A golden section is a geometric form constructed in a particular ratio of 1:1.618… (it's an irrational number that goes on forever without repeating… I like the idea that the golden ratio is irrational). Technically, the golden section is defined as the relation between two sections (a short and a long) on a line which divide the line in a homonic relation. The relation between the short and long section is the same as the relation between the long section and the whole line:
![230[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/230[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
The simplest construction is a rectangle. You are familiar with golden-ratio rectangles in the form of your credit cards:
![creditcard[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/creditcard[1].gif "A little presentation on the Golden Mean / Phi for fun!!!")
Incidentally you can make your own golden section ratio device to discover how saturated the world is with these ratios or to follow along by using it with the images in this post. It's easy! Just follow these instructions:
![goldenmeangauge[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/goldenmeangauge[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
Golden rectangles nest perfectly because of the ratio:
![golden rectangle ratio[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/golden-rectangle-ratio[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
You also have a golden spiral which is embedded in the nesting rectangles:
![Fibonacci spiral[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/Fibonacci_spiral[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
This same spiral can be found with golden triangles too:
![golden triangle log spiral[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/golden_triangle_log_spiral[1].gif "A little presentation on the Golden Mean / Phi for fun!!!")
It's known as a logarithmic spiral:
And it relates to the pentagon/pentagram:
![Pentagon[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/Pentagon[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
The pentagram is built entirely of golden sections:
![pentagram phi proportions[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/pentagram_phi_proportions[1].gif "A little presentation on the Golden Mean / Phi for fun!!!")
The logarithmic spiral is an extremely efficient shape for biological growth, and is thus found all over the natural world, specifically in biology:
![694780262 8874b4f225[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/694780262_8874b4f225[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
![12[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/12[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
![fibonacciplant[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/fibonacciplant[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
![fibonacci romanesco cauliflower[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/fibonacci-romanesco-cauliflower[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
But is also found in non-living things, like galaxies:
![fibonnaciWhirlpoolGalaxyStarbirth rot[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/fibonnaciWhirlpoolGalaxyStarbirth-rot[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
Closest to home, however, it is found over and over in the human body. In fact, as far as I am aware, the human body has more golden ratios than any other biological organism:
![image023[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/image023[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
![fibonacci1[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/fibonacci1[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
Our good friend Leonardo concurs:
![Proportioner 20Da 20VInci 20mand 20med 20maal[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/Proportioner_20Da_20VInci_20mand_20med_20maal[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
So does his pal Michelangelo:
![David[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/David[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
But here's something more to chew on:
![PhiTeeth[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/PhiTeeth[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
If you start to MEASURE these ratios, you find that they have an interesting pattern:
![270px FibonacciBlocks.svg[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/270px-FibonacciBlocks.svg[1].png "A little presentation on the Golden Mean / Phi for fun!!!")
The next number in the sequence that leads to the golden ratio ends up being equal to the sum of the previous two numbers:
![fibonacci[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/fibonacci[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
This is called the Fibonacci sequence, after, um…
![Fibonacci[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/Fibonacci[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
![9697 Fibonacci[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/9697_Fibonacci[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
Yeah, that guy.
BONUS: I bet he would have been able to figure out the following conundrum:
![26d1113090703 triangle paradox missing[1] A little presentation on the Golden Mean / Phi for fun!!!](http://ciis.gjhost.com/~ciis/LIB/ITEMS/15805/2/26d1113090703-triangle-paradox-missing[1].jpg "A little presentation on the Golden Mean / Phi for fun!!!")
PDF No related posts.
It's interesting that Plato call's Phi the key to the universe, but if that is true, it has to have it's origin, it's pattern, in the spiritual world. Personally I believe that the lock for the key are the Fibonacci relation, and the trianle with the spiral is the door.
Greetings, Kim