## Finding patterns in lottery numbers

Back in 2009, Derren Brown once again shocked the world with his witch-craft, as he predicted the lottery, live on TV.

Later that week he explained how he did it – wisdom of the crowds. Which is complete and utter bullshit. But it was a magic trick, so what do you expect? If anything, the whole incident was probably an ingenious marketing ploy for “The Events” series of which it was a part. But I digress.

The idea of Wisdom of the Crowd is that if you get a group of people to make a guess at a quantity (say, the number of coffee beans in a jar), then take the average, the average will be surprisingly accurate. It’s just an application of the law of large numbers.

But this doesn’t work in the case of the lottery, because the lottery is completely random, and taking the average of all the previous numbers would give approximately the same six numbers for every week. Which doesn’t happen.

But are there any patterns in lottery numbers?

The answer is, in fact, yes!

NB/ The explanation on this one is going to be sparse because I did all this a while back and didn’t have the sense to keep clear notes on what exactly I was doing.

**Statistical Analysis**

Thanks to the internet, I managed to get hold of all the winning numbers (for the standard UK lottery), which at the time, totaled 1432 sets of numbers.

Plotting the occurrences of each number, you get something like this:

So you’ve got some obvious peaks and troughs there – the biggest peak being *38*. So you’d think your best chance would be picking the six highest peaks, or lowest troughs if you subscribe to the “they’re due to come up” theory.

But, obviously, by the *law of large numbers*, that line *should* eventually flatten out.

[Incidentally, the one time I did play the lottery after doing all this, I pick *38* as one of the numbers and it came up. Just saying.]

I then put the numbers in numerical order and got the following sets:

Mean – 7, 15, 22, 29, 36, 43

Mode – 1, 9, 23, 31, 38, 49

Median – 6, 14, 22, 29, 37, 45

And if you can draw anything from at, it’s that the ‘average’ set of numbers tend to be relatively evenly spaced. I did some measures of spread, standard deviation, etc., and the results seemed to agree. But that wasn’t that interesting.

But what is slightly interesting is what you get when you plot the numbers against what position they appear in, in the ordered sequence:

[The second one is odds of number, *x*, being in the *i-th* position in the ordered sequence.]

So the pattern there isn’t *obvious*, but the is a definite pattern.

Based on the first plot, I tried fitting the numbers to Gaussian curves, and got something like this:

Which all together looks like this

Which is a decent fit. But the truth was, there was a much simpler, more fundamental approach to fitting the curves.

**Combinatorics**

The way you work out your odds of winning the lottery is relatively straight-forward – explained here. Have a quick read of that. Can’t be bothered to explain myself.

Now, again, I can’t remember how I derived this, but the probability of the *i-th* ball being *x* (when the balls are put in numerical order) is given by:

And using that, we see what the plots above should actually look like:

Which is the exact same shape, only smoother (as you’d expect).

So say you want to know the probability of a certain (ordered) sequence, you just take the product,

But that’s where a problem arises.

The first (smallest) number is most likely to be *1*, the last (largest) is most likely to be *49*, etc.

Which does make sense. Say the smallest number is *1*, then the other five numbers can be anything (except *1*). If, on the other hand, the smallest number is *44*, then the other numbers can only be 45, 46, 47, 48, *49>*. So obviously, a sequence starting with *1* is massively more likely than a sequence starting with *44*.

But that then seems to imply that there is a most likely sequence 1, 11, 20, 30, 39, 49>. And running the numbers, you find that that sequence is much more likely than 1, 2, 3, 4, 5, 6>.

It’s been a favourite of the mathematicians that all sequences of lottery numbers are equally likely (supported by calculation) – that 1, 2, 3, 4, 5, 6> is just as likely as, say, 4, 12, 23, 33, 39, 48>.

So here’s my challenge to you – *spot the hole in my ordered probability calculation*.

Or is there a hole? What is actually going on here?

##### 7 comments:

I don’t understand most of this math because I am not a mathematician, but from what I do understand of it (you’ve explained it beautifully) I am completely fascinated by this subject and it’s larger implications and applications. I’d really like to understand more about it. Seeing “patterns” in numbers has plagued me for years and everyone has told me I’m crazy to think such a thing because everything is random and I’m imagining it. It almost drove me to the edge of insanity wondering how these trends existed, was it a message from a mystical source, what did it mean and why was I seeing this? Despite all the naysayers, I persisted in my theory that there were identifiable trends in seemingly random numbers. I couldn’t shake it and just disregard what I observed, but I wrote it off as my own personal delusion or something unfathomable or even mystical as an explanation. Clearly, as your math shows, there is nothing mystical about it, which is relief. If your theories are correct, than what else might they be applied to? Are we really just mad? Anyway, I have a whole lot more to discuss and I’d really like to talk to you about this.

If you ever get this, email me at [email protected]

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I’ve derived the exact same curves and others that fit polynomial plots from lotto number analysis. I then took everything I learnt and made an algorithm that surprisingly is on average correct 20% of the time for each number. I think that’s pretty good given that you have essentially a one in x (x being the number of remaining balls) chance of picking the number.

Anyhow, even being able to improve the odds as I had the big difficulty is being able to match the right numbers need at the right time, I have modeled this many times for many lottery game and can get 3 numbers with an occasional 4th, a random 5 from 6 and have also managed 6/6 on a number of games.

To do this however becomes a game of stacking numbers in you favor, by this I mean playing more than 6 numbers and often up to 18 number’s at a time. Given the cost of playing that many numbers over time vs the reward you never come out ahead.

So lately I’ve taken a different approach and added in another analysis layer that gives another pattern approach to the playing.

I have again been tremendously surprised in my initial models. So far if I had used this most del I could win in front of the play costs. But sadly to do so you need an initial investment of up to 250k, so very frustrating as I know from modeling on different games that it works.

Not magic involved, just a different way to look at the things that did not happen vs the thing that did in the results of games. You also need to account for time, certain events do repeat but not according to a simple time scale measure.

A big clue here is that there are time cycles within each numbers results. Ask yourself how long ago did say number 8 come up? Plot a time scale for it. Random, or is it? Yes it’s random, but then start thinking about the law of averages, count the weeks between the hits and plot them, you will see a very interesting pattern. Then when you plot a curve of best fit you will find that a polynomial is a good fit.

Still it is not an exact fit but this is what you want, it’s the deviation from the norm that you are looking for.

In my case I choose the time between hits that is under or below average. In my way of thinking it needs to catch up.

I then compared all these values across all the numbers and derived an algorithm to represent what I refer to as the Number Cycle Intensity.

And guess what?

You’ve spent all this time reading this only to find out it does not work.

Chasing lotto number outcomes has been a journey down Alice’s rabbit hole.

I can if I have sufficient initial investment win using some of what I described above in conjunction with a lot of other refining.

But there is NO one approach, no one system, no one methods that will improve your results. Some may improve your odds very slightly, some may give the allusion of chance, some may outright lie to you.

Historical numbers played will not give you the numbers for future plays, I have run every model on that as well. No 2 number outcomes or their patterns match. Your best approach here is to never play number combinations that match prior number patterns. Avoidance will improve your odds here.

So, to all my fellow lotto tragics, don’t got throwing hard earned money at books and methods. Use a consistent approach and avoid duplication of past events. This above anything will improve your chances to win.

Finding patterns in lottery numbers Back in 2009, Derren Brown once again shocked the world with his witch-craft, as he predicted the lottery, live on TV. Later that week he explained how he

## How to Identify Patterns

### Lottery Strategies – How to identify patterns

Besides looking for the trends, you can also look for the patterns. Similar to trends, patterns vary by lottery game and can also vary over time for the same lottery game.

To look for patterns, you will need to identify the **maximum lapse** and the **maximum consecutive draws** drawn over a period of time.

The maximum lapse is the most frequent longest lapse after which the ball is drawn again while the maximum consecutive draws is the most frequent successive draws in which the same ball is drawn.

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Patterns tend to vary more than trends and you should focus on the short-term horizon or the medium-term horizon when you are looking for the maximum lapse and maximum consecutive draws.

Once you have determined the maximum lapse and maximum consecutive draws, go back to the most recent draws and look for balls whose pattern matches either the maximum lapse or the maximum consecutive draws.

If the pattern matches the maximum lapse, the ball is likely to be drawn in the coming draws. If the pattern matches the maximum consecutive draws, the ball is unlikely to be drawn in the next draw.

By applying the same technique to the patterns in various analysis, you can further refine your pool of lottery balls to play.

With magayo Lotto software and magayo Pick software, it is not necessary for you to manually identify the patterns. The maximum lapse and the maximum consecutive draws are shown when you view the pattern for the available statistics.

Learn how to identify patterns in our lottery strategies to improve your chances of winning the lottery.