Golden ratio: Difference between revisions

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imported>Wlodzimierz Holsztynski
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imported>Hayford Peirce
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If there is a longer line segment <math>\scriptstyle a\ </math> and and a shorter line segment <math>\scriptstyle b\ </math>, and if the ratio between <math>\scriptstyle a + b\ </math> and <math>\scriptstyle a\ </math> is equal to the ratio between the line segment <math>\scriptstyle a\ </math> and <math>\scriptstyle b\ </math>, this ratio is called '''golden ratio'''. The value of the golden ratio is <math>\scriptstyle \Phi = \frac{a}{b}= \frac{1 + \sqrt{5}}{2} = 1{,}618033988\dots</math>
 
The '''golden ration''', also frequently known by a number of other names such as '''golden section''' or '''golden mean''', is a mathematical proportion that is important in the arts and interesting to mathematicians. In architecture and painting, some works have been proportioned to approximate the golden ratio ever since antiquity, when, supposedly, some of the buildings on the [[Acropolis]] derived their eye-pleasing esthetics from the use of this ratio in determining the length of the buildings to their height and width.
 
According to the ''Merriam-Webster's Collegiate Dictionary, Eleventh Edition'', the proportion is derived from two segments in which "the ratio of the whole to the larger part is the same as the ratio of the larger part to the smaller."
 
To be more elaborate: if there is a longer line segment <math>\scriptstyle a\ </math> and and a shorter line segment <math>\scriptstyle b\ </math>, and if the ratio between <math>\scriptstyle a + b\ </math> and <math>\scriptstyle a\ </math> is equal to the ratio between the line segment <math>\scriptstyle a\ </math> and <math>\scriptstyle b\ </math>, this ratio is the golden ratio. The value of the golden ratio is <math>\scriptstyle \Phi = \frac{a}{b}= \frac{1 + \sqrt{5}}{2} = 1{,}618033988\dots</math>


==Properties==
==Properties==

Revision as of 12:59, 28 December 2007

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The golden ration, also frequently known by a number of other names such as golden section or golden mean, is a mathematical proportion that is important in the arts and interesting to mathematicians. In architecture and painting, some works have been proportioned to approximate the golden ratio ever since antiquity, when, supposedly, some of the buildings on the Acropolis derived their eye-pleasing esthetics from the use of this ratio in determining the length of the buildings to their height and width.

According to the Merriam-Webster's Collegiate Dictionary, Eleventh Edition, the proportion is derived from two segments in which "the ratio of the whole to the larger part is the same as the ratio of the larger part to the smaller."

To be more elaborate: if there is a longer line segment and and a shorter line segment , and if the ratio between and is equal to the ratio between the line segment and , this ratio is the golden ratio. The value of the golden ratio is

Properties

  • If   it follows that

With we could derive the infinite continued fraction of the golden ratio:

Thus


  • ,

where is the n-th term of the Fibonacci sequence.

  • The golden ratio is irrational and, in a sense, the hardest among irrational numbers to approximate by rational numbers. Only rational numbers are harder to approximate by other rational numbers. Thus one may say that of all irrational numbers the golden ratio is the least irrational.