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### Section 5-7 : Computing Definite Integrals

10. Evaluate the following integral, if possible. If it is not possible clearly explain why it is not possible to evaluate the integral.

$\int_{0}^{{\frac{\pi }{2}}}{{7\sin \left( t \right) - 2\cos \left( t \right)\,dt}}$

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Start Solution

First we need to integrate the function.

$\int_{0}^{{\frac{\pi }{2}}}{{7\sin \left( t \right) - 2\cos \left( t \right)\,dt}} = \left. {\left( { - 7\cos \left( t \right) - 2\sin \left( t \right)} \right)} \right|_0^{\frac{\pi }{2}}$

Recall that we don’t need to add the “+c” in the definite integral case as it will just cancel in the next step.

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The final step is then just to do the evaluation.

We’ll leave the basic arithmetic to you to verify and only show the results of the evaluation. Make sure that you evaluate the upper limit first and then subtract off the evaluation at the lower limit.

Here is the answer for this problem.

$\int_{0}^{{\frac{\pi }{2}}}{{7\sin \left( t \right) - 2\cos \left( t \right)\,dt}} = - 2 - \left( { - 7} \right) = \require{bbox} \bbox[2pt,border:1px solid black]{5}$