It depends whether or not you are putting work on it, like if you were carrying something.
If an object moves in a closed loop or returns to its starting point after traveling a long distance, its displacement can be zero even though it has covered a long distance. This often occurs in situations where the total distance traveled is not in a straight line or when the final position coincides with the initial position.
Yes, an object can travel a great distance and still end up with a displacement of zero if it returns to its original position. Displacement is the change in position from the starting point to the ending point, so if an object moves in a closed loop or returns to its initial position, its displacement would be zero.
Yes, an object can be moving for ten seconds and still have zero displacement if the object is moving back and forth in opposite directions or if it completes a closed loop. Displacement is a measurement of the change in position from the starting point to the ending point, regardless of the total distance traveled.
Yes, a displacement can be zero if the starting and ending points are the same. However, the distance involved in moving between these points may still be nonzero if the path taken is not a straight line. Distance is a scalar quantity that represents the length of the path traveled, while displacement is a vector quantity that indicates the change in position.
Distance is a scalar quantity that represents the total length covered by an object, regardless of direction. Displacement, on the other hand, is a vector quantity that represents the change in position of an object from its initial point to its final point in a straight line. Displacement takes into account both the magnitude and direction of the movement.
Distance is the actual length traveled regardless of direction, while displacement is the change in position from the initial point to the final point in a straight line. Distance is a scalar quantity, whereas displacement is a vector quantity that includes both magnitude and direction.
Yes, an object can travel a great distance and still end up with a displacement of zero if it returns to its original position. Displacement is the change in position from the starting point to the ending point, so if an object moves in a closed loop or returns to its initial position, its displacement would be zero.
Displacement is only the distance from the starting point. As long as you return to where you started, then you can travel 1.0 x 10^999999999999 miles and still have a displacement of zero.
Displacement is distance from starting point. If the object is always travelling in the same direction then they are the same. If the object turns round, the distance would still be increasing, however the displacement would be decreasing at the same rate.
Yes, an object can be moving for ten seconds and still have zero displacement if the object is moving back and forth in opposite directions or if it completes a closed loop. Displacement is a measurement of the change in position from the starting point to the ending point, regardless of the total distance traveled.
Yes, a displacement can be zero if the starting and ending points are the same. However, the distance involved in moving between these points may still be nonzero if the path taken is not a straight line. Distance is a scalar quantity that represents the length of the path traveled, while displacement is a vector quantity that indicates the change in position.
Distance is a scalar quantity that represents the total length covered by an object, regardless of direction. Displacement, on the other hand, is a vector quantity that represents the change in position of an object from its initial point to its final point in a straight line. Displacement takes into account both the magnitude and direction of the movement.
Distance is the actual length traveled regardless of direction, while displacement is the change in position from the initial point to the final point in a straight line. Distance is a scalar quantity, whereas displacement is a vector quantity that includes both magnitude and direction.
True
The formula, distance = speed x time, or speed = distance / time, assumes constant speed. If the speed changes, then the formula speed = distance / time will give you the average speed over the time period. To get the instantaneous speed in this case, you must divide distance / time for a very short time interval.
It is true. The book says "The maximum distance a signal can travel and still be interpreted accurately is equal to a segment's maximum length. Beyond this length, data loss is apt to occur."
The distance your breath can travel in a day can vary depending on factors like wind conditions, but on average, it may travel a few meters to tens of meters. In still air, it may not travel far at all before dispersing.
no scientists already have made something this fast