Median and Mean
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Measures of Central TendencyIn the section Introduction to Central Tendency, we saw that the center of a distribution could be defined three ways:
- the point on which a distribution would balance,
- the value whose average absolute deviation from all the other values is minimized, and
- the value whose squared difference from all the other values is minimized.
Table 1 shows the absolute and squared deviations of the numbers 2, 3, 4, 9, and 16 from their median of 4 and their mean of 6.8. You can see that the sum of absolute deviations from the median (20) is smaller than the sum of absolute deviations from the mean (22.8). On the other hand, the sum of squared deviations from the median (174) is larger than the sum of squared deviations from the mean (134.8).
| Value | Absolute Deviation from Median | Absolute Deviation from Mean | Squared Deviation from Median | Squared Deviation from Mean |
|---|---|---|---|---|
| 2 | 2 | 4.8 | 4 | 23.04 |
| 3 | 1 | 3.8 | 1 | 14.44 |
| 4 | 0 | 2.8 | 0 | 7.84 |
| 9 | 5 | 2.2 | 25 | 4.84 |
| 16 | 12 | 9.2 | 144 | 84.64 |
| Total | 20 | 22.8 | 174 | 134.80 |
Moreover, Figure 1 shows that the distribution balances at the mean of 6.8 and not at the median of 4. The relative advantages and disadvantages of the mean and median are discussed in the section Comparing Measures of Central Tendency later in this chapter.
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When a distribution is symmetric, then the mean, and the median are the same. Consider the following distribution: 1, 3, 4, 5, 6, 7, 9. The mean and median are both 5. The mean, median, and mode are identical in the bell-shaped normal distribution.
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This work is licensed by David Lane under a Creative Commons Attribution License (CC-BY 1.0).
Last edited by Liqun Wang on Jul 11, 2003 2:59 pm GMT-5.