Activity and chemical potential

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Discussion Overview

The discussion revolves around the concepts of chemical potential and activity, particularly in the context of material growth and the importance of determining activities of various species. Participants explore the definitions, implications, and applications of these concepts in different scientific fields.

Discussion Character

  • Conceptual clarification
  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant seeks to understand the difference between chemical potential and activity, questioning the significance of activities in material growth and what activity measures, given its dimensionless nature.
  • Another participant explains that chemical potential is a function of activity, noting that in the dilute limit, activity corresponds to partial pressure or concentration, while in the interacting limit, it involves an activity coefficient.
  • A participant expresses confusion about whether activity measures the strength of interaction among species and its importance.
  • It is suggested that activity measures the abundance of a species, with distinctions between dilute and high abundance limits affecting its interpretation.
  • Examples are provided where activity is crucial, such as in predicting corrosion rates or studying gas adsorption on metal surfaces.
  • A recommendation is made to consult introductory texts in electrochemistry or statistical mechanics for a deeper understanding of the topic.
  • A book titled "Chemical Thermodynamics" by Klotz and Rosenberg is suggested as a valuable resource.

Areas of Agreement / Disagreement

Participants express varying levels of understanding and confusion regarding the concept of activity, indicating that multiple interpretations and clarifications are present. The discussion remains unresolved with respect to the precise implications and measurements of activity.

Contextual Notes

Participants highlight the dependence of activity on conditions such as temperature and pressure, but do not resolve the implications of these factors on the definitions discussed.

marie2010
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hi,
can someone help me in understanding the difference between chemical potential and activity?
Why it is important to know/determine activities of certain species in material growth? Given that activity is dimensionless quantity, what is it measuring?

Also, what is the activity of pure solids, liquids, and gases? Is it important to specify temperature, pressure, etc. when asking for species' activites?

Thank you in advance.
 
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Roughly speaking, the chemical potential of species X is a function of its activity. In the dilute limit ,i.e, when the particles of species X do not "see" each other, the activity is simply the partial pressure of the gas or the concentration of solid species in aqueous solution. On the other hand if the particles of species X can "see" each other (in other words can interact with each other), then we express this effect emperically by specifiying activity coefficient. As an example, the activity of dissolved solid in aquous solution would be concentration x the activity coefficient.
 
Thanks for the reply. I am still, however, confused about the activity concept.
So, does it measure the strength of interaction of the species?
Why is it important to know it?

Thanks.
 
The activity is a measure of the abundance of the species. What I described in my previous post is the how the notion of reactivity is distinct from the familiar concepts of gas partial pressure and solute concentration. I summarize again that in the dilute limit there is no distinction, while in the high abundance limit (interacting species) there is a distinction.

It is importance depends on the context. For example, a corrosion scientist would care about the activity of chloride ions in a solution to be able to predict the corrosion rate of a metal. Another example, a surface scientist would care about the activity of oxygen gas to study its adsorption on metal surfaces.

I recommend reading an introductory text in electrochemistry (or may be corrosion science or physical chemistry) to understand the definition. If you want to go one step deeper , you can read a statitichal mechanics text to see in general how interactions between particles lead to deviation from ideal behavior.

Edit: I checked Wikipedia page on activity(chemistry) and it seems also a good introduction to the topic.
 
Last edited:
Maybe you would find the following book valuable:

Klotz, Rosenberg, Chemical Thermodynamics
 

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