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Analysis - Lottomania Online
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Lottery mathematics is used to calculate probabilities in a lottery game.


Video Lottery mathematics



Choosing 6 from 49

In a typical 6/49 game, each player chooses six non-duplicate numbers from a range of 1-49. If the six numbers on a ticket match the numbers drawn by the lottery, the ticket holder is a jackpot winner--regardless of the order of the numbers. The probability of this happening is 1 in 13,983,816.

The chance of winning can be demonstrated as follows : The first number drawn has a 1 in 49 chance of matching . When the draw comes to the second number, there are now only 48 balls left in the bag (because the balls already drawn are not returned to the bag) so there is now a 1 in 48 chance of predicting this number.

Thus for each of the 49 ways of choosing the first number there are 48 different ways of choosing the second. This means that the probability of correctly predicting 2 numbers drawn from 49 in the correct order is calculated as 1 in 49 × 48. On drawing the third number there are only 47 ways of choosing the number; but of course we could have arrived at this point in any of 49 × 48 ways, so the chances of correctly predicting 3 numbers drawn from 49, again in the correct order, is 1 in 49 × 48 × 47. This continues until the sixth number has been drawn, giving the final calculation, 49 × 48 × 47 × 46 × 45 × 44, which can also be written as 49 ! ( 49 - 6 ) ! {\displaystyle {49! \over (49-6)!}} or 49 factorial divided by 43 factorial. This works out to 10,068,347,520, which is much bigger than the ~14 million stated above.

However; the order of the 6 numbers is not significant. That is, if a ticket has the numbers 1, 2, 3, 4, 5, and 6, it wins as long as all the numbers 1 through 6 are drawn, no matter what order they come out in. Accordingly, given any set of 6 numbers, there are 6 × 5 × 4 × 3 × 2 × 1 = 6! or 720 orders in which they could be drawn. Dividing 10,068,347,520 by 720 gives 13,983,816, also written as 49 ! 6 ! * ( 49 - 6 ) ! {\displaystyle {49! \over 6!*(49-6)!}} , or more generally as

( n k ) = n ! k ! ( n - k ) ! {\displaystyle {n \choose k}={n! \over k!(n-k)!}} , where n is the number of alternatives and k is the number of choices.

This function is called the combination function; in Microsoft Excel, this function is implemented as COMBIN(n, k). For example, COMBIN(49, 6) (the calculation shown above), would return 13,983,816. For the rest of this article, we will use the notation ( n k ) {\displaystyle {n \choose k}} . "Combination" means the group of numbers selected, irrespective of the order in which they are drawn.

An alternative method of calculating the odds is to note that the probability of the first ball corresponding to one of the six chosen is 6/49; the probability of the second ball corresponding to one of the remaining five chosen is 5/48; and so on. This yields a final formula of

( n k ) = ( 49 6 ) = 49 6 * 48 5 * 47 4 * 46 3 * 45 2 * 44 1 {\displaystyle {n \choose k}={49 \choose 6}={49 \over 6}*{48 \over 5}*{47 \over 4}*{46 \over 3}*{45 \over 2}*{44 \over 1}}

The range of possible combinations for a given lottery can be referred to as the "number space". "Coverage" is the percentage of a lottery's number space that is in play for a given drawing.


Maps Lottery mathematics



Odds of getting other possibilities in choosing 6 from 49

One must divide the number of combinations producing the given result by the total number of possible combinations (for example, ( 49 6 ) = 13 , 983 , 816 {\displaystyle {49 \choose 6}=13,983,816} ). The numerator equates to the number of ways to select the winning numbers multiplied by the number of ways to select the losing numbers.

For a score of n (for example, if 3 choices match three of the 6 balls drawn, then n = 3), ( 6 n ) {\displaystyle {6 \choose n}} describes the odds of selecting n winning numbers from the 6 winning numbers. This means that there are 6 - n losing numbers, which are chosen from the 43 losing numbers in ( 43 6 - n ) {\displaystyle {43 \choose 6-n}} ways. The total number of combinations giving that result is, as stated above, the first number multiplied by the second. The expression is therefore ( 6 n ) ( 43 6 - n ) ( 49 6 ) {\displaystyle {6 \choose n}{43 \choose 6-n} \over {49 \choose 6}} .

This can be written in a general form for all lotteries as: ( K B ) ( N - K K - B ) ( N K ) {\displaystyle {K \choose B}{N-K \choose K-B} \over {N \choose K}} , where N {\displaystyle N} is the number of balls in lottery, K {\displaystyle K} is the number of balls in a single ticket, and B {\displaystyle B} is the number of matching balls for a winning ticket.

The generalisation of this formula is called the hypergeometric distribution.

This gives the following results:

When a bonus number is included, the adjusted odds are:


14.1: The Mathematics (Probability, Logarithm) - Hamilton Lottery ...
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Pick8-32 odds and calculations

The Pick8-32 Lottery game by Trillion Coins implements a lotto game ticket where 8 numbers from 01 to 32 are selected in any order and can be repeated. The odds of a play ticket matching all 8 numbers is simple to calculate and is illustrated by the following math.

8 32 * 7 32 * 6 32 * 5 32 * 4 32 * 3 32 * 2 32 * 1 32 = 40320 1099511627776 {\displaystyle {8 \over 32}*{7 \over 32}*{6 \over 32}*{5 \over 32}*{4 \over 32}*{3 \over 32}*{2 \over 32}*{1 \over 32}={40320 \over 1099511627776}}

Which means there is a 1 in 27,269,633 chance of matching all 8 numbers. The Trillion Coins lottery is a pay-out-on-every-drawing lotto game. The odds are dependent on the total number of tickets that are played. The player who matches the most of the picked numbers wins.


NZ lotto - calculating the mathematical odds of winning. - YouTube
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Powerballs And Bonus Balls

Many lotteries have a powerball (or "bonus ball"). If the powerball is drawn from a pool of numbers different from the main lottery, the odds are multiplied by the number of powerballs. For example, in the 6 from 49 lottery, given 10 powerball numbers, then the odds of getting a score of 3 and the powerball would be 1 in 56.66 × 10, or 566.6 (the probability would be divided by 10, to give an exact value of 8815/4994220). Another example of such a game is Mega Millions, albeit with different jackpot odds.

Where more than 1 powerball is drawn from a separate pool of balls to the main lottery (for example, in the EuroMillions game), the odds of the different possible powerball matching scores are calculated using the method shown in the "other scores" section above (in other words, the powerballs are like a mini-lottery in their own right), and then multiplied by the odds of achieving the required main-lottery score.

If the powerball is drawn from the same pool of numbers as the main lottery, then, for a given target score, the number of winning combinations includes the powerball. For games based on the Canadian lottery (such as the lottery of the United Kingdom), after the 6 main balls are drawn, an extra ball is drawn from the same pool of balls, and this becomes the powerball (or "bonus ball"). An extra prize is given for matching 5 balls and the bonus ball. As described in the "other scores" section above, the number of ways one can obtain a score of 5 from a single ticket is ( 6 5 ) ( 43 1 ) {\displaystyle {6 \choose 5}{43 \choose 1}} or 258. Since the number of remaining balls is 43, and the ticket has 1 unmatched number remaining, 1/43 of these 258 combinations will match the next ball drawn (the powerball), leaving 258/43 = 6 ways of achieving it. Therefore, the odds of getting a score of 5 and the powerball are 6 ( 49 6 ) {\displaystyle {6} \over {49 \choose 6}} = 1 in 2,330,636.

Of the 258 combinations that match 5 of the main 6 balls, in 42/43 of them the remaining number will not match the powerball, giving odds of 258 ? 42 43 ( 49 6 ) {\displaystyle {258\cdot {{42} \over {43}}} \over {49 \choose 6}} = 3/166,474 (approximately 55,491.33) for obtaining a score of 5 without matching the powerball.

Using the same principle, the odds of getting a score of 2 and the powerball are ( 6 2 ) ( 43 4 ) {\displaystyle {6 \choose 2}{43 \choose 4}} = 1,851,150 for the score of 2 multiplied by the probability of one of the remaining four numbers matching the bonus ball, which is 4/43. Since 1,851,150 × (4/43) = 172,200, the probability of obtaining the score of 2 and the bonus ball is 172 , 200 ( 49 6 ) {\displaystyle {172,200} \over {49 \choose 6}} = 1025/83237. This gives approximate decimal odds of 1 in 81.2.

The general formula for B {\displaystyle B} matching balls in a N {\displaystyle N} choose K {\displaystyle K} lottery with one bonus ball from the N {\displaystyle N} pool of balls is: K - B N - K ( K B ) ( N - K K - B ) ( N K ) {\displaystyle {K-B \over N-K}{K \choose B}{N-K \choose K-B} \over {N \choose K}}

The general formula for B {\displaystyle B} matching balls in a N {\displaystyle N} choose K {\displaystyle K} lottery with zero bonus ball from the N {\displaystyle N} pool of balls is: N - K - K + B N - K ( K B ) ( N - K K - B ) ( N K ) {\displaystyle {N-K-K+B \over N-K}{K \choose B}{N-K \choose K-B} \over {N \choose K}}

The general formula for B {\displaystyle B} matching balls in a N {\displaystyle N} choose K {\displaystyle K} lottery with one bonus ball from a separate pool of P {\displaystyle P} balls is: 1 P ( K B ) ( N - K K - B ) ( N K ) {\displaystyle {1 \over P}{K \choose B}{N-K \choose K-B} \over {N \choose K}}

The general formula for B {\displaystyle B} matching balls in a N {\displaystyle N} choose K {\displaystyle K} lottery with no bonus ball from a separate pool of P {\displaystyle P} balls is: P - 1 P ( K B ) ( N - K K - B ) ( N K ) {\displaystyle {P-1 \over P}{K \choose B}{N-K \choose K-B} \over {N \choose K}}


How Often Are Lottery Numbers In Increasing Or Decreasing Order ...
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Minimum number of tickets for a match

It is a hard (and often open) problem to calculate the minimum number of tickets one needs to purchase to guarantee that at least one of these tickets matches at least 2 numbers. In the 5-from-90 lotto, the minimum number of tickets that can guarantee a ticket with at least 2 matches is 100.


The Powerball jackpot just hit $261 million รข€
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References


sci/ - Science & Math - Search:
src: i.warosu.org


External links

  • Euler's Analysis of the Genoese Lottery at Convergence
  • Lottery Mathematics
  • 13,983,816 and the Lottery (James Clewett) - Numberphile, by Brady Haran (Mathematical Sciences Research Institute)

Source of the article : Wikipedia

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