The degree of dissociation (αα\alpha) of compounds, i.e. the amount to which the substance dissociates, can be calculated using the density of vapour measurement. The fraction of the total number of molecules or moles that have dissociated can be characterised as the degree of dissociation of a vapour. Unless there is a change in the number of molecules due to dissociation, thermal dissociation is not followed by a change in density or volume. Here, we will look into the general discussion about the definition as well as the formulas related to the degree of dissociation, the factors affecting it and the relationship between vapour density and degree of dissociation.
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The degree of dissociation (αα\alpha) of compounds, i.e. the amount to which the substance dissociates, can be calculated using the density of vapour measurement. The fraction of the total number of molecules or moles that have dissociated can be characterised as the degree of dissociation of a vapour. Unless there is a change in the number of molecules due to dissociation, thermal dissociation is not followed by a change in density or volume. Here, we will look into the general discussion about the definition as well as the formulas related to the degree of dissociation, the factors affecting it and the relationship between vapour density and degree of dissociation.
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The degree of dissociation (αα\alpha) of compounds, i.e. the amount to which the substance dissociates, can be calculated using the density of vapour measurement. The fraction of the total number of molecules or moles that have dissociated can be characterised as the degree of dissociation of a vapour. Unless there is a change in the number of molecules due to dissociation, thermal dissociation is not followed by a change in density or volume. Here, we will look into the general discussion about the definition as well as the formulas related to the degree of dissociation, the factors affecting it and the relationship between vapour density and degree of dissociation.
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The degree of dissociation (αα\alpha) of compounds, i.e. the amount to which the substance dissociates, can be calculated using the density of vapour measurement. The fraction of the total number of molecules or moles that have dissociated can be characterised as the degree of dissociation of a vapour. Unless there is a change in the number of molecules due to dissociation, thermal dissociation is not followed by a change in density or volume. Here, we will look into the general discussion about the definition as well as the formulas related to the degree of dissociation, the factors affecting it and the relationship between vapour density and degree of dissociation.
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☞[tex] \red{ \huge{ \colorbox{aqua}{जय श्री राम }}}[/tex]