$${{\mathtt{e}}}^{{{\mathtt{e}}}^{{{\mathtt{10}}}^{\left({\sqrt{{\frac{{ln}{\left({{\mathtt{2}}}^{\left({{\mathtt{e}}}^{{log}_{2}{\left({\sqrt[{{\mathtt{3}}}]{{{\mathtt{10}}}^{\left({\frac{{\mathtt{52\,482}}}{{\mathtt{58\,248}}}}\right)}{\mathtt{\,\times\,}}{\mathtt{2\,291}}}}{\mathtt{\,\times\,}}{{\mathtt{59\,278}}}^{{\mathtt{3\,278}}}\right)}{\mathtt{\,\times\,}}{\mathtt{4\,225}}}{\mathtt{\,\times\,}}{\mathtt{5\,425}}\right)}{\mathtt{\,\times\,}}{\mathtt{5\,247}}\right)}{\mathtt{\,\times\,}}{\mathtt{42\,475\,255\,225}}}{{{\mathtt{5\,278\,514\,855}}}^{{\mathtt{2\,525}}}}}}}{\mathtt{\,\times\,}}{\mathtt{5\,222\,529}}\right)}}{\mathtt{\,\times\,}}{\mathtt{8\,858}}} = {{\mathtt{e}}}^{ABC}$$
