distance vs time suggests velocity while distance vs time squared suggests acceleration
distance vs time suggests velocity while distance vs time squared suggests acceleration
The graph of distance vs. time suggests constant velocity if it is a straight line, while a curve on the graph implies changing velocity. The graph of distance vs. time squared suggests acceleration, as a linear relationship implies constant acceleration.
distance vs time suggests velocity while distance vs time squared suggests acceleration
Graphs can depict motion by plotting position, velocity, or acceleration over time. A position-time graph shows an object's displacement at different times, while a velocity-time graph displays how an object's speed changes over time. An acceleration-time graph illustrates how an object's acceleration varies with time. These graphs provide a visual representation of an object's motion and can help analyze its behavior.
Position-Time GraphYou can graph motion on a position vs time graph. On a position vs time graph, position is on the y-axis and time is on the x-axis. If the velocity is constant, the graph will be a straight line and the slope is average velocity. If the motion is accelerating, the graph will be a curved line.Velocity-Time GraphYou can also graph motion on a Velocity-Time graph. On a velocity vs time graph, velocity is on the y-axis, time is on the x-axis. If the graph is a straight line, velocity is constant and the slope is average acceleration. Also, on a velocity vs time graph, the area under the line is displacement.Refer to the related link for illustrations of the different graphs of motion and their meanings.
The slope of a time vs distance graph represents the speed or velocity of an object. It is calculated as the change in distance divided by the change in time. A steeper slope indicates a greater speed.
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The curved line on a time vs. distance graph represents that the object is accelerating.
distance X time = force/moment
Speed*Time = Distance
time is on the x axis and distance is on the y axis
The dependent variable.