Velocity: average of 80 km per hour due North, 0 when at station.
Distance: 80 km.
Speed : average of 80 km per hour, 0 when at station.
Displacement: 80 km.
The magnitude of displacement is equal to distance traveled when motion is in a straight line.
displacement
Yes. It always is when the motion is all in a straight line.
displacement
If the motion is all in a straight line, then Displacement = (1/2) x (acceleration) x (time spent accelerating)2
Displacement of a straight line is zero...
The formula used to calculate the displacement of an object moving in a straight line is: Displacement Final Position - Initial Position
Displacement
Distance is equal to magnitude of displacement when the motion is in a straight line.
Displacement and distance are numerically equal if an object travels in a straight line. However, when indicating displacement, the direction should also always be indicated.
when the motion is in a straight line.
To calculate displacement from a displacement graph, find the area under the curve. If the graph is a straight line, you can subtract the initial position from the final position. If the graph is not a straight line, calculate the integral of the graph to determine the total displacement.
The displacement-time graph for a body moving in a straight line with uniformly increasing speed would be a straight line with a positive slope. As time increases, the displacement of the body also increases at a constant rate.
The magnitude of displacement is equal to distance traveled when motion is in a straight line.
The only case in which the magnitude of displacement and displacement are exactly the same is when the displacement occurs in a straight line. In such a scenario, the magnitude of displacement (distance between initial and final positions) will be equal to the displacement (change in position) as there is no change in direction.
Distance and displacement can be the same only if an object moves in a straight line from its starting point and the displacement is measured along that line. In such cases, the magnitude of the displacement is equal to the distance traveled.
Distance is the total length covered by an object in motion, regardless of direction. Displacement is the change in position of an object in a straight line from its initial position to its final position. It considers direction and is a vector quantity.