion. The more resistance, the more energy is required to move the object. Unless there is a source of energy replenishing that which is list by moving the object through the resistant object or substance (i.e., sand), the energy will eventually dwindle to the point of exhaustion and the object will stop moving.
Sliding friction is the friction between the body and the surface on which the body is sliding. Static friction however, is the friction when the body isn't moving when you aply force to it. The force of static friction is the same as the force you are pushing the body UNTIL it moves!..It's a fact that the static friction coefficient is a bit bigger than the sliding friction coefficient.
Water has high cohesive forces