The Specific Conductance Of A Solution Falls On Dilution Because

Question
Favorites:
  1. On Increasing Temperature Conductance Of Electrolytic Solution Will Be
  2. Specific Resistance And Specific Conductivity Is Proportional To Each Other
  3. Differentiate Between Specific Heat Capacity And Latent Heat Capacity
  4. An Example Of Primary Standard Compound To Standardize Kmno4 Solution
  5. Two Or More Molecules Having Specific Lattice Structure Are Called
  6. One More Step Please Complete The Security Check To Access Solution
in progress 0
1 Answer
0

Answer ( 1 )

Q&A Session
  1. DahlRoald
    0
    2023-01-25T19:28:50+05:30
    Reply

    The Specific Conductance Of A Solution Falls On Dilution Because

    Conductance is a key term in water chemistry and it refers to the rate at which electricity moves through a substance. In most cases, this rate is proportional to the concentration of the substance. One of the key concepts in water chemistry is elementary conductivity, which states that the specific conductance of a solution falls on dilution because the overall concentration of electrolytes remains unchanged. This means that any changes you make to the concentration of electrolytes will have an impact on how much electricity passes through the solution. In this blog post, we will explore this concept in more detail and discuss some ways you can use it to your advantage.

    The Specific Conductance Of A Solution Falls On Dilution Because

    When a liquid is diluted, the specific conductance (the amount of current that flows through a unit area per second) decreases. This is because the concentration of molecules in a solution decrease as the solution is diluted. In general, the specific conductance will be lower for smaller molecules and higher for larger molecules. The smaller the molecule, the more it will interact with other molecules in the dilute solution, hindering its ability to flow freely. Conversely, larger molecules are less likely to interact with one another and will continue to flow freely even when diluted.

    Solutions with Higher Concentrations Lose More Water By Dissolving In It

    The specific conductance of a solution decreases as the concentration of the solute in the solution increases. This is because as the concentration of the solute increases, more dissolved molecules are present. These extra molecules make it harder for electrical charges to flow through them and therefore limit the amount of current that can flow through the solution.

    This is why solutions with higher concentrations lose more water by dissolving in it. The higher concentration of solutes means that there are more obstacles for electrical charges to flow through, which restricts the amount of current that can pass through the solution.

    The Specific Conductance Of A Solution Increases With the Concentration of the Substance in it

    The specific conductance of a solution increases with the concentration of the substance in it. This is because as the concentration of the substance increases, there is more ionized material in the solution. Ions are able to move more freely through solutions than molecules, and so conduct electricity better.

    Conclusion

    The specific conductance of a solution falls on dilution because the solute concentration increases with each passing molecule of the solvent.

Leave an answer