The force of friction on an object is equal to the coefficient of friction times the force perpendicular to the surface (normal force). When the mass of an object increases, the normal force increases, and the force of friction also increases. However, because the equation does not involve surface area, increasing surface area has no affect on the force of friction.
No. In order for an object to remain stationary, the forces on it must be balanced. If the pull on the object increases, the force of static friction must also increase.
by slaiding friction increase
The amount of friction increases.
In a fluid, the force of friction tends to increase when the speed increases. The exact relationship, however, is far from simple.
We can increase friction by making the surfaces of the object rough. We can also increase friction by pressing the two objects more strongly.
Rougher surface and more weight to the object increases friction
No. In order for an object to remain stationary, the forces on it must be balanced. If the pull on the object increases, the force of static friction must also increase.
by slaiding friction increase
Friction between two objects = C X N. where C is the coeffiecient of friction for the objects in question, and N is the 'Normal' force. The normal force is the force equal and opposite to the object's weight. Therefore, if you increase the object's weight, the friction force increases, and the amount of energy wasted increases.
The amount of friction increases.
In a fluid, the force of friction tends to increase when the speed increases. The exact relationship, however, is far from simple.
An "object" cannot increase- "object" is not a mesurement.
We can increase friction by making the surfaces of the object rough. We can also increase friction by pressing the two objects more strongly.
It increases. Static friction is the friction that opposes an object at rest to begin moving, given the following formula :- Fs = MsN, where ms is the coefficient of static friction, and n is the normal force, which is equal to mg if is at the x-axis. As the formula shows, the static friction increases with an increase in mass.
A force is a force, and independent of whatever it is is being applied to. One can discuss inertial, gravitational, or a frictional forces, and these things increase proportionally with mass increases.
Increasing the weight of the object and the smoothness of the surface the object is on (the less smooth the more friction)
a tractor pull