Manuals/calci/MOODSMEDIANTEST
MOODSMEDIANTEST(xRange,yRange,Confidencelevel,Logicalvalue)
- is the array of x values.
- is the array of y values.
- is the value between 0 and 1.
- is either TRUE or FALSE.
Description
- This function gives the test statistic of the Mood's median test.
- It is one of the Non parametric test.
- This function is used to test the equality of medians from two or more populations.
- So it provides a nonparametric alternative to the one way ANOVA.
- It is a special case of Pearson's chi-squared test.
- This function works when the Y variable is continuous,discrete-ordinal or discrete -count,and the X variable is discrete with two or more attributes.
- This test does not require normally distributed data,which is does not mean that it is assumption free.
- The following assumptions are required to test this function:
- 1.Sample data drawn from the populations of interest are unbiased and representative.
- 2.Data of k populations are continuous or ordinal when the spacing between adjacent values is not constant.
- 3.k populations are independent from each other.
- 4.The distributions of the populations the samples were drawn from all have the same shape.
- The test interpretation is:
- Null hypothesis :The population medians all are equal.Alternative hypothesis :Atleast one of the medians is different from another.
- If the null hypothesis is true, any given observation will have probability 0.5 of being greater than the shared median.
- For each sample,the number of observations greater than the shared median would have a binomial distribution with p=0.5
- The procedure of the test is:
- 1. Determine the overall median.
- The combined data from all groups are sorted and the median is calculated:
- ,if n is even.
- ,if n is odd.
- where .
- ,is the ordered data of all observations from small to large.
- 2. For each sample, count how many observations are greater than the overall median, and how many are equal to or less than it.
- 3. Put the counts from step 2 into a 2xk contingency table:
- 4. Perform a chi-square test on this table, testing the hypothesis that the probability of an observation being greater than the overall median is the same for all populations.
Example
A | B | |
---|---|---|
1 | 30 | 32 |
2 | 10 | 13 |
3 | 22 | 33 |
4 | 20 | 26 |
5 | 43 | 34 |
- =MOODSMEDIANTEST(A1:A5,B1:B5,0.05,TRUE)
MOODSMEDIANTEST STATISTICS
MEAN1 | 25 |
MEDIAN1 | 22 |
MEAN2 | 27.6 |
MEDIAN2 | 32 |
OVERALLMEDIAN | 28 |
GREATERMEDIAN1 | 2 |
GREATERMEDIAN2 | 3 |
LESSEQUALMEDIAN1 | 3 |
LESSEQUALMEDIAN2 | 2 |
OBSERVED FREQUENCY |
2 3 3 2 |
EXPECTED FREQUENCY |
2.5 2.5 2.5 2.5 |
PVALUE | 0.5270892568655381 |
RESULT AS PVALUE > 0.05, MEDIANS OF THE POPULATIONS FROM WHICH THE TWO SAMPLES ARE DERIVED ARE EQUAL