Which measure of central tendency is computed by dividing the sum of the data by the number of pieces of data?

Measures of central tendency are numbers that tend to cluster around the “middle” of a set of values. Three such middle numbers are the mean, the median, and the mode.

For example, suppose your earnings for the past week were the values shown in Table 1.

Mean

You could express your daily earnings from Table 1 in a number of ways. One way is to use the average, or mean, of the data set. The arithmetic mean is the sum of the measures in the set divided by the number of measures in the set. Totaling all the measures and dividing by the number of measures, you get $1,000 ÷ 5 = $200.

Median

If there is an even number of items in a set, the median is the average of the two middle values. For example, if we had four values—4, 10, 12, and 26—the median would be the average of the two middle values, 10 and 12; in this case, 11 is the median. The median may sometimes be a better indicator of central tendency than the mean, especially when there are outliers, or extreme values.

The mean of these four salaries is $275,000. The median is the average of the middle two salaries, or $40,000. In this instance, the median appears to be a better indicator of central tendency because the CEO's salary is an extreme outlier, causing the mean to lie far from the other three salaries.

where n is the number of values.

The formula for a sample mean for grouped data is

where x is the midpoint of the interval, f is the frequency for the interval, fx is the product of the midpoint times the frequency, and n is the number of values.

For example, if 8 is the midpoint of a class interval and there are ten measurements in the interval, fx = 10(8) = 80, the sum of the ten measurements in the interval.

Σ fx denotes the sum of all the products in all class intervals. Dividing that sum by the number of measurements yields the sample mean for grouped data.

For example, consider the information shown in Table 3.

Substituting into the formula: 

Therefore, the average price of items sold was about $15.19. The value may not be the exact mean for the data, because the actual values are not always known for grouped data.

Using Table 3, you can see that there is a total of 32 measures. The median is between the 16th and 17th measure; therefore, the median falls within the $11.00 to $15.99 interval. The formula for the best approximation of the median for grouped data is

where L is the lower class limit of the interval that contains the median, n is the total number of measurements, w is the class width, f medis the frequency of the class containing the median, and Σ f bis the sum of the frequencies for all classes before the median class.

Consider the information in Table 4.

As we already know, the median is located in class interval $11.00 to $15.99. So L = 11, n = 32, w = 4.99, f med = 4, and Σ f b= 14.

Substituting into the formula:

Figure 1.For a symmetric distribution, mean, median, and mode are equal.

Figure 2 shows a negatively skewed curve.

Figure 2.A negatively skewed distribution, mean < median < mode.

Figure 3 shows a positively skewed curve.

Figure 3.A positively skewed distribution, mode < median < mean.