As the coefficient of friction is not function of the area or not related to the area of the contact surface so the coefficient of friction remains constant on the increase of the contact area. The coefficient of friction depends upon the material of the friction surfaces only.
Without friction, some forms of mechanical advantage do not function. In most cases for a mechanical apparatus, a reduction in friction is usually accompanied by an increase in efficiency.
This coefficient of static friction is needed to find the frictional force between a body and a surface on which body has to move. If u (mu) is the coefficient of friction then uR gives the frictional force between moving body and surface. There is no unit for coefficient of friction. Here R is reaction which equals to the weight of the body
when the friction plate is pressed by the pressure plate a torsional vibration is developed in order to dampen this vibration torsional springs are provided in the spring plate this springs are also called damper spring.
Static Friction and Kinetic Friction. Static Friction is what friction that slows you down. While Kinetic friction is sliding friction.
No. Friction is a function of Normal Force and the friction coefficient, nothing else.
Reduce friction
to reduce the friction in the axillae
The answer is YES
Yes.Yes.Yes.Yes.
FRICTION Function
provide friction for food handling
Friction increases as a function of velocity.
provide friction for food handling
The word is friction. Friction is movement between two surfaces and is also a function of gravity.
As the coefficient of friction is not function of the area or not related to the area of the contact surface so the coefficient of friction remains constant on the increase of the contact area. The coefficient of friction depends upon the material of the friction surfaces only.
As the coefficient of friction is not function of the area or not related to the area of the contact surface so the coefficient of friction remains constant on the increase of the contact area. The coefficient of friction depends upon the material of the friction surfaces only.