Target Exam

CUET

Subject

Chemistry

Chapter

Physical: Electro Chemistry

Question:

Electrical conductance through metals is called metallic or electronic conductance and is due to the movement of electrons. The electronic conductance depends on

(i) the nature and structure of the metal

(ii) the number of valence electrons per atom

(iii) temperature (it decreases with increase of temperature). 

As the electrons enter at one end and go out through the other end, the composition of the metallic conductor remains unchanged. The mechanism of conductance through semiconductors is more complex. We already know that even very pure water has small amounts of hydrogen and hydroxyl ions (~10–7M) which lend it very low conductivity (3.5 × 10–5 S m–1). When electrolytes are dissolved in water, they furnish their own ions in the solution hence its conductivity also increases. The conductance of electricity by ions present in the solutions is called electrolytic or ionic conductance.

The conductivity of electrolytic (ionic) solutions depends on:

(i) the nature of the electrolyte added

(ii) size of the ions produced and their solvation

(iii) the nature of the solvent and its viscosity

(iv) concentration of the electrolyte

(v) temperature (it increases with the increase of temperature).

Passage of direct current through ionic solution over a prolonged period can lead to change in its composition due to electrochemical reactions.

What is the effect on the conductance of an electrolyte when there will be higher viscosity of solvent?

Options:

Conductance of electrolyte increases

Conductance of electrolyte decreases

Conductance of electrolyte increases initially then decreases

Data is insufficient

Correct Answer:

Conductance of electrolyte decreases

Explanation:

Larger the solvent-solvent interactions (higher viscosity), lower is the conductivity of the electrolyte.