Remove parentheses.
\[3r=overl\imath ney\]
Cancel \(r\) on both sides.
\[3=ovel\imath ney\]
Use Product Rule: \({x}^{a}{x}^{b}={x}^{a+b}\).
\[3=ov{e}^{2}l\imath ny\]
Regroup terms.
\[3={e}^{2}\imath ovlny\]
Divide both sides by \({e}^{2}\).
\[\frac{3}{{e}^{2}}=\imath ovlny\]
Divide both sides by \(\imath \).
\[\frac{\frac{3}{{e}^{2}}}{\imath }=ovlny\]
Simplify \(\frac{\frac{3}{{e}^{2}}}{\imath }\) to \(\frac{3}{{e}^{2}\imath }\).
\[\frac{3}{{e}^{2}\imath }=ovlny\]
Divide both sides by \(v\).
\[\frac{\frac{3}{{e}^{2}\imath }}{v}=olny\]
Simplify \(\frac{\frac{3}{{e}^{2}\imath }}{v}\) to \(\frac{3}{{e}^{2}\imath v}\).
\[\frac{3}{{e}^{2}\imath v}=olny\]
Divide both sides by \(l\).
\[\frac{\frac{3}{{e}^{2}\imath v}}{l}=ony\]
Simplify \(\frac{\frac{3}{{e}^{2}\imath v}}{l}\) to \(\frac{3}{{e}^{2}\imath vl}\).
\[\frac{3}{{e}^{2}\imath vl}=ony\]
Divide both sides by \(n\).
\[\frac{\frac{3}{{e}^{2}\imath vl}}{n}=oy\]
Simplify \(\frac{\frac{3}{{e}^{2}\imath vl}}{n}\) to \(\frac{3}{{e}^{2}\imath vln}\).
\[\frac{3}{{e}^{2}\imath vln}=oy\]
Divide both sides by \(y\).
\[\frac{\frac{3}{{e}^{2}\imath vln}}{y}=o\]
Simplify \(\frac{\frac{3}{{e}^{2}\imath vln}}{y}\) to \(\frac{3}{{e}^{2}\imath vlny}\).
\[\frac{3}{{e}^{2}\imath vlny}=o\]
Switch sides.
\[o=\frac{3}{{e}^{2}\imath vlny}\]
o=3/(e^2*IM*v*l*n*y)
