No, displacement and distance traveled are two different measurements. Distance traveled is the total length of the path taken, while displacement is the change in position from the starting point to the ending point, taking into account direction.
Displacement is the same as direction traveled when an object moves in a straight line with no change in direction. In this case, the distance traveled by the object is equal to its displacement.
Distance and displacement can be the same only if an object moves in a straight line from its starting point and the displacement is measured along that line. In such cases, the magnitude of the displacement is equal to the distance traveled.
When the motion is in a straight line.
No, distance and displacement are not always the same. Distance is the total length traveled regardless of direction, whereas displacement is the shortest path between the initial and final positions, taking into account direction. Thus, they could be different if the path taken is not a straight line.
Displacement is a vector quantity that measures the change in position of an object. It can be zero even if the distance traveled is not zero when the object moves back to its initial position. For example, if a car drives in a complete circle and returns to its starting point, its displacement is zero since the initial and final positions are the same, even though the distance traveled is not zero.
Displacement is the same as direction traveled when an object moves in a straight line with no change in direction. In this case, the distance traveled by the object is equal to its displacement.
Distance and displacement can be the same only if an object moves in a straight line from its starting point and the displacement is measured along that line. In such cases, the magnitude of the displacement is equal to the distance traveled.
When the motion is in a straight line.
distance travel led by a particle in a given interval of time is known as displacement. displacement=distance traveled by time taken.Displacement may be zero. it is path length which a particle travels.distance should not be zero.
No, distance and displacement are not always the same. Distance is the total length traveled regardless of direction, whereas displacement is the shortest path between the initial and final positions, taking into account direction. Thus, they could be different if the path taken is not a straight line.
Displacement is a vector quantity that measures the change in position of an object. It can be zero even if the distance traveled is not zero when the object moves back to its initial position. For example, if a car drives in a complete circle and returns to its starting point, its displacement is zero since the initial and final positions are the same, even though the distance traveled is not zero.
The distance traveled by the body would be twice the height h, as it goes up and then comes back down the same distance. However, the displacement would be zero, as the body ends up at the same position it started from, despite having traveled a distance.
No. The "displacement" is the difference in position, which is not the same as the distance traveled.
Yes,the magnitude of both distance and displacement can be same provided the body continues to travel in a straight line and in the same direction. However you should remember that displacement is a vector quantity while distance is a scalar quantity so they both can be compared only by there magnitude.
Neither of the statements is universally true. Displacement can be zero if the starting and ending points are the same. The magnitude of displacement can be equal to, less than, or greater than the distance traveled by the object, depending on the path taken.
If your displacement is equal to the distance you traveled on a trip, it means that you ended up at the same location you started from. This indicates that your overall movement was in a straight line with no change in direction.
The distance moved by an object is the total length of the path traveled, while the displacement vector is the shortest distance between the starting and ending points in a straight line. Therefore, the distance moved can be greater than or equal to the displacement vector, depending on the path taken by the object.