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Association between 2 variables We've described the distribution of 1 variable in Chapter 1 - but what if 2 variables are measured on the same individual?

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Presentation on theme: "Association between 2 variables We've described the distribution of 1 variable in Chapter 1 - but what if 2 variables are measured on the same individual?"— Presentation transcript:

1 Association between 2 variables We've described the distribution of 1 variable in Chapter 1 - but what if 2 variables are measured on the same individual? Examples? How could you describe the association or relationship between the two? Our descriptions will depend upon the types of variables (categorical or quantitative): categorical vs. categorical - Examples? categorical vs. quantitative - Examples? quantitative vs. quantitative - Examples?

2 Relationships between quantitative variables  Start with graphics - for two quantitative variables, use JMP to do a scatterplot using Analyze -> Fit Y by X …  Look for an overall pattern and deviations from the pattern  Use numerical descriptions of the data and overall pattern (if appropriate). This can include looking for a general model of the overall pattern you see in the graph  NOTE: These are the same ideas we used to analyze a single variable in Chapter 1… but the graphs and the numerical descriptive measures are different when we are looking at the relationship or association between two variables…

3 StudentBeersBlood Alcohol 150.1 220.03 390.19 670.095 730.07 930.02 1140.07 1350.085 480.12 530.04 850.06 1050.05 1260.1 1470.09 1510.01 1640.05 Here, we have two quantitative variables for each of 16 students. 1) How many beers they drank, and 2) Their blood alcohol level (BAC) We are interested in the relationship between the two variables: How is one affected by changes in the other one? Example… Or is one of the variables explanatory to the other (the response variable) as is the case here…?

4 Explanatory (independent) variable: number of beers Response (dependent) variable: blood alcohol content x y Explanatory and response variables A response variable measures or records an outcome of a study - the endpoint variable of interest. An explanatory variable explains changes in the response variable. Typically, the explanatory or independent variable is plotted on the x axis (horizontal), and the response or dependent variable is plotted on the y axis (vertical) - try to plot this data with JMP: Analyze -> Fit Y by X

5 StudentBeersBAC 150.1 220.03 390.19 670.095 730.07 930.02 1140.07 1350.085 480.12 530.04 850.06 1050.05 1260.1 1470.09 1510.01 1640.05 Scatterplots In a scatterplot, one axis is used to represent each of the variables, and the data are plotted as (x,y) points on the graph.

6 Interpreting scatterplots  After plotting two variables on a scatterplot, we describe the relationship by examining the form, direction and strength of the association. We look for an overall pattern …  Form: linear, curved, clusters, no pattern  Direction: positive, negative, no direction  Strength: how closely the points fit the “form”  … and deviations from that pattern.  Outliers - look for outliers with respect to both variables.

7 Form and direction of an association Linear Nonlinear No relationship

8 Positive association: High values of one variable tend to occur together with high values of the other variable - see below perfect pos. relationship Negative association: High values of one variable tend to occur together with low values of the other variable - see the perfect negative below No relationship: X and Y vary independently. Knowing X tells you little about Y.

9 Strength of the association The strength of the relationship between the two variables can be seen by how much variation, or scatter, there is around the main form. With a strong relationship, you can get a pretty good estimate of y if you know x - this one is perfect With a weak relationship, for any x you might get a wide range of y values.

10 This is a very strong relationship. The daily amount of gas consumed can be predicted quite accurately for a given temperature value. This is a weak relationship. For a particular state median household income, you can’t predict the state per capita income very well.

11 IQ score and Grade point average a)Describe in words what this plot shows. b)Describe the direction, form, and strength. Are there outliers? c)What do these two indicated points represent?

12 Categorical variables in scatterplots Often, things are not simple and one-dimensional. We need to group the data into categories to reveal trends. What may look like a positive linear relationship is in fact a series of negative linear associations. Plotting different habitats in different colors allows us to make that important distinction.

13 Comparison of men and women racing records over time. Each group shows a very strong negative linear relationship that would not be apparent without the gender categorization. Relationship between lean body mass and metabolic rate in men and women. Both men and women follow the same positive linear trend, but women show a stronger association. As a group, males typically have larger values for both variables. (See Exercise #2.35)

14 Categorical explanatory variables When the explanatory variable is categorical, you cannot make a scatterplot, but you can compare the different categories side by side on the same graph (boxplots, or mean +/  standard deviation). Comparison of income (quantitative response variable) for different education levels (five categories, ordinal). Be careful in your interpretation: even though education level is not quantitative, it is ordinal. So some kind of "positive" association exists…

15 Example: Beetles trapped on boards of different colors Beetles were trapped on sticky boards scattered throughout a field. The sticky boards were of four different colors (categorical explanatory variable). The number of beetles trapped (response variable) is shown on the graph below. Blue White Green Yellow Board color Blue Green White Yellow Board color  Describe one category at a time. ? When both variables are quantitative, the order of the data points is defined entirely by their value. This is not true for categorical data. What is the association? the relationship?

16 Scatterplot smoothers When an association is more complex than linear, we can still describe the overall pattern by smoothing the scatterplot - there are many ways to smooth a scatterplot….  You might average the y values separately for each x value.  Or, when a data set does not have many y values for a given x, a more complex software smoother might form an overall pattern by looking at the y values for points in the neighborhood of each x value and smoothing y in this neighborhood… Smoothers are resistant to outliers. Time plot of the acceleration of the head of a crash test dummy as a motorcycle hits a wall. The overall pattern was calculated by a software scatterplot smoother.

17 Homework: Read the Introduction to Chapter 2 and section 2.1 - pay attention to the terminology Do #2.1, 2.2, 2.14, 2.18, 2.19, 2.24-2.27, 2.29, 2.31, 2.33, 2.35. Use JMP to draw all scatterplots (Analyze -> Fit Y by X) - make sure you know which variable is "Y" and which is "X"…

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