Hello. In this probability post, I cover the concept of independence of probability events. This is taught through examples.

I was planning on putting in some formulas but that might be confusing and would be getting into the territory of probability theory along with some calculus.

## Topics

- Independence In Probability Events With Examples
- Practice Problems With Solutions

## Independence In Probability Events

Computing the probability of a single random event is nice and all, but when it comes to computing multiple probability events it gets a bit more complicated. The concept of independence in probability occurs when probability events have no effect on each other. This makes probabilities easier to compute with multiple events as the probability of a single trial amongst multiple random trials is the same.

**Coin Flipping Example**

Consider a two sided fair coin where the probability of heads is `50%`

and the probability of tails is `50%`

. A bored person decides to flip the fair coin seven times. The probability of flipping a heads on the first flip is one half, the chance of getting a heads on the second flip is also a half all the way to the probability of flipping a heads on the seventh flip being one half. In each coin flip, there are still two sides to the fair coin.

Flipping the coin on the first try does not affect the probability on the 7th try. We have independence with the probability events as none of the 7 coin flips have any affect on each other. The probability of heads on any of the coin flips is one half.

The probability of all 7 coin flips being all heads would be like this:

**Not An Independent Event - Picking Out Three Marbles From A Bag**

You have a bag of 12 marbles. Five of the marbles are red, five are blue, one is green and the twelfth marble is yellow.

If you are randomly choosing three marbles from the bag without putting any of the marbles back in the bag, there is no probability independence.

After picking out the first marble, there are 11 marbles left before the second pick. Selecting a second marble from the bag leaves the number of marbles left in the bag from 11 to 10. The third marble pick would be picking one random marble out of 10. As the number of marbles left in the bag changes after each marble pick, we have dependence not independence.

If you want the probability of random selecting 3 blue marbles in three random picks, the calculations would be like this:

Keep in mind that as you pick out a blue marble, the amount of blue marbles available also decreases for the next marble pick.

**Example - Multiple Rolls**

What is the probability that all five rolls of the single die end up being all ones??

Start with the probability of all seven rolls landing on a one. This is the same as the first roll being a one, second roll is a one to the fifth roll is a one.

As the rolls do not affect each other, we have the concept of independence for random variables. The right side of the above equality turns into the probability of the first roll being a 1 multiplied by the probability of the second roll being a 1 all the way to the probability of the fifth roll being a 1.

Each roll landing on a one has probability of 1 out of 6. There are five rolls that have a probability of 1 out of 6.

## Practice Problems With Solutions

Here are three practice problems with solutions below.

**Question One**

What is the probability of rolling a three from a fair six sided die four times in four rolls?

**Question Two**

Develop a formula for the probability of heads from an unfair coin given an unknown amount of coin tosses `n`

. This unfair coin has a probability of heads denoted as `h`

and the probability of tails is `q`

. Note that `h`

is not equal to `q`

but `h + q = 1`

.

**Question Three**

Consider a random number generator that generates a random 5 digit code. The digit candidates that can be generated are `0, 1, 2, 3, 4, 5, 6, 7, 8, 9`

. Repeated digits are allowed in the 5 digit code. What is the probability of the first four numbers being an eight with the last digit being a multiple of 3?

#### Solutions

**Question Three**

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