For example, if a car moves on a road, it moves with respect to something - in this case, to the planet Earth. From the point of view of the car, the Earth is moving in the opposite direction.
If you were referring to forces, better ask a separate question about forces.
No, a moving object slows down due to external forces acting upon it, such as friction or air resistance. The force of motion does not "run out," rather, it is overcome by these opposing forces, causing the object to decelerate.
According to Galileo, an object moving without opposing friction or other forces will continue moving at a constant velocity in a straight line. This is described by the first law of motion, known as the law of inertia.
The force that acts in an opposite direction to the motion of a moving object is called friction. Friction occurs when two surfaces rub against each other, resisting the motion of the object. It can be kinetic friction if the object is already in motion, or static friction if the object is at rest.
Friction can slow down a moving object by opposing its motion, generate heat due to the contact between surfaces, and wear down the surfaces involved over time.
Friction, air resistance, and opposing forces like gravity can all act on an object to make it stop moving. These forces create resistance against the object's motion, eventually bringing it to a halt.
No, a moving object slows down due to external forces acting upon it, such as friction or air resistance. The force of motion does not "run out," rather, it is overcome by these opposing forces, causing the object to decelerate.
When an object is moving it stays moving unless acted upon by opposing force(s). i.e. gravity, friction, etc. See Newton's 1st law of motion: related links.
According to Galileo, an object moving without opposing friction or other forces will continue moving at a constant velocity in a straight line. This is described by the first law of motion, known as the law of inertia.
The force that acts in an opposite direction to the motion of a moving object is called friction. Friction occurs when two surfaces rub against each other, resisting the motion of the object. It can be kinetic friction if the object is already in motion, or static friction if the object is at rest.
Friction can slow down a moving object by opposing its motion, generate heat due to the contact between surfaces, and wear down the surfaces involved over time.
Friction, air resistance, and opposing forces like gravity can all act on an object to make it stop moving. These forces create resistance against the object's motion, eventually bringing it to a halt.
FALSE
When a moving object is pushed in the direction of its motion the speed of the object increases
When a moving object is pushed in the direction of its motion the speed of the object increases
Friction is the force that slows down moving objects by opposing their motion through contact between surfaces. This resistance arises due to the contact between the surfaces of the moving object and the surface on which it is moving.
an object at rest continues to be at rest ( inertia ) until an outside force is applied to begin motion : an object in motion continues in the same motion ( inertia ) until an opposing force is applied to change the direction ( vector ) or to stop the motion...the weight ( mass ) of the object is directly related to the amount of energy required to be motion, change motion or stop motion....
Kinetic energy and lack of opposing forces such as friction.