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User:Reddwarf2956/Ratio of circumference to radius

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Introduction

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Circumference / radius = 2π

In mathematics, the Ratio of circumference to radius, is a fundamental mathematical constant, and has no formal glyph symbolism. The ratio of a circle's circumference to its radius, C/r, is ubiquitous in mathematics, engineering, and science. While the value is related to the period of many trigonometry functions including sine and cosine, the measure in radians of one complete revolution or turn is C/r. In computer programming the constant takes on many names and because of different word lengths many values.

A circle with radius of 1 unit has a circumference of 2π.
A circle with radius of 1 unit has a circumference of 2π.
An arc of a circle with the same length as the radius of that circle corresponds to an angle of 1 radian. A full circle corresponds to a full turn, or approximately 6.28 radians, which are expressed here using the Greek letter tau (τ).


Relationship with unit circles and pi

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Because the circumference of a circle is

the value C/r is equal to twice the number pi, 2π.

This ratio is the same as a unit circle which has radius of 1 to its circumference, 2π.

Area of a disk onion and triangle method with tau

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Onion proof

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Area of the disk via ring integration
Area of the disk via ring integration

Using calculus, we can sum the area incrementally, partitioning the disk into thin concentric rings like the layers of an onion. This is the method of shell integration in two dimensions. For an infinitesimally thin ring of the "onion" of radius t, the accumulated area is 𝜏t dt, the circumferential length of the ring times its infinitesimal width (you can approach this ring by a rectangle with width = 𝜏t and height = dt). This gives an elementary integral for a disk of radius r.

Triangle method

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The circle and the triangle are equal in area.
The circle and the triangle are equal in area.
Circle unwrapped to form a triangle

This approach is a slight modification of onion proof. Consider unwrapping the concentric circles to straight strips. This will form a right angled triangle with r as its height and 𝜏r (being the outer slice of onion) as its base.

Finding the area of this triangle will give the area of circle

The opposite and adjacent angles for this triangle are respectively in degrees 9.0430611...°, 80.956939...° and in radians 0.1578311..., 1.4129651....

Decimal Expansion and Continued fraction

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The decimal expansion of Ratio of circumference to radius and it is approximately equal to 6.283185307179586476925286766559005768394338798750211641949889184615632...OEISA019692. Continued fraction is found in OEISA058291 and is

Trigonometry functions

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Diagram showing graphs of functions
Sine and cosine functions repeat with period C/r.

Most trigonometric functions are periodic functions with intervals of length C/r. The following tables shows the

Radians

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It follows that the magnitude in radians of one complete revolution (360 degrees) is the length of the entire circumference, 2πr, divided by the radius, r, resulting in 2π.

Physics

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Physical constants

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http://wiki.riteme.site/wiki/Physical_constants

Reduced Planck constant

Computer Science

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Support in programming languages

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The constant tau is used in programming languages as names like twopi, two_pi, TWOPI, TWO_PI, .... The following table has the language and the value of the number.

Programming language Name Value
Fortran TWOPI
OGRE TWO_PI
Pascal TwoPI 6.28318 53071 79586
Processing TWO_PI TAU 6.28318 53071 79586 47693
Wiring TWO_PI 6.28318 53071 79586 47693
Extreme Optimization Libraries TwoPi 6.28318 53071 79586 47692 52867 66558
Haskell (module)
Python (PEP, bug)
Ruby (bug)
An example for Fortran: http://naif.jpl.nasa.gov/pub/naif/toolkit_docs/FORTRAN/spicelib/twopi.html .

Version numbering

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The major/minor version numbers of Pugs converges to 2π (being reminiscent of TeX and METAFONT, which use a similar scheme); each significant digit in the minor version represents a successfully completed milestone. The third digit is incremented for each release. The current milestones are:

  • 6.0: Initial release.
  • 6.2: Basic IO and control flow elements; mutable variables; assignment.
  • 6.28: Classes and traits.
  • 6.283: Rules and Grammars.
  • 6.2831: Type system and linking.
  • 6.28318: Macros.
  • 6.283185: Port Pugs to Perl 6, if needed.

History

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In 1424, the Persian astronomer and mathematician, Jamshīd al-Kāshī (Kāshānī), correctly computed 2π to 9 sexagesimal digits.[1][2] His value for 2π was 6;16,59,28,1,34,51,46,14,50. The decimal equivalent of this value to 17 digits is


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Proposed Glyph Symbolism

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Advocacy

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An opinion column in The Mathematical Intelligencer, Robert Palais argued that π is "wrong" as a circle measure, and that a better value would be 2π, being the measure of the circle's circumference and the period of the sine, cosine, and complex exponential functions. He suggested a symbol like π but with three legs, , be used in place of 2π, demonstrating how it simplifies many mathematical formulas.[3]

In 2010, Michael Hartl posted an essay called The Tau Manifesto on his personal website. In it, he proposed using the Greek letter tau (𝜏) to represent that number instead. Hartl argued that an existing symbol like 𝜏 would face fewer barriers to adoption than a new symbol like the "three-legged pi" proposed in the Intelligencer.[4]

Criticism

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The Pi Manifesto

Tau day, Tau time

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The oldest known celebration for 'Tau Day' or '2 Pi Day' June 28.

A number of news outlets reported on "Tau Day", a holiday proposed in The Tau Manifesto' for June 28 to honor the number 2π.[5][6][7] The Royal Institution of Australia's Tau Day celebration in 2011 featured the performance of a musical work based on tau.[8]

According to the Massachusetts Institute of Technology's Dean of Admissions Stuart Schmill, "over [the] past year or so, there has been a bit of a debate in the math universe over which is a better number to use, whether it is Pi or Tau". Thus the school chose to inform 2012 applicants whether or not they were accepted on Pi Day at what MIT called Tau Time, 6:28 pm.[9]

See also

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References

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  1. ^ Youschkevitch, Adolf P., "Al-Kashi", in Rosenfeld, Boris A. (ed.), Dictionary of Scientific Biography, p. 256.
  2. ^ Aaboe (1964), p. 125
  3. ^ Palais, Robert (2001). "π Is Wrong!" (PDF). The Mathematical Intelligencer. 23 (3): 7–8. Retrieved 2011-07-03.
  4. ^ Hartl, Michael (28 June 2010). "The Tau Manifesto". Retrieved 2012-04-03.
  5. ^ Palmer, Jason (28 June 2011). "'Tau day' marked by opponents of maths constant pi". BBC News. Retrieved 2011-07-03.
  6. ^ "Tau: Is two pi better than one?". Today. BBC Radio 4. 28 June 2011. Retrieved 2012-03-27.
  7. ^ Black, Debra (28 June 2011). "Down with ugly pi, long live elegant Tau, physicist urges". The Toronto Star. Retrieved 2012-03-28.
  8. ^ "On National Tau Day, Pi Under Attack". Fox News Channel. NewsCore. June 28, 2011. Retrieved 2011-07-03.
  9. ^ Young, Colin A. "In nod to Pi Day, MIT releasing admissions decisions Wednesday evening". Boston Globe. Retrieved 17 March 2012.


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