*51*

**Bayes’ Theorem** states the following for any two events *A* and *B**:*

P(A|B) = P(A)*P(B|A) / P(B)

where:

- P(A|B): The probability of event A, given event B has occurred.
- P(B|A): The probability of event B, given event A has occurred.
- P(A): The probability of event A.
- P(B): The probability of event B.

For example, suppose the probability of the weather being cloudy is 40%. Also suppose the probability of rain on a given day is 20% and that the probability of clouds on a rainy day is 85%.

If it’s cloudy outside on a given day, what is the probability that it will rain that day?

**Solution**:

- P(cloudy) = 0.40
- P(rain) = 0.20
- P(cloudy | rain) = 0.85

Thus, we can calculate:

- P(rain | cloudy) = P(rain) * P(cloudy | rain) / P(cloudy)
- P(rain | cloudy) = 0.20 * 0.85 / 0.40
- P(rain | cloudy) = 0.425

If it’s cloudy outside on a given day, the probability that it will rain that day is **42.5%**.

We can create the following simple function to apply Bayes’ Theorem in R:

bayesTheorem function(pA, pB, pBA) { pAB return(pAB) }

The following example shows how to use this function in practice.

**Example : Bayes’ Theorem in R**

Suppose we know the following probabilities:

- P(rain) = 0.20
- P(cloudy) = 0.40
- P(cloudy | rain) = 0.85

To calculate P(rain | cloudy), we can use the following syntax:

#define function for Bayes' Theorem bayesTheorem function(pA, pB, pBA) { pAB return(pAB) } #define probabilities pRain pCloudy pCloudyRain #use function to calculate conditional probability bayesTheorem(pRain, pCloudy, pCloudyRain) [1] 0.425

This tells us that if it’s cloudy outside on a given day, the probability that it will rain that day is **0.425** or **42.5%**.

This matches the value that we calculated earlier by hand.

**Additional Resources**

The following tutorials explain how to calculate other probabilities in R:

How to Calculate Conditional Probability in R

How to Calculate Conditional Mean in R