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by jemfinch 5468 days ago
It sure does, that's why I said it did.

Consider a sequence increasing by 1 each period. Now pick a random number between 1 and 10000. Generate the sequence between 1 and your random number. It will approximately conform to Benford's law, modulo your ending number.

Benford's law is a property of growing numbers, not of any particular kind of growth.
2 comments
rudiger 5468 days ago
Linearly growing sequences don't follow Benford's law, but lower first digits (1, 2, 3) are still more probable than higher first digits (7, 8, 9) "most of the time", as you describe it.

You can test it here: http://www.mpi-inf.mpg.de/~fietzke/benford.html

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jules 5468 days ago
That is not true, you just happened to choose lucky starting numbers. For example consider this one: choose a number between 1 and 10000. Generate the sequence between 9000000 and 9000000+(your number). Everything starts with 9.

Benfords law applies only to exponential growth over a long timescale.

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rudiger 5468 days ago
It actually applies to more than just exponential growth. Fibonacci and factorial growth rates also follow Benford's Law.
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