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Sure. As one car goes around a circle and as it completes one full rotation, then distance covered by the car is the circumference of the circle. But the displacement is Zero.
So distance but no displacement.
Wiki User
∙ 12y ago
Yes, a body can have distance without displacement. For example, if a car drives in a circular track and returns to its starting point, it will have covered a certain distance during the trip, but its displacement will be zero since it ended up at the same position where it started.
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When can a body have same distance and same displacement?
A body can have the same distance and displacement when it moves in a straight line without changing direction. This means the body covers the same distance as the magnitude of its displacement.
When distance covered by a body will be equal to displacement?
The distance covered by a body will be equal to its displacement when the body moves in a straight line without changing direction. This occurs when the body moves from one point to another point in a straight path, as the distance covered will be the same as the displacement between the initial and final positions.
An object has moved though a distance can it have zero displacement it yes support your answer with an example?
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
When is displacement equal to the distance traveled?
Displacement is equal to the distance traveled when the motion is along a straight line. This happens when the motion is in one direction without any changes in direction. In such cases, the magnitude of displacement is equal to the total distance traveled.
Is the distance covered by a body may be greater than the magnitude of displacement?
Yes, the distance covered by a body can be greater than the magnitude of displacement if the body moves along a curved path rather than a straight line. Distance is a scalar quantity that measures the total length of the path traveled, while displacement is a vector quantity that measures the shortest distance between the initial and final positions.
When can a body have same distance and same displacement?
A body can have the same distance and displacement when it moves in a straight line without changing direction. This means the body covers the same distance as the magnitude of its displacement.
When distance covered by a body will be equal to displacement?
The distance covered by a body will be equal to its displacement when the body moves in a straight line without changing direction. This occurs when the body moves from one point to another point in a straight path, as the distance covered will be the same as the displacement between the initial and final positions.
Is the distance covered by a body may be greater than a magnitude of the displacement?
yes,displacement is the shortest distance covered by a body,so distance covered by a body may be greater than the displacement.
An object has moved though a distance can it have zero displacement it yes support your answer with an example?
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
When is displacement equal to the distance traveled?
Displacement is equal to the distance traveled when the motion is along a straight line. This happens when the motion is in one direction without any changes in direction. In such cases, the magnitude of displacement is equal to the total distance traveled.
Is the distance coveredby body may be greater than magnitude of the displacement?
Yes distance will be equal or more than the magnitude of displacement. Distance cannot be less than the magnitude of displacement in any way. For example if a body goes around a circle completing one full round then distance covered will be the circumference ie 2pi r But displacement is zero. As the starting and stopping point are one and the same, the distance between initial and final is zero.
Is the distance covered by a body may be greater than the magnitude of displacement?
Yes, the distance covered by a body can be greater than the magnitude of displacement if the body moves along a curved path rather than a straight line. Distance is a scalar quantity that measures the total length of the path traveled, while displacement is a vector quantity that measures the shortest distance between the initial and final positions.
Is the distance covered by body may be greater than the magnitude of the displacement?
"Distance" covered is always greater than the magnitude of the displacement,unless the motion is in a straight line. In that case, distance and displacementare equal. Distance is never less than displacement.
Is the displacement of a body same as the actual distance traveled by the body?
No, displacement of a body is the change in position from beginning to end, regardless of the path taken, whereas the distance traveled by the body is the total length of the path taken by the body. These two quantities can be equal only if the body moves in a straight line.
Is the distance covered by body may be greater than magnitude of the displacement?
Yes, the distance covered by a body can be greater than the magnitude of the displacement. This usually occurs when the body moves back and forth or takes a longer path, leading to a greater distance traveled compared to the straight-line displacement between the initial and final positions.
Give an example where displacement is zero but distance is not?
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.
How a displacement is zero when a body moves from origen and return to same point?
Displacement is a value predicated on the shortest distance between an initial and final position. If a "body" moves a certain distance and returns to its original origin it has not technically traveled any distance based on this definition. The displacement will therefore be zero
