A train travels over a FIXED track not a MOVING track.
A train moving along a straight track and a ball rolling along a flat surface are both examples of objects moving in linear motion where they move in a straight line.
Yes, it is possible for the train to appear to move while it is at rest if another train next to it starts moving, creating an illusion of motion. Additionally, if there are vibrations or movements in the surroundings that are transferred to the stationary train, it may also feel like it is moving.
A car moving along a straight road. A train traveling on a railway track.
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.
The motion of an athlete running on a circular track can be described as both translational motion (moving around the track) and rotational motion (legs moving in a circular path). This combination of motions allows the athlete to maintain speed and direction while covering the curved path of the track.
A train moving along a straight track and a ball rolling along a flat surface are both examples of objects moving in linear motion where they move in a straight line.
Yes, it is possible for the train to appear to move while it is at rest if another train next to it starts moving, creating an illusion of motion. Additionally, if there are vibrations or movements in the surroundings that are transferred to the stationary train, it may also feel like it is moving.
A car moving along a straight road. A train traveling on a railway track.
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.
The motion of an athlete running on a circular track can be described as both translational motion (moving around the track) and rotational motion (legs moving in a circular path). This combination of motions allows the athlete to maintain speed and direction while covering the curved path of the track.
You wouldn't be able to tell. This is because you have no frame of reference to compare the motion to. You judge motion based on a point in space. If all the doors are closed, and all of the windows have shades pulled, the only points that you could compare to are ones that are moving at the same speed as you. Assuming that you feel no vibration, you couldn't tell if the train is stopped or moving. There are ways however to tell motion, just not visually. . If you have a GPS with you, you will realize that the position on the earth is changing.
yes, a train in which you are sitting appears to move while it is at rest, because of relative term as motion & rest are relative term . Actually it is depend upon observer. Example- If a boy sitting in train, when he see a man moving outside the train, it seems to him that it is in motion.
This is an example of the concept of relative motion. When two objects are moving in the same direction at different speeds, the faster object appears to be moving forward relative to the slower object. This creates the illusion that the slower object is moving backward when it is actually moving forward at a slower pace.
If you see a clock on a very fast train moving by you, you would observe that the clock appears to be moving faster than normal due to the train's speed. This is because of the relative motion between you and the train.
The passengers reference point ! The passengers are moving at the same speed as the train.
The type of friction involved in a train moving along a track is mainly rolling friction. This occurs between the wheels of the train and the tracks they roll on. Rolling friction is less than sliding friction, allowing the train to move more efficiently.
Relative motion. To talk about a train moving at a certain speed usually means that the train is moving at a certain speed relative to a stationary observer (relative to the ground). This however also means that a passenger traveling in said train would experience the ground (and every other stationary object) as the moving object. This is why a stationary train may seem to be moving to passengers of an already moving train.