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How can the Effect of Dilution on specific conductances be explained?

Last updated date: 14th Jul 2024
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Hint: In order to answer this question, to know the effect of dilution on specific conductances, we will explain the effect of dilution and then we will also talk about the specific conductances and how it will be manipulated by the dilution.

Complete answer:
The relationship between specific conductance and dilution is inverse. Dilution decreases as real conductance increases, and vice versa as the amount of ions present in $1mL$ decreases.
Since the degree of dissociation and the total number of ions increase with dilution, the equivalent and molar conductivity increases.
A large group of animals has a greater chance of eluding a predatory animal than a single animal. "The dilution effect means that predators can take fewer prey," according to the anti-predator behavior-confusion effect.
The equivalent conductivity and molar conductivity both increase with dilution. This is due to an increase in the degree of dissociation and the total number of ions. However, as the number of ions per unit volume decreases, the conductivity decreases.
Specific conductance is known as the conducting ability of a dissolved electrolyte solution when the entire solution is placed between two electrodes with a surface area of \[1{\text{ }}sq.{\text{ }}cm\] and a length of $1cm$ . It's denoted by the letter Keppa. It is the inverse of resistance. Conductivity is another name for it.

(i) The conductivity of solution increases on dilution. (ii) The specific conductivity decreases on dilution (as number of ions decreases w.r.t. to volume). (iii) The equivalent and molar conductivities increase with dilution. (iv) The equivalent and molar conductivities tend to acquire maximum value with increasing dilution.