Let $\delta$ be an element of $(0,1)$. I need to find an upper bound for the integral from $0$ to delta of $-1/\log$. Clearly, this is an improper integral, so I let a be an element of $(0,\delta)$ and try to then find the limit as a goes to $0$ from the right of this integral. $-1/\log$ has no elementary primitive, so I need to use a different method. So far I have shown that the function $-1/\log$ is increasing on $(0,1)$ and hence that the integral from a to delta of $-1/\log$ is less than or equal to $-(\delta - a) / \log(\delta)$. Thus, as long as I knew that the limit as a goes to $0$ from the right of the integral from a to delta of $-1/\log$ EXISTS, it would follow that this limit would have to be less than or equal to $-(\delta - a) / \log(\delta)$ - I would have found an upper bound for the integral from 0 to delta of $-1/\log$. But I don't know how to show that this limit exists. Help please?
How to prove that the limit $\lim_{a \to 0+} \int_a^b -(\log x)^{-1} \, dx$ exists
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calculus
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