The distance over time changes in a moving object as it travels at a constant speed, resulting in a linear relationship where the distance increases proportionally with 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.
A horizontal line on a distance versus time graph indicates that the object is not moving. The slope of the line would be zero, meaning there is no change in distance over time.
Distance traveled divided by the time it took.
The average speed of an object moving.
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.
friction
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.
A horizontal line on a distance versus time graph indicates that the object is not moving. The slope of the line would be zero, meaning there is no change in distance over time.
On a distance-time graph, an object that has stopped is represented by a horizontal line. This indicates that the distance remains constant over time, meaning the object is not moving. The slope of the line is zero, reflecting a lack of change in position as time progresses.
If a line on a distance-time graph becomes steeper, it indicates that the speed of the object is increasing, meaning it is moving faster over time. Conversely, if the line becomes a flat horizontal line, this signifies that the object has stopped moving, as there is no change in distance over time.
Distance traveled divided by the time it took.
The average speed of an object moving.
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.
An object is said to be in motion when its position is changing over time relative to a reference point. This change in position can be observed through visual cues or measurements of distance traveled.
Work is the energy transferred to an object by applying a force over a distance, resulting in the object moving. Motion refers to the change in position of an object over time. Force is a push or pull that acts on an object and causes it to accelerate or change its motion.
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.
To find the acceleration of an object moving in a straight line, you must calculate the change in velocity during a unit of time. Acceleration is the rate of change of velocity over time, not distance. It is given by the formula acceleration = (final velocity - initial velocity) / time.