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Is distance always greater than or equal to the magnitude of the displacement?
Wiki User
∙ 12y ago
Yes it is. Good work.
Wiki User
∙ 12y ago
No, distance is not always greater than or equal to the magnitude of displacement. Distance measures the total path length traveled, while displacement is the straight-line distance between the initial and final positions. In some cases, especially with curved paths, the distance can be greater than the displacement.
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What is always true about magnitude of the displacement?
The magnitude of the displacement is always equal to or greater than the distance traveled. This is because the magnitude of displacement is the shortest distance between the initial and final positions, while distance traveled is the total length of the path taken.
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.
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.
Distance is always less than or equal to the magnitude of the displacement. true or false?
True. Distance is the total length of the path traveled, while displacement is the direct line from the starting point to the ending point. Therefore, the distance can never be greater than the magnitude of the displacement.
Distance is always less then or equal to the magnitude of the displacement?
Distance is the total length of the path traveled between two points, while displacement is the direct line distance between those points. Distance can be equal to or greater than the magnitude of displacement if the path followed is not a straight line.
What is always true about magnitude of the displacement?
The magnitude of the displacement is always equal to or greater than the distance traveled. This is because the magnitude of displacement is the shortest distance between the initial and final positions, while distance traveled is the total length of the path taken.
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.
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.
Distance is always less then or equal to the magnitude of the displacement?
Distance is the total length of the path traveled between two points, while displacement is the direct line distance between those points. Distance can be equal to or greater than the magnitude of displacement if the path followed is not a straight line.
Distance is always less than or equal to the magnitude of the displacement. true or false?
True. Distance is the total length of the path traveled, while displacement is the direct line from the starting point to the ending point. Therefore, the distance can never be greater than the magnitude of the displacement.
What is the relation between magnitude of distance and displacement?
The magnitude of the displacement is always less than or equal to the magnitude of the distance traveled. Distance is a scalar quantity that measures the total path length traveled, while displacement is a vector quantity that measures the change in position from the initial point to the final point. If there is no change in direction, the magnitude of displacement is equal to the distance traveled.
Is it true that distance is always greater than an equal to the magnitude of the displacement?
Not always. Distance is a scalar quantity that represents the total length of the path traveled, while displacement is a vector quantity that represents the shortest path between two points with direction. Usually, distance is greater than or equal to displacement, but in cases where the path taken is not straightforward, distance can be less than displacement.
What is the ratio of distance to displacement?
The ratio of distance to displacement is always equal to or greater than 1. This is because distance will always be equal to or greater than displacement, as distance is the total length of the path traveled while displacement is the difference between the final and initial positions.
Is Distance is always less than or equal to the magnitude of the displacement true?
That depends on what distance you are measuring.
Is displacement always equal to distance?
No, displacement and distance are not always equal. Distance measures the total length traveled regardless of direction, while displacement measures the change in position from start to end point, including direction. Displacement can be less than, equal to, or greater than distance depending on the path taken.
What is the ratio of magnitudes of distance and displacement?
The ratio of the magnitudes of distance and displacement is always equal to or greater than 1. This is because distance is a scalar quantity that represents the total length of the path traveled, while displacement is a vector quantity that represents the straight-line distance between the initial and final positions.
What is the magnitude of displacement?
The magnitude of displacement is the straight-line distance between the starting point and the ending point of an object's motion. It does not take into account the specific path taken, only the overall change in position. It is a scalar quantity and is always positive.
