Force is directly proportional to acceleration, so the greater the force, the greater the acceleration.
inertia affects it. A force can move anything depending on its strength. Inertia states that an object at rest wants to stay at rest, and an object in motion wants to stay in motion. They alter the courses and movement of objects that have less force than the force trying to move the object
The strength of the gravitational force of attraction between two objects is proportional to both masses.
For an object in motion, a force applied in the direction of the movement of the object would propel it further along that direction. The force should be equal or more than the momentum of the object. If a force in applied against the moving object in a direction opposite to the movement of the object, the velocity of the moving object is hampered. How much this decrease in velocity would occur would depend on the amount of the opposing force. If a sufficiently large force in an opposing direction is applied, it can even stop the object. If the force is not along or opposite the movement of the object, the force can change the direction of the object. If the force that was causing the movement of the object is removed, the object slows down, until it finally stops. For an object at rest, a sufficient amount of force can set the object in motion.
Strength of force must overcome the weight of the object to cause it to move.
The density of the object or the shape of the object (like a boat) determines the buoyant force.
Next time, try to be a little less vague.
inertia affects it. A force can move anything depending on its strength. Inertia states that an object at rest wants to stay at rest, and an object in motion wants to stay in motion. They alter the courses and movement of objects that have less force than the force trying to move the object
The strength of the gravitational force of attraction between two objects is proportional to both masses.
For an object in motion, a force applied in the direction of the movement of the object would propel it further along that direction. The force should be equal or more than the momentum of the object. If a force in applied against the moving object in a direction opposite to the movement of the object, the velocity of the moving object is hampered. How much this decrease in velocity would occur would depend on the amount of the opposing force. If a sufficiently large force in an opposing direction is applied, it can even stop the object. If the force is not along or opposite the movement of the object, the force can change the direction of the object. If the force that was causing the movement of the object is removed, the object slows down, until it finally stops. For an object at rest, a sufficient amount of force can set the object in motion.
Friction provides a force, and therefore an acceleration, in the opposite direction of motion.
Strength of force must overcome the weight of the object to cause it to move.
Three factors that affect movement are friction, wind resistance, and velocity. Friction is the resistance that a single object encounters when moving over another object. Velocity is speed, and wind resistance is the opposing force on an object.
The motion of an object is determined according to Newton's laws of motion. In particular, acceleration is proportional to force. If you change the force, you change the acceleration. There are many details beyond that, but that is the simple answer to a very broad question. NOTE: Neither the force nor a change in it has any effect on the motion of an object unless the force happens to be acting on the object.
Force is strength or energy as an attribute of physical action or movement.
The density of the object or the shape of the object (like a boat) determines the buoyant force.
Mass
When forces are unbalanced on an object, the object will move.