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Today, the mathematics of slot machines. The University of Houston mathematics department presents this program about the machines that make our civilization run, and the people whose ingenuity created them.

2020-91 Regulations 6.010 and 6.080 – Posting of Annual Threshold Amounts for Group I and II Nonrestricted Licensee Definitions and for Submission of Audited/Reviewed Financial Statements. University of Nevada, Las Vegas Michael Shackleford, (May 23, 1965 in Pasadena, California, United States), also known as 'The Wizard of Odds' (a title taken from Donald Angelini ), 1 is an American mathematician and an actuary, best known for his professional analysis of the mathematics of the casino games.

Mathematicians first got interested in randomness by studying games of chance. Ever since, the histories of mathematics and gambling have been intertwined. Clever gamblers use mathematics to look for the smallest advantages, and casinos use sophisticated mathematical tools to devise new ways of drawing in players.

Indeed, a patent granted to the Norwegian mathematician Inge Telnaes in 1984 transformed the gambling industry. Prior to Telnaes’ invention, slot machines were essentially mechanical devices. Besides being difficult to tune and maintain, mechanical slot machines suffered from an essential problem: Let’s look at a machine with three reels, each with 12 symbols, with one of those 12 symbols a cherry. The likelihood of getting three cherries, and winning the jackpot, is 1 in 1,728. If the casino wants to make money, the jackpot payout should be, say $1,700 on a $1 bet. That does not seem attractive by today’s standards. However, the only way to increase the payout is to decrease the chances of hitting a jackpot.

Adding another reel is a possibility. For instance adding a fourth reel in the previous example would get us to a jackpot of about $20,000. But people do not like machines with more reels — they intuitively, and rightfully, feel that extra reels diminish their chance of winning. Another possibility is to put more symbols on each reel. But the astronomical jackpots you see in casinos today would then require truly enormous machines.

Inge Telnaes proposed a simple solution: Let a random number generator — a computer chip — determine the combination of symbols that appear when the reels stop. In other words, use a chip to control where the reels stop on a spin, but create the illusion that the wheels stopped on their own. The number of possible outcomes on the slot machine does not change. However, by reprogramming the chip, the operator has full control over the likelihood of each of the different outcomes. For instance, the operator could make the three cherries appear only once in a million spins.

This was a brilliant insight: Suppose I pick a number between one and a million. Would you be willing to bet that you can guess that number? The answer is probably not. But let a computer chip pick such a number, put the chip in a machine with blinking lights and spinning reels, and many people will be more than willing to make the bet. It is simply because what people assume is happening in a slot machine is very different from what is actually happening.

The Magician oil painting by Hieronymus Boschfrom between 1475 and 1480

The history of gambling is also intertwined with that of a less reputable group — tricksters and swindlers. In the long run, the only sure way to make money by gambling is to create the illusion that your opponent can win, while keeping the odds firmly on your side. And that gives those who know math a very solid advantage.

I'm Krešimir Josić, at the University of Houston, where we're interested in the way inventive minds work.

(Theme music)
NOTE: In the example with three cherries, I assumed that one only wins in the case the spin results in three cherries, and there is no other winning combination. In actuality, there are typically many winning combination, and as a result, the jackpot would have to be even smaller.

The following story in Wired Magazine shows the drawbacks of the new generation of slot machines — they are easier to hack and to counterfit than their mechanical counterpart http://www.wired.com/magazine/2011/07/ff_scammingslots/.

Here is a more exhaustive discussion of the history of slot machines, and the random number generators within them http://catlin.casinocitytimes.com/article/non-random-randomness-part-1-1243. You may want to scroll towards the end of the article to read about how flaws in the design of gambling machine resulted in somebody picking 19 out of 20 winning numbers in a game of KENO — and doing so 3 times in a row. That person walked away with $620,000, but only after some controversy.

Both images are from Wikipedia. The slot machine image was taken by Jeff Kubina.

For more mathematics in everyday life, visitkjosic.wordpress.com.

This episode was first aired on September 7th, 2011

Master of Science - Mathematical Sciences

About

The degree is a well-established M.S. program with concentrations in Applied Math, Pure Math, Statistics, and Math Education to serve students in many different areas of Mathematical Sciences.

The concentrations in pure, applied, and statistics each include a core requirement corresponding to the given area. Additional credits are required so that students can develop knowledge in a field of interest. All three require the student to either defend a thesis or pass a written comprehensive exam corresponding to the core requirements.

The teaching mathematics concentration requires a variety of content courses, as well as, education courses. The degree options for the teaching math concentration include the opportunity to write a professional paper.

• Pure Mathematics – Comprehensive Exam Track

• Applied Mathematics – Thesis Track

• Applied Mathematics – Comprehensive Exam Track

• Applied Statistics – Thesis Track

• Applied Statistics – Comprehensive Exam Track

• Teaching Mathematics – Professional Paper Track

• Teaching Mathematics – Comprehensive Exam Track

Accreditation

For information regarding accreditation at UNLV, please head over to Academic Program Accreditations.

Learning Outcomes

• Students will have a broad understanding of several areas of mathematical sciences. They will be able to formulate and solve problems in these areas.
• Students will be able to understand, analyze, create, and write mathematical proofs.
• Students will be able to study and understand mathematical literature.

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Applied Mathematics – Thesis Track

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Mathematics is the foundation for many technical and scientific fields. Mathematics aids and supplements our intuitions about the physical universe and about human behavior. The department of mathematical sciences provides a broad spectrum of courses and opportunities in mathematics and statistics.

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The College of Sciences provides students a solid foundation in natural, physical, and mathematical sciences for a successful career in the sciences and other professional programs.

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