SELECT ?title WHERE { ?? (rdfs:label|skos:prefLabel|schema:name) ?title . }
Acidity
Attributes
Acidity
Acidity
In chemistry the unit $\textit{pH}$, also referred to as $\textit{acidity}$ or $\textit{basicity}$,
is the negative logarithm (base 10) of the concentration of free protons (or hydronium ions).
The definition of $pH$ in terms of hydrogen ions in solution is:
$$\text{pH}=-\log_{10}(a_{H^+})\equiv-\log_{10}\left(\left[H^+\right]\right)$$
Where $a_{H^+}$ is the equilibrium molar concentration of $H^+$ in the solution, the activity of
the hydrogen ion in the solution.
$$$$
This definition is appropriate for concentrations equal to, or less than $1\ mol/l$,
where $aH+ \equiv [H+]$, that is, $1\ mol/L\ HCl$ has a $pH$ of zero.
$$$$
To relate this to standard molality ($b^\circ$), typically taken as $1 \ mol/kg$,
consideration is given to the activity ($a_{H^+}$) of the hydrogen ions.
$$$$
The activity can be expressed as:
$$a_{H^+} = \gamma_{H^+} \times m_{H^+}$$
Where, $\gamma_{H^+}$ is the activity coefficient, which adjusts the molality to account for
non-ideal behavior due to interactions between ions in the solution.
$m_{H^+}$ is the molality of hydrogen ions in the solution relative to the standard molality,
expressed in $mol/kg$.
$$$$
The expansion of $pH$ then becomes:
$$\text{pH} = -log_{10}\left(m_{H+}\times\gamma_{H^+}\right)$$
$$$$
This definition is relevant in more concentrated solutions or when precise thermodynamic calculations are required.
It reflects how the properties of the solution deviate from ideal behavior and provides a more accurate understanding of the $pH$ under various conditions.
$$$$
While $pH$ is a universally recognized scale for expressing hydrogen ion activity,
its appropriateness and accuracy can diminish under conditions of extremely high
ionic strength, non-aqueous environments, high temperatures, or very high or low $pH$ values.
In such cases, alternative measurement strategies might be required to obtain meaningful and accurate descriptions of acidity or basicity.
Unsure about dimensionality of pH; conversion requires a log function not just a multiplier
https://iupac.org/wp-content/uploads/2019/05/IUPAC-GB3-2012-2ndPrinting-PDFsearchable.pdf
[pH]
pH
Outgoing Relationships
Incoming Relationships
| property | subject |
|---|---|
| applicable unit | Acidity |
| applicable unit | Basicity |
Instances of this Class: No results found.
Superclasses of this Class: No results found.
Subclasses of this Class: No results found.