Which answer best describes displacement?%C2%A0(1 point) Responses Displacement is a scalar quantity which accounts for how far away an object is after a period of time has elapsed from its initial starting point. Displacement is a scalar quantity which accounts for how far away an object is after a period of time has elapsed from its initial starting point. Displacement is neither a vector nor scalar quantity, which accounts for how far away an object is after a period of time has elapsed from its initial starting point. Displacement is neither a vector nor scalar quantity, which accounts for how far away an object is after a period of time has elapsed from its initial starting point. Displacement is a vector quality showing total length of an area traveled by a particular object. Displacement is a vector quality showing total length of an area traveled by a particular object. Displacement is a scalar quality showing total length of an area traveled by a particular object.
Displacement is a vector quality showing the total length of an area traveled by a particular object.
you sure
Apologies for the confusion in my initial response. Displacement is actually a vector quantity that refers to the change in position of an object from its initial starting point to its final ending point. It includes both the distance traveled and the direction of the movement. Therefore, the correct answer is that displacement is a vector quality showing the total length of an area traveled by a particular object.
The correct answer is: Displacement is a vector quantity showing the total length and direction of an area traveled by a particular object.
To understand displacement, we need to grasp the concept of vectors and scalars. Scalars are quantities that only have magnitude (size or amount), such as temperature, time, mass, or distance. Vectors, on the other hand, have both magnitude and direction, like displacement, velocity, or force.
Displacement specifically refers to the change in position of an object measured in a straight line from its initial starting point to its final position. It takes into account both the distance traveled and the direction in which the object moved. For example, if an object initially starts at point A and ends at point B, displacement is the straight-line distance and direction from A to B.
To calculate displacement, you need to know the initial position and final position of the object. Subtract the initial position vector from the final position vector to determine the displacement vector. The magnitude (length) of the displacement vector represents the total distance traveled, while the direction shows the path taken by the object.
In summary, displacement is a vector quantity that accounts for both the distance traveled and the direction from the starting point to the ending point of an object.