Simplify \(0-80083\) to \(-80083\).
\[109tablestosolve\sqrt[-80083]{4}\]
Move the negative sign to the left.
\[109tablestosolve\times {4}^{-\frac{1}{80083}}\]
Use Negative Power Rule: \({x}^{-a}=\frac{1}{{x}^{a}}\).
\[109tablestosolve\times \frac{1}{\sqrt[80083]{4}}\]
Rewrite \(4\) as \({2}^{2}\).
\[109tablestosolve\times \frac{1}{\sqrt[80083]{{2}^{2}}}\]
Use this rule: \({({x}^{a})}^{b}={x}^{ab}\).
\[109tablestosolve\times \frac{1}{{2}^{\frac{2}{80083}}}\]
Use Quotient Rule: \(\frac{{x}^{a}}{{x}^{b}}={x}^{a-b}\).
\[109{t}^{1+1}ab{l}^{1+1}{e}^{1+1}{s}^{1+1}{o}^{1+1}v\times {2}^{-\frac{2}{80083}}\]
Simplify \(1+1\) to \(2\).
\[109{t}^{2}ab{l}^{2}{e}^{2}{s}^{2}{o}^{2}v\times {2}^{-\frac{2}{80083}}\]
Use Negative Power Rule: \({x}^{-a}=\frac{1}{{x}^{a}}\).
\[109{t}^{2}ab{l}^{2}{e}^{2}{s}^{2}{o}^{2}v\times \frac{1}{{2}^{\frac{2}{80083}}}\]
Simplify.
\[\frac{109{t}^{2}ab{l}^{2}{e}^{2}{s}^{2}{o}^{2}v}{{2}^{\frac{2}{80083}}}\]
Regroup terms.
\[\frac{109{e}^{2}{t}^{2}ab{l}^{2}{s}^{2}{o}^{2}v}{{2}^{\frac{2}{80083}}}\]
(109*e^2*t^2*a*b*l^2*s^2*o^2*v)/2^(2/80083)
