The displacement of a circle is zero, regardless of the radius.
Displacement is a vector quantity that measures the overall change in position of an object. It is the shortest distance between the initial and final positions of an object, measured in a straight line.
However, a circle is a closed curve, and any point on the circle returns to its original position after one complete revolution. Therefore, the displacement of a circle is zero, as the starting and ending points are the same.
In summary, the displacement of a circle is zero, regardless of the radius.
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Answer:
The displacement of a circle is zero, regardless of the radius.
Displacement is a vector quantity that measures the overall change in position of an object. It is the shortest distance between the initial and final positions of an object, measured in a straight line.
However, a circle is a closed curve, and any point on the circle returns to its original position after one complete revolution. Therefore, the displacement of a circle is zero, as the starting and ending points are the same.
In summary, the displacement of a circle is zero, regardless of the radius.
Verified answer
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You've given a question with duality. If you want to know the displacement on a circular path then the answer is in the first picture where 'a' is displacement
But if you meant a circle is displacing then it'll be in the second picture.
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