that would indicate that the object is at rest (static object) :D
For the time interval described, the total distance moved is 100 m, and the total time is 10 sec.The average speed over that interval is (distance)/(time) = 100/10 = 10 m/s
distance = speed x time the speed is the slope of the line which if parallel to X axis is zero - that means speed = 0 and distance is not changing with time, so the object is at rest ( not moving) relative to the observer
As the body is at rest, its distance from some point is not changing, so the graph will be a straight line parallel to the time axis (including the possibility of being on the time axis).
0.7848 meter
If there is a flat line on a distance-time graph, it indicates that the object is not moving, as the distance remains constant over time. This means that there is no change in position, and the object is at rest.
The graph is parallel to the time axis, normally the horizontal axis.
object is at rest
An object with a distance-time graph that is a straight line parallel to the time axis is not moving, it is at rest. The object is not changing its position with respect to time.
If a line on a distance versus time graph is horizontal, it indicates that the object is not changing its position over time. In other words, the object is at rest and not moving.
A straight horizontal one does.
A slope of zero or a horizontal line on a distance-time graph represents an object at rest, not moving. This indicates that the object is not changing its position over time.
If an object is at rest, its position versus time graph would be a straight horizontal line at the position value where the object is located. The slope of this line would be zero, indicating no change in position over time.
the slope of distance time graph gives us velocity but when the body is at rest it will be zero
If the distance is on the y axis and time is on the x axis, a zero slope means that distance isn't changing over time.
The object is stationary as its velocity is zero. The velocity of an object is the gradient of its distance-time graph and as the graph is a horizontal straight line, its gradient is zero. The object is stationary also as its distance from the time axis is not increasing.
You cannot. A distance vs time graph only measures radial distance - that is, distance from the origin to the object. If the object is going around the origin along a circular path, the distance vs time graph will not show any change in distance.The [incorrect] answer that you are required to give is that the graph will be a horizontal line during that period. But as explained above, the horizontal graph only means the object has no movement towards or away from the origin, not that it has no movement.