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Just want to quickly check that I have got this right: Am I right in thinking that the solution of $\dfrac{d^2y}{dx^2} = \sin(y)$ is $y(x) = 2 \arctan\left[\exp\left(\dfrac{x^2}{2}+ax+b\right)\right]$ where $a$, $b$ are constants of integration?

Thanks guys.

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    @Gerry: I tried differentiating the expression but I wasnt sure if it was just that I couldnt group the terms to give the correct form or if i was wrong... Now I see that it is the latter...2011-08-14

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Quick question, quick answer:

No, that doesn't look right. That's the pendulum equation, and its general solution contains a Jacobi elliptic function (not expressible in elementary functions).

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    @scoobs: The first integration is wrong; $\csc(y(x)) \, y''(x)$ isn't the derivative of $\csc(y(x)) \, y'(x)$.2011-08-14