5: Probability Distributions

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Have you ever considered the amount of time you wait for a bus on a given day? Or how much snow you will get in a storm? What about the mechanics of a game that involves rolling different types of dice? All of these are examples of randomness in our lives that exhibit certain patterns. We can predict these patterns using probability distributions.

Probability distributions are used to calculate insurance rates, determine lottery winnings, predict weather, and estimate delivery times. Companies and government agencies utilize massive data sets and hugely complicated mathematical models to do these, but we will take a look at simpler examples. We will encounter two different types of distributions:

Discrete distributions – where outcomes are countable (like rolling dice or flipping coins)
Continuous distributions – where outcomes are measured (like waiting times or test scores)

We’ll explore commonly used distributions including: Bernoulli, binomial, and normal, and connect them to real-world scenarios. You’ll learn how to calculate expected values, measure variability, and visualize how outcomes are shaped.

Most importantly, understanding these distributions will prepare us for one of the most powerful tools in statistics: the normal distribution and its role in inference.

Let’s dive in and see how structured randomness can be.

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