The analysis of correlation and linear regression of fat content (F) in the function of changes in impedance (Z), admittance (Y), parallel equivalent capacitance (Cp) and series equivalent capacitance (Cs) of milk demonstrated that within a frequency range of 100 Hz to 100 kHz, correlations were observed that could be described with the following equation: y = ax 卤 b. The highest correlations (0.934 猢?#xA0;r 猢?#xA0;0.990; 伪 = 0.006 - 0.000) were achieved between fat content of raw milk and values of the parallel equivalent capacitance (Cp). This means that the most accurate determination of fat content (F) of raw milk is feasible through the measurements of Cp and calculations based on mathematical equations, e.g. F = a 脳 Cp + b. The correlations achieved in the measuring voltage frequency range of 100 Hz to 100 kHz encourage to continue investigations aimed at developing a rapid method for the assessment of fat content of raw milk based on measurements of electric parameters of conductance and capacitance.