Initial program 16.4
\[\frac{\frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0} + 1.0}{2.0}\]
Initial simplification16.4
\[\leadsto \frac{1.0 + \frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0}}{2.0}\]
- Using strategy
rm Applied flip3-+16.4
\[\leadsto \frac{\color{blue}{\frac{{1.0}^{3} + {\left(\frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0}\right)}^{3}}{1.0 \cdot 1.0 + \left(\frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0} \cdot \frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0} - 1.0 \cdot \frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0}\right)}}}{2.0}\]
- Using strategy
rm Applied add-cbrt-cube16.4
\[\leadsto \frac{\frac{{1.0}^{3} + \color{blue}{\sqrt[3]{\left({\left(\frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0}\right)}^{3} \cdot {\left(\frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0}\right)}^{3}\right) \cdot {\left(\frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0}\right)}^{3}}}}{1.0 \cdot 1.0 + \left(\frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0} \cdot \frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0} - 1.0 \cdot \frac{\beta - \alpha}{\left(\alpha + \beta\right) + 2.0}\right)}}{2.0}\]
Final simplification16.4
\[\leadsto \frac{\frac{\sqrt[3]{{\left(\frac{\beta - \alpha}{2.0 + \left(\beta + \alpha\right)}\right)}^{3} \cdot \left({\left(\frac{\beta - \alpha}{2.0 + \left(\beta + \alpha\right)}\right)}^{3} \cdot {\left(\frac{\beta - \alpha}{2.0 + \left(\beta + \alpha\right)}\right)}^{3}\right)} + {1.0}^{3}}{\left(\frac{\beta - \alpha}{2.0 + \left(\beta + \alpha\right)} \cdot \frac{\beta - \alpha}{2.0 + \left(\beta + \alpha\right)} - \frac{\beta - \alpha}{2.0 + \left(\beta + \alpha\right)} \cdot 1.0\right) + 1.0 \cdot 1.0}}{2.0}\]
