first we change to characteristic equation
$$ r^2 + 4 = 0 $$
$$ \mbox{therefore, } r = \pm 2i $$
$$ \mbox{Therefore, the general solution = } y(t) = c_1 \cos2t + c_2 \sin2t $$
The particular solution, upon integration is
$$ y_p(t) = -\cos2t(t - \sin(t) \cos(t)) + \sin2t(\log(\cos(t)) - 1/2\cos2t) $$
$$ \mbox{Therefore, the general solution is} y(t) = c_1 \cos2t + c_2 \sin2t -\cos2t(t - \sin(t) \cos(t)) + \sin2t(\log(\cos(t)) - 1/2\cos2t) $$
$$ y(0) = c_1 = 0 $$
upon differentiating y(t) and plugging in t = 0, we get c_2 = 1/2
$$ \mbox{Therefore, the general solution is} y(t) = 1/2 \sin2t -\cos2t(t - \sin(t) \cos(t)) + \sin2t(\log(\cos(t)) - 1/2\cos2t) $$
