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∙ 7y agoDisplacement is the shortest distance between the initial and final positions of an object in a specific direction. It is a vector quantity that includes magnitude and direction and is not affected by the path taken but only the start and end points.
Yes, if an object moves in a straight line from one point to another (e.g. walking in a straight line and then back to the starting point), the distance traveled and the displacement will be the same if the starting and ending points are the same.
No, your total displacement (the straight line distance from start to finish, regardless of path taken) cannot be greater than your total distance (the sum of all the length of the path taken). Displacement can be shorter or equal to distance, but not greater.
No, it is not always true that the total distance is equal to the displacement. Total distance is the sum of all path lengths travelled, while displacement is the shortest distance between the initial and final positions. In some cases, these two values may be equal, but not always.
No, displacement cannot be greater than distance. Displacement represents the straight-line distance between the initial and final positions of an object, while distance is the total length of the path traveled. Since displacement is the shortest distance between two points, it cannot be greater than the total distance traveled.
Yes, it is possible for displacement to be zero while distance is not. This can happen when an object moves in different directions and its total movement results in a non-zero distance, while the net change in position (displacement) from start to finish is zero.
Yes, if an object moves in a straight line from one point to another (e.g. walking in a straight line and then back to the starting point), the distance traveled and the displacement will be the same if the starting and ending points are the same.
No, your total displacement (the straight line distance from start to finish, regardless of path taken) cannot be greater than your total distance (the sum of all the length of the path taken). Displacement can be shorter or equal to distance, but not greater.
Displacement in physics can have multiple meanings dependent on the situation. If you are talking about the universal equations of motion or anything moving then displacement means how far something has 'literally' traveled. It differs from distance because if you where to start somewhere and then run around in a circle you would end in the same place and so your distance traveled would be 0. This would make it hard to find out how much energy you have expended because you technically haven't moved anywhere if you only look at distance. This is where displacement comes in, regardless of where you finish your displacement will be the same whether you run a mile in a Circle and finish in the same place or run a mile in a straight line. Now if you are talking about fluids then displacement will mean the amount of water displaced by an object in a fluid. This can be used to calculate the upward thrust of the fluid on the object. Alternatively, you could simply say that displacement is the distance moved in a particular direction and that it is a vector quantity (gives us both magnitude and direction).
as straight as a ruler?as straight as an arrow
a line. starting from one point and going on as long as it needs to go on. or it could go on forever. it needs a start and a finish...
From Finish to Starting Line was created in 2001.
No, it is not always true that the total distance is equal to the displacement. Total distance is the sum of all path lengths travelled, while displacement is the shortest distance between the initial and final positions. In some cases, these two values may be equal, but not always.
The displacement would be 0 because displacement is the distance between where you start and where you end so if you end in the same place you start, your displacement is 0.
They all finish exactly where they start.
No, displacement cannot be greater than distance. Displacement represents the straight-line distance between the initial and final positions of an object, while distance is the total length of the path traveled. Since displacement is the shortest distance between two points, it cannot be greater than the total distance traveled.
as straight as a 2x4 chopped by Tim the tool man Taylor
Yes, it is possible for displacement to be zero while distance is not. This can happen when an object moves in different directions and its total movement results in a non-zero distance, while the net change in position (displacement) from start to finish is zero.