$\cfrac{1}{{\cos \left( {x - a} \right)\cos \left( {x - b} \right)}}$
$\cfrac{1}{{\cos \left( {x - a} \right)\cos \left( {x - b} \right)}}$
Official Solution
Let $I = \int {\cfrac{1}{{\cos \left( {x - a} \right)\cos \left( {x - b} \right)}}dx}$
$= \cfrac{1}{{\sin \left( {a - b} \right)}}\int {\cfrac{{\sin \left[ {\left( {x - b} \right) - \left( {x - a} \right)} \right]}}{{\cos \left( {x - a} \right)\cos \left( {x - b} \right)}}} dx$
$= \cfrac{1}{{\sin \left( {a - b} \right)}}\int {\cfrac{{\sin \left( {x - b} \right)\cos \left( {x - a} \right) - \cos \left( {x - b} \right)\sin \left( {x - a} \right)}}{{\cos \left( {x - a} \right)\cos \left( {x - b} \right)}}} dx$
$= \cfrac{1}{{\sin \left( {a - b} \right)}}\left[ {\int {\tan \left( {x - b} \right)dx} - \int {\tan \left( {x - a} \right)} dx} \right]$
$= \cfrac{1}{{\sin \left( {a - b} \right)}}\left[ { - \log \left| {\cos \left( {x - b} \right)} \right| + \log \left| {\cos \left( {x - a} \right)} \right|} \right] + C$
$= \cfrac{1}{{\sin \left( {a - b} \right)}}\log \left| {\cfrac{{\cos \left( {x - a} \right)}}{{\cos \left( {x - b} \right)}}} \right| + C$
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