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Why does a moving object eventually come to a stop on a frictional surface?
A moving object eventually comes to a stop on a frictional surface because the friction between the object and the surface creates a force that opposes the object's motion, gradually slowing it down until it stops.
Is the reason a moving object slows down is that its force of motion gradually runs out?
FALSE
How do you know that all objects in motion have a speed?
All objects in motion have a speed because motion by definition involves the change of an object's position over time. The speed of an object is simply the measure of how fast it is moving, typically in terms of distance covered per unit of time.
Why is less force needed to keep an object moving than to start the object in motion?
1). Because maintaining an object in motion requires no force, but causing a non-moving object to move involves acceleration which does require force. 2). Because kinetic friction is generally less than static friction.
Why does it take more force to get an object moving than to keep it moving?
It takes more force to get an object moving because you need to overcome its initial inertia, which is the resistance of the object to changes in its motion. Once the object is moving, it requires less force to keep it in motion because there is less resistance once it has overcome the inertia.
Why does a moving object eventually come to a stop on a frictional surface?
A moving object eventually comes to a stop on a frictional surface because the friction between the object and the surface creates a force that opposes the object's motion, gradually slowing it down until it stops.
Is the reason a moving object slows down is that its force of motion gradually runs out?
FALSE
How do you know that all objects in motion have a speed?
All objects in motion have a speed because motion by definition involves the change of an object's position over time. The speed of an object is simply the measure of how fast it is moving, typically in terms of distance covered per unit of time.
Why is less force needed to keep an object moving than to start the object in motion?
1). Because maintaining an object in motion requires no force, but causing a non-moving object to move involves acceleration which does require force. 2). Because kinetic friction is generally less than static friction.
Why does it take more force to get an object moving than to keep it moving?
It takes more force to get an object moving because you need to overcome its initial inertia, which is the resistance of the object to changes in its motion. Once the object is moving, it requires less force to keep it in motion because there is less resistance once it has overcome the inertia.
Why does object in motion stay in motion?
An object in motion stays in motion because of inertia, which is the tendency of an object to resist changes in its state of motion. Once an object is set in motion, it will continue moving at a constant velocity unless acted upon by an external force.
Which force tend to slow an object in motion?
The force that tends to slow an object in motion is typically friction. Friction arises between the object and the surface it is moving on, creating a resistance that opposes the motion and gradually reduces the object's speed. Other factors such as air resistance and drag can also contribute to slowing an object in motion.
Why is less force neede needed to keep an object moving than to start the object in motion.?
The best, purest answer is: Because no force at all is required to keep a moving object moving.
What is The energy and object has because it is moving?
The energy of motion is called kinetic energy.
How is the motion of an object compared to other objects that are standing still?
They are the exact same. If an object is standing still, it is in motion. Everything in the world is in motion. Not because of the earth moving, it is because particles in all objects are moving.
What happen to the speed of moving object when it is pushed in the direction of motion?
When a moving object is pushed in the direction of its motion the speed of the object increases
What happened to the speed of moving object when it is pushed in the direction of motion?
When a moving object is pushed in the direction of its motion the speed of the object increases
