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How can an object have a distance but have zero displacement?

How can an object have a distance but have zero displacement?

An object moving a certain distance can have zero total displacements. Even if an object moves through a considerable distance, if it eventually comes back to its initial position, the corresponding displacement of the object would be zero. For example, 1 circle of motion has a distance of 2πR but 0 displacements.

Can you travel a long distance and have no displacement?

It is important to note that the distance traveled does not have to equal the magnitude of the displacement (i.e., distance between the two points). Specifically, if an object changes direction in its journey, the total distance traveled will be greater than the magnitude of the displacement between those two points.

Can you have zero displacement but not distance?

Yes, displacement can be zero even if the distance is not zero. For example, when a body is thrown vertically upwards from a point A on the ground, after sometime it comes back to the same point A.

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How can displacement be zero?

Displacement has both magnitude and direction, but it can have zero displacement with nonzero distance because distance has only magnitude and any motion will be the distance it moves. One-dimensional motion cannot have zero distance with a nonzero displacement.

Can an object have zero distance?

The distance of the moving object can never be zero. Distance can be very small, but not zero. The displacement of the object can be zero because it is the vector quantity.

Can displacement be zero for moving object?

ANSWER : Yes, displacement can be zero. displacement is the shortest distance between initial position and final position. But, as the initial and final position are same and distance between your home and home is zero, hence displacement is zero.

Can a displacement from one point to another be zero yet the distance involved in moving these points be non zero?

Answer: Yes, the displacement from one point to another can be zero even if the distance involved in moving between the points are non-zero.

Is it possible to have zero displacement but finite distance covered is the reverse of the statement true?

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Physical Science Yes, it is possible that displacement can be 0 but distance is never 0. but if you see the displacement , it is 0 because your starting point is A and ending point is also A . And reverse of it is not possible because distance can never be 0 if you travel from one point to another.

Can an object have zero displacement even though it has moved through a distance give an example to explain your answer?

Yes. an object which has moved through a distance can have zero displacement if it comes back to its initial position. Example – If a person jogs in a circular park which is circular and completes one round. His Initial and Final Position are same.

Is it possible to walk a distance of 10 miles but have a displacement of 0 miles?

The displacement of the runners is 0 miles. While they have covered a distance of 10 miles, they are not “out of place” or displaced. They finish where they started. Round-trip motions always have a displacement of 0.

Is it possible to have zero distance and displacement?

Answer: Yes, the object instead of moving through a distance can have zero displacement. Example: If an object travels from point A and reaches to the same point A, then its displacement is zero. Also, is it possible to have zero value for distance and displacement both for a moving body?

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What is the difference between displacement and distance travelled?

An object moves in a circular path with start point and end point A. When the object completes one revolution and comes to the point A the distance travelled will be equal to the circumference of the circular path whereas if we draw a straight line between start point and end point the length is zero and hence displacement is zero.

How can displacement be zero in a closed loop?

So, for displacement to be zero, you have to end at the same point where you started. Therefore, if you travel along any closed loop, you will have [math]0math] displacement and non-zero distance.

What is an example of displacement in physics?

For example, when we throw a ball up in the air, for whole of the journey covered by the ball, displacement would be zero as the ball comes back to its original position in the final situation and hence the starting point and end point remains the same which means, shortest distance between terminal points=0 and hence displacement=0.