Concentration

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In chemistry, concentration is the abundance of a constituent divided by the total volume of a mixture. Several types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration.^[1] The term concentration can be applied to any kind of chemical mixture, but most frequently it refers to solutes and solvents in solutions. The molar (amount) concentration has variants such as normal concentration and osmotic concentration.

Qualitative description

Often in informal, non-technical language, concentration is described in a qualitative way, through the use of adjectives such as "dilute" for solutions of relatively low concentration and "concentrated" for solutions of relatively high concentration. To concentrate a solution, one must add more solute (for example, alcohol), or reduce the amount of solvent (for example, water). By contrast, to dilute a solution, one must add more solvent, or reduce the amount of solute. Unless two substances are fully miscible there exists a concentration at which no further solute will dissolve in a solution. At this point, the solution is said to be saturated. If additional solute is added to a saturated solution, it will not dissolve, except in certain circumstances, when supersaturation may occur. Instead, phase separation will occur, leading to coexisting phases, either completely separated or mixed as a suspension. The point of saturation depends on many variables such as ambient temperature and the precise chemical nature of the solvent and solute.

Quantitative notation

There are four quantities that describe concentration:

Mass concentration

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The mass concentration ${\displaystyle {\rho }_i}$ is defined as the mass of a constituent ${\displaystyle m_i}$ divided by the volume of the mixture ${\displaystyle V}$:

${\displaystyle {\rho }_i=\frac{m_i}{V}.}$

The SI unit is kg/m³ (equal to g/L).

Molar concentration

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The molar concentration ${\displaystyle c_i}$ is defined as the amount of a constituent ${\displaystyle n_i}$ divided by the volume of the mixture ${\displaystyle V}$:

${\displaystyle c_i=\frac{n_i}{V}.}$

The SI unit is mol/m³. However, more commonly the unit mol/L (= mol/dm³) is used.

Number concentration

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The number concentration ${\displaystyle C_i}$ is defined as the number of entities of a constituent ${\displaystyle N_i}$ in a mixture divided by the volume of the mixture ${\displaystyle V}$:

${\displaystyle C_i=\frac{N_i}{V}.}$

The SI unit is 1/m³.

Volume concentration

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The volume concentration ${\displaystyle {\varphi }_i}$ (also called volume fraction) is defined as the volume of a constituent ${\displaystyle V_i}$ divided by the volume of all constituents of the mixture ${\displaystyle V}$ prior to mixing:

${\displaystyle {\varphi }_i=\frac{V_i}{V}.}$

Being dimensionless, it is expressed as a number, e.g., 0.18 or 18%; its unit is 1.

Related quantities

Several other quantities can be used to describe the composition of a mixture. Note that these should not be called concentrations.^[1]

Normality

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Normality is defined as the molar concentration ${\displaystyle c_i}$ divided by an equivalence factor ${\displaystyle f_{\mathrm{e}\mathrm{q}}}$. Since the definition of the equivalence factor may not be unequivocal, IUPAC and NIST discourage the use of normality.

Molality

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The molality of a solution ${\displaystyle b_i}$ is defined as the amount of a constituent ${\displaystyle n_i}$ divided by the mass of the solvent ${\displaystyle m_{\mathrm{s}\mathrm{o}\mathrm{l}\mathrm{v}\mathrm{e}\mathrm{n}\mathrm{t}}}$ (not the mass of the solution):

${\displaystyle b_i=\frac{n_i}{m_{\mathrm{s}\mathrm{o}\mathrm{l}\mathrm{v}\mathrm{e}\mathrm{n}\mathrm{t}}}.}$

The SI unit for molality is mol/kg.

Mole fraction

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The mole fraction ${\displaystyle x_i}$ is defined as the amount of a constituent ${\displaystyle n_i}$ divided by the total amount of all constituents in a mixture ${\displaystyle n_{\mathrm{t}\mathrm{o}\mathrm{t}}}$:

${\displaystyle x_i=\frac{n_i}{n_{\mathrm{t}\mathrm{o}\mathrm{t}}}.}$

The SI unit is mol/mol. However, the deprecated parts-per notation is often used to describe small mole fractions.

Mole ratio

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The mole ratio ${\displaystyle r_i}$ is defined as the amount of a constituent ${\displaystyle n_i}$ divided by the total amount of all other constituents in a mixture:

${\displaystyle r_i=\frac{n_i}{n_{\mathrm{t}\mathrm{o}\mathrm{t}}-n_i}.}$

If ${\displaystyle n_i}$ is much smaller than ${\displaystyle n_{\mathrm{t}\mathrm{o}\mathrm{t}}}$, the mole ratio is almost identical to the mole fraction.

The SI unit is mol/mol. However, the deprecated parts-per notation is often used to describe small mole ratios.

Mass fraction

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The mass fraction ${\displaystyle w_i}$ is the fraction of one substance with mass ${\displaystyle m_i}$ to the mass of the total mixture ${\displaystyle m_{\mathrm{t}\mathrm{o}\mathrm{t}}}$, defined as:

${\displaystyle w_i=\frac{m_i}{m_{\mathrm{t}\mathrm{o}\mathrm{t}}}.}$

The SI unit is kg/kg. However, the deprecated parts-per notation is often used to describe small mass fractions.

Mass ratio

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The mass ratio ${\displaystyle {\zeta }_i}$ is defined as the mass of a constituent ${\displaystyle m_i}$ divided by the total mass of all other constituents in a mixture:

${\displaystyle {\zeta }_i=\frac{m_i}{m_{\mathrm{t}\mathrm{o}\mathrm{t}}-m_i}.}$

If ${\displaystyle m_i}$ is much smaller than ${\displaystyle m_{\mathrm{t}\mathrm{o}\mathrm{t}}}$, the mass ratio is almost identical to the mass fraction.

The SI unit is kg/kg. However, the deprecated parts-per notation is often used to describe small mass ratios.

Dependence on volume

Concentration depends on the variation of the volume of the solution due mainly to thermal expansion.

Table of concentrations and related quantities

Concentration type	Symbol	Definition	SI unit	other unit(s)
mass concentration	${\displaystyle {\rho }_i}$ or ${\displaystyle {\gamma }_i}$	${\displaystyle m_i/V}$	kg/m3	g/100mL (= g/dL)
molar concentration	${\displaystyle c_i}$	${\displaystyle n_i/V}$	mol/m3	M (= mol/L)
number concentration	${\displaystyle C_i}$	${\displaystyle N_i/V}$	1/m3	1/cm3
volume concentration	${\displaystyle {\varphi }_i}$	${\displaystyle V_i/V}$	m3/m3
Related quantities	Symbol	Definition	SI unit	other unit(s)
normality		${\displaystyle c_i/f_{\mathrm{e}\mathrm{q}}}$	mol/m3	N (= mol/L)
molality	${\displaystyle b_i}$	${\displaystyle n_i/m_{\mathrm{s}\mathrm{o}\mathrm{l}\mathrm{v}\mathrm{e}\mathrm{n}\mathrm{t}}}$	mol/kg
mole fraction	${\displaystyle x_i}$	${\displaystyle n_i/n_{\mathrm{t}\mathrm{o}\mathrm{t}}}$	mol/mol	ppm, ppb, ppt
mole ratio	${\displaystyle r_i}$	${\displaystyle n_i/(n_{\mathrm{t}\mathrm{o}\mathrm{t}}-n_i)}$	mol/mol	ppm, ppb, ppt
mass fraction	${\displaystyle w_i}$	${\displaystyle m_i/m_{\mathrm{t}\mathrm{o}\mathrm{t}}}$	kg/kg	ppm, ppb, ppt
mass ratio	${\displaystyle {\zeta }_i}$	${\displaystyle m_i/(m_{\mathrm{t}\mathrm{o}\mathrm{t}}-m_i)}$	kg/kg	ppm, ppb, ppt

See also

• Dose concentration
• Serial dilution
• Wine/water mixing problem

References

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