Main Page

The exsecant, also abbreviated exsec, is a trigonometric function defined in terms of the secant function sec(θ):

${\displaystyle \operatorname {exsec} (\theta )=\sec(\theta )-1.\,}$

Once important in fields such as surveying, astronomy, and spherical trigonometry, the exsecant function is now little-used. Mainly, this is because the availability of calculators and computers has removed the need for trigonometric tables of specialized functions such as this one.

A related function is the excosecant (excsc), the exsecant of the complementary angle:

${\displaystyle \operatorname {excsc} (\theta )=\operatorname {exsec} (\pi /2-\theta )=\csc(\theta )-1.\!}$

The reason to define a special function for the exsecant is similar to the rationale for the versine: for small angles θ, the sec(θ) function approaches one, and so using the above formula for the exsecant will involve the subtraction of two nearly equal quantities and exacerbate roundoff errors. Thus, a table of the secant function would need a very high accuracy to be used for the exsecant, making a specialized exsecant table useful. Even with a computer, floating point errors can be problematic for exsecants of small angles. A more accurate formula in this limit would be to use the identity:

${\displaystyle \operatorname {exsec} (\theta )={\frac {1-\cos(\theta )}{\cos(\theta )}}={\frac {\operatorname {versin} (\theta )}{\cos(\theta )}}=2\sin ^{2}(\theta /2)\sec(\theta ).\ }$

Prior to the availability of computers, this would require time-consuming multiplications.

The name exsecant can be understood from a graphical construction, at right, of the various trigonometric functions from a unit circle, such as was used historically. sec(θ) is the secant ${\displaystyle {\overline {OE}}}$, and the exsecant is the portion ${\displaystyle {\overline {DE}}}$ of this secant that lies exterior to the circle (ex is Latin for out of).

See also

• Trigonometric identities
• Versine and haversine

References

• M. Abramowitz and I. A. Stegun, eds., Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables (Dover: New York, 1972), p. 78. (See Abramowitz and Stegun.)
• James B. Calvert, Trigonometry (2004). Retrieved 25 December 2004.