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17 votes
17 votes
Solve the initial value problem.


y' = (2x)/(1 + 2y) , \\ y(1) = 1







User ENV
by
2.4k points

1 Answer

12 votes
12 votes

Separate the variables:


y' = (dy)/(dx) = (2x)/(1+2y) \implies (1+2y) \, dy = 2x \, dx

Integrate both sides:


\displaystyle \int(1+2y) \, dy = \int 2x \, dx[/tex\</p><p>[tex]y + y^2 = x^2 + C

Use the given initial condition to solve for C :


1 + 1^2 = 1^2 + C \implies C = 1

So the particular solution is


\boxed{y + y^2 = x^2 + 1}

which you can also solve explicitly for y as a function of x. By completing the square on the left side, we have


y + y^2 = x^2 + 1


\frac14 + y + y^2 = x^2 + \frac54


\left(\frac12 + y\right)^2 = x^2 + \frac54


\frac12 + y = \pm √(x^2+\frac54)

Note that y(1) = 1 is positive, so the right side should involve the positive square root:


\frac12 + y = √(x^2+\frac54)


\boxed{y = -\frac12 + √(x^2+\frac54) = -\frac12 + \frac12 √(4x^2+5)}

User AFD
by
2.6k points
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