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)
-- First of all, motion doesn't require any force.-- If the forces on an object are unbalanced, then the object's motion changes. Always.-- If the forces on an object are balanced, then the object's motion doesn't change.
No, forces do not always result in motion. A force can cause an object to start moving, change its direction, or change its speed. However, if the forces acting on an object are balanced, the object will remain at rest or in constant motion.
When forces are balanced, the object remains in a state of rest or continues moving at a constant velocity, also known as uniform motion.
No, of course not! We ourselves we change our motion!
No, forces do not always result in motion. An object will only move if there is a resulting net force acting on it in a certain direction, as described by Newton's First Law of Motion. If the forces acting on the object are balanced or cancel each other out, then the object will remain at rest or continue moving at a constant velocity.
YES
sddd
more motion :O
-- First of all, motion doesn't require any force.-- If the forces on an object are unbalanced, then the object's motion changes. Always.-- If the forces on an object are balanced, then the object's motion doesn't change.
No.
No, forces do not always result in motion. A force can cause an object to start moving, change its direction, or change its speed. However, if the forces acting on an object are balanced, the object will remain at rest or in constant motion.
opposing the motion
When forces are balanced, the object remains in a state of rest or continues moving at a constant velocity, also known as uniform motion.
Oppose & Prevent
No, of course not! We ourselves we change our motion!
No, forces do not always result in motion. An object will only move if there is a resulting net force acting on it in a certain direction, as described by Newton's First Law of Motion. If the forces acting on the object are balanced or cancel each other out, then the object will remain at rest or continue moving at a constant velocity.
Motion does not require a force; if no force is acting on a body in motion, its motion will be constant. A force is required to change motion, and any unbalanced force acting on an object can do this.