\displaystyle\int{x}{\sin{{x}}}{\left.{d}{x}\right.}={\sin{{x}}}-{x}{\cos{{x}}}+{c} Explanation: If you are studying maths, then you should learn the formula for Integration By Parts (IBP), and ...

\displaystyle\frac{{2}}{{3}} Explanation: \displaystyle{\int_{{0}}^{{\pi}}}{\sin{{3}}}{x}{\left.{d}{x}\right.} now \displaystyle\frac{{d}}{{{\left.{d}{x}\right.}}}{\left({\cos{{3}}}{x}\right)}=-{3}{\sin{{3}}}{x} ...

\displaystyle\frac{{1}}{{4}} Explanation: This is a fairly common integral. \displaystyle\int{\sin{{\left({a}{x}\right)}}}{\left.{d}{x}\right.}=-\frac{{1}}{{a}}{\cos{{\left({a}{x}\right)}}} ...

\displaystyle=\frac{{1}}{{4}}{\sin{{\left({2}{x}\right)}}}-\frac{{x}}{{2}}{\cos{{\left({2}{x}\right)}}}+{C} Explanation: For \displaystyle{u}{\left({x}\right)},{v}{\left({x}\right)} \displaystyle\int{u}{v}'{\left.{d}{x}\right.}={u}{v}'-\int{u}'{v}{\left.{d}{x}\right.} ...

\displaystyle=-\frac{{1}}{{4}}{x}{\cos{{\left({4}{x}\right)}}}+\frac{{1}}{{16}}{\sin{{\left({4}{x}\right)}}}+{C} Explanation: \displaystyle\int{x}{\sin{{\left({4}{x}\right)}}}\ {\left.{d}{x}\right.} ...

Andrea S. Nov 30, 2016 \displaystyle{\int_{{0}}^{\pi}}{\left({1}+{\sin{{x}}}\right)}{\left.{d}{x}\right.}={\int_{{0}}^{\pi}}{\left.{d}{x}\right.}+{\int_{{0}}^{\pi}}{\sin{{x}}}{\left.{d}{x}\right.}={\left({x}-{\cos{{x}}}\right)}{{\mid}_{{0}}^{\pi}}=\pi