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Wikipedia

Versine

January 01, 1970

For the archaic unit of mass, see Versine in WP:de.
"versin" redirects here. For the Polish village, see Versin (village).
Look up versine  or versed sine in Wiktionary, the free dictionary.

The versine or versed sine is a trigonometric function found in some of the earliest (Sanskrit Aryabhatia,[1] Section I) trigonometric tables. The versine of an angle is 1 minus its cosine.

There are several related functions, most notably the coversine and haversine. The latter, half a versine, is of particular importance in the haversine formula of navigation.

A unit circle with trigonometric functions.[2]

Overview edit

The versine[3][4][5][6][7] or versed sine[8][9][10][11][12] is a trigonometric function already appearing in some of the earliest trigonometric tables. It is symbolized in formulas using the abbreviations versin, sinver,[13][14] vers, ver[15] or siv.[16][17] In Latin, it is known as the sinus versus (flipped sine), versinus, versus, or sagitta (arrow).[18]

Expressed in terms of common trigonometric functions sine, cosine, and tangent, the versine is equal to

 

There are several related functions corresponding to the versine:

  • The versed cosine,[19][nb 1] or vercosine, abbreviated vercosin, vercos, or vcs.
  • The coversed sine or coversine[20] (in Latin, cosinus versus or coversinus), abbreviated coversin,[21] covers,[22][23][24] cosiv, or cvs[25]
  • The coversed cosine[26] or covercosine, abbreviated covercosin, covercos, or cvc

In full analogy to the above-mentioned four functions another set of four "half-value" functions exists as well:

  • The haversed sine[27] or haversine (Latin semiversus),[28][29] abbreviated haversin, semiversin, semiversinus, havers, hav,[30][31] hvs,[nb 2] sem, or hv,[32] most famous from the haversine formula used historically in navigation
  • The haversed cosine[33] or havercosine, abbreviated havercosin, havercos, hac or hvc
  • The hacoversed sine, hacoversine,[21] or cohaversine, abbreviated hacoversin, semicoversin, hacovers, hacov[34] or hcv
  • The hacoversed cosine,[35] hacovercosine, or cohavercosine, abbreviated hacovercosin, hacovercos or hcc

History and applications edit

Versine and coversine edit

 
Sine, cosine, and versine of angle θ in terms of a unit circle with radius 1, centered at O. This figure also illustrates the reason why the versine was sometimes called the sagitta, Latin for arrow.[18][36] If the arc ADB of the double-angle Δ = 2θ is viewed as a "bow" and the chord AB as its "string", then the versine CD is clearly the "arrow shaft".
 
Graphs of historical trigonometric functions compared with sin and cos – in the SVG file, hover over or click a graph to highlight it

The ordinary sine function (see note on etymology) was sometimes historically called the sinus rectus ("straight sine"), to contrast it with the versed sine (sinus versus).[37] The meaning of these terms is apparent if one looks at the functions in the original context for their definition, a unit circle:

For a vertical chord AB of the unit circle, the sine of the angle θ (representing half of the subtended angle Δ) is the distance AC (half of the chord). On the other hand, the versed sine of θ is the distance CD from the center of the chord to the center of the arc. Thus, the sum of cos(θ) (equal to the length of line OC) and versin(θ) (equal to the length of line CD) is the radius OD (with length 1). Illustrated this way, the sine is vertical (rectus, literally "straight") while the versine is horizontal (versus, literally "turned against, out-of-place"); both are distances from C to the circle.

This figure also illustrates the reason why the versine was sometimes called the sagitta, Latin for arrow,[18][36] from the Arabic usage sahem[38] of the same meaning. This itself comes from the Indian word 'sara' (arrow)[citation needed] that was commonly used to refer to "utkrama-jya". If the arc ADB of the double-angle Δ = 2θ is viewed as a "bow" and the chord AB as its "string", then the versine CD is clearly the "arrow shaft".

In further keeping with the interpretation of the sine as "vertical" and the versed sine as "horizontal", sagitta is also an obsolete synonym for the abscissa (the horizontal axis of a graph).[36]

In 1821, Cauchy used the terms sinus versus (siv) for the versine and cosinus versus (cosiv) for the coversine.[16][17][nb 1]

 
The trigonometric functions can be constructed geometrically in terms of a unit circle centered at O.

Historically, the versed sine was considered one of the most important trigonometric functions.[12][37][38]

As θ goes to zero, versin(θ) is the difference between two nearly equal quantities, so a user of a trigonometric table for the cosine alone would need a very high accuracy to obtain the versine in order to avoid catastrophic cancellation, making separate tables for the latter convenient.[12] Even with a calculator or computer, round-off errors make it advisable to use the sin2 formula for small θ.

Another historical advantage of the versine is that it is always non-negative, so its logarithm is defined everywhere except for the single angle (θ = 0, 2π, …) where it is zero—thus, one could use logarithmic tables for multiplications in formulas involving versines.

In fact, the earliest surviving table of sine (half-chord) values (as opposed to the chords tabulated by Ptolemy and other Greek authors), calculated from the Surya Siddhantha of India dated back to the 3rd century BC, was a table of values for the sine and versed sine (in 3.75° increments from 0 to 90°).[37]

The versine appears as an intermediate step in the application of the half-angle formula sin2(θ/2) = 1/2versin(θ), derived by Ptolemy, that was used to construct such tables.

Haversine edit

The haversine, in particular, was important in navigation because it appears in the haversine formula, which is used to reasonably accurately compute distances on an astronomic spheroid (see issues with the Earth's radius vs. sphere) given angular positions (e.g., longitude and latitude). One could also use sin2(θ/2) directly, but having a table of the haversine removed the need to compute squares and square roots.[12]

An early utilization by José de Mendoza y Ríos of what later would be called haversines is documented in 1801.[14][39]

The first known English equivalent to a table of haversines was published by James Andrew in 1805, under the name "Squares of Natural Semi-Chords".[40][41][18]

In 1835, the term haversine (notated naturally as hav. or base-10 logarithmically as log. haversine or log. havers.) was coined[42] by James Inman[14][43][44] in the third edition of his work Navigation and Nautical Astronomy: For the Use of British Seamen to simplify the calculation of distances between two points on the surface of the Earth using spherical trigonometry for applications in navigation.[3][42] Inman also used the terms nat. versine and nat. vers. for versines.[3]

Other high-regarded tables of haversines were those of Richard Farley in 1856[40][45] and John Caulfield Hannyngton in 1876.[40][46]

The haversine continues to be used in navigation and has found new applications in recent decades, as in Bruce D. Stark's method for clearing lunar distances utilizing Gaussian logarithms since 1995[47][48] or in a more compact method for sight reduction since 2014.[32]

Modern uses edit

Whilst the usage of the versine, coversine and haversine as well as their inverse functions can be traced back centuries, the names for the other five cofunctions appear to be of much younger origin.

One period (0 < θ < 2π) of a versine or, more commonly, a haversine (or havercosine) waveform is also commonly used in signal processing and control theory as the shape of a pulse or a window function (including Hann, Hann–Poisson and Tukey windows), because it smoothly (continuous in value and slope) "turns on" from zero to one (for haversine) and back to zero.[nb 2] In these applications, it is named Hann function or raised-cosine filter. Likewise, the havercosine is used in raised-cosine distributions in probability theory and statistics.

In the form of sin2(θ) the haversine of the double-angle Δ describes the relation between spreads and angles in rational trigonometry, a proposed reformulation of metrical planar and solid geometries by Norman John Wildberger since 2005.[49]

Mathematical identities edit

Definitions edit

 [4]  
 [4]  
 [19]  
 [26]  
 [4]  
 [21]  
 [33]  
 [35]  

Circular rotations edit

The functions are circular rotations of each other.

 

Derivatives and integrals edit

 [50]  [4][50]
   
 [20]  [20]
   
 [27]  [27]
   
   
   

Inverse functions edit

Inverse functions like arcversine[34] (arcversin, arcvers,[8][34] avers,[51][52] aver), arcvercosine (arcvercosin, arcvercos, avercos, avcs), arccoversine[34] (arccoversin, arccovers,[8][34] acovers,[51][52] acvs), arccovercosine (arccovercosin, arccovercos, acovercos, acvc), archaversine (archaversin, archav,[34] haversin−1,[53] invhav,[34][54][55][56] ahav,[34][51][52] ahvs, ahv, hav−1[57][58]), archavercosine (archavercosin, archavercos, ahvc), archacoversine (archacoversin, ahcv) or archacovercosine (archacovercosin, archacovercos, ahcc) exist as well:

 [34][51][52]
 
 [34][51][52]
 
 [34][51][52][53][54][55][57][58]
 
 
 

Other properties edit

These functions can be extended into the complex plane.[50][20][27]

Maclaurin series:[27]

 
 [8]
 [8]

Approximations edit

 
Comparison of the versine function with three approximations to the versine functions, for angles ranging from 0 to 2π
 
Comparison of the versine function with three approximations to the versine functions, for angles ranging from 0 to π/2

When the versine v is small in comparison to the radius r, it may be approximated from the half-chord length L (the distance AC shown above) by the formula[59]

 

Alternatively, if the versine is small and the versine, radius, and half-chord length are known, they may be used to estimate the arc length s (AD in the figure above) by the formula

 
This formula was known to the Chinese mathematician Shen Kuo, and a more accurate formula also involving the sagitta was developed two centuries later by Guo Shoujing.[60]

A more accurate approximation used in engineering[61] is

 

Arbitrary curves and chords edit

The term versine is also sometimes used to describe deviations from straightness in an arbitrary planar curve, of which the above circle is a special case. Given a chord between two points in a curve, the perpendicular distance v from the chord to the curve (usually at the chord midpoint) is called a versine measurement. For a straight line, the versine of any chord is zero, so this measurement characterizes the straightness of the curve. In the limit as the chord length L goes to zero, the ratio 8v/L2 goes to the instantaneous curvature. This usage is especially common in rail transport, where it describes measurements of the straightness of the rail tracks[62] and it is the basis of the Hallade method for rail surveying.

The term sagitta (often abbreviated sag) is used similarly in optics, for describing the surfaces of lenses and mirrors.

See also edit

Notes edit

  1. ^ a b Some English sources confuse the versed cosine with the coversed sine. Historically (f.e. in Cauchy, 1821), the sinus versus (versine) was defined as siv(θ) = 1−cos(θ), the cosinus versus (what is now also known as coversine) as cosiv(θ) = 1−sin(θ), and the vercosine as vcsθ = 1+cos(θ). However, in their 2009 English translation of Cauchy's work, Bradley and Sandifer associate the cosinus versus (and cosiv) with the versed cosine (what is now also known as vercosine) rather than the coversed sine. Similarly, in their 1968/2000 work, Korn and Korn associate the covers(θ) function with the versed cosine instead of the coversed sine.
  2. ^ a b The abbreviation hvs sometimes used for the haversine function in signal processing and filtering is also sometimes used for the unrelated Heaviside step function.

References edit

  1. ^ The Āryabhaṭīya by Āryabhaṭa
  2. ^ Haslett, Charles (September 1855). Hackley, Charles W. (ed.). The Mechanic's, Machinist's, Engineer's Practical Book of Reference: Containing tables and formulæ for use in superficial and solid mensuration; strength and weight of materials; mechanics; machinery; hydraulics, hydrodynamics; marine engines, chemistry; and miscellaneous recipes. Adapted to and for the use of all classes of practical mechanics. Together with the Engineer's Field Book: Containing formulæ for the various of running and changing lines, locating side tracks and switches, &c., &c. Tables of radii and their logarithms, natural and logarithmic versed sines and external secants, natural sines and tangents to every degree and minute of the quadrant, and logarithms from the natural numbers from 1 to 10,000. New York, USA: James G. Gregory, successor of W. A. Townsend & Co. (Stringer & Townsend). Retrieved 2017-08-13. […] Still there would be much labor of computation which may be saved by the use of tables of external secants and versed sines, which have been employed with great success recently by the Engineers on the Ohio and Mississippi Railroad, and which, with the formulas and rules necessary for their application to the laying down of curves, drawn up by Mr. Haslett, one of the Engineers of that Road, are now for the first time given to the public. […] In presenting this work to the public, the Author claims for it the adaptation of a new principle in trigonometrical analysis of the formulas generally used in field calculations. Experience has shown, that versed sines and external secants as frequently enter into calculations on curves as sines and tangents; and by their use, as illustrated in the examples given in this work, it is believed that many of the rules in general use are much simplified, and many calculations concerning curves and running lines made less intricate, and results obtained with more accuracy and far less trouble, than by any methods laid down in works of this kind. The examples given have all been suggested by actual practice, and will explain themselves. […] As a book for practical use in field work, it is confidently believed that this is more direct in the application of rules and facility of calculation than any work now in use. In addition to the tables generally found in books of this kind, the author has prepared, with great labor, a Table of Natural and Logarithmic Versed Sines and External Secants, calculated to degrees, for every minute; also, a Table of Radii and their Logarithms, from 1° to 60°. […] 1856 edition
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  60. ^ Needham, Noel Joseph Terence Montgomery (1959). Science and Civilisation in China: Mathematics and the Sciences of the Heavens and the Earth. Vol. 3. Cambridge University Press. p. 39. ISBN 9780521058018.
  61. ^ Boardman, Harry (1930). Table For Use in Computing Arcs, Chords and Versines. Chicago Bridge and Iron Company. p. 32.
  62. ^ Nair, P. N. Bhaskaran (1972). "Track measurement systems—concepts and techniques". Rail International. 3 (3). International Railway Congress Association, International Union of Railways: 159–166. ISSN 0020-8442. OCLC 751627806.

Further reading edit

External links edit

January 01, 1970
versine, archaic, unit, mass, versin, redirects, here, polish, village, versin, village, look, versine, versed, sine, wiktionary, free, dictionary, versine, versed, sine, trigonometric, function, found, some, earliest, sanskrit, aryabhatia, section, trigonomet. For the archaic unit of mass see Versine in WP de versin redirects here For the Polish village see Versin village Look up versine or versed sine in Wiktionary the free dictionary The versine or versed sine is a trigonometric function found in some of the earliest Sanskrit Aryabhatia 1 Section I trigonometric tables The versine of an angle is 1 minus its cosine There are several related functions most notably the coversine and haversine The latter half a versine is of particular importance in the haversine formula of navigation A unit circle with trigonometric functions 2 Contents 1 Overview 2 History and applications 2 1 Versine and coversine 2 2 Haversine 2 3 Modern uses 3 Mathematical identities 3 1 Definitions 3 2 Circular rotations 3 3 Derivatives and integrals 3 4 Inverse functions 3 5 Other properties 4 Approximations 5 Arbitrary curves and chords 6 See also 7 Notes 8 References 9 Further reading 10 External linksOverview editThe versine 3 4 5 6 7 or versed sine 8 9 10 11 12 is a trigonometric function already appearing in some of the earliest trigonometric tables It is symbolized in formulas using the abbreviations versin sinver 13 14 vers ver 15 or siv 16 17 In Latin it is known as the sinus versus flipped sine versinus versus or sagitta arrow 18 Expressed in terms of common trigonometric functions sine cosine and tangent the versine is equal toversin 8 1 cos 8 2 sin 2 8 2 sin 8 tan 8 2 displaystyle operatorname versin theta 1 cos theta 2 sin 2 frac theta 2 sin theta tan frac theta 2 nbsp There are several related functions corresponding to the versine The versed cosine 19 nb 1 or vercosine abbreviated vercosin vercos or vcs The coversed sine or coversine 20 in Latin cosinus versus or coversinus abbreviated coversin 21 covers 22 23 24 cosiv or cvs 25 The coversed cosine 26 or covercosine abbreviated covercosin covercos or cvc In full analogy to the above mentioned four functions another set of four half value functions exists as well The haversed sine 27 or haversine Latin semiversus 28 29 abbreviated haversin semiversin semiversinus havers hav 30 31 hvs nb 2 sem or hv 32 most famous from the haversine formula used historically in navigation The haversed cosine 33 or havercosine abbreviated havercosin havercos hac or hvc The hacoversed sine hacoversine 21 or cohaversine abbreviated hacoversin semicoversin hacovers hacov 34 or hcv The hacoversed cosine 35 hacovercosine or cohavercosine abbreviated hacovercosin hacovercos or hccHistory and applications editVersine and coversine edit nbsp Sine cosine and versine of angle 8 in terms of a unit circle with radius 1 centered at O This figure also illustrates the reason why the versine was sometimes called the sagitta Latin for arrow 18 36 If the arc ADB of the double angle D 28 is viewed as a bow and the chord AB as its string then the versine CD is clearly the arrow shaft nbsp Graphs of historical trigonometric functions compared with sin and cos in the SVG file hover over or click a graph to highlight it The ordinary sine function see note on etymology was sometimes historically called the sinus rectus straight sine to contrast it with the versed sine sinus versus 37 The meaning of these terms is apparent if one looks at the functions in the original context for their definition a unit circle For a vertical chord AB of the unit circle the sine of the angle 8 representing half of the subtended angle D is the distance AC half of the chord On the other hand the versed sine of 8 is the distance CD from the center of the chord to the center of the arc Thus the sum of cos 8 equal to the length of line OC and versin 8 equal to the length of line CD is the radius OD with length 1 Illustrated this way the sine is vertical rectus literally straight while the versine is horizontal versus literally turned against out of place both are distances from C to the circle This figure also illustrates the reason why the versine was sometimes called the sagitta Latin for arrow 18 36 from the Arabic usage sahem 38 of the same meaning This itself comes from the Indian word sara arrow citation needed that was commonly used to refer to utkrama jya If the arc ADB of the double angle D 28 is viewed as a bow and the chord AB as its string then the versine CD is clearly the arrow shaft In further keeping with the interpretation of the sine as vertical and the versed sine as horizontal sagitta is also an obsolete synonym for the abscissa the horizontal axis of a graph 36 In 1821 Cauchy used the terms sinus versus siv for the versine and cosinus versus cosiv for the coversine 16 17 nb 1 nbsp The trigonometric functions can be constructed geometrically in terms of a unit circle centered at O Historically the versed sine was considered one of the most important trigonometric functions 12 37 38 As 8 goes to zero versin 8 is the difference between two nearly equal quantities so a user of a trigonometric table for the cosine alone would need a very high accuracy to obtain the versine in order to avoid catastrophic cancellation making separate tables for the latter convenient 12 Even with a calculator or computer round off errors make it advisable to use the sin2 formula for small 8 Another historical advantage of the versine is that it is always non negative so its logarithm is defined everywhere except for the single angle 8 0 2p where it is zero thus one could use logarithmic tables for multiplications in formulas involving versines In fact the earliest surviving table of sine half chord values as opposed to the chords tabulated by Ptolemy and other Greek authors calculated from the Surya Siddhantha of India dated back to the 3rd century BC was a table of values for the sine and versed sine in 3 75 increments from 0 to 90 37 The versine appears as an intermediate step in the application of the half angle formula sin2 8 2 1 2 versin 8 derived by Ptolemy that was used to construct such tables Haversine edit The haversine in particular was important in navigation because it appears in the haversine formula which is used to reasonably accurately compute distances on an astronomic spheroid see issues with the Earth s radius vs sphere given angular positions e g longitude and latitude One could also use sin2 8 2 directly but having a table of the haversine removed the need to compute squares and square roots 12 An early utilization by Jose de Mendoza y Rios of what later would be called haversines is documented in 1801 14 39 The first known English equivalent to a table of haversines was published by James Andrew in 1805 under the name Squares of Natural Semi Chords 40 41 18 In 1835 the term haversine notated naturally as hav or base 10 logarithmically as log haversine or log havers was coined 42 by James Inman 14 43 44 in the third edition of his work Navigation and Nautical Astronomy For the Use of British Seamen to simplify the calculation of distances between two points on the surface of the Earth using spherical trigonometry for applications in navigation 3 42 Inman also used the terms nat versine and nat vers for versines 3 Other high regarded tables of haversines were those of Richard Farley in 1856 40 45 and John Caulfield Hannyngton in 1876 40 46 The haversine continues to be used in navigation and has found new applications in recent decades as in Bruce D Stark s method for clearing lunar distances utilizing Gaussian logarithms since 1995 47 48 or in a more compact method for sight reduction since 2014 32 Modern uses edit Whilst the usage of the versine coversine and haversine as well as their inverse functions can be traced back centuries the names for the other five cofunctions appear to be of much younger origin One period 0 lt 8 lt 2p of a versine or more commonly a haversine or havercosine waveform is also commonly used in signal processing and control theory as the shape of a pulse or a window function including Hann Hann Poisson and Tukey windows because it smoothly continuous in value and slope turns on from zero to one for haversine and back to zero nb 2 In these applications it is named Hann function or raised cosine filter Likewise the havercosine is used in raised cosine distributions in probability theory and statistics In the form of sin2 8 the haversine of the double angle D describes the relation between spreads and angles in rational trigonometry a proposed reformulation of metrical planar and solid geometries by Norman John Wildberger since 2005 49 Mathematical identities editDefinitions edit versin 8 2 sin 2 8 2 1 cos 8 displaystyle textrm versin theta 2 sin 2 left frac theta 2 right 1 cos theta nbsp 4 nbsp coversin 8 versin p 2 8 1 sin 8 displaystyle textrm coversin theta textrm versin left frac pi 2 theta right 1 sin theta nbsp 4 nbsp vercosin 8 2 cos 2 8 2 1 cos 8 displaystyle textrm vercosin theta 2 cos 2 left frac theta 2 right 1 cos theta nbsp 19 nbsp covercosin 8 vercosin p 2 8 1 sin 8 displaystyle textrm covercosin theta textrm vercosin left frac pi 2 theta right 1 sin theta nbsp 26 nbsp haversin 8 versin 8 2 sin 2 8 2 1 cos 8 2 displaystyle textrm haversin theta frac textrm versin theta 2 sin 2 left frac theta 2 right frac 1 cos theta 2 nbsp 4 nbsp hacoversin 8 coversin 8 2 1 sin 8 2 displaystyle textrm hacoversin theta frac textrm coversin theta 2 frac 1 sin theta 2 nbsp 21 nbsp havercosin 8 vercosin 8 2 cos 2 8 2 1 cos 8 2 displaystyle textrm havercosin theta frac textrm vercosin theta 2 cos 2 left frac theta 2 right frac 1 cos theta 2 nbsp 33 nbsp hacovercosin 8 covercosin 8 2 1 sin 8 2 displaystyle textrm hacovercosin theta frac textrm covercosin theta 2 frac 1 sin theta 2 nbsp 35 nbsp Circular rotations edit The functions are circular rotations of each other v e r s i n 8 c o v e r s i n 8 p 2 v e r c o s i n 8 p c o v e r c o s i n 8 3 p 2 h a v e r s i n 8 h a c o v e r s i n 8 p 2 h a v e r c o s i n 8 p h a c o v e r c o s i n 8 3 p 2 displaystyle begin aligned mathrm versin theta amp mathrm coversin left theta frac pi 2 right mathrm vercosin left theta pi right mathrm covercosin left theta frac 3 pi 2 right mathrm haversin theta amp mathrm hacoversin left theta frac pi 2 right mathrm havercosin left theta pi right mathrm hacovercosin left theta frac 3 pi 2 right end aligned nbsp Derivatives and integrals edit d d x v e r s i n x sin x displaystyle frac mathrm d mathrm d x mathrm versin x sin x nbsp 50 v e r s i n x d x x sin x C displaystyle int mathrm versin x mathrm d x x sin x C nbsp 4 50 d d x v e r c o s i n x sin x displaystyle frac mathrm d mathrm d x mathrm vercosin x sin x nbsp v e r c o s i n x d x x sin x C displaystyle int mathrm vercosin x mathrm d x x sin x C nbsp d d x c o v e r s i n x cos x displaystyle frac mathrm d mathrm d x mathrm coversin x cos x nbsp 20 c o v e r s i n x d x x cos x C displaystyle int mathrm coversin x mathrm d x x cos x C nbsp 20 d d x c o v e r c o s i n x cos x displaystyle frac mathrm d mathrm d x mathrm covercosin x cos x nbsp c o v e r c o s i n x d x x cos x C displaystyle int mathrm covercosin x mathrm d x x cos x C nbsp d d x h a v e r s i n x sin x 2 displaystyle frac mathrm d mathrm d x mathrm haversin x frac sin x 2 nbsp 27 h a v e r s i n x d x x sin x 2 C displaystyle int mathrm haversin x mathrm d x frac x sin x 2 C nbsp 27 d d x h a v e r c o s i n x sin x 2 displaystyle frac mathrm d mathrm d x mathrm havercosin x frac sin x 2 nbsp h a v e r c o s i n x d x x sin x 2 C displaystyle int mathrm havercosin x mathrm d x frac x sin x 2 C nbsp d d x h a c o v e r s i n x cos x 2 displaystyle frac mathrm d mathrm d x mathrm hacoversin x frac cos x 2 nbsp h a c o v e r s i n x d x x cos x 2 C displaystyle int mathrm hacoversin x mathrm d x frac x cos x 2 C nbsp d d x h a c o v e r c o s i n x cos x 2 displaystyle frac mathrm d mathrm d x mathrm hacovercosin x frac cos x 2 nbsp h a c o v e r c o s i n x d x x cos x 2 C displaystyle int mathrm hacovercosin x mathrm d x frac x cos x 2 C nbsp Inverse functions edit Inverse functions like arcversine 34 arcversin arcvers 8 34 avers 51 52 aver arcvercosine arcvercosin arcvercos avercos avcs arccoversine 34 arccoversin arccovers 8 34 acovers 51 52 acvs arccovercosine arccovercosin arccovercos acovercos acvc archaversine archaversin archav 34 haversin 1 53 invhav 34 54 55 56 ahav 34 51 52 ahvs ahv hav 1 57 58 archavercosine archavercosin archavercos ahvc archacoversine archacoversin ahcv or archacovercosine archacovercosin archacovercos ahcc exist as well arcversin y arccos 1 y displaystyle operatorname arcversin y arccos left 1 y right nbsp 34 51 52 arcvercos y arccos y 1 displaystyle operatorname arcvercos y arccos left y 1 right nbsp arccoversin y arcsin 1 y displaystyle operatorname arccoversin y arcsin left 1 y right nbsp 34 51 52 arccovercos y arcsin y 1 displaystyle operatorname arccovercos y arcsin left y 1 right nbsp archaversin y 2 arcsin y arccos 1 2 y displaystyle operatorname archaversin y 2 arcsin left sqrt y right arccos left 1 2y right nbsp 34 51 52 53 54 55 57 58 archavercos y 2 arccos y arccos 2 y 1 displaystyle operatorname archavercos y 2 arccos left sqrt y right arccos left 2y 1 right nbsp archacoversin y arcsin 1 2 y displaystyle operatorname archacoversin y arcsin left 1 2y right nbsp archacovercos y arcsin 2 y 1 displaystyle operatorname archacovercos y arcsin left 2y 1 right nbsp Other properties edit These functions can be extended into the complex plane 50 20 27 Maclaurin series 27 versin z k 1 1 k 1 z 2 k 2 k haversin z k 1 1 k 1 z 2 k 2 2 k displaystyle begin aligned operatorname versin z amp sum k 1 infty frac 1 k 1 z 2k 2k operatorname haversin z amp sum k 1 infty frac 1 k 1 z 2k 2 2k end aligned nbsp lim 8 0 versin 8 8 0 displaystyle lim theta to 0 frac operatorname versin theta theta 0 nbsp 8 versin 8 coversin 8 versin 8 coversin 8 exsec 8 excsc 8 exsec 8 excsc 8 2 versin 8 coversin 8 versin 8 coversin 8 versin 8 exsec 8 coversin 8 excsc 8 sin 8 cos 8 displaystyle begin aligned frac operatorname versin theta operatorname coversin theta operatorname versin theta operatorname coversin theta frac operatorname exsec theta operatorname excsc theta operatorname exsec theta operatorname excsc theta amp frac 2 operatorname versin theta operatorname coversin theta operatorname versin theta operatorname coversin theta 3pt operatorname versin theta operatorname exsec theta operatorname coversin theta operatorname excsc theta amp sin theta cos theta end aligned nbsp 8 Approximations edit nbsp Comparison of the versine function with three approximations to the versine functions for angles ranging from 0 to 2p nbsp Comparison of the versine function with three approximations to the versine functions for angles ranging from 0 to p 2 When the versine v is small in comparison to the radius r it may be approximated from the half chord length L the distance AC shown above by the formula 59 v L 2 2 r displaystyle v approx frac L 2 2r nbsp Alternatively if the versine is small and the versine radius and half chord length are known they may be used to estimate the arc length s AD in the figure above by the formulas L v 2 r displaystyle s approx L frac v 2 r nbsp This formula was known to the Chinese mathematician Shen Kuo and a more accurate formula also involving the sagitta was developed two centuries later by Guo Shoujing 60 A more accurate approximation used in engineering 61 isv s 3 2 L 1 2 8 r displaystyle v approx frac s frac 3 2 L frac 1 2 8r nbsp Arbitrary curves and chords editThe term versine is also sometimes used to describe deviations from straightness in an arbitrary planar curve of which the above circle is a special case Given a chord between two points in a curve the perpendicular distance v from the chord to the curve usually at the chord midpoint is called a versine measurement For a straight line the versine of any chord is zero so this measurement characterizes the straightness of the curve In the limit as the chord length L goes to zero the ratio 8v L2 goes to the instantaneous curvature This usage is especially common in rail transport where it describes measurements of the straightness of the rail tracks 62 and it is the basis of the Hallade method for rail surveying The term sagitta often abbreviated sag is used similarly in optics for describing the surfaces of lenses and mirrors See also editTrigonometric identities Exsecant and excosecant Versiera Witch of Agnesi Exponential minus 1 Natural logarithm plus 1Notes edit a b Some English sources confuse the versed cosine with the coversed sine Historically f e in Cauchy 1821 the sinus versus versine was defined as siv 8 1 cos 8 the cosinus versus what is now also known as coversine as cosiv 8 1 sin 8 and the vercosine as vcs8 1 cos 8 However in their 2009 English translation of Cauchy s work Bradley and Sandifer associate the cosinus versus and cosiv with the versed cosine what is now also known as vercosine rather than the coversed sine Similarly in their 1968 2000 work Korn and Korn associate the covers 8 function with the versed cosine instead of the coversed sine a b The abbreviation hvs sometimes used for the haversine function in signal processing and filtering is also sometimes used for the unrelated Heaviside step function References edit The Aryabhaṭiya by Aryabhaṭa Haslett Charles September 1855 Hackley Charles W ed The Mechanic s Machinist s Engineer s Practical Book of Reference Containing tables and formulae for use in superficial and solid mensuration strength and weight of materials mechanics machinery hydraulics hydrodynamics marine engines chemistry and miscellaneous recipes Adapted to and for the use of all classes of practical mechanics Together with the Engineer s Field Book Containing formulae for the various of running and changing lines locating side tracks and switches amp c amp c Tables of radii and their logarithms natural and logarithmic versed sines and external secants natural sines and tangents to every degree and minute of the quadrant and logarithms from the natural numbers from 1 to 10 000 New York USA James G Gregory successor of W A Townsend amp Co Stringer amp Townsend Retrieved 2017 08 13 Still there would be much labor of computation which may be saved by the use of tables of external secants and versed sines which have been employed with great success recently by the Engineers on the Ohio and Mississippi Railroad and which with the formulas and rules necessary for their application to the laying down of curves drawn up by Mr Haslett one of the Engineers of that Road are now for the first time given to the public In presenting this work to the public the Author claims for it the adaptation of a new principle in trigonometrical analysis of the formulas generally used in field calculations Experience has shown that versed sines and external secants as frequently enter into calculations on curves as sines and tangents and by their use as illustrated in the examples given in this work it is believed that many of the rules in general use are much simplified and many calculations concerning curves and running lines made less intricate and results obtained with more accuracy and far less trouble than by any methods laid down in works of this kind The examples given have all been suggested by actual practice and will explain themselves As a book for practical use in field work it is confidently believed that this is more direct in the application of rules and facility of calculation than any work now in use In addition to the tables generally found in books of this kind the author has prepared with great labor a Table of Natural and Logarithmic Versed Sines and External Secants calculated to degrees for every minute also a Table of Radii and their Logarithms from 1 to 60 1856 edition a b c Inman James 1835 1821 Navigation and Nautical Astronomy For the Use of British Seamen 3 ed London UK W Woodward C amp J Rivington Retrieved 2015 11 09 Fourth edition 1 a b c d e Zucker Ruth 1983 June 1964 Chapter 4 3 147 Elementary Transcendental Functions Circular functions In Abramowitz Milton Stegun Irene Ann eds Handbook of Mathematical Functions with Formulas Graphs and Mathematical Tables Applied Mathematics Series Vol 55 Ninth reprint with additional corrections of tenth original printing with corrections December 1972 first ed Washington D C New York United States Department of Commerce National Bureau of Standards Dover Publications p 78 ISBN 978 0 486 61272 0 LCCN 64 60036 MR 0167642 LCCN 65 12253 Tapson Frank 2004 Background Notes on Measures Angles 1 4 Cleave Books Archived from the original on 2007 02 09 Retrieved 2015 11 12 Oldham Keith B Myland Jan C Spanier Jerome 2009 1987 32 13 The Cosine cos x and Sine sin x functions Cognate functions An Atlas of Functions with Equator the Atlas Function Calculator 2 ed Springer Science Business Media LLC p 322 doi 10 1007 978 0 387 48807 3 ISBN 978 0 387 48806 6 LCCN 2008937525 Beebe Nelson H F 2017 08 22 Chapter 11 1 Sine and cosine properties The Mathematical Function Computation Handbook Programming Using the MathCW Portable Software Library 1 ed Salt Lake City UT USA Springer International Publishing AG p 301 doi 10 1007 978 3 319 64110 2 ISBN 978 3 319 64109 6 LCCN 2017947446 S2CID 30244721 a b c d e Hall Arthur Graham Frink Fred Goodrich January 1909 Review Exercises 100 Secondary Trigonometric Functions Written at Ann Arbor Michigan USA Trigonometry Vol Part I Plane Trigonometry New York USA Henry Holt and Company Norwood Press J S Cushing Co Berwick amp Smith Co Norwood Massachusetts USA pp 125 127 Retrieved 2017 08 12 Boyer Carl Benjamin 1969 1959 5 Commentary on the Paper of E J Dijksterhuis The Origins of Classical Mechanics from Aristotle to Newton In Clagett Marshall ed Critical Problems in the History of Science 3 ed Madison Milwaukee and London University of Wisconsin Press Ltd pp 185 190 ISBN 0 299 01874 1 LCCN 59 5304 9780299018740 Retrieved 2015 11 16 Swanson Todd Andersen Janet Keeley Robert 1999 5 Trigonometric Functions PDF Precalculus A Study of Functions and Their Applications Harcourt Brace amp Company p 344 Archived PDF from the original on 2003 06 17 Retrieved 2015 11 12 Korn Grandino Arthur Korn Theresa M 2000 1961 Appendix B B9 Plane and Spherical Trigonometry Formulas Expressed in Terms of the Haversine Function Mathematical handbook for scientists and engineers Definitions theorems and formulars for reference and review 3 ed Mineola New York USA Dover Publications Inc pp 892 893 ISBN 978 0 486 41147 7 See errata a b c d Calvert James B 2007 09 14 2004 01 10 Trigonometry Archived from the original on 2007 10 02 Retrieved 2015 11 08 Edler von Braunmuhl Anton 1903 Vorlesungen uber Geschichte der Trigonometrie Von der Erfindung der Logarithmen bis auf die Gegenwart Lectures on history of trigonometry from the invention of logarithms up to the present in German Vol 2 Leipzig Germany B G Teubner p 231 Retrieved 2015 12 09 a b c Cajori Florian 1952 March 1929 A History of Mathematical Notations Vol 2 2 3rd corrected printing of 1929 issue ed Chicago USA Open court publishing company p 172 ISBN 978 1 60206 714 1 1602067147 Retrieved 2015 11 11 The haversine first appears in the tables of logarithmic versines of Jose de Mendoza y Rios Madrid 1801 also 1805 1809 and later in a treatise on navigation of James Inman 1821 See J D White in Nautical Magazine February and July 1926 NB ISBN and link for reprint of 2nd edition by Cosimo Inc New York USA 2013 Shaneyfelt Ted V 德博士的 Notes About Circles ज य amp क ज य What in the world is a hacovercosine Hilo Hawaii University of Hawaii Archived from the original on 2015 09 19 Retrieved 2015 11 08 a b Cauchy Augustin Louis 1821 Analyse Algebrique Cours d Analyse de l Ecole royale polytechnique in French Vol 1 L Imprimerie Royale Debure freres Libraires du Roi et de la Bibliotheque du Roi access date 2015 11 07 gt reissued by Cambridge University Press 2009 ISBN 978 1 108 00208 0 a b Bradley Robert E Sandifer Charles Edward 2010 01 14 2009 Buchwald J Z ed Cauchy s Cours d analyse An Annotated Translation Cauchy Augustin Louis Springer Science Business Media LLC pp 10 285 doi 10 1007 978 1 4419 0549 9 ISBN 978 1 4419 0548 2 LCCN 2009932254 1441905499 978 1 4419 0549 9 Retrieved 2015 11 09 a href Template Cite book html title Template Cite book cite book a work ignored help See errata a b c d van Brummelen Glen Robert 2013 Heavenly Mathematics The Forgotten Art of Spherical Trigonometry Princeton University Press ISBN 9780691148922 0691148929 Retrieved 2015 11 10 a b Weisstein Eric Wolfgang Vercosine MathWorld Wolfram Research Inc Archived from the original on 2014 03 24 Retrieved 2015 11 06 a b c d Weisstein Eric Wolfgang Coversine MathWorld Wolfram Research Inc Archived from the original on 2005 11 27 Retrieved 2015 11 06 a b c Weisstein Eric Wolfgang Hacoversine MathWorld Wolfram Research Inc Archived from the original on 2014 03 29 Retrieved 2015 11 06 Ludlow Henry Hunt Bass Edgar Wales 1891 Elements of Trigonometry with Logarithmic and Other Tables 3 ed Boston USA John Wiley amp Sons p 33 Retrieved 2015 12 08 Wentworth George Albert 1903 1887 Plane Trigonometry 2 ed Boston USA Ginn and Company p 5 Kenyon Alfred Monroe Ingold Louis 1913 Trigonometry New York USA The Macmillan Company pp 8 9 Retrieved 2015 12 08 Anderegg Frederick Roe Edward Drake 1896 Trigonometry For Schools and Colleges Boston USA Ginn and Company p 10 Retrieved 2015 12 08 a b Weisstein Eric Wolfgang Covercosine MathWorld Wolfram Research Inc Archived from the original on 2014 03 28 Retrieved 2015 11 06 a b c d e Weisstein Eric Wolfgang Haversine MathWorld Wolfram Research Inc Archived from the original on 2005 03 10 Retrieved 2015 11 06 Fulst Otto 1972 17 18 In Lutjen Johannes Stein Walter Zwiebler Gerhard eds Nautische Tafeln in German 24 ed Bremen Germany Arthur Geist Verlag Sauer Frank 2015 2004 Semiversus Verfahren Logarithmische Berechnung der Hohe in German Hotheim am Taunus Germany Astrosail Archived from the original on 2013 09 17 Retrieved 2015 11 12 Rider Paul Reece Davis Alfred 1923 Plane Trigonometry New York USA D Van Nostrand Company p 42 Retrieved 2015 12 08 Haversine Wolfram Language amp System Documentation Center 7 0 2008 Archived from the original on 2014 09 01 Retrieved 2015 11 06 a b Rudzinski Greg July 2015 Ultra compact sight reduction Ocean Navigator 227 Ix Hanno Portland ME USA Navigator Publishing LLC 42 43 ISSN 0886 0149 Retrieved 2015 11 07 a b Weisstein Eric Wolfgang Havercosine MathWorld Wolfram Research Inc Archived from the original on 2014 03 29 Retrieved 2015 11 06 a b c d e f g h i j k van Vlijmen Oscar 2005 12 28 2003 Goniology Eenheden constanten en conversies Archived from the original on 2009 10 28 Retrieved 2015 11 28 a b Weisstein Eric Wolfgang Hacovercosine MathWorld Wolfram Research Inc Archived from the original on 2014 03 29 Retrieved 2015 11 06 a b c sagitta Oxford English Dictionary Online ed Oxford University Press Subscription or participating institution membership required a b c Boyer Carl Benjamin Merzbach Uta C 1991 03 06 1968 A History of Mathematics 2 ed New York USA John Wiley amp Sons ISBN 978 0471543978 0471543977 Retrieved 2019 08 10 a b Miller Jeff 2007 09 10 Earliest Known Uses of Some of the Words of Mathematics V New Port Richey Florida USA Archived from the original on 2015 09 05 Retrieved 2015 11 10 de Mendoza y Rios Joseph 1795 Memoria sobre algunos metodos nuevos de calcular la longitud por las distancias lunares y aplicacion de su teorica a la solucion de otros problemas de navegacion in Spanish Madrid Spain Imprenta Real a b c Archibald Raymond Clare 1945 Recent Mathematical Tables 197 C D Natural and Logarithmic Haversines Mathematical Tables and Other Aids to Computation 1 11 421 422 doi 10 1090 S0025 5718 45 99080 6 Andrew James 1805 Astronomical and Nautical Tables with Precepts for finding the Latitude and Longitude of Places Vol T XIII London pp 29 148 A 7 place haversine table from 0 to 120 in intervals of 10 a b haversine Oxford English Dictionary 2nd ed Oxford University Press 1989 White J D February 1926 unknown title Nautical Magazine NB According to Cajori 1929 this journal has a discussion on the origin of haversines White J D July 1926 unknown title Nautical Magazine NB According to Cajori 1929 this journal has a discussion on the origin of haversines Farley Richard 1856 Natural Versed Sines from 0 to 125 and Logarithmic Versed Sines from 0 to 135 London a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link A haversine table from 0 to 125 135 Hannyngton John Caulfield 1876 Haversines Natural and Logarithmic used in Computing Lunar Distances for the Nautical Almanac London a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link A 7 place haversine table from 0 to 180 log haversines at intervals of 15 nat haversines at intervals of 10 Stark Bruce D 1997 1995 Stark Tables for Clearing the Lunar Distance and Finding Universal Time by Sextant Observation Including a Convenient Way to Sharpen Celestial Navigation Skills While On Land 2 ed Starpath Publications ISBN 978 0914025214 091402521X Retrieved 2015 12 02 NB Contains a table of Gaussian logarithms lg 1 10 x Kalivoda Jan 2003 07 30 Bruce Stark Tables for Clearing the Lunar Distance and Finding G M T by Sextant Observation 1995 1997 Review Prague Czech Republic Archived from the original on 2004 01 12 Retrieved 2015 12 02 2 3 Wildberger Norman John 2005 Divine Proportions Rational Trigonometry to Universal Geometry 1 ed Australia Wild Egg Pty Ltd ISBN 0 9757492 0 X Retrieved 2015 12 01 a b c Weisstein Eric Wolfgang Versine MathWorld Wolfram Research Inc Archived from the original on 2010 03 31 Retrieved 2015 11 05 a b c d e f Simpson David G 2001 11 08 AUXTRIG Fortran 90 source code Greenbelt Maryland USA NASA Goddard Space Flight Center Archived from the original on 2008 06 16 Retrieved 2015 10 26 a b c d e f van den Doel Kees 2010 01 25 jass utils Class Fmath JASS Java Audio Synthesis System 1 25 Archived from the original on 2007 09 02 Retrieved 2015 10 26 a b mf344 2014 07 04 Lost but lovely The haversine Plus magazine maths org Archived from the original on 2014 07 18 Retrieved 2015 11 05 a href Template Cite news html title Template Cite news cite news a CS1 maint numeric names authors list link a b Skvarc Jure 1999 03 01 identify py An asteroid server client which identifies measurements in MPC format Fitsblink Python source code Archived from the original on 2008 11 20 Retrieved 2015 11 28 a b Skvarc Jure 2014 10 27 astrotrig py Astronomical trigonometry related functions Python source code Ljubljana Slovenia Telescope Vega University of Ljubljana Archived from the original on 2015 11 28 Retrieved 2015 11 28 Ballew Pat 2007 02 08 2003 Versine Math Words page 4 Versine Archived from the original on 2007 02 08 Retrieved 2015 11 28 a b Weisstein Eric Wolfgang Inverse Haversine MathWorld Wolfram Research Inc Archived from the original on 2008 06 08 Retrieved 2015 10 05 a b InverseHaversine Wolfram Language amp System Documentation Center 7 0 2008 Retrieved 2015 11 05 Woodward Ernest December 1978 Geometry Plane Solid amp Analytic Problem Solver Problem Solvers Solution Guides Research amp Education Association REA p 359 ISBN 978 0 87891 510 1 Needham Noel Joseph Terence Montgomery 1959 Science and Civilisation in China Mathematics and the Sciences of the Heavens and the Earth Vol 3 Cambridge University Press p 39 ISBN 9780521058018 Boardman Harry 1930 Table For Use in Computing Arcs Chords and Versines Chicago Bridge and Iron Company p 32 Nair P N Bhaskaran 1972 Track measurement systems concepts and techniques Rail International 3 3 International Railway Congress Association International Union of Railways 159 166 ISSN 0020 8442 OCLC 751627806 Further reading editHawking Stephen William ed 2002 On the Shoulders of Giants The Great Works of Physics and Astronomy Philadelphia USA Running Press ISBN 0 7624 1698 X LCCN 2002100441 Retrieved 2017 07 31 External links editPegg Jr Ed Sagitta Apothem and Chord The Wolfram Demonstrations Project Trigonometric Functions at GeoGebra org Retrieved from https en wikipedia org w index php title Versine amp oldid 1188215112 cvs, wikipedia, wiki, book, books, library,

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