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Evaluate arccsc(x)
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Evaluate sec(x)
Evaluate cos(x)
Evaluate csc(x)
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Inverse secant calculator

- By Dr. Minas E. Lemonis, PhD - Updated: August 5, 2019
Home > Evaluation > Inverse secant

This tool evaluates the inverse secant of a number: arcsec(x). The principal branch is evaluated, where the return values range between 0 and π.

x =
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Result:
arcsec(x) =
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Table of Contents
Calculator
Definitions
General
Series
Properties
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Definitions

General

The inverse secant function, in modern notation written as arcsec(x), gives the angle θ, so that:

\sec \theta = x

Due to the periodical nature of the secant function, there are many angles θ that can give the same secant value (i.e. θ+2π, θ+4π, etc.). As a result, it is impossible to define a single inverse function, unless the range of the return values is restricted, so that a one-to-one relationship between θ and secθ can be established. Therefore, multiple branches of the arcsec function can be defined. Commonly, the desired range of θ values spans between 0 and π. The branch of arcsec, in that case, is called the principal branch.

Series

The arcsec function can be defined in a Taylor series form, like this:

\begin{split} \textrm{arcsec}\, x & = \frac{\pi}{2}- \sum_{n=0}^{\infty}\frac{\binom{2n}{n}x^{-\left(2n+1\right)}}{4^n \left(2n+1\right)} = \\ & = \frac{\pi}{2} - \frac{1}{x} - \frac{1}{6x^3} - \frac{3}{40x^5} - \frac{5}{112x^7} \cdots \end{split}

The above series is valid for |x|≥1.

 

Properties

The derivative of the arcsec function is:

\left(\textrm{arcsec}\, x\right)' = \frac{1}{x^2 \sqrt{1-x^{-2}}}

The integral of the arcsec function is given by:

\int \textrm{arcsec}\, x\, \mathrm{d}x = x\, \textrm{arcsec}\, x - \ln\left(x+x\sqrt{1-x^{-2}}\right) + C

The following properties are also valid for the arcsec function:

\begin{split} & \sec (\textrm{arcsec}\, x) &= x \\ \\ & \sin (\textrm{arcsec}\, x) &= \frac{\sqrt{x^2-1}}{x} \\ \\ & \cos (\textrm{arcsec}\, x) &= \frac{1}{x} \\ \\ & \tan (\textrm{arcsec}\, x) &=\sqrt{x^2-1} \\ \\ & \textrm{arcsec} \left(-x\right)&= \pi- \textrm{arcsec}\, x \\ \\ & \textrm{arcsec}\, x &= \frac{\pi}{2} - \textrm{arccsc}\, x \\ \\ & \textrm{arcsec}\, x &= \arccos\left(\frac{1}{x}\right) \\ \\ \end{split}

See also
Evaluate arccsc(x)
Evaluate arccos(x)
Evaluate arcsin(x)
Evaluate sec(x)
Evaluate cos(x)
Evaluate csc(x)
All evaluation tools