22 CHEMISTRY AND TECHNOLOGY OF EXPLOSIVESwhich takes place together with the ordinary ionization:
HNO 3 + H 2 O <-> H 3 O+ + NO 3 - (35)Increase in concentration involves the formation of N 2 O 5 , consequently the
concentration of NO 2 + ions decreases the equilibrium of the reactionNO 3 - + NO 2 + <-> N 2 O 5 (24)being shifted to the right (compare the reaction on p. 19).
The maximum absorption band at 5% water corresponds to the shifting of
the equilibrium to the left, when more NO 2+
is formed.
In view of the practical application of solutions of ammonium nitrate in nitric
acid in the Koffler-Bachman process for the manufacture of Cyclonite (Vol. III.)FIG. 8. Ultra-violet absorption spectra of nitric acid-ammonium
nitrate solutions (R. N. Jones and Thorn [58a]).the investigations of these solutions by R. N. Jones and Thorn [58a] are important.
They examined solutions containing up to 54 g of ammonium nitrate in 100 g of
solution. The results are recorded in Fig. 8. Small additions of ammonium nitrate
cause a decrease in the intensity of the absorption maximum near 262.5 mμ. Fur-
ther addition of ammonium nitrate then causes the intensity of absorption to in-
crease, and it falls again at a higher concentration. The considerable bathochromic
shift of the absorption maximum in a mixture containing 54% of NH 4 NO 3 is
probably caused partly by the additive effect of the nitrate ion absorption maximum
at 301.5 mμ contributed by the ion NO 3 - of the added salt.
Raman spectrum. Extensive Raman spectrum studies have played a special
role in the elucidation of the structure of nitric acid. They have thrown a good