# AP Statistics Curriculum 2007 EDA Var

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There are many measures of (population or sample) variation, e.g., the range, the variance, the standard deviation, mean absolute deviation, etc. These are used to assess the dispersion or spread of the population. | There are many measures of (population or sample) variation, e.g., the range, the variance, the standard deviation, mean absolute deviation, etc. These are used to assess the dispersion or spread of the population. | ||

- | Suppose we are interested in the long-jump performance of some students. We can carry an experiment by randomly selecting | + | Suppose we are interested in the long-jump performance of some students. We can carry an experiment by randomly selecting eight male statistics students and ask them to perform the standing long jump. In reality every student participated, but for the ease of calculations below we will focus on these eight students. The long jumps were as follows: |

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{| class="wikitable" style="text-align:center; width:75%" border="1" | {| class="wikitable" style="text-align:center; width:75%" border="1" |

## Revision as of 18:52, 28 June 2010

## Contents |

## General Advance-Placement (AP) Statistics Curriculum - Measures of Variation

### Measures of Variation and Dispersion

There are many measures of (population or sample) variation, e.g., the range, the variance, the standard deviation, mean absolute deviation, etc. These are used to assess the dispersion or spread of the population.

Suppose we are interested in the long-jump performance of some students. We can carry an experiment by randomly selecting eight male statistics students and ask them to perform the standing long jump. In reality every student participated, but for the ease of calculations below we will focus on these eight students. The long jumps were as follows:

60 | 64 | 68 | 74 | 76 | 78 | 80 | 106 |

### Range

The range is the easiest measure of dispersion to calculate, yet, perhaps not the best measure. The **Range = max - min**. For example, for the Long Jump data, the range is calculated by:

Note that the range is only sensitive to the extreme values of a sample and ignores all other information. So, two completely different distributions may have the same range.

### Quartiles and IQR

The first quartile (*Q*_{1}) and the third quartile (*Q*_{3}) are defined values that split the dataset into *bottom-25% vs. top-75%* and *bottom-75% vs. top-25%*, respectively. Thus the inter-quartile range (IQR), which is the difference *Q*_{3} − *Q*_{1}, represents the central 50% for the data and can be considered as a measure of data dispersion or variation. The wider the IQR, the more variant the data.

For example, *Q*_{1} = (64 + 68) / 2 = 66, *Q*_{3} = (78 + 80) / 2 = 79 and *I**Q**R* = *Q*_{3} − *Q*_{1} = 13, for the Long-Jump data shown above. Thus we expect the middle half of all long jumps (for that population) to be between 66 and 79 inches.

### Five-number summary

The five-number summary for a dataset is the 5-tuple {*m**i**n*,*Q*_{1},*Q*_{2},*Q*_{3},*m**a**x*}, containing the sample minimum, first-quartile, second-quartile (median), third-quartile, and maximum.

### Variance and Standard Deviation

The logic behind the variance and standard deviation measures is to measure the difference between each observation and the mean (i.e., dispersion). Suppose we have *n > 1* observations, . The deviation of the *i*^{th} measurement, *y*_{i}, from the mean () is defined by .

Does the average of these deviations seem like a reasonable way to find an average deviation for the sample or the population? No, because the sum of all deviations is trivial:

To solve this problem we employ different versions of the **mean absolute deviation**:

In particular, the **variance** is defined as:

And the **standard deviation** is defined as:

For the long-jump sample of 8 measurements, the standard deviation is:

### Activities

Try to pair each of the 4 samples whose numerical summaries are reported below with one of the 4 frequency plots below. Explain your answers.

Sample | Mean | Median | StdDev |

A | 4.688 | 5.000 | 1.493 |

B | 4.000 | 4.000 | 1.633 |

C | 3.933 | 4.000 | 1.387 |

D | 4.000 | 4.000 | 2.075 |

### Notes

- Some software packages may use , instead of the , which we used above. Note that for large sample-sizes this difference becomes increasingly smaller. Also, there are theoretical properties of the sample variance, as defined above (e.g., sample-variance is an unbiased estimate of the population-variance!)

- Most of the SOCR Charts and SOCR Analyses compute the variance or standard deviation for the sample. You can see these examples of Charts Activities and Analyses Activities and you can test these using hotdogs dataset.

### Problems

### References

- SOCR Home page: http://www.socr.ucla.edu

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