10.9: What’s the Difference Between McNemar and Independence?
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Let’s go all the way back to the beginning of the chapter, and look at the
cards
data set again. If you recall, the actual experimental design that I described involved people making
two
choices. Because we have information about the first choice and the second choice that everyone made, we can construct the following contingency table that cross-tabulates the first choice against the second choice.
cardChoices <- xtabs( ~ choice_1 + choice_2, data = cards )
cardChoices
## choice_2
## choice_1 clubs diamonds hearts spades
## clubs 10 9 10 6
## diamonds 20 4 13 14
## hearts 20 18 3 23
## spades 18 13 15 4
Suppose I wanted to know whether the choice you make the second time is dependent on the choice you made the first time. This is where a test of independence is useful, and what we’re trying to do is see if there’s some relationship between the rows and columns of this table. Here’s the result:
chisq.test( cardChoices )
Alternatively, suppose I wanted to know if
on average
, the frequencies of suit choices were different the second time than the first time. In that situation, what I’m really trying to see if the row totals in
cardChoices
(i.e., the frequencies for
choice_1
) are different from the column totals (i.e., the frequencies for
choice_2
). That’s when you use the McNemar test:
mcnemar.test( cardChoices )
##
## McNemar's Chi-squared test
##
## data: cardChoices
## McNemar's chi-squared = 16.033, df = 6, p-value = 0.01358
Notice that the results are different! These aren’t the same test.