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Applying Probability to Games of Chance

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2018-07-30 19:40:07
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In a typical finite math course, you will have many opportunities to study games that involve chance—where you can’t control the play results, but you can be informed about the possibilities.

The following three examples use Bunco, a lottery, and a poker hand to explore these opportunities and their probabilities.

Bunco

Consider the game of Bunco, where you roll three dice. What is the probability that you roll the three dice and get all fours?

The probability of rolling a four is 1/6. You have three dice involved, so to find the probability of all three rolls resulting in a four, use the multiplication property and get

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This is about 0.5%. The chance is slight. If you’d be happy with having the three dice be the same, not caring about which number, then you add the six possibilities: either three ones, three twos, three threes, and so on:

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This is about 3%—better than just fours but still not very likely.

Lottery

Your state has a weekly lottery, and you really want to win the big prize. All you have to do is come up with the same six numbers that the machine on television does. You choose from the numbers 1 through 60. Your choice is based on your birthday: December 24, 1960, at 6:52 a.m. Your numbers will be 12, 24, 19, 60, 6, and 52. What are the chances you’ll win?

First, you count up how many different ways the six numbers can be chosen. The order doesn’t matter—they put them in order after they’re drawn. To count the number of ways to choose 6 numbers from 60, you use the formula for combinations:

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This comes out to be 50,063,860 different ways to choose the six numbers. Your chance of winning:

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Not looking good …

Poker

If you’re a poker player, then you know that a flush is a good hand to have. If you don’t know anything about poker, don’t worry. This is fairly easy to describe.

A poker player is dealt five cards. If all five are the same suit, then she has a flush. What is the chance of being dealt a flush? A deck of cards has four different suits (spades, hearts, diamonds, and clubs), and each suit has 13 different cards. So, a flush could be five spades, five hearts, five diamonds, or five clubs. This sounds much easier than six out of 60 numbers!

To find the probability of being dealt a flush, you count how many ways you can be dealt a flush and then divide that by how many different five-card hands are possible. The order doesn’t matter, so you use combinations.

To be dealt a flush in a suit, you need to have five of those 13 cards. So, using combinations,

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There are four different suits to choose from, so multiply that result by 4 and get 5,148 different ways you can get a flush.

Now, determine how many different five-card hands can be dealt. That’s a combination of 52 cards taken five at a time.

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Divide the number of ways you can get a flush by the total number of hands and you have

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or about 0.2% chance of being dealt a flush. Of course, with draw poker, you can try to improve your original hand if it isn’t what you want at first.

About This Article

This article is from the book: 

About the book author:

Mary Jane Sterling (Peoria, Illinois) is the author of Algebra I For Dummies, Algebra Workbook For Dummies, Algebra II For Dummies, Algebra II Workbook For Dummies, and many other For Dummies books. She taught at Bradley University in Peoria, Illinois for more than 30 years, teaching algebra, business calculus, geometry, and finite mathematics.