Difference between revisions of "Manuals/calci/GOLDENRATIO"

 
(5 intermediate revisions by the same user not shown)
Line 1: Line 1:
=GOLDENRATIO(phismall)=
+
<div style="font-size:30px">'''GOLDENRATIO(phiSmall)'''</div><br/>
 
+
*where <math>phiSmall</math> is the logical value TRUE or FALSE.
*where <math>phismall</math> is the logical value TRUE or FALSE.
+
**GOLDENRATIO() returns the ratio of the longer part divided by the smaller part is also equal to the whole length divided by the longer part.
 
 
GOLDENRATIO() returns the golden ratio value.
 
  
 
== Description ==
 
== Description ==
  
 
*Two quantities are in the golden ratio if their ratio is the same as the ratio of their sum to the larger of the two quantities.
 
*Two quantities are in the golden ratio if their ratio is the same as the ratio of their sum to the larger of the two quantities.
*Golden ratio is represented as '''&phi;(phi or smallphi)''' and its conjugate is represented as '''&Phi;(Phi or capitalphi)'''.  
+
*Golden ratio is represented as '''&phi;(phi or Smallphi)''' and its conjugate is represented as '''&Phi;(Phi or capitalphi)'''.  
 
*If 'a' and 'b' are two quantities with 'a>b', then
 
*If 'a' and 'b' are two quantities with 'a>b', then
  
Line 14: Line 12:
 
*Using quadratic formula, golden ratio is represented as -
 
*Using quadratic formula, golden ratio is represented as -
  
  &phi; = <math>\frac{(1 + &radic;5)}{2}</math> = 1.618033988749895  
+
  <math>\phi</math> = <math>\frac{(1 + \sqrt 5)}{2}</math> = 1.618033988749895  
  
  &Phi; = <math>\frac{(1 - &radic;5)}{2}</math> = -0.6180339887498948 (Absolute value 0.6180339887498948 is considered as capitalphi)
+
  <math>\Phi</math> = <math>\frac{(1 - \sqrt 5)}{2}</math> = -0.6180339887498948 (Absolute value 0.6180339887498948 is considered as capitalphi)
  
 
*Argument <math>phismall</math> can be logical values TRUE (or 1) or FALSE (or 0). Any other argument values are ignored and Calci assumes it to be TRUE or 1.
 
*Argument <math>phismall</math> can be logical values TRUE (or 1) or FALSE (or 0). Any other argument values are ignored and Calci assumes it to be TRUE or 1.

Latest revision as of 17:25, 17 August 2018

GOLDENRATIO(phiSmall)


  • where is the logical value TRUE or FALSE.
    • GOLDENRATIO() returns the ratio of the longer part divided by the smaller part is also equal to the whole length divided by the longer part.

Description

  • Two quantities are in the golden ratio if their ratio is the same as the ratio of their sum to the larger of the two quantities.
  • Golden ratio is represented as φ(phi or Smallphi) and its conjugate is represented as Φ(Phi or capitalphi).
  • If 'a' and 'b' are two quantities with 'a>b', then
φ =   =  
  • Using quadratic formula, golden ratio is represented as -
  =   = 1.618033988749895 
  =   = -0.6180339887498948 (Absolute value 0.6180339887498948 is considered as capitalphi)
  • Argument   can be logical values TRUE (or 1) or FALSE (or 0). Any other argument values are ignored and Calci assumes it to be TRUE or 1.
  • If argument   is omitted, Calci assumes it as TRUE or 1 and displays the output as 0.6180339887498948.
  • If argument is invalid, Calci returns a #NULL error message.

Examples

GOLDENRATIO(TRUE) returns 0.6180339887498948, value of capitalphi Φ

GOLDENRATIO(1) returns 0.6180339887498948, value of capitalphi Φ

GOLDENRATIO(FALSE) returns 1.618033988749895, value of smallphi φ

GOLDENRATIO() returns 0.6180339887498948, value of capitalphi Φ

Related Videos

GOLDENRATIO

See Also

References