Micro-chemical test for ammonia: Difference between revisions
| Line 16: | Line 16: | ||
or | or | ||
put drop of sodium hydroxide solution (NaOH 2M )on a microscope slide and then put one grain of the salt into it. Hold a wetted pH indicator paper directly above the preparation into the liberated vapors, while the salt is still dissolving. | put drop of sodium hydroxide solution (NaOH 2M ) on a microscope slide and then put one grain of the salt into it. Hold a wetted pH indicator paper directly above the preparation into the liberated vapors, while the salt is still dissolving. | ||
'''Indications from the pH-value of the salt solution''' | '''Indications from the pH-value of the salt solution''' | ||
Latest revision as of 20:21, 24 November 2017
Author: Christine Bläuer
back to Micro-chemical testing
For more information on the required equipment and materials see the Micro-chemistry article.
Principle
When dissolving a salt containing ammonium in an alkaline 2M NaOH solution, gaseous ammonia (NH3) is liberated which has a typical smell and will change the color of a previously wetted yellow pH indicator paper to green or blue.
Procedure
Add a drop of 2M sodium hydroxide, i.e., caustic soda, to a drop of the sample solution and immediately hold a wetted pH indicator paper directly above it into the released vapors.
or
put drop of sodium hydroxide solution (NaOH 2M ) on a microscope slide and then put one grain of the salt into it. Hold a wetted pH indicator paper directly above the preparation into the liberated vapors, while the salt is still dissolving.
Indications from the pH-value of the salt solution The pH value of an aqueous solution of nitrammite [NH4,K (NO3)], (also known as gwihabaite) is slightly acidic (circa pH 5). If the sample solution is acidic this is no proof for the presence of ammonium nitrate but it is a first indication.