![\huge \displaystyle \sf \int^{1}_{0} \frac{ {x}^{ {e}^{ \pi } - 1 } - {x}^{ {e}^{ \gamma } - 1 } }{ ln( \sqrt[2020]{x} ) } \: dx](https://tex.z-dn.net/?f=%5Chuge+%5Cdisplaystyle+%5Csf+%5Cint%5E%7B1%7D_%7B0%7D+%5Cfrac%7B+%7Bx%7D%5E%7B+%7Be%7D%5E%7B+%5Cpi+%7D+-+1+%7D+-+%7Bx%7D%5E%7B+%7Be%7D%5E%7B+%5Cgamma+%7D+-+1+%7D+%7D%7B+ln%28+%5Csqrt%5B2020%5D%7Bx%7D+%29+%7D+%5C%3A+dx "\huge \displaystyle \sf \int^{1}_{0} \frac{ {x}^{ {e}^{ \pi } - 1 } - {x}^{ {e}^{ \gamma } - 1 } }{ ln( \sqrt[2020]{x} ) } \: dx")
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Answer is in the attachment.
in 2nd attachment the equation is differentiated w.r.t. Y
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