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In calculus, the integral of the secant function can be evaluated using a variety of methods and there are multiple ways of expressing the antiderivative, all of which can be shown to be equivalent via trigonometric identities, ∫ sec θ d θ = { 1 2 ln 1 + sin θ 1 − sin θ + C ln | sec θ + tan θ | + C ln | tan | + C {\displaystyle \int \sec \theta \,d\theta ={\begin{cases}{\dfrac {1}{2}}\ln {\dfrac {1+\sin \theta }{1-\sin \theta }}+C\\[15mu]\ln {{\bigl |}\sec \theta +\tan \theta \,{\bigr |}}+C\\[15mu]\ln {\left|\,{\tan }{\biggl }\right|}+C\end{cases}}} This formula is useful for evaluating various trigonometric integrals.
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