Appendix B

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Basic Probability Concepts

In this appendix definitions and some example calculations are presented which will aid in our discussions. This is not meant to be a comprehensive introduction to the topic. It is primarily meant to serve as a means for introducing notation and terminology for the course. (This example is a variation of one given by David Griffiths in “Intoduction to Quantum Mechanics” [8].)

Example: Suppose that in some room, there are four people. We are concerned with their height in meters.

  • 1 person is 1.5 meters tall
  • 1 person is 1.6 meters tall
  • 2 people are 1.8 meters tall

We might write this as (N will stand for the number of people) N(1.5) = 1, N(1.6) = 1, N(1.8) = 2 and the total number of people is

,

where j runs over all values and in this case we are rounding to the nearest tenth of a meter. Here N =4 of course.

Now if I draw a name out of a hat which contains each persons name once, I will get the persons name which is 1.6 meters tall with probability 1/4. (We assume that each person has a unique name and that it appears once and only once in the hat.) We write this as

,

and we would generally write for any value

,

Now since we are going to get someone’s name when we draw, we must have

,

which is easy enough to check.

There are several aspects of this probability distribution that we might like to know. Here are some which are particularly useful:

  • The most probable values for the height is 1.8 meters.
  • The median is 1.7 meters (two people below, and two above)
  • The average (or mean) is given by


Note that the mean and the median do not have to be the same. The median is the middle number in the list, if there is an odd number, otherwise it is the mean of the two in the middle. These two just happen to be the same here. The bracket “< · >” is fairly standard notation and it means generally, that we obtain the average value of a function by calculating

.

For the average this is just

.