Manuals/calci/KRUSKALWALLISTEST
KRUSKALWALLISTEST (SampleDataByGroup,ConfidenceLevel,NewTableFlag)
- is the set of values to find the test statistic.
- is the value between 0 and 1.
- is either TRUE or FALSE.
is the set of values to find the test statistic.
is the value between 0 and 1.
is either TRUE or FALSE.
Description
- This function gives the test statistic value of the Kruskal Wallis test.
- It is one type of Non parametric test.
- It is a logical extension of the Wilcoxon-Mann-Whitney Test.
- The parametric equivalent of the Kruskal-Wallis test is the one-way analysis of variance (ANOVA).
- This test is used for comparing more than two sample that are independent or not related.
- It is used to test the null hypothesis that all populations have identical distribution functions against the alternative hypothesis that at least two of the samples differ only with respect to Median.
- Kruskal–Wallis is also used when the examined groups are of unequal size.
- When the Kruskal-Wallis test leads to significant results, then at least one of the samples is different from the other samples.
- The test does not identify where the differences occur or how many differences actually occur.
- Since it is a non-parametric method, the Kruskal–Wallis test does not assume a normal distribution of the residuals, unlike the analogous one-way analysis of variance.
- However, the test does assume an identically shaped and scaled distribution for each group, except for any difference in medians.
- The Kruskal Wallis test data are having the following properties:
- 1.The data points must be independent from each other.
- 2.The distributions do not have to be normal and the variances do not have to be equal.
- 3.The data points must be more than five per sample.
- 4.All individuals must be selected at random from the population.
- 5.All individuals must have equal chance of being selected.
- 6.Sample sizes should be as equal as possible but some differences are allowed.
- Steps for Kruskal Wallis Test:
- 1. Define Null and Alternative Hypotheses:
- Null Hypotheses:There is no difference between the conditions.
- Alternative Hypotheses:There is a difference between the conditions.
- 2.State Alpha:Alpha=0.05.
- 3.Calculate degrees of freedom:df = k – 1, where k = number of groups.
- 4.State Decision Rule:From the Chi squared table calculate the critical value.
- Suppose the is greater than the critical value then reject the null hypothesis
- 5.Calculate the Test Statistic:
- 6.State Results:In this step we have to take a decision of null hypothesis either accept or reject depending on the critical value table.
- 7.State Conclusion:To be significant, our obtained H has to be equal to or LESS than this critical value.
is greater than the critical value then reject the null hypothesis
Examples
| A | B | C | |
|---|---|---|---|
| 1 | Temperature | Drying Time(Hrs) | |
| 2 | 54 | 8 | |
| 3 | 63 | 6 | |
| 4 | 75 | 3 | |
| 5 | 82 | 1 |
=REGRESSIONANALYSIS(A2:A5,B2:B5,0.65,0)
REGRESSION ANALYSIS OUTPUT
| Regression Statistics | |
|---|---|
| Multiple R | 0.9989241524588297 |
| R Square | 0.9978494623655914 |
| ADJUSTEDRSQUARE | 0.996774193548387 |
| STANDARDERROR | 0.7071067811865526 |
| OBSERVATIONS | 4 |
| DF | SS | MS | F | SIGNIFICANCE F | |
|---|---|---|---|---|---|
| REGRESSION | 1 | 464 | 464 | 927.9999999999868 | 0.001075847541170237 |
| RESIDUAL | 2 | 1.0000000000000142 | 0.5000000000000071 | ||
| TOTAL | 3 | 465 |
| COEFFICIENTS | STANDARD ERROR | T STAT | P-VALUE | LOWER 95% | UPPER 95% | |
|---|---|---|---|---|---|---|
| INTERCEPT | 86.5 | 0.6885767430246896 | 125.62143708199342 | 0.00006336233990811291 | 83.53729339698282 | 89.46270660301718 |
| INDEP1 | -4.000000000000007 | 0.1313064328597235 | -30.46309242345547 | 0.0010758475411701829 | -4.564965981777561 | -3.4350340182224532 |
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