An object at rest is represented on a distance vs. time graph as a horizontal line. This indicates that there is no change in distance over time, meaning the object's position remains constant. The slope of the line is zero, reflecting that the speed of the object is also zero.
The slope of a straight line on a distance vs. time graph represents the speed (or velocity) of the object. A steeper slope indicates a higher speed, while a flatter slope indicates a lower speed. If the line is horizontal, it means the object is at rest, with no change in distance over time.
The slope of a straight line on a distance vs. time graph represents the speed or velocity of the object. A positive slope indicates that the object is moving away from the starting point, while a negative slope indicates it is moving back toward the starting point. The steeper the slope, the greater the speed. If the line is horizontal, it indicates the object is at rest.
A horizontal slope on a distance-versus-time graph indicates that the object is at rest, meaning it is not changing its position over time. The distance remains constant while time progresses, reflecting no motion. This signifies that the object has zero velocity during that period.
Horizontal lines on a distance-time graph indicate that the object is at rest, meaning it is not changing its position over time. The distance remains constant while time progresses, reflecting a speed of zero. This shows that the object is stationary during that interval.
The speed of an object on a distance-time graph is determined by the slope of the line. A steeper slope indicates a higher speed, while a flatter slope indicates a lower speed. If the line is horizontal, it means the object is at rest, showing zero speed. The speed can be calculated by taking the change in distance divided by the change in time (rise over run).
The slope of a straight line on a distance vs. time graph represents the speed (or velocity) of the object. A steeper slope indicates a higher speed, while a flatter slope indicates a lower speed. If the line is horizontal, it means the object is at rest, with no change in distance over time.
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.
The slope of a straight line on a distance vs. time graph represents the speed or velocity of the object. A positive slope indicates that the object is moving away from the starting point, while a negative slope indicates it is moving back toward the starting point. The steeper the slope, the greater the speed. If the line is horizontal, it indicates the object is at rest.
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.
A horizontal slope on a distance-versus-time graph indicates that the object is at rest, meaning it is not changing its position over time. The distance remains constant while time progresses, reflecting no motion. This signifies that the object has zero velocity during that period.
Horizontal lines on a distance-time graph indicate that the object is at rest, meaning it is not changing its position over time. The distance remains constant while time progresses, reflecting a speed of zero. This shows that the object is stationary during that interval.