Simplify \(234overl\imath ne\times 9\) to \(2106ovrlne\imath e\).
\[2106ovrlne\imath e=2.35\]
Use Product Rule: \({x}^{a}{x}^{b}={x}^{a+b}\).
\[2106ovrln{e}^{2}\imath =2.35\]
Regroup terms.
\[2106{e}^{2}\imath ovrln=2.35\]
Divide both sides by \(2106\).
\[{e}^{2}\imath ovrln=\frac{2.35}{2106}\]
Simplify \(\frac{2.35}{2106}\) to \(0.001116\).
\[{e}^{2}\imath ovrln=0.001116\]
Divide both sides by \({e}^{2}\).
\[\imath ovrln=\frac{0.001116}{{e}^{2}}\]
Divide both sides by \(\imath \).
\[ovrln=\frac{\frac{0.001116}{{e}^{2}}}{\imath }\]
Simplify \(\frac{\frac{0.001116}{{e}^{2}}}{\imath }\) to \(\frac{0.001116}{{e}^{2}\imath }\).
\[ovrln=\frac{0.001116}{{e}^{2}\imath }\]
Divide both sides by \(v\).
\[orln=\frac{\frac{0.001116}{{e}^{2}\imath }}{v}\]
Simplify \(\frac{\frac{0.001116}{{e}^{2}\imath }}{v}\) to \(\frac{0.001116}{{e}^{2}\imath v}\).
\[orln=\frac{0.001116}{{e}^{2}\imath v}\]
Divide both sides by \(r\).
\[oln=\frac{\frac{0.001116}{{e}^{2}\imath v}}{r}\]
Simplify \(\frac{\frac{0.001116}{{e}^{2}\imath v}}{r}\) to \(\frac{0.001116}{{e}^{2}\imath vr}\).
\[oln=\frac{0.001116}{{e}^{2}\imath vr}\]
Divide both sides by \(l\).
\[on=\frac{\frac{0.001116}{{e}^{2}\imath vr}}{l}\]
Simplify \(\frac{\frac{0.001116}{{e}^{2}\imath vr}}{l}\) to \(\frac{0.001116}{{e}^{2}\imath vrl}\).
\[on=\frac{0.001116}{{e}^{2}\imath vrl}\]
Divide both sides by \(n\).
\[o=\frac{\frac{0.001116}{{e}^{2}\imath vrl}}{n}\]
Simplify \(\frac{\frac{0.001116}{{e}^{2}\imath vrl}}{n}\) to \(\frac{0.001116}{{e}^{2}\imath vrln}\).
\[o=\frac{0.001116}{{e}^{2}\imath vrln}\]
o=0.0011158594491928/(e^2*IM*v*r*l*n)
