रसायन विज्ञान में, किसी मिश्रण के किसी अवयव का मोल अंश या मोल प्रभाजकहते है (mole fraction या molar fraction ; संकेत : ) निम्नलिखित प्रकार से पारिभाषित है-

जहाँ,

= अवयव के मोलों की संख्या

तथा,

अर्थात सभी अवयवों के अणु-अंशों का योग 1 होता है।

अणु-अंश के गुण

संपादित करें

अणु-अंश का उपयोग प्रायः प्रावस्था आरेख (phase diagram) के निर्माण में किया जाता है। इसके अनेक लाभ हैं-

  • यह ताप पर निर्भर नहीं है। (such as molar concentration) and does not require knowledge of the densities of the phase(s) involved
  • a mixture of known mole fraction can be prepared by weighing off the appropriate masses of the constituents
  • the measure is symmetric: in the mole fractions x=0.1 and x=0.9, the roles of 'solvent' and 'solute' are reversed.
  • In a mixture of ideal gases, the mole fraction can be expressed as the ratio of partial pressure to total pressure of the mixture

मोल अंश से सम्बन्धित अन्य राशियाँ

संपादित करें

The mass fraction   can be calculated using the formula

 

where   is the molar mass of the component   and   is the average molar mass of the mixture.

Replacing the expression of the molar mass:

 

अणु प्रतिशत (Mole percentage)

संपादित करें

Multiplying mole fraction by 100 gives the mole percentage, also referred as amount/amount percent (abbreviated as n/n%).

The conversion to and from mass concentration   is given by:

 

where   is the average molar mass of the mixture.

 

The conversion to molar concentration   is given by:

 

or

 

where   is the average molar mass of the solution, c total molar concentration and   is the density of the solution .

The mole fraction can be calculated from the masses   and molar masses   of the components:

 

Spatial variation and gradient

संपादित करें

In a spatially non-uniform mixture, the mole fraction gradient triggers the phenomenon of diffusion.