The resistance of the dielectric material of a film capacitor has to be calculated.
The given film capacitor has an internal surface of $A=100 ~\rm dm^2$ and a distance between the plates of $d=0.8 ~\rm μm$.
The resistivity of the dielectric material is $\rho_{\rm PP}(20 ~\rm °C)=10^{17} ~\Omega m$.
For the given material the temperature coefficients in the range of $20 ~\rm °C$ and $55 ~\rm °C$ are given as $\alpha =-0.048 ~\rm 1/K$ and $\beta=+0.00057 ~\rm 1/K^2$.
Calculate the resistance for the dielectric material for $20 ~\rm °C$.
Calculate the resistance for the dielectric material for $55 ~\rm °C$.
(In reality, the relationship between $R$ and $T$ for Polypropylene is better described by the $B25$ value in an exponential formula. In this case, the best fit would be $B25 = 15’000$ for $T$ between $20 ~\rm °C$ and $100 ~\rm °C$)