Examples of chi in the following topics:
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- Areas in the chi-square table always refer to the right tail.
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- Define the Chi Square distribution in terms of squared normal deviates
- A Chi Square calculator can be used to find that the probability of a Chi Square (with 2 df) being six or higher is 0.050.
- The mean of a Chi Square distribution is its degrees of freedom.
- The Chi Square distribution is very important because many test statistics are approximately distributed as Chi Square.
- Chi Square distributions with 2, 4, and 6 degrees of freedom
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- The chi-square ($\chi^2$) test is a nonparametric statistical technique used to determine if a distribution of observed frequencies differs from the theoretical expected frequencies.
- Chi-square statistics use nominal (categorical) or ordinal level data.
- If a chi squared test is conducted on a sample with a smaller size, then the chi squared test will yield an inaccurate inference.
- First, we calculate a chi-square test statistic.
- Second, we use the chi-square distribution.
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- where df = degrees of freedom depend on how chi-square is being used.
- (If you want to practice calculating chi-square probabilities then use df = n−1.
- The random variable for a chi-square distribution with k degrees of freedom is the sum of k independent, squared standard normal variables.
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- In short, we create a randomized contingency table, then compute a chi-square test statistic.
- When the minimum threshold is met, the simulated null distribution will very closely resemble the chi-square distribution.
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- The chi-square distribution is used to construct confidence intervals for a population variance.
- A chi-square distribution can be used to construct a confidence interval for this variance.
- In fact, the chi-square distribution enters all analyses of variance problems via its role in the $F$-distribution, which is the distribution of the ratio of two independent chi-squared random variables, each divided by their respective degrees of freedom.
- The chi-square distribution is a family of curves, each determined by the degrees of freedom.
- Note that these critical values are found on the chi-square critical value table, similar to the table used to find $z$-scores.
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- This is where the chi-square distribution becomes useful.
- How many degrees of freedom should be associated with the chi-square distribution used for ?
- The chi-square distribution and p-value are shown in Figure 6.10.
- There are three conditions that must be checked before performing a chi-square test:
- Degrees of freedom: We only apply the chi-square technique when the table is associated with a chi-square distribution with 2 or more degrees of freedom.
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- When df > 90, the chi-square curve approximates the normal.
- In the next sections, you will learn about four different applications of the Chi-Square Distribution.
- Think about the implications of right-tailed versus left-tailed hypothesis tests as you learn the applications of the Chi-Square Distribution.
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- To do so, a new table is needed: the chi-square table, partially shown in Table 6.8.
- Figure 6.9(d) shows a cutoff of 11.7 on a chi-square distribution with 7 degrees of freedom.
- Figure 6.9(e) shows a cutoff of 10 on a chi-square distribution with 4 degrees of freedom.
- Figure 6.9(f) shows a cutoff of 9.21 with a chi-square distribution with 3 df.
- (a) Chi-square distribution with 3 degrees of freedom, area above 6.25 shaded.