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∫ 1 Cos ( X + a ) Cos ( X + B ) D X - Mathematics

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Question

\[\int\frac{1}{\cos\left( x + a \right) \cos\left( x + b \right)}dx\]

Sum

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Solution

\[\int\frac{1}{\cos\left( x + a \right) \cos\left( x + b \right)}dx\]
\[\text{Multiplying and Dividing by} \sin\left[ \left( x + b \right) - \left( x + a \right) \right], \text{we get}\]
\[ = \int\frac{1}{\sin\left[ \left( x + b \right) - \left( x + a \right) \right]} \times \frac{\sin\left[ \left( x + b \right) - \left( x + a \right) \right]}{\cos\left( x + a \right) \cos\left( x + b \right)}dx\]
\[ = \int\frac{1}{\sin\left( b - a \right)} \times \frac{\sin\left[ \left( x + b \right) - \left( x + a \right) \right]}{\cos\left( x + a \right) \cos\left( x + b \right)}dx\]

\[ = \frac{1}{\sin\left( b - a \right)}\int\frac{\sin\left( x + b \right)\cos\left( x + a \right) - \sin\left( x + a \right)\cos\left( x + b \right)}{\cos\left( x + a \right) \cos\left( x + b \right)}dx\]
\[ = \frac{1}{\sin\left( b - a \right)}\left[ \int\frac{\sin\left( x + b \right)}{\cos\left( x + b \right)}dx - \int\frac{\sin\left( x + a \right)}{\cos\left( x + a \right)}dx \right]\]
\[ = \frac{1}{\sin\left( b - a \right)}\left[ \int\tan\left( x + b \right)dx - \int\tan\left( x + a \right)dx \right]\]
\[ = \frac{1}{\sin\left( b - a \right)}\left[ \log\left( \sec\left( x + b \right) \right) - \log\left( \sec\left( x + a \right) \right) \right] + c\]
\[ = \frac{1}{\sin\left( b - a \right)}\left[ \log\left( \frac{\sec\left( x + b \right)}{\sec\left( x + a \right)} \right) \right] + c\]

Hence , \[\int\frac{1}{\cos\left( x + a \right) \cos\left( x + b \right)}dx = \frac{1}{\sin\left( b - a \right)}\left[ \log\left( \frac{\sec\left( x + b \right)}{\sec\left( x + a \right)} \right) \right] + c\]

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Evaluation of Simple Integrals of the Following Types and Problems

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Chapter 19: Indefinite Integrals - Exercise 19.08 [Page 48]

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RD Sharma Mathematics [English] Class 12

Chapter 19 Indefinite Integrals
Exercise 19.08 | Q 28 | Page 48

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