Friction produces heat due to the interactions between surfaces, wear as the surfaces rub against each other, and resistance to motion which can slow down or stop an object.
Friction can slow down a moving object by opposing its motion, generate heat due to the contact between surfaces, and wear down the surfaces involved over time.
Mechanical things break because of friction or metal fatigue, and most other things break due to oxidation or free radical damage (such as plastic items sitting in the sun). Some things break or wear out due to abuse or misuse of the object.
Friction can cause things to change direction, slow down or stop. It also produces heat, and in extreme cases sparks.
1) In machines the mechanical parts which rub with each other wear out. 2) Due to friction between the sole of the shoe and the floor the sole wears out. 3) Tyres of vehicles wear out because of friction. 4) Energy is wasted in overcoming the force of friction.
It can cause things to stop. (===========================) friction did that
A car engine can stop working well due to friction if the components, such as pistons and cylinders, experience excessive wear and tear. This friction can cause decreased performance and eventually lead to engine failure.
1) In machines the mechanical parts which rub with each other wear out. 2) Due to friction between the sole of the shoe and the floor the sole wears out. 3) Tyres of vehicles wear out because of friction. 4) Energy is wasted in overcoming the force of friction.
Texturing involves the smoothening of the surface. As friction is caused due to the interlocking of the irregularities of the two surfaces in contact, smoothening of the surface makes sure that there are less of these 'irregularities'. The lesser the irregularities, the lesser will be the friction. The lesser the friction, the lesser the wear and tear.
Friction can produce heat, wear, and sound. When two surfaces rub against each other, the friction between them can generate heat due to the energy expended in overcoming the resistance. This can lead to wear and tear on the surfaces involved. Additionally, the interaction of surfaces can produce sound as a result of the friction forces acting between them.
Heat,wear,and static electricity(depending on what the objects are made of).
Friction can be measured using instruments like a spring scale to measure force required to overcome friction, or a friction tester to measure coefficient of friction between two surfaces. Friction can also be estimated by analyzing the wear patterns on surfaces or by calculating the energy lost due to friction during motion.