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−  '''Correlation''' refers to how a characteristic is common to a group, as in the '''correlation''' between hard work and success. The correlation is usually not 100%, as a few people may succeed without hard work, and a few people may fail with hard work. But there is a correlation if typically hard work does result in success, and without hard work there is often a lack of success.  +  '''Correlation''' refers to how a characteristic is common to a group, as in the '''correlation''' between hard work and success. 
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−  == Mathematical definition ==
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−  The '''correlation coefficient''', also known as '''Pearson's r''', is a statistical measure of association between two ratio variables. It is defined as:
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−  '''r'''= ΣZ<sub>x</sub>Z<sub>y</sub>/n
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−  Where: '''Z<sub>x</sub>'''= the Zscore of the independent variable X, '''Z<sub>y</sub>'''= the Zscore of the dependent variable Y, and '''n'''= the number of observations of variables X and Y.
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−  Thus, Pearson's r is the arithmetic mean of the products of the variable Zscores. The Zscores used in the correlation coefficient must be calculated using the population formula for the standard deviation and thus:
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−  '''Z<sub>x</sub>'''= (XM<sub>x</sub>)/SD<sub>x</sub>
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−  Where: '''M<sub>x</sub>'''= the arithmetic mean of the variable x and '''SD<sub>x</sub>'''= the standard deviation of the variable x.
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−  '''SD<sub>x</sub>'''= Σ(XM<sub>x</sub>)<sup>2</sup>/n
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−  Where: '''n'''= the number of observations of variables x and y
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−  '''Z<sub>y</sub>'''= (YM<sub>y</sub>)/SD<sub>y</sub>
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−  Where: '''M<sub>y</sub>'''= the arithmetic mean of the variable Y and '''SD<sub>y</sub>'''= the standard deviation of the variable Y.
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−  '''SD<sub>y</sub>'''= Σ(YM<sub>y</sub>)<sup>2</sup>/n
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−  Where: '''n'''= the number of observations of variables X and Y
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−  Pearson's r varies between 1 and +1. A value of zero indicates that no association is present between the variables, a value of positive one indicates that the strongest possible positive association exists and a value of negative one indicates that the strongest possible negative association exists. In a positive relationship as variable X increases in value, variable Y will also increase in value (e.g. as number of hours worked (X) increases, weekly pay (Y) also increases). In contrast, in a negative relationship as variable X increases in value, variable Y will decrease in value (e.g. as number of alcoholic beverages consumed (X) increases, score on a test of handeye coordination (Y) decreases).
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−  It is important to note that while a correlation coefficient may be calculated for any set of numbers there are no guarantees that this coefficient is statistically significant. That is to say, without statistical significance we cannot be certain that the computed correlation is an accurate reflection of reality. Significance may be assessed using a variant on the standard [[Student's ttest]] defined as:
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−  '''t'''= (r)√(n2)/√(1r<sup>2</sup>)
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−  The results of this test should be evaluated against the standard tdistribution with degrees of freedom equal to n2.
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−  It is important to note that the correlation coefficient should not be calculated when either of the variables are nonratio. That is, when they do not vary continuously and have a meaningful zero. As such, correlating a dichotomous variable (e.g. sex) with a ratio variable (e.g. IQ) is inappropriate and will return uninterpretable results.
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−  Additionally, correlation estimates a linear relationship between X and Y. Thus, an increase in variable X is assumed to exert the same influence on Y across all values of X and Y.
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−  ==Correlation and Causation==
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−  ''Main article: [[Correlation is not causation]]''
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−  Correlation is a linear statistic and makes no mathematical distinction between [[independent variableindependent]] and [[dependent variable]]s. As a consequence, it is impossible to assert [[causation]] based on a correlation even if that correlation is statistically significant. Therefore, when a significant correlation has been identified it is possible that X > Y (i.e. X causes Y), Y > X (i.e. Y causes X), or that X < Z > Y (i.e. Both X and Y are caused by an additional variable, Z). Caution must be exercised in asserting causation using correlation and claims to this effect must be viewed with considerable skepticism.
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−  ==Correlation and Language==
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−  The term "correlation" or "correlated" has entered common usage as meaning "is associated with." It is important to note, however, that correlation is actually a technical term denoting a very specific class of relationship. Many common usages of the term are, therefore, substantively incorrect.
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−  ==References==
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−  Aron, Arthur, Elaine N. Aron and Elliot J. Coups. 2008. ''Statistics for the Behavioral and Social Sciences: A Brief Course.'' 4/e. Upper Saddle River, New Jersey: Prentice Hall.
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 [[Category:statistics]]   [[Category:statistics]] 