Golden Ratio

The golden ratio (symbol is the Greek letter "phi" shown at left)
is a special number approximately equal to 1.618
It appears many times in geometry, art, architecture and other areas.

The Idea Behind It
We find the golden ratio when we divide a line into two parts so that:
The longer part divided by the smaller partis also equal to
the whole length divided by the longer
Beauty
This rectangle has been made using the Golden Ratio, Looks like a typical frame for a painting, doesn't it?
Some artists and architects believe the Golden Ratio makes the most pleasing and beautiful shape.
Do
you think it is the "most pleasing rectangle"?
Maybe you do or don't, that is up to you!
Many buildings and artworks have the Golden Ratio in them, such as the Parthenon in Greece, but it is not really known if it was designed that way.
The Actual Value
The Golden Ratio is equal to:
1.61803398874989484820... (etc.)
The digits just keep on going, with no pattern. In fact the Golden Ratio is known to be an
Irrational Number, and I will tell you more about it later.
Calculating It
You can calculate it yourself by starting with any number and following these steps:
 A) divide 1 by your number (=1/number)
 B) add 1
 C) that is your new number, start again at A
With a calculator, just keep pressing "1/x", "+", "1", "=", around and around. I started with 2 and got this:
Number

1/Number

Add 1

2

1/2=0.5

0.5+1=1.5

1.5

1/1.5 = 0.666...

0.666... + 1 = 1.666...

1.666...

1/1.666... = 0.6

0.6 + 1 = 1.6

1.6

1/1.6 = 0.625

0.625 + 1 = 1.625

1.625

1/1.625 = 0.6154...

0.6154... + 1 = 1.6154...

1.6154...

It is getting closer and closer!
But it takes a long time to get even close, but there are better ways and it can be calculated to thousands of decimal places quite quickly.
Drawing It
Here is one way to draw a rectangle with the Golden Ratio:
 Draw a square (of size "1")
 Place a dot half way along one side
 Draw a line from that point to an opposite corner (it will be √5/2 in length)
 Turn that line so that it runs along the square's side
Then you can extend the square to be a rectangle with the Golden Ratio.
The FormulaThat rectangle above shows us a simple formula for the Golden Ratio.
When one side is
1, the other side is:
The square root of 5 is approximately 2.236068, so the Golden Ratio is approximately (1+2.236068)/2 = 3.236068/2 = 1.618034. This is an easy way to calculate it when you need it.
Fibonacci Sequence
There is a special relationship between the Golden Ratio and the
Fibonacci Sequence:
0, 1, 1, 2, 3, 5, 8, 13, 21, 34, ...
(The next number is found by adding up the two numbers before it.)
And here is a surprise: when we take any two successive
(one after the other) Fibonacci Numbers,
their ratio is very close to the Golden Ratio.
In fact, the bigger the pair of Fibonacci Numbers, the closer the approximation. Let us try a few:
A
 B
 B/A 

2
 3
 1.5 
3
 5
 1.666666666... 
5
 8
 1.6 
8
 13
 1.625 
...
 ...
 ... 
144
 233
 1.618055556... 
233
 377
 1.618025751... 
...
 ...
 ... 
We don't even have to start with
2 and 3, here I chose
192 and 16 (and got the sequence
192, 16, 208, 224, 432, 656, 1088, 1744, 2832, 4576, 7408, 11984, 19392, 31376, ...):
A
 B
 B / A


192
 16
 0.08333333... 
16
 208
 13 
208
 224
 1.07692308... 
224
 432
 1.92857143... 
...
 ...
 ... 
7408
 11984
 1.61771058... 
11984
 19392
 1.61815754... 
...
 ...
 ...

The Most Irrational...I believe the Golden Ratio is the
most irrational number. Here is why ...
One of the special properties of the Golden Ratio is that it can be defined in terms of itself, like this: 
That can be expanded into this fraction that goes on for ever (called a "continued fraction"): 
 (In numbers: 1.61803... = 1 + 1/1.61803...) 
That can be expanded into this fraction that
goes on for ever (called a
"continued fraction"):
So, it neatly slips in between simple fractions.But many other irrational numbers are reasonably close to rational numbers (for example Pi = 3.141592654... is pretty close to 22/7 = 3.1428571...)
PentagramNo, not witchcraft! The pentagram is more famous as a magical or holy symbol. And it has the Golden Ratio in it:
 a/b = 1.618...
 b/c = 1.618...
 c/d = 1.618...
Read more at
Pentagram.
Other Names
The Golden Ratio is also sometimes called the
golden section,
golden mean,
golden number,
divine proportion,
divine section and
golden proportion.