1 . By polishing the surfaces in contact
2 . By lubricating the surfaces in contact with oil or grease .
we can reduce it by providing lubrication means using oil between 2 surfaces as lubricant.
the energy to change the shape of the tire were it is crunched is a type of drage
More friction is produced on a hard surface than on a smooth surface it takes more force and brute strength to push something heavy on a rough surface, because it falls in the cracks. On a smooth surface you are just sliding across a surface.
the answer is frictional force elotromagnetic force gravitational force
The three forces that causes an object to change its motion are the gravitational force, the normal force and the frictional force.
we can reduce it by providing lubrication means using oil between 2 surfaces as lubricant.
the energy to change the shape of the tire were it is crunched is a type of drage
More friction is produced on a hard surface than on a smooth surface it takes more force and brute strength to push something heavy on a rough surface, because it falls in the cracks. On a smooth surface you are just sliding across a surface.
the answer is frictional force elotromagnetic force gravitational force
Cyclical, frictional, structural and classical.
by eroison
It represents an association between two values numerically.
Frictional force gets doubled. But coefficient of friction does not change
The geometry of the surfaces (to change the reflection), the materials of the surfaces (to absorb radar), the exhaust is cooled to reduce heat signature, anything that reduces the heat and radar signature of the platform
A chemical change involves a change in a substance's chemical properties (characteristics that describe how it interacts with other substances).A physical change involves a change in a substance's physical properties(characteristics that describe certain features one can see with their 5 senses).
The three forces that causes an object to change its motion are the gravitational force, the normal force and the frictional force.
wieners