(Chapter 8, STAT 1040) # Correlation ## Scatter Diagrams A scatter diagram or scatter plot shows the relationship between two variables. One variable is on the X axis, the other on the Y axis. If a scatter diagram is football shaped, it can be summarized using the 5-number summary: | Variable | Description | | -- | -- | | $\bar{x}$ | The average of the set graphed along the X axis | | $\sigma_x$| The standard deviation of set graphed along the X axis | | $\bar{y}$ | The average of the set graphed along the Y axis | | $\sigma_y$ | The standard deviation of the set graphed along the Y axis | | $r$ | The correlation coefficient, or how closely clustered the datapoints are in a line | The intersection of the averages of x and y will be the center of an oval shaped scatter diagram. Draw lines $2\sigma$ (will contain ~95% of all data) from the center along each axis to generalize the shape of a scatter plot. You can approximate the mean by trying to find the upper bound and the lower bound of $2\sigma$ deviation to either side of the mean, then finding the middle of those two points to find $\bar{x}$. You can divide the range between the two points by 4 to find $\sigma$. ### Association - Positive association is demonstrated when the dots are trend upward as $x$ increases ($r$ is positive). - Negative association is demonstrated when the the dots trend downward as $x$ increases ($r$ is negative). - Strong association is demonstrated when dots are clustered tightly together along a line ($|r|$ is closer to 1). - Weak association is demonstrated when dots are not clustered tightly. ($|r|$ is closer to 0) ## Correlation Correlation is between `-1` and `1`. Correlation near 1 means tight clustering, and correlation near 0 means loose clustering. $r$ is -1 if the points are on a line with negative slope, $r$ is positive 1 if the points are on a line with a positive slope. As $|r|$ gets closer to 1, the line points cluster more tightly around a line. If $x$ is above average, we expect the $y$ to be above average if there's a strong correlation coefficient ## Calculating $r$ by hand Put the $x$ values into $L1$, put the $y$ values into $L2$. 1. Convert the $x$ each x value in the list to standard units($z$). Convert each $y$ value to standard units. $$ z = \frac{x-\bar{x}}{\sigma_x} $$ 2. Multiply the standard units for each ($x$, $y$) pair in the sets, giving you a third list, named $p$ in this example. $$ x * y = p$$ 3. Find the average of the values from step 3, this is $r$. $$ \bar{x}(p) $$ https://www.thoughtco.com/how-to-calculate-the-correlation-coefficient-3126228 # Terminology | Term | Definition | | -- | -- | | $r$ | Correlation Coefficient | | Linear Correlation | Measures the strength of a line | (Chapter 9, ST)