



As promised last time , I will cover examples of discrete and continuous probability distributions.

Top: Discrete Probability

Middle: Continuous Probability

Bottom: Disjointed Probability

Disjointed won't be covered in this course.



Discrete Probability Model (example):







15-19 20-24 25-34 35-44 Alone 0.001 0.011 0.031 0.030 With Spouse 0.001 0.023 0.155 0.216 With others 0.169 0.132 0.142 0.089

The following table represents the probabilities of people of certain age groups living alone, living with a spouse, or living with at least one person who is not a spouse.

Because there is a finite amount of categories which has a non-zero probability of occurring, this is considered to be a discrete probability model. Then again, I am assuming that it is a probability model. Remember from the first lecture that, in order for a model to be a true probability model or statistical model, all of the probabilities must add to exactly 1 (also called "unity", because 100% is the entire set) and each individual probability must be no less than zero and no more than 1. The latter condition is easy to check. Since all of these numbers are positive, none of them are less than zero. Since all of them have a zero in the 1's place in the number, all of them have a probability less than one.





As far as the first criterion, it's still easy, but it's pretty tedious. Just add all of the numbers together. Putting all of the numbers through a calculator yields a value of one. Since it all equals 1, it does meet the first criterion for it being a probability model.





Now if we wanted to find the probability of living alone, regardless of age, we would just add all of the probabilities in the "Alone" row, or 0.001+0.011+0.031+0.030=0.073. To convert this to a percent is merely a matter of multiplying by 100, or 0.073*100%=7.3%. There is a 7.3% probability of an individual between the ages of 15 and 44 of living alone, regardless of which age range in which that person belongs. The same concept applies to finding the total probability of living with a spouse, and living with non-spouse people.





For an E of a person being 25-34 OR a person living alone OR a person living with “others”, find P(E). This is given by 0.001+0.011+0.031+0.030+0.169+0.132+0.142+0.089+0.155=0.760. Each entry is only counted once, and since 0.031 was counted under the category of living alone AND 0.142 was counted under living with others, neither is counted under the category of the age range of 25-34.





As a side note, pay careful attention to the conditional words “AND” and “OR”; they have drastically different meanings in statistics than they do in common language. The statement “Someone can be male OR female” has a different meaning than the statement “Someone can be male AND female.” The latter is a subset of the prior. The statement “Someone can be male OR female” means either a male or a female or both. The statement “Someone can be male AND female” means only both.



