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.
Line graph
Of course yes. An object is stationary when the graph is horizontal in a displacement-time graph.
If the instant is finite, the object is in the position indicated on the graph
An x-t graph shows displacement over time, and a v-t graph shows velocity over time. The combination of the two graphs can give you great detail about the motion of an object over a given period of time. For example, if an object moved 2 cm over 2 seconds on the x-t graph, that says nothing about what direction the object moved in, but if you combine that data with the v-t graph and see that over those 2 seconds the object had a positive acceleration, that means that the object was moving away from the origin of the graph.
A distance-time graph shows the movement of an object with respect to time. The average slope between any two points on the graph is equal to the average velocity of the object between those two points. The instantaneous slope (or derivative) at a point on the graph is equal to the instantaneous velocity of the object at that point.
a graph curving upward
A line angled upward
If you only have the speed/time graph, you can't calculate force out of it. You could if you also knew the mass of the object that's speeding along, but not with the speed alone.
A line angled upward
A line angled upward
It means the object is decelerating - slowing down rather than speeding up. You can think of it as negative acceleration.
Line graph
A graph and an object.
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
The distance time graph for a faster moving object has a smaller slope than the graph for a slower moving object - This is False