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Friction and/or Gravity
Yes. Roughly speaking, smooth surfaces tend to have less frictional force.
It is understood that in which particles are united by elastic forces of force that tend to return to its initial position once the deforming force stops.
"Pulling" is the verb "to pull", meaning to exert a force to so as to cause or tend to cause motion toward the source of the force.
One can equate the centrifugal force of the earth to gravity. In both cases, objects tend to be pulled to a central position.
cos they are in love, greason, boner boy
Friction and/or Gravity
Objects in motion tend to stay in motion unless acted upon by an outside force. Objects at rest tend to stay at rest unless acted upon by an outside force.
A force on an object in a certain direction will tend to move the object in the same direction. Hence, the force is to the right.
It will not get harder on hitting it but crack and even tend to break depending on the amount of force applied on it It will not get harder on hitting it but crack and even tend to break depending on the amount of force applied on it
Yes. Roughly speaking, smooth surfaces tend to have less frictional force.
it is force which can slow down or stop motion
According to VSEPR theory, molecules adjust their geometry to keep the electrons in valence shells as far apart from each other as possible.
Otherwise it will tend to rotate and wont travel in the direction of the force.
It is understood that in which particles are united by elastic forces of force that tend to return to its initial position once the deforming force stops.
"Pulling" is the verb "to pull", meaning to exert a force to so as to cause or tend to cause motion toward the source of the force.
One can equate the centrifugal force of the earth to gravity. In both cases, objects tend to be pulled to a central position.