One of the phenomenons of probability is **Gambler’s Ruin**. The most common meaning is that a gambler with * finite wealth*, playing a

**fair game***(that is, each bet has expected zero value to both sides)*will eventually

*against an opponent with*

**go broke***.*

**infinite wealth**In other words, the maxim of gamblerâ€™s ruin is that if you play long enough you will eventually go bankrupt and have to quit the game prematurely.

### The World of Sports Betting

The truth is that in the world of sports betting, the common gambler has far less money than a bookmaker or casino, and there will inevitably be a time when he will simply be unable to continue playing and, of course, the house will not be giving credit.

“Long enough” may be a very long time though. It mainly depends on how much money the gambler starts with, how much he bets, and the odds of the game. Even with better than even odds, the gambler will eventually go bankrupt. But, this may take a very long time indeed.

Please note that we are talking here about a **â€œfairâ€ game**; e.g. each bet with **zero value**. The practice of bookmakers and betting sites to offer **odds with an overround** in their favour makes this outcome just much quicker.

### Fair Coin Flipping

To make the dilemma of **gamblerâ€™s ruin** a little easier to understand imagine **coin flipping** with a friend. You each have a finite number of pennies (**n _{1}** for yourself and

**n**for your friend).

_{2}Now, flip one of the pennies *(either player)*. Each player has a 50% probability of winning (head or tail). If itâ€™s a head you win a penny and if itâ€™s a tail you surrender a penny to your friend. Repeat the process until one of you has all the pennies.

If this process is repeated indefinitely, the probability that one of you will eventually lose all his pennies is 100%. In fact, the chances **P _{1}** and

**P**that players one and two, respectively, will be rendered penniless are:

_{2}Now letâ€™s populate these equations with real numbers:

The above example is based on both players starting with the same amount of pennies (100 each). In other words, you and your friend have both an exact probability of 50% to end up with all of the pennies after many, many coin flips. This means that after an unknown number of coin flips either you or your friend will finish banking all the pennies. At the start, your chances are equal, and it is impossible to say who may win.

However, if one of you has many more pennies than the other, say you start with 100, and your friend with 10,000, then your chance of finishing with all of the pennies (yours as well as your friendâ€™s) is as low as 1%, whilst your friendâ€™s chances are 99% to win this unequal match.

### Bankruptcy Probability Table – Gambler’s Ruin

To visualize the gambler’s ruin problem further, here is an overview of the probabilities of finishing with **N** amount of pennies.

Player 1 starts with * 5 pennies*. Player 2 has an

*.*

**infinite amount of pennies**The top row shows the number of flips. The left hand column shows player 1â€™s current amount of money. The numbers in the table are probabilities *(click on the image to enlarge; opens in a new tab)*:

**Reading the table (examples):**

After the first flip player 1 has a 50/50 chance of ending up either with 4 pennies *(i.e. he lost the first coin flip)*, or with 6 pennies *(i.e. he won the first coin flip)*.

In 10.4% of the trials player 1 will be broke (penniless) after the tenth flip of the coin. This means that every 10th experiment of this nature player 1 will have been forced to give up after the 10th flip of the coin due to a run of â€œbad luckâ€ whilst player 2 is not affected by â€œbad luckâ€ purely because he has plenty of coins to sit through and survive any such spell.

82.04% of the players will still be in the game after coin flip 15. However, 17.96% of the gamblers will already have retired due to exhausted funds.

**download the above table**including all of its formulas, should you wish to experiment with different probabilities:

**EXCEL SPREADSHEET PROBABILITY TABLE – STARTING WITH 5 PENNIES**

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Of course, you will now probably surmise that player 1 started with only 5 pennies, and by staking 1 penny each bet he was risking 20% of his starting bank on each coin flip, which is way too much. Player 1 should ideally have started with a much larger pile of pennies, and risked a far smaller percentage of his bank with each coin flip.

Anyway, eventually the same thing will always happen, albeit just much more slowly. Player 1 will still go broke sooner or later, * if* player 2 has an

*of pennies. Itâ€™s just for the sake of the above table and illustration that we choose to show the calculations with a starting bank of 5 pennies only.*

**infinite amount**Go to the next page, to see some more examples and illustrations…