Remove parentheses.
\[-1\times -3\times -2\times -11\times 1=Div\imath s\imath onofIntegers\]
Simplify \(3\) to \(3\).
\[66=Div\imath s\imath onofIntegers\]
Use Product Rule: \({x}^{a}{x}^{b}={x}^{a+b}\).
\[66=Div{\imath }^{2}{s}^{2}{o}^{2}nfInt{e}^{2}gr\]
Use Square Rule: \({i}^{2}=-1\).
\[66=Div\times -1\times {s}^{2}{o}^{2}nfInt{e}^{2}gr\]
Simplify \(Div\times -1\times {s}^{2}{o}^{2}nfInt{e}^{2}gr\) to \(Div\times -{s}^{2}{o}^{2}nfInt{e}^{2}gr\).
\[66=Div\times -{s}^{2}{o}^{2}nfInt{e}^{2}gr\]
Regroup terms.
\[66=-DifIn{e}^{2}v{s}^{2}{o}^{2}ntgr\]
Divide both sides by \(-Di\).
\[-\frac{66}{Di}=fIn{e}^{2}v{s}^{2}{o}^{2}ntgr\]
Divide both sides by \(fIn\).
\[-\frac{\frac{66}{Di}}{fIn}={e}^{2}v{s}^{2}{o}^{2}ntgr\]
Simplify \(\frac{\frac{66}{Di}}{fIn}\) to \(\frac{66}{DifIn}\).
\[-\frac{66}{DifIn}={e}^{2}v{s}^{2}{o}^{2}ntgr\]
Divide both sides by \({e}^{2}\).
\[-\frac{\frac{66}{DifIn}}{{e}^{2}}=v{s}^{2}{o}^{2}ntgr\]
Simplify \(\frac{\frac{66}{DifIn}}{{e}^{2}}\) to \(\frac{66}{DifIn{e}^{2}}\).
\[-\frac{66}{DifIn{e}^{2}}=v{s}^{2}{o}^{2}ntgr\]
Divide both sides by \({s}^{2}\).
\[-\frac{\frac{66}{DifIn{e}^{2}}}{{s}^{2}}=v{o}^{2}ntgr\]
Simplify \(\frac{\frac{66}{DifIn{e}^{2}}}{{s}^{2}}\) to \(\frac{66}{DifIn{e}^{2}{s}^{2}}\).
\[-\frac{66}{DifIn{e}^{2}{s}^{2}}=v{o}^{2}ntgr\]
Divide both sides by \({o}^{2}\).
\[-\frac{\frac{66}{DifIn{e}^{2}{s}^{2}}}{{o}^{2}}=vntgr\]
Simplify \(\frac{\frac{66}{DifIn{e}^{2}{s}^{2}}}{{o}^{2}}\) to \(\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}}\).
\[-\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}}=vntgr\]
Divide both sides by \(n\).
\[-\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}}}{n}=vtgr\]
Simplify \(\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}}}{n}\) to \(\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}n}\).
\[-\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}n}=vtgr\]
Divide both sides by \(t\).
\[-\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}n}}{t}=vgr\]
Simplify \(\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}n}}{t}\) to \(\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}nt}\).
\[-\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}nt}=vgr\]
Divide both sides by \(g\).
\[-\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}nt}}{g}=vr\]
Simplify \(\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}nt}}{g}\) to \(\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}ntg}\).
\[-\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}ntg}=vr\]
Divide both sides by \(r\).
\[-\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}ntg}}{r}=v\]
Simplify \(\frac{\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}ntg}}{r}\) to \(\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}ntgr}\).
\[-\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}ntgr}=v\]
Switch sides.
\[v=-\frac{66}{DifIn{e}^{2}{s}^{2}{o}^{2}ntgr}\]
v=-66/(Di*fIn*e^2*s^2*o^2*n*t*g*r)
