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1.Why do you tend to move backward when a bus suddenly starts moving from rest?Answer: The inertia at rest of your body tends to resist the bus' motion.2. Why do you tend to move forward when a traveling bus suddenly stops?Answer: The inertia in motion of your body keeps you to continue moving even ifthe bus has already stopped
If there is no net force, the object will stay at rest if it was at rest, or continue moving - at constant velocity - if it was already moving.
Yes. For example, if you are sitting on a train that is at rest, but there is a train on the next track that is moving, it may appear that you are moving.
Yes. For example, if you are sitting on a train that is at rest, but there is a train on the next track that is moving, it may appear that you are moving.
because maybe the other objects are moving
Any force.
The Law of Inertia.
1.Why do you tend to move backward when a bus suddenly starts moving from rest?Answer: The inertia at rest of your body tends to resist the bus' motion.2. Why do you tend to move forward when a traveling bus suddenly stops?Answer: The inertia in motion of your body keeps you to continue moving even ifthe bus has already stopped
If there is no net force, the object will stay at rest if it was at rest, or continue moving - at constant velocity - if it was already moving.
Newton's First Law doesn't state that an object remains at rest. That's only one option. If no net force acts on an object, it will either remain at rest, or - if it was already moving - continue moving at a constant velocity.Newton's First Law doesn't state that an object remains at rest. That's only one option. If no net force acts on an object, it will either remain at rest, or - if it was already moving - continue moving at a constant velocity.Newton's First Law doesn't state that an object remains at rest. That's only one option. If no net force acts on an object, it will either remain at rest, or - if it was already moving - continue moving at a constant velocity.Newton's First Law doesn't state that an object remains at rest. That's only one option. If no net force acts on an object, it will either remain at rest, or - if it was already moving - continue moving at a constant velocity.
Yes. For example, if you are sitting on a train that is at rest, but there is a train on the next track that is moving, it may appear that you are moving.
Yes. For example, if you are sitting on a train that is at rest, but there is a train on the next track that is moving, it may appear that you are moving.
Sharks die when they don't move, so even though they rest, they don't stop moving!
because maybe the other objects are moving
False. If it is at rest then it cannot spontaneously move and, conversely, if it is moving, it cannot come to rest all by itself. There must be some external force causing that change.
Well, technically yes. Everything in the universe is moving at some rate. Not to mention that the earth is moving, thus everything on Earth is moving with it. !
Objects start out as either a rest or moving. If they are at rest, they require a force to be applied for them to start moving. If they are moving, they require a force to either slow them down or to make them stop. That means that once something starts moving, it will move forever, unless a force slows it down. The catch is that the force can be friction.