The conductivity of an inorganic compound depends on the concentration of ions and the temperature of the solution. The effect of varying concentration and temperature on the conductivity of a particular inorganic compound can be explained as follows:1. Effect of concentration:Conductivity is directly proportional to the concentration of ions in the solution. As the concentration of the inorganic compound increases, the number of ions in the solution also increases, leading to an increase in conductivity. However, this relationship is not always linear, as the increased concentration can also lead to increased ion-ion interactions, which can reduce the mobility of the ions and thus decrease the conductivity. In general, the conductivity of a solution will increase with increasing concentration up to a certain point, after which it may decrease due to the aforementioned ion-ion interactions.2. Effect of temperature:Temperature has a significant effect on the conductivity of an inorganic compound. As the temperature of the solution increases, the kinetic energy of the ions also increases, leading to an increase in their mobility. This results in an increase in the conductivity of the solution. The relationship between temperature and conductivity is typically linear, with the conductivity increasing with increasing temperature. However, the rate at which conductivity increases with temperature can vary depending on the specific inorganic compound and the nature of the ions present in the solution.In summary, the conductivity of a particular inorganic compound is influenced by both concentration and temperature. Generally, conductivity increases with increasing concentration up to a certain point and temperature. However, the specific relationship between these factors and conductivity can vary depending on the nature of the inorganic compound and the ions present in the solution.