Guide for the Use of the International System of Units (SI)
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- SI unit: mol/mol = 1 molar volume n V V = m SI unit
- 8.6.3 Molar volume
- 8.6.5 Concentration of B; amount-of-substance concentration of B
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Quantity in numerator
Amount of Substance Symbol: n SI unit: mol Volume Symbol: V SI unit: m 3 Mass Symbol: m SI unit: kg Amount of Substance Symbol: n SI unit: mol amount-of-substance fraction n n x B B = SI unit: mol/mol = 1 molar volume n V V = m SI unit: m 3 /mol molar mass n m M = SI unit: kg/mol Volume Symbol: V SI unit: m 3 amount-of-substance concentration V n c B B = SI unit: mol/mol 3 volume fraction * A m, A * B m, B B V x V x ∑ = ϕ SI unit: m 3 /m 3 = 1 mass density V m = ρ SI unit: kg/m 3 Q u an ti ty in den omina to r Mass Symbol: m SI unit: kg molality A B B m n b = SI unit: mol/kg specific volume m V = υ SI unit: m 3 /kg mass fraction m m w B B = SI unit: kg/kg = 1 (a) Adapted from Canadian Metric Practice Guide (see Ref. [6], note 2; the book cited in Ref. [6], note 3, may also be consulted). Notes: 1. This quantity is commonly called “mole fraction of B” but this Guide prefers the name “amount- of-substance fraction of B,” because it does not contain the name of the unit mole (compare kilogram fraction to mass fraction). 2. For a mixture composed of substances A, B, C, . . . , ∑ ≡ + + + A A C B A ... n n n n 3. A related quantity is amount-of-substance ratio of B (commonly called “mole ratio of solute B”), symbol r B . It is the ratio of the amount of substance of B to the amount of substance of the solvent substance: r B = n B /n S . For a single solute C in a solvent substance (a one-solute solution), r C = x C /(1 − x C ). This follows from the relations n = n C + n S , x C = n C / n, and r C = n C / n S , where the solvent substance S can itself be a mixture. 8.6.3 Molar volume Quantity symbol: V m . SI unit: cubic meter per mole (m 3 /mol). Definition: volume of a substance divided by its amount of substance: V m = V/n. Notes: 1. The word “molar” means “divided by amount of substance.” 26 Guide for the Use of the International System of Units (SI) 27 2. For a mixture, this term is often called “mean molar volume.” 3. The amagat should not be used to express molar volumes or reciprocal molar volumes. (One amagat is the molar volume V m of a real gas at p = 101 325 Pa and T = 273.15 K and is approximately equal to 22.4 × 10 −3 m 3 /mol. The name “amagat” is also given to 1/V m of a real gas at p = 101 325 Pa and T = 273.15 K and in this case is approximately equal to 44.6 mol/m 3 .) 8.6.4 Molar mass Quantity symbol: M. SI unit: kilogram per mole (kg/mol). Definition: mass of a substance divided by its amount of substance: M = m/n. Notes: 1. For a mixture, this term is often called “mean molar mass.” 2. The molar mass of a substance B of definite chemical composition is given by M(B) = M r (B) × 10 −3 kg/mol = M r (B) kg/kmol = M r g/mol, where M r (B) is the relative molecular mass of B (see Sec. 8.4). The molar mass of an atom or nuclide X is M(X) = A r (X) × 10 −3 kg/mol = A r (X) kg/kmol = A r (X) g/mol, where A r (X) is the relative atomic mass of X (see Sec. 8.4). 8.6.5 Concentration of B; amount-of-substance concentration of B Quantity symbol: c B . SI unit: mole per cubic meter (mol/m 3 ). Definition: amount of substance of B divided by the volume of the mixture: c B = n B /V. Notes: 1. This Guide prefers the name “amount-of-substance concentration of B” for this quantity because it is unambiguous. However, in practice, it is often shortened to amount concentration of B, or even simply to concentration of B. Unfortunately, this last form can cause confusion because there are several different “concentrations,” for example, mass concentration of B, ρ B = m B /V; and molecular concentration of B, C B = N B /V, where N B is the number of molecules of B. 2. The term normality and the symbol N should no longer be used because they are obsolete. One should avoid writing, for example, “a 0.5 N solution of H 2 SO 4 ” and write instead “a solution having an amount-of-substance concentration of c [(1/2)H 2 SO 4 ]) = 0.5 mol/dm 3 ” (or 0.5 kmol/m 3 or 0.5 mol/L since 1 mol/dm 3 = 1 kmol/m 3 = 1 mol/L). 3. The term molarity and the symbol M should no longer be used because they, too, are obsolete. One should use instead amount-of-substance concentration of B and such units as mol/dm 3 , kmol/m 3 , or mol/L. (A solution of, for example, 0.1 mol/dm 3 was often called a 0.1 molar solution, denoted 0.1 M solution. The molarity of the solution was said to be 0.1 M .) Download 1.93 Mb. Do'stlaringiz bilan baham: 
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