20. Probability-weighted means and standard deviations

The previous section discussed calculating descriptive statistics using "ex post" (historical) data. This method is effective for describing past events. In addition, you can use historical results to characterize future eventsthat is, if you can reasonably assume that future events will resemble past events.

However, if a reliable probability distribution is available, you can calculate expected descriptive statistics (also called "ex ante" statistics). The probability distribution describes all the possible outcomes a variable can assume.

Using probability data, you can calculate the expected mean, variance, and standard deviation using the following formulas:

A probability distribution for five possible market conditions is shown below, along with the expected demand in each state. Calculate the expected value (mean) and standard deviation of demand.

Market condition	Probability	Demand (Thousands of units)
Terrible	5%	5
Poor	20%	15
Average	50%	30
Good	20%	50
Excellent	5%	75

If you ignored the probability weights and assumed the market conditions were equally probable, the mean demand would be 35,000 units and the standard deviation would be 25,100 units.

Using the probability weights, calculate the following statistics:

Expected mean = 32,000 units

Standard deviation = 20. Probability-weighted means and standard deviations

The previous section discussed calculating descriptive statistics using "ex post" (historical) data. This method is effective for describing past events. In addition, you can use historical results to characterize future eventsthat is, if you can reasonably assume that future events will resemble past events.

However, if a reliable probability distribution is available, you can calculate expected descriptive statistics (also called "ex ante" statistics). The probability distribution describes all the possible outcomes a variable can assume.

Using probability data, you can calculate the expected mean, variance, and standard deviation using the following formulas:

A probability distribution for five possible market conditions is shown below, along with the expected demand in each state. Calculate the expected value (mean) and standard deviation of demand.

Market condition	Probability	Demand (Thousands of units)
Terrible	5%	5
Poor	20%	15
Average	50%	30
Good	20%	50
Excellent	5%	75

If you ignored the probability weights and assumed the market conditions were equally probable, the mean demand would be 35,000 units and the standard deviation would be 25,100 units.

Using the probability weights, calculate the following statistics:

Expected mean = 32,000 units

Standard deviation = 19,159 / 17,930 / 12,349 / 5,354 / 15,922