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Distance is a scalar measure of the interval between two locations measured along the actual path connecting them. Displacement is a vector measure of the interval between two locations measured along the shortest path connecting them.
Distance is the actual path length that an object moves away from its original position. Distance is a scalar. We use the symbol d for distance. Displacement is the straight-line path between the starting point and the endpoint of a journey i.e. the distance moved in a particular direction. Displacement is a vector.
Distance is the length of the path taken by an object whereas displacement is the simply the distance between where the object started and where it ended up. For example, lets say you drive a car. You drive it 5 miles east and then 3 miles west.
A position is a vector because it has both a magnitude and a direction: it is some distance from a zero point (the point we call the origin) in a particular direction. With one-dimensional motion, we can define a straight line along which the object moves.
Use distance to describe the total path between starting and ending points, and use displacement to describe the shortest path between starting and ending points. Measurement from your initial position to your final position is distance traveled, and the measurement of the total length of your path from the starting position to the final ...
Distance is defined to be the magnitude or size of displacement between two positions. Note that the distance between two positions is not the same as the distance traveled between them.
D. Distance and Displacement: Now we will learn about two words that seem similar, but have different meanings in physics. Distance: measurement of the actual path traveled Displacement: the straight-line distance between 2 points ¾ If an object travels in one direction in a straight line, distance traveled is EQUAL to the displacement.
