Turn | |
---|---|

Unit of | Plane angle |

Symbol | tr or pla |

Conversions | |

1 tr in ... | ... is equal to ... |

radians | 6.283185307179586... rad |

radians | 2π rad |

degrees | 360° |

gradians | 400^{g} |

A **turn** is a unit of plane angle measurement equal to 2π radians, 360 degrees or 400 gradians. A turn is also referred to as a **cycle** (abbreviated **cyc**), **revolution** (abbreviated **rev**), **complete rotation** (abbreviated **rot**) or **full circle**.

Subdivisions of a turn include half turns, quarter turns, centiturns, milliturns, points, etc.

## Contents

## Subdivision of turns

A turn can be divided in 100 centiturns or 1000 milliturns, with each milliturn corresponding to an angle of 0.36°, which can also be written as 21′ 36″. A protractor divided in centiturns is normally called a percentage protractor.

Binary fractions of a turn are also used. Sailors have traditionally divided a turn into 32 compass points. The *binary degree*, also known as the *binary radian* (or *brad*), is ^{1}⁄_{256} turn.^{[1]} The binary degree is used in computing so that an angle can be represented to the maximum possible precision in a single byte. Other measures of angle used in computing may be based on dividing one whole turn into 2^{n} equal parts for other values of *n*.^{[2]}

The notion of turn is commonly used for planar rotations.

## History

The word turn originates via Latin and French from the Greek word τόρνος (*tórnos* – a lathe).

In 1697, David Gregory used π/ρ (pi over rho) to denote the perimeter of a circle (i.e., the circumference) divided by its radius.^{[3]}^{[4]} However, earlier in 1647, William Oughtred had used δ/π (delta over pi) for the ratio of the diameter to perimeter. The first use of the symbol π on its own with its present meaning (of perimeter divided by diameter) was in 1706 by the Welsh mathematician William Jones.^{[5]} Euler adopted the symbol with that meaning in 1737, leading to its widespread use.

Percentage protractors have existed since 1922,^{[6]} but the terms centiturns and milliturns were introduced much later by Fred Hoyle.^{[7]}

The German standard DIN 1315 (1974-03) proposed the unit symbol *pla* (from Latin: *plenus angulus* "full angle") for turns.^{[8]}^{[9]} Since 2011, the HP 39gII and HP Prime support the unit symbol *tr* for turns. In 2016, support for turns was also added to newRPL for the HP 50g.^{[10]} In June 2017, for release 3.6, the Python programming language adopted the name *tau* to represent the number of radians in a turn.^{[11]}

The standard ISO 80000-3:2006 mentions that the unit name revolution with symbol r is used with rotating machines, as well as using the term *turn* to mean a full rotation. The standard IEEE 260.1:2004 also uses the unit name rotation and symbol *r*.

## Unit conversion

One turn is equal to 2π (≈ 6.283185307179586)^{[12]} radians.

Turns | Radians | Degrees | Gradians (Gons) |
---|---|---|---|

0 | 0 | 0° | 0^{g} |

1/24 | π/12 | 15° | 16 2/3^{g} |

1/12 | π/6 | 30° | 33 1/3^{g} |

1/10 | π/5 | 36° | 40^{g} |

1/8 | π/4 | 45° | 50^{g} |

1/2π | 1 | c. 57.3° | c. 63.7^{g} |

1/6 | π/3 | 60° | 66 2/3^{g} |

1/5 | 2π/5 | 72° | 80^{g} |

1/4 | π/2 | 90° | 100^{g} |

1/3 | 2π/3 | 120° | 133 1/3^{g} |

2/5 | 4π/5 | 144° | 160^{g} |

1/2 | π | 180° | 200^{g} |

3/4 | 3π/2 | 270° | 300^{g} |

1 | 2π | 360° | 400^{g} |

## Tau proposals

In 2001, Robert Palais proposed using the number of radians in a turn as the fundamental circle constant instead of π, which amounts to the number of radians in half a turn, in order to make mathematics simpler and more intuitive. His proposal used a "pi with three legs" symbol to denote the constant ( = 2π).^{[13]}

In 2010, Michael Hartl proposed to use tau to represent Palais' circle constant: *τ* = 2*π*. He offered two reasons. First, τ is the number of radians in *one turn*, which allows fractions of a turn to be expressed more directly: for instance, a 3/4 turn would be represented as 3/4*τ* rad instead of 3/2*π** rad. Second, τ visually resembles π, whose association with the circle constant is unavoidable. ^{[14]} Hartl's *Tau Manifesto

^{[15]}gives many examples of formulas that are asserted to be clearer where tau is used instead of pi.^{[16]}^{[17]}^{[18]}The τ-functionality is made available in the Google calculator and in several programming languages like Python^{[19]}, Perl^{[20]}, Processing^{[21]}, and Nim^{[22]}. It has also been used in at least one mathematical research article,^{[23]} authored by the τ-promoter P. Harremoës.^{[24]}

However, none of these proposals have received widespread acceptance by the mathematical and scientific communities.^{[25]}

## Examples of use

- As an angular unit, the turn or revolution is particularly useful for large angles, such as in connection with electromagnetic coils and rotating objects. See also winding number.
- The angular speed of rotating machinery, such as automobile engines, is commonly measured in revolutions per minute or RPM.
- Turn is used in complex dynamics for measure of external and internal angles. The sum of external angles of a polygon equals one turn. Angle doubling map is used.
- Pie charts illustrate proportions of a whole as fractions of a turn. Each one percent is shown as an angle of one centiturn.

## Kinematics of turns

In kinematics, a **turn** is a rotation less than a full revolution.
A turn may be represented in a mathematical model that uses expressions of complex numbers or quaternions. In the complex plane every non-zero number has a polar coordinate expression *z* = *r* cis(*a*) = *r* cos(*a*) + *r*i sin(*a*) where *r* > 0 and *a* is in [0, 2π).
A turn of the complex plane arises from multiplying *z* = *x* + i*y* by an element *u* = e^{bi} that lies on the unit circle:

*z*↦*uz*.

Frank Morley consistently referred to elements of the unit circle as *turns* in the book *Inversive Geometry*, (1933) which he coauthored with his son Frank Vigor Morley.^{[26]}

The Latin term for *turn* is versor, which is a quaternion that can be visualized as an arc of a great circle. The product of two versors can be compared to a spherical triangle where two sides add to the third. For the kinematics of rotation in three dimensions, see quaternions and spatial rotation.

## See also

- Angle of rotation
- Revolutions per minute
- Repeating circle
- Spat (unit) — the 3D counterpart of the turn, equivalent to 4π steradians.
- Unit interval
- Turn (rational trigonometry)
- Spread (rational trigonometry)
- Modulo operation

## Notes and references

**^**"ooPIC Programmer's Guide". www.oopic.com. Archived from the original on 2008-06-28.**^**Hargreaves, Shawn. "Angles, integers, and modulo arithmetic". blogs.msdn.com.**^**Beckmann, Petr (1989).*A History of Pi*. Barnes & Noble Publishing.**^**Schwartzman, Steven (1994).*The Words of Mathematics: An Etymological Dictionary of Mathematical Terms Used in English*. The Mathematical Association of America. p. 165.**^**"Pi through the ages".**^**Croxton, Frederick E. (1922). "A Percentage Protractor".*Journal of the American Statistical Association*.**18**: 108–109. doi:10.1080/01621459.1922.10502455.**^**Hoyle, Fred (1962).*Astronomy*. London: Macdonald.**^**German, Sigmar; Drath, Peter (2013-03-13) [1979].*Handbuch SI-Einheiten: Definition, Realisierung, Bewahrung und Weitergabe der SI-Einheiten, Grundlagen der Präzisionsmeßtechnik*(in German) (1 ed.). Friedrich Vieweg & Sohn Verlagsgesellschaft mbH, reprint: Springer-Verlag. ISBN 3322836061. 978-3-528-08441-7, 9783322836069. Retrieved 2015-08-14.**^**Kurzweil, Peter (2013-03-09) [1999].*Das Vieweg Einheiten-Lexikon: Formeln und Begriffe aus Physik, Chemie und Technik*(in German) (1 ed.). Vieweg, reprint: Springer-Verlag. doi:10.1007/978-3-322-92920-4. ISBN 3322929205. 978-3-322-92921-1. Retrieved 2015-08-14.**^**http://www.hpmuseum.org/forum/thread-4783-post-55836.html#pid55836**^**https://www.python.org/dev/peps/pep-0628/**^**Sequence OEIS: A019692**^**Palais, Robert (2001). "Pi is Wrong" (PDF).*The Mathematical Intelligencer*. New York, USA: Springer-Verlag.**23**(3): 7–8. doi:10.1007/bf03026846.**^**Hartl, Michael (2013-03-14). "The Tau Manifesto". Retrieved 2013-09-14.**^**https://hexnet.org/files/documents/tau-manifesto.pdf**^**Aron, Jacob (2011-01-08). "Interview: Michael Hartl: It's time to kill off pi".*New Scientist*.**209**(2794): 23. Bibcode:2011NewSc.209...23A. doi:10.1016/S0262-4079(11)60036-5.**^**Landau, Elizabeth (2011-03-14). "On Pi Day, is 'pi' under attack?".*cnn.com*.**^**"Why Tau Trumps Pi".*Scientific American*. 2014-06-25. Retrieved 2015-03-20.**^**"Python 3.7.0 documentation".**^**"Perl 6".**^**"Processing".**^**"Nim".**^**Harremoës, Peter. "Bounds on tail probabilities for negative binomial distributions".*Kybernetika*.**52**(6): 943–966. doi:10.14736/kyb-2016-6-0943.**^**Harremoës, Peter. "Al-Kashi's constant τ" (PDF). Retrieved 20 September 2018.**^**"Life of pi in no danger – Experts cold-shoulder campaign to replace with tau".*Telegraph India*. 30 June 2011. Archived from the original on 13 July 2013.**^**Morley, Frank; Morley, Frank Vigor (2014) [1933].*Inversive Geometry*. Boston, USA; New York, USA: Ginn and Company, reprint: Courier Corporation, Dover Publications. ISBN 978-0-486-49339-8. 0-486-49339-3. Retrieved 2015-10-17.

## External links

- Palais, Robert (2001). "Pi is Wrong" (PDF).
*The Mathematical Intelligencer*. New York, USA: Springer-Verlag.**23**(3): 7–8. doi:10.1007/bf03026846.