MAT244--2019F > Quiz-1

TUT5103 quiz1

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hz12:
\begin{aligned}
t y^{\prime}+2 y&=\sin (t), t>0\\
y^{\prime}+\frac{2}{t} y&=\frac{\sin (t)}{t}\\
y^{\prime}+p(t) y&=g(t)
\end{aligned}
$$
\therefore P(t)=\frac{2}{t} \quad g(t)=\frac{\sin (t)}{t}
$$
$$
\mu(t)=e^{\int \frac{2}{t} d t}=e^{2 \ln (t)}=t^{2}
$$
Muttiply $\mu(t)$ to standard equation
$$
\begin{array}{c}{t^{2} y^{\prime}+2 t y=t \sin t} \\ {\mathrm{and}\left(t^{2} y\right)^{\prime}=t \sin t}\end{array}
$$
Integrating  both  sides:
$$
\int\left(t^{2} y\right)^{\prime}=\int t \sin t
$$
Thus, $$t^{2} y=\int t \sin t$$
Integrating by parts:
$$
\begin{aligned}
u&=t, \quad d V=\sin t\\
d u&=d t \quad V=-\cos t
\end{aligned}
$$
$$
\begin{aligned}
\therefore \int t \sin t &=u v-\int v d u \\
 &=-t \cos t-\int-\cos t d t \\
  &=-t \cos t+\int \cos t d t \\
   &=-t\cos t+\sin t+C \\
   \end{aligned}

$$
\begin{aligned}
\therefore t^{2} y&=-t \cos t+\sin t+C\\
y&=\displaystyle\frac{-t \cos t+\sin t+C}{t^{2}}
\end{aligned}

since given $t>0$, $y \rightarrow 0$ as $t \rightarrow \infty$









Xinqiao Li:
a very small typo: the final solution should be just y, not y^2.

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