Golden Ratio: Difference between revisions

Latest revision as of 06:53, 22 November 2012

GOLDEN RATIO[edit]

DEFINITION[edit]

The golden ratio is an irrational mathematical constant with the approximated value of 1.6180339887. It is the relation between two quantities, where the ratio of the sum of the quantities to the larger quantity is equal to the ratio of the larger quantity to the smaller one. [Wikipedia, 2009a]

This mathematical proportion is often recognized as 'aesthetically pleasing', thus it is often found in many different fields like mathematics, architecture, geometry, science, biology, nature, art and design.[Livio, 2002]

Other names used for the golden ratio are golden section, golden mean, extreme and mean ratio, medial section, golden proportion, golden cut and golden number [Summerson, 1963]

It is said, that two quantities are in golden ration if and only if the following condition holds:

It is mostly symbolised by the Greek letter (phi) or sometimes by the less known τ (tau).

The history of the golden ration at least goes back to the ancient greeks, Pythagoras and his followers. The greek mathematician Euclid of Alexandria (365BC - 300BC) first mentioned the golden mean[Joyce, 1997]:

A straight line is said to have been cut in extreme and mean ratio when, as the whole line is to the greater segment, so is the greater to the lesser.

Euclid of Alexandria(ca. 300BC)

Source(s): Golden Ratio calculation tool

CALCULATION[edit]

Method for calculation of golden ratio constant is beginning from the following algebraic formula:

From the formula we obtain that a is equal b/, so we can replace all occurences of a:

Devided by b formula changes to:

Now we need to multiply formula by and by moving content of the right side to the left side we get quadratic equation:

The only positive result to above equation is the irrational number we have already presented:

GEOMETRY AND MATHEMATICS[edit]

Fibonacci introduced a sequence of numbers, today called the Fibonacci Numbers, which is often found in natural sciences. By definition, the first two Fibonacci numbers are 0 and 1, and each remaining number is the sum of the previous two [Wikipedia, 2009a] .

1,2,3,5,8,13,21,34,55,89,144,233,377,....

Every number of this alignment equals to 0,168 if you divide it with the one before it, and 1,618 when you divide it with the number after it. These are the relationships between the larger and smaller numbers in the golden ratio. Below you can see example for division of bigger by smaller number:

and by smaller devided by bigger number:

There are many shapes in which golden ratio were discovered. Examples of those you can see on the right side.

Pentagram	Golden rectangle

Image Illustrates the hidden golden ratio in the very special shape, pentagram.	A rectangle is a golden rectangle when the sides are in the 1:0,618 proportion.

ART & DESIGN[edit]

Since the beginning of ART & Design, the artist and designers used the golden ratio in order to manage and achieve beauty and balance in their creations. In the following table you can see few examples for all.

Mona-Liza	Aztek decorations	Credit cards

In Mona-Liza painting you can find many golden rectangles that together create golden spiral.	The space between the two heads is exacly Phi times the width of the heads.	if you measure a credit-card, the outcome would be a perfect golden rectangle.

Architecture[edit]

There is many examples of golden ratio even in architecture. Architect were inspired by this "sacred ratio" already in times of Pyramids. Even in Greek you can find golden rectangles, spirals, etc. In the table below you can find several examples.

Great Pyramid of Giza	Parthenon	Engineering Plaza

The Great Pyramid has proportions designed according to golden ratio.[Obara, 2000]	Even in proportions of Parthenon you can find golden spiral consisting of golden rectangles.[Obara, 2000]	The Designers of this new Plaza have chosen the Fibonacci series spiral, or also called the golden mean to design this new state of the art plaza.[Knott, 2009]

Related Links[edit]

[Wikipedia, Golden Ratio, 2005] Wikipedia.org, Golden Ratio, 19.10.2005, http://en.wikipedia.org/wiki/Golden_ratio [Wikipedia, Golden rectangle, 2005] Wikipedia.org, Golden rectangle, 24.10.2005, http://en.wikipedia.org/wiki/Golden_rectangle [Wikipedia, Pentagram, 2005] Wikipedia.org, Pentagram, 29.10.2005, http://en.wikipedia.org/wiki/Pentagram

I am. But you're confusing the deerins with that word. They don't understand what a consensus is or isn't or how they come to exist.Besides, don't you know that every scientific organization is made up of weak-kneed scientists who are spreading fairytales and that leftist alarmists like to tell them to small children to frighten them.You know Like Bigfoot.Dax *sigh* You know nothing of science. Look up "falsifiability". Besides that, if you want to use legalese, you have the burden of proof since you are the one crying foul. If you initiate a case (such as AGW is a socialist plot to implement the NWO), you are considered the plaintiff and assume the burden of proof. In other words, *YOU* need to back up *YOUR* claims as scientists already back up theirs in the scientific literature I'm sorry richie, but not a single one of your examples is relevant to the question. Though when you use the Einstein quote, you may want practice some introspection.You may also want to stop plagiarizing. It's illegal, you know?_

@@ Line 5: / Line 5: @@
 ----
 ===DEFINITION===
-The '''golden ratio''' is an irrational mathematical constant with the approximated value of 1.6180339887. It is the relation between two quantities, where the ratio of the sum of the quantities to the larger quantity is equal to the ratio of the larger quantity to the smaller one. [Wikipedia, Golden Ratio, 2009]
+The '''golden ratio''' is an irrational mathematical constant with the approximated value of 1.6180339887. It is the relation between two quantities, where the ratio of the sum of the quantities to the larger quantity is equal to the ratio of the larger quantity to the smaller one. [Wikipedia, 2009a]
 This mathematical proportion is often recognized as 'aesthetically pleasing', thus it is often found in many different fields like mathematics, architecture, geometry, science, biology, nature, art and design.[Livio, 2002]
@@ Line 19: / Line 19: @@
 [[Image:golden-ratio-graphical.png|right|thumb|upright|]]
-[Joyce, 1997]
-The history of the golden ration at least goes back to the ancient greeks, Pythagoras and his followers. The greek mathematician Euclid of Alexandria (365BC - 300BC) first mentioned the '''golden mean''':
+The history of the golden ration at least goes back to the ancient greeks, Pythagoras and his followers. The greek mathematician Euclid of Alexandria (365BC - 300BC) first mentioned the '''golden mean'''[Joyce, 1997]:
 {{Quotation|A straight line is said to have been cut in extreme and mean ratio when, as the whole line is to the greater segment, so is the greater to the lesser.| Euclid of Alexandria(ca. 300BC)}}
+'''Source(s):'''  [http://www.downloadranking.com  Golden Ratio calculation tool]
 ----
@@ Line 55: / Line 56: @@
 ===GEOMETRY AND MATHEMATICS===
-Fibonacci introduced a sequence of numbers, today called the '''Fibonacci Numbers''', which is often found in natural sciences. By definition, the first two Fibonacci numbers are 0 and 1, and each remaining number is the sum of the previous two [Wikipedia, Golden Ratio, 2009] .
+Fibonacci introduced a sequence of numbers, today called the '''Fibonacci Numbers''', which is often found in natural sciences. By definition, the first two Fibonacci numbers are 0 and 1, and each remaining number is the sum of the previous two [Wikipedia, 2009a] .
 ,2,3,5,8,13,21,34,55,89,144,233,377,....
@@ Line 102: / Line 103: @@
 [[Image:cards.jpg|120px]]
 |- align=center
-| In Mona-Liza painting you can find many golden rectangles that together create golden spiral.|| The space between the two heads is exacly Phi times the width of the heads.[Brooker]|| if you measure a credit-card, the outcome would be a perfect golden rectangle.[Batterywholesaler]
+| In Mona-Liza painting you can find many golden rectangles that together create golden spiral.|| The space between the two heads is exacly Phi times the width of the heads.|| if you measure a credit-card, the outcome would be a perfect golden rectangle.
 |}
@@ Line 124: / Line 125: @@
 [[Image:polyplaza.jpg|120px]]
 |- align=center
-| The Great Pyramid has proportions designed according to golden ratio.[Samuel Obara]|| Even in proportions of Parthenon you can find golden spiral consisting of golden rectangles.[Samuel Obara]|| The Designers of this new Plaza have chosen the Fibonacci series spiral, or also called the golden mean to design this new state of the art plaza.[Dr Knott, 1996-2005]
+| The Great Pyramid has proportions designed according to golden ratio.[Obara, 2000]|| Even in proportions of Parthenon you can find golden spiral consisting of golden rectangles.[Obara, 2000]|| The Designers of this new Plaza have chosen the Fibonacci series spiral, or also called the golden mean to design this new state of the art plaza.[Knott, 2009]
 |}
@@ Line 138: / Line 139: @@
-==REFERENCES==
+I am.  But you're confusing the deerins with that word.  They don't understand what a consensus is or isn't or how they come to exist.Besides, don't you know that every scientific organization is made up of weak-kneed scientists who are spreading fairytales and that leftist alarmists like to tell them to small children to frighten them.You know   Like Bigfoot.Dax   *sigh*  You know nothing of science.  Look up "falsifiability".  Besides that, if you want to use legalese, you have the burden of proof since you are the one crying foul.  If you initiate a case (such as AGW is a socialist plot to implement the NWO), you are considered the plaintiff and assume the burden of proof.  In other words, *YOU* need to back up *YOUR* claims as scientists already back up theirs in the scientific literature I'm sorry richie, but not a single one of your examples is relevant to the question.  Though when you use the Einstein quote, you may want practice some introspection.You may also want to stop plagiarizing.  It's illegal, you know?_
-[Livio, 2002] Mario Livio. The Golden Ratio: The Story of Phi, The World's most Astonishing Number. Broadway Books, New York, 2002
-[Summerson, 1963] John Summerson. Heavenly Mansions: And Other Essays on Architecture. Norton, New York, 1963, p.37
-[Joyce, 1997] Davic E.Joyce. Euclid Elements Book 6, Definition 3. Retrieved at: November 6, 2009.''[http://aleph0.clarku.edu/~djoyce/java/elements/toc.html Elements]''
-[Kaphammel, 2000] Günther Kahammel, Der goldene Schnitt, 1. Auflage,  Braunschweig, 2000
-[Obara, 2000] Samuel Obara. Golden Ratio in Art and Architectue. The University of Georgia. Retrieved at: November 6, 2009.''[http://jwilson.coe.uga.edu/EMT668/EMAT6680.2000/Obara/Emat6690/Golden%20Ratio/golden.html]''
-[Knott, 2009] Ron Knott. Fibonacci Numbers and The Golden Section in Art, Architecture and Music. Retrieved at: November 6, 2009.''[http://www.maths.surrey.ac.uk/hosted-sites/R.Knott/Fibonacci/fibInArt.html]''
-[[Category:Glossary]]