if you put force on an object, in the opposite way it is moving. force makes an object with mass accelerate. if the force you put accelerates it enough it will stop spontaneously, or else it will stop slowly. if that first type of motion was created by force, and i mean the force is still forcing the object to move, then u have to put more force to the object in the opposite direction in order to stop it. F= m*a where F = force , m= mass , a= acceleration hope u got ur answer
A force that resists motion is inertia.
what starts to move an object is force because it's pushing on the object and what stop's the obect from moveing is force too because if the force is going the oppisit way its going to stop the object.
If you apply force to an object, you accelerate it. If you apply the force in the direction that the object is moving, you speed it up. If you apply it in the opposite direction, you slow it down. If you apply the force in another direction than the object is moving in you will change the direction of the objects motion. The amount of acceleration is given by a = F/m where a is acceleration, F is force and m is the mass of the object.
Yes, an unbalanced force is needed to change the motion of an object.If an unbalanced force does not act on an object it will continue to maintain its state of motion (either in motion or at rest), not considering the effect of frictional force. This is basically Newtons first law of motion.
Kinetic
The force that causes the car to stop by opposing its motion is friction. Friction occurs between the tires of the car and the road surface, creating a force that resists the motion of the car, ultimately bringing it to a stop.
FRiction
When the force acts perpendicular to the direction of motion then it makes it to move along curved path When the force is opposite to motion then it could stop it
any force opposite the direction of motion
A net force on a body can stop the motion of a body , can create the motion of a body and can change the direction of motion of a body .
Force is any interaction that, when unopposed, will change the motion of an object. Force can cause an object to accelerate, decelerate, stop, or change direction. Essentially, force and motion are directly related, as force is what causes changes in the motion of an object.
To make an object move, a force is required. To change the direction of an object's motion, a different force must be applied in the desired direction. To stop the motion of an object, a force opposite to its direction of motion, known as a braking force, can be applied.
When a force is acted on an object the motion changes. Newtons 2nd law of motion states: An object in motion will stay in motion, and an object out of motion will stay out of motion, unless met with an unbalanced force. If a force is aplied to an object in motion it either accelerates, or it will stop once met with sed unbalanced force.
An example of a force that can stop an object's motion is friction. When two surfaces come into contact, they experience a frictional force that opposes the object's motion, eventually bringing it to a stop. This force is proportional to the normal force pushing the surfaces together and the coefficient of friction between them.
Force can either start motion, change the speed or direction of motion, or stop an object in motion. It is a vector quantity with both magnitude and direction, leading to acceleration in the direction of the force applied.
The force that makes an object stop moving is typically friction. When an object is in motion, the force of friction between the object and the surface it is moving on acts in the opposite direction of the object's motion, eventually bringing the object to a stop.
A force can make an object move by exerting a push or a pull on it. The direction of the force determines how the object will move. A force in the same direction as the object's motion can increase its speed, while a force in the opposite direction can slow it down or stop it. Changing the direction of the force can also change the object's direction of motion.