Monady
Advanced Member level 4
I know that it's a complex impedance, but you can find equivalent circuit which can be either series RC or parallel one.
Let's make it clear, as I understood, you say that in equivalent circuit, the value of capacitance is merely a function of permittivity, and resistance is also merely a function of resistivity. is it what you say?
I think both capacitance and resistance values are functions of both permittivity and resistivity. In other words, capacitance value is a function of ε(ω) and σ(ω), same as resistance value.
In fact, it doesn't make any difference for me to choose which one of them. But, in both circuits (parallel or series) the value of capacitance would be a function of conductivity, as I told the reason before.But you didn't yet tell a reason, why one of both representations should be preferred.
Let's make it clear, as I understood, you say that in equivalent circuit, the value of capacitance is merely a function of permittivity, and resistance is also merely a function of resistivity. is it what you say?
I think both capacitance and resistance values are functions of both permittivity and resistivity. In other words, capacitance value is a function of ε(ω) and σ(ω), same as resistance value.