Extension of scalars: Difference between revisions

From formulasearchengine
Jump to navigation Jump to search
No edit summary
 
 
Line 1: Line 1:
Hello, my title is Andrew and my wife doesn't like it at all. My husband doesn't like it the way I do  [http://clothingcarearchworth.com/index.php?document_srl=441551&mid=customer_review psychics online] but what I really like doing is caving but I don't have the time recently. I've always loved residing in Kentucky but now I'm considering other choices. Office supervising is exactly where her primary income arrives from but she's currently applied for an additional one.<br><br>my web-site - [http://www.aseandate.com/index.php?m=member_profile&p=profile&id=13352970 telephone psychic] chat online ([http://www.youronlinepublishers.com/authWiki/AdolphvhBladenqq Full File])
[[Image:Golden ratio line.svg|right|thumb|The '''golden section''' is a line segment sectioned into two according to the '''golden ratio'''. The total length <font color="green">'''''a+b'''''</font> is to the longer segment <font color="blue">'''''a'''''</font> as <font color="blue">'''''a'''''</font> is to the shorter segment <font color="red">'''''b'''''</font>.]]
 
In [[mathematics]] and the [[art]]s, two quantities are in the [[golden ratio]] if the [[ratio]] between the sum of those quantities and the larger one is the same as the ratio between the larger one and the smaller. The golden ratio is approximately 1.6180339887.
 
At least since the [[Renaissance]], many [[artist]]s and [[architect]]s have proportioned their works to approximate the golden ratio—especially in the form of the '''[[golden rectangle]]''', in which the ratio of the longer side to the shorter is the golden ratio—believing this proportion to be [[aesthetics|aesthetically]] pleasing. [[Mathematician]]s have studied the golden ratio because of its unique and interesting properties.
 
The golden ratio can be expressed as a [[mathematical constant]], usually denoted by the [[Greek alphabet|Greek]] letter <math>\varphi</math> ([[Phi_%28letter%29|phi]]). The figure of a '''golden section''' illustrates the geometric relationship that defines this constant. Expressed algebraically:
 
:<math> \frac{a+b}{a} = \frac{a}{b} = \varphi\,.</math>
'''([[Golden ratio|read more...]])'''

Latest revision as of 07:14, 11 November 2013

File:Golden ratio line.svg
The golden section is a line segment sectioned into two according to the golden ratio. The total length a+b is to the longer segment a as a is to the shorter segment b.

In mathematics and the arts, two quantities are in the golden ratio if the ratio between the sum of those quantities and the larger one is the same as the ratio between the larger one and the smaller. The golden ratio is approximately 1.6180339887.

At least since the Renaissance, many artists and architects have proportioned their works to approximate the golden ratio—especially in the form of the golden rectangle, in which the ratio of the longer side to the shorter is the golden ratio—believing this proportion to be aesthetically pleasing. Mathematicians have studied the golden ratio because of its unique and interesting properties.

The golden ratio can be expressed as a mathematical constant, usually denoted by the Greek letter φ (phi). The figure of a golden section illustrates the geometric relationship that defines this constant. Expressed algebraically:

a+ba=ab=φ.

(read more...)