HELP: Original Lessons on Motion: Position vs. Time Graphs

Position vs. Time Graphs

Introduction to Graphing

Position vs Time with No Acceleration

Position vs Time with Positive Acceleration

Position vs Time with Negative Acceleration

Graphing Distance and Time

The motion of an object can be represented by a distance-time graph like Graph 1 in the Figurebelow. In this type of graph, the y-axis represents distance and the x-axis represents time. A distance-time graph shows how far an object has traveled at any given time since it started moving. However, it doesn’t show the direction(s) the object has traveled.

Q: In the Figure above, what distance has the object traveled by the time 5 seconds have elapsed?

A: The object has traveled a distance of about 25 meters.

Slope Equals Speed

In a distance-time graph, the speed of the object is represented by the slope, or steepness, of the graph line. If the graph line is horizontal, like line B in Graph 2 in the Figure below, then the slope is zero and so is the speed. In other words, the object is not moving. The steeper the line is, the greater the slope of the line is and the faster the object is moving.

Q: In graph 2, which line represents a faster speed: line A or line C?

A: Line A represents a faster speed because it has a steeper slope.

Calculating Average Speed from a Distance-Time Graph

It’s easy to calculate the average speed of a moving object from a distance-time graph. Average speed equals a change in distance (represented by Δd) divided by the corresponding change in time (represented by Δt):

$\text{speed}= \frac{\Delta d}{\Delta t}\\$

For example, in Graph 3 in the Figure below, the average speed between 1 second and 4 seconds is:

$\text{speed} & = \frac{\Delta d}{\Delta t}\\& =\frac{3 \ \text{m}-2 \ \text{m}}{4 \ \text{s}-1 \ \text{s}}\\& =\frac{1 \ \text{m}}{3 \ \text{s}}\\& =0.3 \ \text{m/s}$

Q: In graph 3, what is the average speed between 0 and 4 seconds?

A: The average speed is:

$\text{speed} & = \frac{\Delta d}{\Delta t}\\& =\frac{3 \ \text{m}-0 \ \text{m}}{4 \ \text{s}-0 \ \text{s}}\\& =\frac{3 \ \text{m}}{4 \ \text{s}}\\& =0.8 \ \text{m/s}$

Summary

Motion can be represented by a distance-time graph, which plots distance on the y-axis and time on the x-axis.
The slope of a distance-time graph represents speed. The steeper the slope is, the faster the speed.
Average speed can be calculated from a distance-time graph as the change in distance divided by the corresponding change in time.

Review

Describe how to make a distance-time graph.
What is the slope of a line graph? What does the slope of a distance-time graph represent?
Can a line on a distance-time graph have a negative slope, that is, can it slope downward from left to right? Why or why not?
In graph 1 above, the speed of the object is constant. What is the object’s speed in m/s?
In graph 3 above, describe the motion of the object at the time of 2 seconds.