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Of course yes. An object is stationary when the graph is horizontal in a displacement-time graph.
A key can make it easier to interpret the data sets that each part of the graph represents, especially if there is no room in the graph area for labels.
Slope of the graph will give you speed.
If the Object is falling at a constant velocity the shape of the graph would be linear. If the object is falling at a changing velocity (Accelerating) the shape of the graph would be exponential- "J' Shape.
Have a basic knowledge of statistics and the properties of a circle
All we need here is a graph to interpret
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.
If 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.
The scale in a graph is determined by the range of the dependent and independent variables.
The answer depends on what the graph displays.
A position time graph can show you velocity. As time changes, so does position, and the velocity of the object can be determined. For a speed time graph, you can derive acceleration. As time changes, so does velocity, and the acceleration of the object can be determined.If you are plotting velocity (speed) versus time, the slope is the acceleration.
The simplest answer is the velocity of an object at a given time. It is also possible to determine the acceleration and displacement - but only in the same direction as the velocity. No information on motion in a transverse direction can be determined.
A graph and an object.
chart, graph
No, but the slope of the graph does.
The distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is 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