I am beginning to question whether the indefinite integral actually exists or I am doing something wrong with my u-substitution.
Let $u = x^2 + 4, du = 2xdx,$
$$ \begin{align} \int_{} \frac{x}{x^2+4}dx &= \int_{}x(x^2 + 4)^{-1} \\ &= \frac{1}{2} \int_{} u^{-1}du \\ &= \frac{1}{2} \frac{u^0}{0} = ??? \end{align} $$
Then I tried to choose a different $u$
Let $u=x^2, du = 2xdx$
$$\int_{}\frac{x}{x^2+4} = \int_{} \frac{\sqrt u}{u^2 + 4} = ... $$
But I still run into the same problem trying to use the power rule to simplify the integral. I am beginning to think that an indefinite integral actually does not exist, but I am not sure what basis I have to assert that statement.