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Научный форум dxdyМатематика, Физика, Computer Science, Machine Learning, LaTeX, Механика и Техника, Химия,Биология и Медицина, Экономика и Финансовая Математика, Гуманитарные науки |
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Научный форум dxdyМатематика, Физика, Computer Science, Machine Learning, LaTeX, Механика и Техника, Химия,Биология и Медицина, Экономика и Финансовая Математика, Гуманитарные науки |
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| Страница 1 из 2 |
[ Сообщений: 19 ] | На страницу 1, 2 След. |
25.02.2010, 19:31 
![$\[
y' \cdot \cos x + y = 1 - \sin x;
\]$](https://dxdy-02.korotkov.co.uk/f/5/0/8/508e034e16cbc236c38cd21d82e6131c82.png "$\[
y' \cdot \cos x + y = 1 - \sin x;
\]$")
![$\[
\begin{array}{l}
y = u \cdot v;u' \cdot v \cdot \cos x + u \cdot (v' \cdot \cos x + v) = 1 - \sin x; \\
v' \cdot \cos x + v = 0;\frac{{v' }}{v} = - \frac{1}{{\cos x}};\ln \left| v \right| = - \int {\frac{1}{{\cos x}}dx} \\
\end{array}
\]$](https://dxdy-01.korotkov.co.uk/f/0/a/f/0afd42fe8a482b70a3d3ddfb62fa609282.png "$\[
\begin{array}{l}
y = u \cdot v;u' \cdot v \cdot \cos x + u \cdot (v' \cdot \cos x + v) = 1 - \sin x; \\
v' \cdot \cos x + v = 0;\frac{{v' }}{v} = - \frac{1}{{\cos x}};\ln \left| v \right| = - \int {\frac{1}{{\cos x}}dx} \\
\end{array}
\]$")
![$\[
\begin{array}{l}
\ln \left| v \right| = - \int {\frac{{d( - \sin x)}}{{\sec ^2 x}}dx} = \ln \left| {\sec x + tgx} \right|; \\
u' \cdot e^{\ln \left| {\sec x + tgx} \right|} = \frac{{1 - \sin x;}}{{\cos x}} \\
\end{array}
\]$](https://dxdy-04.korotkov.co.uk/f/f/c/4/fc49fff98cb744797fe15a53077f2c0082.png "$\[
\begin{array}{l}
\ln \left| v \right| = - \int {\frac{{d( - \sin x)}}{{\sec ^2 x}}dx} = \ln \left| {\sec x + tgx} \right|; \\
u' \cdot e^{\ln \left| {\sec x + tgx} \right|} = \frac{{1 - \sin x;}}{{\cos x}} \\
\end{array}
\]$")
![$\[
\int {\frac{{1 - \sin x}}{{\cos x \cdot e^{\ln \left| {\sec x + tgx} \right|} }}} dx
\]$](https://dxdy-01.korotkov.co.uk/f/4/c/8/4c8d9fe324c9fdcfba6e85aa92b7ad0582.png "$\[
\int {\frac{{1 - \sin x}}{{\cos x \cdot e^{\ln \left| {\sec x + tgx} \right|} }}} dx
\]$")
?![$\[
\int {\frac{{1 - \sin x}}{{\cos x \cdot (\frac{1}{{\cos x}} + \frac{{\sin x}}{{\cos x}})}}} dx = \int {\frac{{1 - \sin x}}{{1 + \sin x}}} dx
\]$](https://dxdy-01.korotkov.co.uk/f/4/f/e/4fe24b10c25e8ddbdda91cf78fd1342c82.png "$\[
\int {\frac{{1 - \sin x}}{{\cos x \cdot (\frac{1}{{\cos x}} + \frac{{\sin x}}{{\cos x}})}}} dx = \int {\frac{{1 - \sin x}}{{1 + \sin x}}} dx
\]$")
![$\[\sqrt {\frac{{1 + \sin x}}
{{1 - \sin x}}} = \sec x + \operatorname{tg} x\]$](https://dxdy-01.korotkov.co.uk/f/0/3/9/0393be58ed5cfaaa1158aed0f48ce0fe82.png "$\[\sqrt {\frac{{1 + \sin x}}
{{1 - \sin x}}} = \sec x + \operatorname{tg} x\]$")
![$\[u' = \frac{{1 - \sin x}}
{{\cos x}}\left( {\frac{{1 + \sin x}}
{{\cos x}}} \right) = 1\]$](https://dxdy-03.korotkov.co.uk/f/2/b/e/2be5489e4319666c0728e68592e1b7f282.png "$\[u' = \frac{{1 - \sin x}}
{{\cos x}}\left( {\frac{{1 + \sin x}}
{{\cos x}}} \right) = 1\]$")
![$\[
\begin{array}{l}
u' \cdot \sqrt {\frac{{1 - \sin x}}{{1 + \sin x}}} \cdot \cos x = 1 - \sin x; \\
u' = \frac{{\sqrt {(1 - \sin x) \cdot (1 + \sin x)} }}{{\cos x}} = \frac{{\cos x}}{{\cos x}} = 1; \\
u = x + C \\
\end{array}
\]$](https://dxdy-04.korotkov.co.uk/f/b/6/a/b6a76e789537b9020ec98b57852b61bf82.png "$\[
\begin{array}{l}
u' \cdot \sqrt {\frac{{1 - \sin x}}{{1 + \sin x}}} \cdot \cos x = 1 - \sin x; \\
u' = \frac{{\sqrt {(1 - \sin x) \cdot (1 + \sin x)} }}{{\cos x}} = \frac{{\cos x}}{{\cos x}} = 1; \\
u = x + C \\
\end{array}
\]$")