The conductivity of an inorganic compound solution is directly related to the concentration of ions present in the solution. When the concentration of an inorganic compound increases, the number of ions in the solution also increases, leading to an increase in conductivity. Conversely, when the concentration decreases, the conductivity also decreases.The relationship between concentration and conductivity can be quantitatively determined using the following equation:Conductivity = Concentration C Molar Conductivity Molar conductivity is the conductivity of a solution containing 1 mole of the solute per liter of the solution. It depends on the nature of the inorganic compound, the ions present, and the temperature of the solution.To determine the effect of changing the concentration of an inorganic compound on its conductivity, you can perform a series of experiments by preparing solutions with different concentrations of the compound and measuring their conductivities using a conductivity meter. By plotting the concentration C against the conductivity on a graph, you can observe the relationship between the two variables and determine the molar conductivity of the inorganic compound.In some cases, the relationship between concentration and conductivity may not be linear, especially at high concentrations, due to ion-ion interactions and the formation of ion pairs or complexes. In such cases, you may need to use more advanced models or equations to describe the relationship between concentration and conductivity.