No, because force is too weak to overcome friction.
No. Only a NET FORCE can result in an acceleration, and thus change the velocity of an object.
No, motion is not a force. Motion is a change of coordinates. However, motion usually is a result of applying a force.
The Centripetal Force
The Centripetal Force
No, because force is too weak to overcome friction.
No. Only a NET FORCE can result in an acceleration, and thus change the velocity of an object.
No, motion is not a force. Motion is a change of coordinates. However, motion usually is a result of applying a force.
The Centripetal Force
The Centripetal Force
yes
it usually does, but if the force is balanced, it will not change the object's motion
The force associated with Torque T is always perpendicular to the torque motion, T=FxR.
The result is acceleration of the object ... its speed of motion, or direction of motion, or both, change.
Gravity provides a force; any net force will result in an acceleration, i.e., a change of motion.
No, it only results in motion if enough force is applied. For instance, if I were to push a box that weighs 200lbs, with only 1 Newton of force, it wouldn't move. Therefore no motion took place(Aka no work was done, measured in Joules)
An unbalanced force will cause an acceleration and a change in motion.