Generalized Maxwell model

${\displaystyle \sigma +}$ ${\displaystyle {\displaystyle \sum _{n=1}^N}\left({\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\prod _{j\in \left\{i_1,...,i_n\right\}}{\tau }_j\right)\right)...\right)...\right)\frac{{\partial }^n\sigma }{\partial t^n}}$

${\displaystyle =}$

${\displaystyle E_0ϵ+}$ ${\displaystyle {\displaystyle \sum _{n=1}^N}\left({\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\left(E_0+\sum _{j\in \left\{i_1,...,i_n\right\}}{E}_j\right)\left(\prod _{k\in \left\{i_1,...,i_n\right\}}{\tau }_k\right)\right)\right)...\right)...\right)\frac{{\partial }^nϵ}{\partial t^n}}$

${\displaystyle \sigma +}$ ${\displaystyle \left({\displaystyle \sum _{i=1}^N}{\tau }_i\right)\frac{\partial \sigma }{\partial t}+}$ ${\displaystyle \left({\displaystyle \sum _{i=1}^{N-1}}\left({\displaystyle \sum _{j=i+1}^N}{\tau }_i{\tau }_j\right)\right)\frac{{\partial }^2\sigma }{\partial t^2}}$ ${\displaystyle +...+}$

${\displaystyle \left({\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\prod _{j\in \left\{i_1,...,i_n\right\}}{\tau }_j\right)\right)...\right)...\right)\frac{{\partial }^n\sigma }{\partial t^n}}$ ${\displaystyle +...+}$ ${\displaystyle \left({\displaystyle \prod _{i=1}^N}{\tau }_i\right)\frac{{\partial }^N\sigma }{\partial t^N}}$

${\displaystyle =}$

${\displaystyle E_0ϵ+}$ ${\displaystyle \left({\displaystyle \sum _{i=1}^N}\left(E_0+E_i\right){\tau }_i\right)\frac{\partial ϵ}{\partial t}+}$ ${\displaystyle \left({\displaystyle \sum _{i=1}^{N-1}}\left({\displaystyle \sum _{j=i+1}^N}\left(E_0+E_i+E_j\right){\tau }_i{\tau }_j\right)\right)\frac{{\partial }^2ϵ}{\partial t^2}}$ ${\displaystyle +...+}$

${\displaystyle \left({\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\left(E_0+\sum _{j\in \left\{i_1,...,i_n\right\}}{E}_j\right)\left(\prod _{k\in \left\{i_1,...,i_n\right\}}{\tau }_k\right)\right)\right)...\right)...\right)\frac{{\partial }^nϵ}{\partial t^n}}$ ${\displaystyle +...+}$ ${\displaystyle \left(E_0+{\displaystyle \sum _{j=1}^N}{E}_j\right)\left({\displaystyle \prod _{i=1}^N}{\tau }_i\right)\frac{{\partial }^Nϵ}{\partial t^N}}$

${\displaystyle \sigma +{\tau }_1\frac{\partial \sigma }{\partial t}=E_0ϵ+{\tau }_1\left(E_0+E_1\right)\frac{\partial ϵ}{\partial t}}$

${\displaystyle \sigma +}$ ${\displaystyle {\displaystyle \sum _{n=1}^N}\left({\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\prod _{j\in \left\{i_1,...,i_n\right\}}{\tau }_j\right)\right)...\right)...\right)\frac{{\partial }^n\sigma }{\partial t^n}}$

${\displaystyle =}$

${\displaystyle {\displaystyle \sum _{n=1}^N}\left({\eta }_0+{\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\left(\sum _{j\in \left\{i_1,...,i_n\right\}}{E}_j\right)\left(\prod _{k\in \left\{i_1,...,i_n\right\}}{\tau }_k\right)\right)\right)...\right)...\right)\frac{{\partial }^nϵ}{\partial t^n}}$

${\displaystyle \sigma +}$ ${\displaystyle \left({\displaystyle \sum _{i=1}^N}{\tau }_i\right)\frac{\partial \sigma }{\partial t}+}$ ${\displaystyle \left({\displaystyle \sum _{i=1}^{N-1}}\left({\displaystyle \sum _{j=i+1}^N}{\tau }_i{\tau }_j\right)\right)\frac{{\partial }^2\sigma }{\partial t^2}}$ ${\displaystyle +...+}$

${\displaystyle \left({\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\prod _{j\in \left\{i_1,...,i_n\right\}}{\tau }_j\right)\right)...\right)...\right)\frac{{\partial }^n\sigma }{\partial t^n}}$ ${\displaystyle +...+}$ ${\displaystyle \left({\displaystyle \prod _{i=1}^N}{\tau }_i\right)\frac{{\partial }^N\sigma }{\partial t^N}}$

${\displaystyle =}$

${\displaystyle \left({\eta }_0+{\displaystyle \sum _{i=1}^N}{E}_i{\tau }_i\right)\frac{\partial ϵ}{\partial t}+}$ ${\displaystyle \left({\eta }_0+{\displaystyle \sum _{i=1}^{N-1}}\left({\displaystyle \sum _{j=i+1}^N}\left(E_i+E_j\right){\tau }_i{\tau }_j\right)\right)\frac{{\partial }^2ϵ}{\partial t^2}}$ ${\displaystyle +...+}$

${\displaystyle \left({\eta }_0+{\displaystyle \sum _{i_1=1}^{N-n+1}}...\left({\displaystyle \sum _{i_a=i_{a-1}+1}^{N-\left(n-a\right)+1}}...\left({\displaystyle \sum _{i_n=i_{n-1}+1}^N}\left(\left(\sum _{j\in \left\{i_1,...,i_n\right\}}{E}_j\right)\left(\prod _{k\in \left\{i_1,...,i_n\right\}}{\tau }_k\right)\right)\right)...\right)...\right)\frac{{\partial }^nϵ}{\partial t^n}}$ ${\displaystyle +...+}$ ${\displaystyle \left({\eta }_0+\left({\displaystyle \sum _{j=1}^N}{E}_j\right)\left({\displaystyle \prod _{i=1}^N}{\tau }_i\right)\right)\frac{{\partial }^Nϵ}{\partial t^N}}$

${\displaystyle \sigma +{\tau }_1\frac{\partial \sigma }{\partial t}=\left({\eta }_0+{\tau }_1{E}_1\frac{\partial }{\partial t}\right)\frac{\partial ϵ}{\partial t}}$