Yes, it is possible for displacement to be zero but the distance traveled to be non-zero. This occurs when an object moves back and forth between two points, resulting in zero net displacement but a non-zero total distance covered.
Yes, it is possible to have zero displacement and a non-zero average velocity. This can occur if an object moves back and forth over a certain distance so that the total displacement is zero, but the average velocity is non-zero due to the object covering distance in both directions.
Yes, the distance travelled by a particle can be zero even when the displacement is not zero. This can happen when the particle moves back and forth along the same path, resulting in a net displacement of zero but no actual distance covered.
Yes, it is possible for displacement to be zero if an object starts and ends at the same position. However, distance measures the total length of the path covered, so it can be non-zero even if displacement is zero if the object takes a longer route to get back to its starting point.
Yes, it is possible for an object to have zero displacement even if it has moved through a distance. This can happen if the object moves back and forth or ends up at its initial position after traveling in a closed path. Displacement is a vector quantity that depends on both the magnitude and direction of movement.
No. Distance can be greater than displacement, but not less. The magnitude of the displacement between two points is also the minimum possible distance of a path between the same points.However, the displacement can be zero if the distance is not if the object's starting point and ending point are the same.
Yes, it is possible for displacement to be zero but the distance traveled to be non-zero. This occurs when an object moves back and forth between two points, resulting in zero net displacement but a non-zero total distance covered.
Yes, it is possible to have zero displacement and a non-zero average velocity. This can occur if an object moves back and forth over a certain distance so that the total displacement is zero, but the average velocity is non-zero due to the object covering distance in both directions.
The distance travelled by a particle cannot be zero when displacement is not zero because unlike distance which is a scalar, displacement is a vector quantity implying that it has both direction and magnitude.
Yes, the distance travelled by a particle can be zero even when the displacement is not zero. This can happen when the particle moves back and forth along the same path, resulting in a net displacement of zero but no actual distance covered.
Yes, it is possible for displacement to be zero if an object starts and ends at the same position. However, distance measures the total length of the path covered, so it can be non-zero even if displacement is zero if the object takes a longer route to get back to its starting point.
Yes, it is possible for an object to have zero displacement even if it has moved through a distance. This can happen if the object moves back and forth or ends up at its initial position after traveling in a closed path. Displacement is a vector quantity that depends on both the magnitude and direction of movement.
On a three dimensional basis yes it can. Fir instance, if an object is moving directly towards or away from you the angular displacement can be zero though the distance displacement changes.
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.
Negative
If an object moves in a circular path and returns to its starting point, the displacement is zero because the final position is the same as the initial position. However, the distance traveled along the circular path is not zero, it is equal to the circumference of the circle.
http://wiki.answers.com/Q/An_object_has_moved_though_a_distance_can_it_have_zero_displacement_it_yes_support_your_answer_with_an_example" Yes If a body travel a distance S from X to Y and return to X then distance travelled is 2S but displacement is zero In a uniform circular motion, the distance travelled by a body in one revolution is 2Ï€r but displacement is zero