The conductivity of inorganic compounds in an electrolyte solution is directly related to the concentration of the ions present in the solution. When the concentration of the electrolyte solution is varied, it affects the conductivity of the inorganic compounds in the following ways:1. Increasing the concentration of the electrolyte solution: As the concentration of the electrolyte solution increases, the number of ions present in the solution also increases. This leads to a higher probability of ions moving and colliding with each other under the influence of an electric field, which in turn increases the conductivity of the inorganic compounds in the solution.2. Decreasing the concentration of the electrolyte solution: Conversely, when the concentration of the electrolyte solution decreases, the number of ions present in the solution decreases as well. This results in a lower probability of ions moving and colliding with each other under the influence of an electric field, which in turn decreases the conductivity of the inorganic compounds in the solution.However, it is important to note that the relationship between the concentration of the electrolyte solution and the conductivity of inorganic compounds is not always linear. At very high concentrations, the increased ion-ion interactions and the reduced mobility of the ions due to the crowded environment may cause the conductivity to increase at a slower rate or even decrease. On the other hand, at very low concentrations, the conductivity may not decrease as rapidly as expected due to the presence of trace impurities or other factors.In summary, the effect of varying the concentration of the electrolyte solution on the conductivity of inorganic compounds is generally a direct relationship, with higher concentrations leading to increased conductivity and lower concentrations leading to decreased conductivity. However, this relationship may not always be linear, and other factors can influence the conductivity at very high or very low concentrations.