# What is conditional probability?

A typical consumer survey might result in data like that shown below.

Based on what we have done in previous sections, we could calculate the likelihood that a consumer in the survey uses a smartphone. From the table we know there are 2432 smartphone owners in the 3743 consumers who were surveyed. Using relative frequencies, the probability of a consumer owning a smartphone is

A marketer might be interested in knowing whether the fact that a consumer is male changes the likelihood that they own a smartphone. In other words, given that the consumer is male, what is the likelihood that the consumer owns a smartphone. This is an example of conditional probability. In conditional probability, one event is assumed to have occurred and we are interested in knowing the likelihood of another event occurring.

If we define

*M*: consumer is male

*S*: consumers owns a smartphone

as the two events. We would like to determine the probability that *S* occurs given that *M* has occurred. This probability is represented using a vertical bar and is written *P*(*S* | *M*) .This is read “the probability of *S* occurring given that *M* has occurred”.

We can calculate this probability using the values in the table.

Since we know the consumer is a male, we now constrain ourselves to the data in the column shaded above. We are no longer considering all 3743 consumers in the survey. Now we are only examining the 2062 males who took the survey. Of those males, 1411 own a smartphone. This gives us the conditional probability

In this relative frequency, the numerator is the number of consumers in the compound event “consumer is male and consumer owns a smartphone”. The denominator is the number of consumers in the event “consumer is male”. For this pair of events, assuming that the consumer is male makes the likelihood that they own a smartphone slightly higher than if we do not make this assumption.

### Example 1 Conditional Probability

Let *F* and *B* represent the events,

*F*: consumer is female

*B*: consumer owns a basic phone

Use the data from the consumer survey below to find the conditional probabilities in each part.

a. The probability that a consumer owns a basic phone given that the consumer is female.

**Solution** There are 1681 female consumers in the survey. Of this amount, 660 own a basic phone. The likelihood a consumer owns a basic phone given that the consumer is female is

b. The probability that a consumer is female given that the consumer owns a basic phone.

**Solution** Start with the 1311 consumers who own a basic phone. Of these consumers, 660 are female. The corresponding relative frequency gives the conditional probability,

Conditional and marginal probabilities are often represented pictorially using a tree diagram. In a tree diagram, branches grow from branches and help to identify various conditional probabilities. For instance, we might start a tree diagram with two branches indicating whether the consumer is male or female. The probabilities for “consumer is male” and “the consumer is female” are written along the corresponding branch.

From each of these branches, we branch to smart phone or basic phone. Each of these branches represents a conditional probability. For instance, the branch originating at male and ending at smart phone represents the probability that the consumer owns a smart phone given the consumer is a male. The point at which the branch originates establishes the event that has occurred. The event at which the branch ends establishes what probability we are interested in.

For each set of branches, the sum of the probabilities is equal to 1. For instance,

This characteristic allows you to check the probabilities quickly to insure a simple arithmetic error has not been made.

### Example 2 Tree Diagrams

Use the results of the consumer survey above to label each of the branches on the tree diagram below.

**Solution** The first branches are to the events

*S*: consumer owns a smart phone

*B*: consumer owns a basic phone

The probability of these events are using the numbers of consumers in each event,

Next, calculate the conditional probabilities originating from the event “consumer owns a smart phone”. From the survey, we know 2432 consumers own a smart phone. Since 1411 of those owners are male and 1021 are female,

The conditional probabilities originating from the event “consumer owns a basic phone” are calculated in a similar manner. Of the 1311 consumers who own a basic phone, 651 are male and 660 are female. This gives the probabilities

Label each of these probabilities on the tree diagram.