SCATTER PLOTS AND TREND LINES

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1 SCATTER PLOTS AND TREND LINES INSTRUCTIONAL ACTIVITY Lesson 1 LEARNING GOAL Students will create a scatter plot with appropriately labeled and scaled axes and estimate new data values. The critical outcome of this activity is for students to recognize scatter plots as tools for graphing bivariate data and to construct scatter plots accurately. PRIMARY ACTIVITY Students will measure the lengths of their feet and their heights and record the results. The students will then graph the results on a scatter plot. OTHER VOCABULARY Students will need to know the meaning of Independent variable Dependent variable Scatter plot Bivariate data Linear function graph MATERIALS Rulers with centimeter markings (for measuring foot length) Tape measures or yard sticks with centimeter markings (for measuring height) Graph paper

2 IMPLEMENTATION This lesson begins with students collecting data to create a scatter plot to answer the question, Is there a relationship between a person s foot length and a person s height? Students should measure the lengths of their feet and their heights and record the results as a T- chart. Foot length should be measured to the nearest tenth of a centimeter, whereas height can be measured to the nearest centimeter. These results will need to be available to all students. Review a few of the other graphical displays students have learned before introducing the concept of a scatter plot (these will most likely be displays that are only appropriate for one-variable data). Showing the students examples of each type of display may help explain why the displays are inappropriate to represent pairs of numbers. In addition, some displays (pie charts, bar graphs, and line graphs) are only appropriate for categorical data, while the class s data are quantitative. How can we represent these data in other ways? What are some graphs you have used before? Have you worked with tables like this (i.e., T-charts) before? For what purpose? Determine if the student can EXPLAIN BIVARIATE DATA: How would our data be different if we had only measured our heights? What patterns or relationships exist in our data? Determine if the student can CHOOSE THE APPROPRIATE GRAPH FOR A GIVEN SET OF DATA (use the graph types the student mentioned previously): Can you represent the data as a pie chart, bar graph/histogram, box plot? Why or why not? How have you graphed information from two-column tables before? What pattern did you usually see when you graphed information from twocolumn tables? (The points lined up.)

3 Remind students that they have already graphed real-world data on a coordinate plane (5.G.3, 6.EE.9) if students have not yet suggested the coordinate plane as a way to represent the class s data. Draw on students experiences plotting points to graph a line. Explain that when several separate points (bivariate data) are plotted on the same coordinate plane, whether or not the points line up, it is called a scatter plot. Steps for setting up the graph are shown below: What should you consider as you set up a graph? Determine if the student can CHOOSE AN APPROPRIATE SCALE FOR A DISPLAY: Do all axes on graphs need to start at zero? Do the x- and y-axes need to have the same scale? Do all points need to fit on the scatter plot? Do the tic marks on an axis need to be evenly spaced? Do the tic marks on an axis need to represent equal intervals? Does a person's height depend on foot length? Does a person s foot length depend on height? Does it matter whether the x-axis represents foot length or height? [Direct students to draw a scale for the x-axis and for the y-axis.] Is there anything missing? Will someone who doesn't know what the numbers mean be able to understand your scatter plot? When choosing scales for a scatter plot, the x- and y-axes should be considered separately, as they do not need to be the same. Tell students that there is still one more point that will be added in LESSON 2 (the teacher s height and foot length), so they will need to make sure their scale accommodates this point. Additionally, in order to make predictions, students should not start or end their scales too close to the minimum and maximum values for both foot length and height. Give the students time to experiment with a few different scales.

4 Note: The sixth question (i.e., Does a person s height depend on foot length? Does a person s foot length depend on height?) may be difficult for students. They have already learned about independent and dependent variables and that the independent variable is represented on the x-axis and the dependent variable is represented on the y-axis (6.EE.9). In this case, the two variables are mutually dependent, so it does not matter which axis represents foot length and which represents height. For simplicity, you may want to decide for your students what the axes represent. Since the height might be scaled, it may be easier to keep it on the y-axis. Alternatively, you could allow either arrangement of axes and discuss the differences between the two possibilities. Make sure all students have properly scaled and labeled their scatter plots. Once students have set up their axes, they should plot the data the class collected. Note: Because there likely will not be students with feet less than about 15 cm in length, you may want to introduce or review the idea of placing a break in the graph. (In the student activity, it will be beneficial to break the graph, so this is a good opportunity to practice.) This is often the case with realworld data, but make sure students are aware that a break in the graph will affect their ability to find the y-intercept of a trend line in LESSON 2. It is likely, however, that in situations where there aren t any data close to the y- axis, the y-intercept will not be a realistic or accurate value in terms of the variables in the problem. What is the difference between linear function graphs and scatter plots that have a linear trend? What do you notice about points on a scatter plot? Determine if the student can USE SCATTER PLOTS TO READ THE DATA: [Point to a data point on the scatter plot.] What does this point mean in terms of the variables in the problem situation?

5 Determine if the student can EXPLAIN A SCATTER PLOT AS A WAY TO REPRESENT BIVARIATE DATA: What type of data does a scatter plot model? What is the relationship between the term bivariate data and a scatter plot? Do bivariate data points always fall in a straight line? Determine if the student is ready to USE GRAPHS TO READ BEYOND THE DATA: Could you use the scatter plot to predict heights or foot lengths? Do you think the scatter plot could predict heights of babies? Or professional basketball players? Do you think the data will continue in this pattern forever? What are the risks for predicting values in areas of a scatter plot that do not already have data? The goal of this activity is for students to recognize scatter plots as tools for graphing bivariate data. They should also distinguish between how data used to generate a scatter plot may not result in a straight line graph, whereas linear function tables do result in straight line graphs.

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