The smallest things sometimes keeps me from doing what I want to do, for no good reason. One such example was handling quinoa as I wanted to make it more frequently. It had been packaged all the wrong ways for me. I generally wanted to consume about 40% of a box I usually bought in one serving, being economical for me to buy when it was on sale. Boxes stored quinoa in crude plastic bags that didn’t re-seal, opened and nor poured out nicely. That made it a tad messy to dispense, with how fine the quinoa grain was, and awkward to store what was left. It was just annoying to get out, use and put back each time, in other words, though just a tiny bit of patience would have helped. Where cooking is involved, though, patience is not my friend.

# base

# Happy Pi Day! How Are You Celebrating?

Today, March 14 (when this was posted), is Pi Day. March 14th’s date is often written as 3-14, which contains the first three digits of **π**, so it is chosen as Pi Day. Coincidentally, but rather symbolically appropriate, it is also Albert Einstein’s birthday, and few other dates could be more appropriate in my opinion. That is unless you count Feb 7 as 2-7 and really approximate the natural logarithm *e* to a useless 2 digits. Geekier people can celebrate Pi Minute at 1:59 AM (24 hour clock only) or 1:59 PM (12 hour clock) on March 14, since 3.14159 is a longer extension of the Pi decimal. I would argue for something like 3:54:32 PM because on the 24 hour clock, 15.935 hours is that time, but that’s probably too geeky even for the mainstream Pi Day celebrators. Mind you, some of them celebrate Pi Second at precisely at 1:59:26 AM or PM on the 12 hour clock, with decimals of a second being really optional to any number of 5-3-5 tenths, hundredths or thousandths of a second. Too short to even let out a scream, though!

So far, I’ve written this article with only a link to **π**, as if you knew enough about it to get the rest of that first paragraph. You probably do, but in case you don’t, here’s a shortened plain language version.

If you divide the length of a ring by the straight line distance across that ring through the centre, you will always get **π**. The more precisely you could measure those distances, meaning like to some ridiculously small unit of measure and that you’ve got the correct measure of a perfect ring, the more precise a value of **π **you will get with more and more decimals. One beauty of **π **is that while it is always the same, its exact value will never be known because it is what is known as an irrational number, which’s decimals never repeat. You can see **π** to *one million *decimals here for yourself if you want to satisfy yourself (might be 100,000 when you find it pending traffic on the server)! Talk about a good way to impress your teacher! The University of Tokyo supposedly has **π** calculated out to 200 million digits, but that takes 4.2 GB to download so I’ll leave it at that. In being an irrational number, though, no fraction can represent **π**. It is sometimes approximated as a fraction of 22/7, but that is not correct. So thank goodness for symbolic representations, eh?

Pi has a lot of beauties to it, both within the number and without in relation to where it appears in the physical relationships of scientific phenomena. If you don’t believe there is a higher being of some sort, seeing the order of the universe involving **π** almost certainly will make you believe. If you’re still not convinced, I suggest researching the same thing for the natural logarithm *e* which is the base of all things as it occurs mathematically and naturally, unconstrained by cultures that count by 10, 2 (computers) or some other base. The previous link to **π** on Wikipedia will tell of many of the beauties of **π**, with additional links. The Pi Search Page also contains a load, including trivia, frequency of repeating patterns of digit strings, *etc*. Really geeky stuff on both links, but you know you’d love it so click on through to learn and appreciate!

So with all the amazingness of **π **to celebrate, how could one sufficiently acknowledge it all? Well, simple, because **π **is all about simplicity despite its complexity. That is actually a life philosophy of mine, that the simplest things aren’t actually simple. They are only made that way by all the complex details behind it so you had better be prepared to be overwhelmed if you’re going to study or tackle the simplicity of anything, rather than thinking it’s going to be easy!

So to celebrate Pi Day, you just eat pie in keeping it simple!

Geekier folks will add discussing the importance, relevance, properties or other matters involving Pi. I’m coming close with blogging since that isn’t truly a “discussion”. But by discussing Pi, I mean Pi without an *e*, over Pie with an *e*, but I’ll take discussing Pi with an *e* over Pi with an *e* as well.

In this unhealthy age, walking *around* something would be good, if only to burn off the pie. Striving for a close to perfect circle as your walking path would be outgeeking yourself.

With Daylight Standard Time having gotten switched at 2 AM this morning, in places that switch, it was a momentous way to celebrate Pi Minute by altering time the minute after. Too bad it doesn’t occur every year!

I am posting this at 1:59 PM my local time as a second Pi Minute celebration. Am I geeky or what, eh???

I’m one hour short with the “*spring ahead” *clock change, so I’m going to metaphorically be running around all day. If you’re not familiar with English expressions, “running around all day” means keeping busy or doing all kinds of things, whether that is work, chores or someone else. Um, if you’re not familiar with English expressions, you can research that last one. I couldn’t help it with my sense of humour after all the geeky humour leading up to it.

My metaphorical running around all day will literally include a circular 12K running route that isn’t that circular in shape, but goes around part of the peninsula on which I live to end up where I started and close it off. The route will also go around several landmarks.

**How will you celebrate Pi Day?**

*Flesch-Kincaid Grade Reading Level: 9.7*