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### How the Game Works

Players purchase tickets and their money goes into a prize pool. The prize pool is equal to 50% of the total ticket revenue. The other half of the revenue goes to whoever coordinated the draw. One ticket is drawn and the matching ticket holder wins the jackpot. 50/50 draws are often held at fundraiser events (half of the revenue goes to support some cause and half goes to the jackpot winner).

### Probabilities and Prizes

Let's say a ticket costs

Simple enough. But what happens when there's a multi-ticket discount available? It is often the case that as an incentive to sell more tickets, a lower unit price is set if you buy a larger number of tickets. For example, $2 each or 3 for $5. Won't that mess around with the formulas above? Well, yes, a little bit.

Let's say that the single-ticket price is

The total number of tickets sold is:

*C*dollars and*N*tickets are sold. The prize is equal to 0.5**C***N*and each ticket has a 1/*N*chance of winning.Simple enough. But what happens when there's a multi-ticket discount available? It is often the case that as an incentive to sell more tickets, a lower unit price is set if you buy a larger number of tickets. For example, $2 each or 3 for $5. Won't that mess around with the formulas above? Well, yes, a little bit.

Let's say that the single-ticket price is

*C1*and that there's some lower unit price available*C2*=*αC1*, where*α*is some factor between 0 and 1. In the example I gave,*C1*would be $2 and*C2*would be $1.67, making*α*= 0.833. Let's also say that the number of tickets sold at the higher price is*N1*and the number of tickets sold at the lower price is*N2*=*βN1*.The total number of tickets sold is:

and the total ticket revenue is:

The prize pool is half of the ticket revenue:

and the probability of any ticket being drawn is:

The table below gives the prize pool for different values of

*α*and*β*per 1,000 total tickets sold:### Expected Value

The expected value of the 50/50 draw ticket is the weighted average outcome, which is the probability of winning multiplied by the net gain plus the probability of losing multiplied by the cost of the ticket:

So, the prize increases with ticket sales, the probability of winning decreases with ticket sales, but the number of tickets sold doesn't influence the expected value. In the simple 50/50 draw where all tickets are bought at the same price, on average, you're losing half of the ticket price on every ticket purchased.

Now when there are two price points, the expected value depends on how many tickets were sold at each price and the relative difference in the two prices. The expected value of a ticket bought at

Because

Moving on to the expected value of a ticket bought at

Well a positive expected value sounds pretty good, but we need to look further. Under what conditions are we getting the maximum expected value? The partial derivatives of

The partial derivative with respect to

So far there's been a lot of math and no pretty pictures, so here are the expected values

As you can see from the plot, both

Now what does all this math mean to someone in the real world? Technically, a positive expected value is possible for a ticket purchased at

To summarize:

Now when there are two price points, the expected value depends on how many tickets were sold at each price and the relative difference in the two prices. The expected value of a ticket bought at

*C1*is:Because

*α*is between 0 and 1 and*β*is non-negative, we can conclude that*EV1*is negative for all values of*α*and*β*. In fact, we could go step further and show that it is always between -0.5**C1*and -*C1*.*C2*:*EV2*is interesting because it is not necessarily always negative like*EV1*. If the person setting the ticket prices doesn't know any better, he or she might choose*α*< 0.5, in which case*EV2*could potentially be positive, a dream come true for the intelligent gambler. It can be shown that*EV2*is bounded between -0.5**C1*and +0.5**C1*.Well a positive expected value sounds pretty good, but we need to look further. Under what conditions are we getting the maximum expected value? The partial derivatives of

*EV2*will tell us.The partial derivative with respect to

*β*is negative for all values of*α*between 0 and 1. That means that*EV2*always decreases as*β*increases. The maximum expected value must occur when*β*is minimized.*β*= 0. The partial derivative with respect to*α*is also negative for all permissible values of*β*. This means that*EV2*always decreases as*α*increases, so the maximum expected value must occur when*α*is minimized.*α*= 0.So far there's been a lot of math and no pretty pictures, so here are the expected values

*EV1*and*EV2*plotted at different values of*α*and*β*:Expected value of a 50/50 draw ticket per $1 price C1. |

As you can see from the plot, both

*EV1*and*EV2*decrease as*β*increases, and both approach -0.50 as*α*approaches 1.0 (which makes sense because*α*= 1 is the simple case where there's a single ticket price). Both*EV1*and*EV2*are per $1 of ticket price*C1*. In the graph I normalized both expected values by dividing by*C1*because at allows for all 9 of the plotted curves to be resolved for a larger range of*β.*Furthermore,*EV2*/*C2*= 0/0 for all values of*β*if*α*= 0. That isn't very informative and can't be plotted. However, we ought to be comparing*EV1*/*C1*to*EV2*/*C2*, as shown in the plot and tables below:Now what does all this math mean to someone in the real world? Technically, a positive expected value is possible for a ticket purchased at

*C2*, but only under unrealistic conditions.*β*must be less than 1/*α*- 2, but greater than zero (*β*< 0 makes no physical sense).*EV2*is maximized when both*α*and*β*= 0, meaning the cheaper tickets were free and none were bought. Extremely unlikely. Obviously, the whole point of setting a lower price point is to sell more tickets, hopefully generating more revenue overall because of an increased volume of sales. That means trying to set a lower price that is low enough to create the incentive to buy more tickets, but still high enough to generate appreciable revenue. The gamblers buying the cheaper tickets cause*β*to increase, which causes*EV2*(and*EV1*) to decrease. Since the organizer doesn't want to discount tickets too steeply and cheaper tickets look more attractive to gamblers (because you can afford more of them to increase your chance of winning), a situation where both*α*and*β*are small enough to keep*EV2*positive is unlikely.To summarize:

- The highest priced tickets in a 50/50 draw are never better than -$0.50 expected value per dollar wagered.
- The lowest priced tickets in a 50/50 draw are always at least -$0.50 expected value per dollar wagered.
- The larger the proportion of ticket sales coming from the cheaper tickets, the lower the expected value of everyone's tickets.
- If you're going to gamble in a 50/50 draw, your best decision (i.e. the one with the highest expected value) is to buy the smallest permitted number of the cheapest tickets available. For example, if tickets are sold at $2 each or 7 for $10, your expected value will be highest if you buy only 7 tickets for $10. Buying additional tickets would only decrease the expected value of your bet.
- If you convince naive gamblers to buy the more expensive tickets, their wagers will increase the expected value of everyone's tickets.

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