Back in episode 128, you may have heard
me rightly make fun of New Age numerologists for their propensity to
draw great significance into adding up the digits of a number,
ignoring the various deep and interesting aspects of numerical
structure. I still reserve the right to make fun of them for this,
as it's generally pretty silly to prognosticate the future that way.
But, being a thoughtful Number 7 personality, it occurred to me that
it might be worth talking about the legitimate uses for summing the
digits of a number. While it doesn't have quite the universal
significance taught by the numerologists, adding the digits of a
number is a legitimate mathematical operation, known as the “Digital
Root”, and does have real applications.

To start with, let's take a closer look
at what you get when you add a number's digits, repeating the process
if the result is multi-digit, until you have digested the original
number down to a 1-digit value. At first you might think the result
is totally arbitrary, but as with many things in math, if we look a
little closer we can find a surprising pattern. Try adding the
digits of a few examples, and you may start to notice that the
digital root is congruent modulo 9 to the original number. In other
words, if you take the number you started with, divide it by 9, and
look at the remainder, you'll get the same value as you did by this
digit-summing process. (Note that for this purpose, as is standard
in modular arithmetic and bargain sales prices, we are treating 9 as
equivalent to 0.) For example, look at 56. Since 5+6=11. and
1+1=2, its digital root is 2. And it's also 2 more than the closest
multiple of 9, 54. How did that happen?

It's actually pretty easy to prove that
this is always the case. Suppose we have a 4 digit number abcd.
Remember that in our place-based number system, the value of this
number is equivalent to 1000a + 100b + 10c + d. Let's rearrange
this a bit, and write it as 999a + 99b + 9c + a +b+c+d. When you
write it this way, you can see that the original number is equal to
some multiple of 9 plus the sum of the digits. If the sum of the
digits is itself multi-digit, you can repeat the process for another
iteration or two. In any case, you can see that our result is
proven: this sum really is congruent mod 9 to the starting number.

If you're lucky enough to have gone to
elementary school before the age of calculator addiction, you may
vaguely recall one powerful use for this property of digital roots:
the old trick of “casting out 9s”, to check if the result of an
arithmetic operation you did by hand is accurate. This takes
advantage of the fact that the mod 9 value is preserved by addition,
subtraction, multiplication, and division: so if P is congruent to
3, and Q is congruent to 2, then P+Q is congruent to 5. So if you
find the digital root of P and add it to the digital root of Q, the
sum should match the digital root of your result for P+Q-- if it
didn't, you made a mistake somewhere. Be careful though-- about 1/9
of your mistakes will probably result in an error that is congruent
mod 9, and will be missed by this method. The term “casting out
9s” comes from the fact that you can take a shortcut and cross out
any sets of digits that sum to 9 before adding up the digital roots,
without changing the results.

There are also many cases where certain
types of numbers leave “tracks” in the digital roots that can be
used to quickly eliminate candidates that might or might not be
numbers of a certain type. As the simplest example, numbers
divisible by 9 are identifiable by their digital root of 9. Related
to this is that numbers divisible by 3 always have digital roots of
3, 6, or 9. All squares have a digital root of 1, 4, 7, or 9, and
cubes have a digital root of 1, 8, or 9. On the wikipedia page you
can see the patterns for other cases such as perfect numbers, prime
numbers, twin primes, factorials, and more.

A cooler application of digital roots
is the figure known as the Vedic Square, an ancient Indian variant of
the traditional 9x9 multiplication table, with the digital roots in
each square instead of the product. So for example, in row 7 and
column 8, instead of displaying the product 56, we would write 2,
since 5+6 = 11 and 1+1 = 2. I know, you're probably thinking to
yourself, “Since when are multiplication tables cool?” But try
drawing one, and then coloring in all the squares with a particular
set of numbers-- color in all the 1s, or all the 2s, or all the 4s
and 5s, etc. You will find that you generate intricate symmetrical
patterns, which you can see at some links in the show notes if you're
too lazy to start sketching out squares yourself. Such patterns
have been observed since ancient times and have been used as the
foundations of various forms of abstract Islamic art. I also found
one web page claiming the Sistine Chapel, the I Ching, and the game
of chess were all influenced by Vedic Square patterns, but these
sound like a bit of a stretch.

We should also keep in mind that the
concept of a digital root is closely tied with the fact that our
number system is Base 10. If, for example, we decided to use a Base
12 number system, then the digital roots of any number would be
congruent modulo 11 rather than modulo 9 to it. The process of
casting out 9s would be replaced by casting out 11s. And we would
be able to generate an 11x11 Vedic square that would be totally
different from our base-10 9x9 one. Next time you're in the mood to
doodle some art & feeling uninspired, just choose an abitrary
base and draw a Vedic square of your own, and you'll generate a new
fresh set of visually interesting patterns.

And this has been your math mutation
for today.

References:

- http://en.wikipedia.org/wiki/Digital_root: Digital Roots at Wikipedia

- http://en.wikipedia.org/wiki/Casting_out_9%27s: Casting Out 9s at Wikipedia

- http://en.wikipedia.org/wiki/Vedic_square : Vedic Squares at Wikipedia

- http://hans.wyrdweb.eu/about-the-digital-root-part-1/ : A New Age Vedic Squares site

"It was through my search for meaning that I discovered how important the digital root space is, which in return rewarded me with a look at how elegant and beautiful the world really is." –Talal Ghannam, Ph.D., The Mystery of Numbers Revealed Through Their Digital Root

ReplyDeletehttp://www.primesdemystified.com/twinprimes.html

Great quote, thanks for posting!

Deleteam not good on computer and dont know much except to search and learned to e mail a little. developed theory that unfolded into 3 levels with 3 components on each level. they are to do with time, celestial and atom and they (all 9 components) are correlated to man, woman and the I. when i first saw the repeating patterns for numbers 1 through 9 i knew my structured reality theory was embedded in those patterns, #3, #6 and #9 patterns. i dont know about base 11 or base 8 systems but this matrix of 9 repeating patterns folds in half (1-4 folds over 5-8) and 9 is the I. this matrix of repeating patterns is my structured reality theory just expressed in a different way and about different aspects of life. #4 is pi, look at it and the matrix and the first 6 numbers of pi are there. #7 is representing the speed of light and #1 is representing the basic building blocks of life. folding is representing d n a since it has to be twisted. this folding is joining of 2 to make the I. it is the key to evolution and much more. so far no one has been interested. this is probably because basis of theory which is my first level with 3 points of time (past, present and future spaced as 0 00) is correlated to a very controversial belief.

ReplyDelete