Wiki User
∙ 12y agoIf the distance is not changing, the object is not moving.
If the distance is increasing or decreasing linearly then the object is moving at a constant velocity.
If the distance is increasing or decreasing parabolically then the object is being accelerated or decellerated.
Wiki User
∙ 12y agoThe distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is False
False. The slope of the distance-time graph represents the speed of the object. A steeper slope indicates a faster speed, so the distance-time graph for a faster moving object would have a greater slope than the graph for a slower moving object.
False
The distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is False
No, just the opposite
A distance-versus-time graph for a moving object would typically show distance on the y-axis and time on the x-axis. The slope of the graph represents the speed of the object; a steeper slope indicates higher speed, while a horizontal line would indicate that the object is not moving. The area under the graph represents the total distance traveled by the object.
Object will change distance time graph when speed is changing. Distance time graph don't changed indicate of the stationary.
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.
The distance-time graph for an object moving with a constant speed is a straight line with a positive slope. This indicates that the object is covering equal distances in equal intervals of time.
The distance vs. time graph of an object moving at a constant speed would be a straight line with a positive slope. This is because the distance covered by the object would increase uniformly with time as the object moves at a constant speed.
A distance time graph is important because it helps determine the speed of a person or object. The use of the graph helps to easily interpret the results.
Only if you know your location (the coordinate on the distance scale and the time scale) where "you" are can you infer if the object is moving towards you (the absolute distance to the object is decreasing) or away from you (the distance is increasing).