![]() And I could just show these data points, maybe for some kind of statistical survey, that, when the age is this, So, for example, in this one here, in the horizontal axis, we might have something like age, and then here it could be accident frequency. I hope that this video has been helpful to you.įor further help, be sure to check out more of our videos by subscribing to our channel below.- What we have here is six different scatter plots that show the relationship betweenĭifferent variables. So, it would appear that there is no correlation, or relationship, between yearly progression and tornadoes in the US. When you have a scatter plot that doesn’t have a positive or negative relationship, it’s said to have no relationship. We can see that in this example that there doesn’t appear to be an overwhelmingly positive or negative relationship. So, we need to plot our points the same way that we plotted the last two. ![]() Now, let’s take a look at one last example. When we draw our line of best fit for this set of data, we can see that the line has a negative slope which means that there’s a negative relationship. Again, another way to show this would be to draw a line of best fit to represent the average trend of data. As the study time increases, our exam scores decrease. In this scatterplot, we can see that we have a negative relationship, overall, between our two corresponding variables. Now, let’s take the same table, and change up our exam scores a little bit. So, you can see that this line has a positive slope because it’s going upwards, which means that it has a positive relationship. When drawing a line of best fit, you need to draw a line that represents the general, or average, trend between the data points. When both variables are increasing, this is said to be a positive relationship.Īnother way to see what type of relationship we have among our data points is by drawing what we call, a line of best fit. There are a few outliers, like our 3.5 right here and then our 4.5 but over all, we can see that as one variable increases, the other variable also increases. We can see that, overall, as the hours of study time increase, the exam scores also increase. ![]() Great! Now that we have all of our points plotted, we are able to take a look at the relationship between the points. (So we go 3, 67’s about right here.) Then we do the same thing for each of our other points. So, for our first point we have \((3, 67)\). We find our first number of data points that lies on the x-axis and go up the corresponding amount on the y-axis. So, plotting points works the same as it would when plotting a line graph. ![]() Now, that we have our numbers on each axis, we can begin to plot our points. We know that time is our independent variable because time is always the independent variable, so time will go on our horizontal axis here, and exam scores will go on our y-axis. Then we need to fill in our number lines. So, we are going to set it up exactly like we would a line graph. Let’s take a look at a few different tables of data, see how to graph each, then look at the relationship between the two sets of data. Hey guys! Welcome to this video on Scatter Plots.Ī scatter plot is a helpful tool that allows us to see the relationship between two variables, or to see that there is not a relationship between two variables. ![]()
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