MAT244-2013S > Ch 1--2
Bonus problem for week 2
Victor Ivrii:
Equation
$$
y'=\frac{y-x-2}{y+x}
$$
by a change of variables $x=t+a$, $y=z+b$reduce to homogeneous equation and solve it. Express $y$ as an implicit function of $x$:
$$
F(x,y)=C.
$$
Changyu Li:
$
x = u+h \\
y = v+k\\
$
at $(u,v) = 0\\$
$
k - h - 2 = 0 \\
h + k = 0 \\
\Rightarrow h = -1,\;k = 1\\
$
$
x = u - 1 \\
dx = du\\
y = v + 1 \\
dy = dv \\
$
$$
\frac{dv}{du} = \frac{v-u}{u+v} \\
$$
let $v = ut,\;\frac{dv}{du}=t+u \frac{dt}{du}$
$$
t + u \frac{dt}{du}=\frac{ut-u}{u+ut} = \frac{t-1}{1+t}
$$
simplify with magic
$$
\frac{1}{u} du = \frac{1+t}{-1-t^2}dt \\
\ln \left| u \right| = -\frac{1}{2}\ln \left| t^2 +1 \right| -\arctan t + C \\
\ln \left| u \right| = -\frac{1}{2}\ln \left| \left( \frac{v}{u} \right) ^2 +1 \right| -\arctan \left( \frac{v}{u} \right) + C \\
\ln \left| x+1 \right| = -\frac{1}{2}\ln \left| \left( \frac{y-1}{x+1} \right) ^2 +1 \right| -\arctan \left( \frac{y-1}{x+1} \right) + C
$$
Victor Ivrii:
Please change a name to one which allows to identify you.
Correct final steps as $\int \frac{1}{1+t^2}\,dt$ calculated incorrectly.
Also type \tan \ln to produce $\tan, \ln$ etc; $\arctan(z)$ is preferable to $\tan^{-1}(z)$ which could be confused with $1/\tan(z)$.
Note: the final expression could be simplified.
Changyu Li:
Changes were made per your suggestions.
Victor Ivrii:
The final expression as I mentioned could be simplified
$$
\frac{1}{2}\ln \bigl( (y-1)^2+(x+1)^2 \bigr) + \arctan \left( \frac{y-1}{x+1} \right) = C.
$$
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