<Dl> <Dd> V 1 n 1 = V 2 n 2 (\ displaystyle (\ frac (V_ (1)) (n_ (1))) = (\ frac (V_ (2)) (n_ (2))) \,) </Dd> </Dl> <Dd> V 1 n 1 = V 2 n 2 (\ displaystyle (\ frac (V_ (1)) (n_ (1))) = (\ frac (V_ (2)) (n_ (2))) \,) </Dd> <P> where n is equal to the number of moles of gas (the number of molecules divided by Avogadro's Number). </P> <P> In 1801, John Dalton published the Law of Partial Pressures from his work with ideal gas law relationship: The pressure of a mixture of non reactive gases is equal to the sum of the pressures of all of the constituent gases alone . Mathematically, this can be represented for n species as: </P>

How do molecules move within the solid liquid and gas states