|
|
;)
184.49[13838-16-9].
841
:
not less than 1.516 and not more than 1.519.
831:
not less than 1.3020 and not more than 1.3038 at 20
.
921:
not more than 0.14%.
for 2 hours: the weight of the residue does not exceed 2 mg.
221—
Shake 25 mL with 25 mL of water for 5 minutes, and allow the liquids to separate completely. Draw off the water layer, and add to it 1 drop of nitric acid and 5 drops of silver nitrate TS: any turbidity produced is no greater than that produced in a solution containing 0.35 mL of 0.020 N hydrochloric acid.
for 4 hours, to a 100-mL volumetric flask, add about 20 mL of water, and mix to dissolve. Add 1.0 mL of sodium hydroxide solution (1 in 2500), dilute with water to volume, and mix. Each mL of this solution contains 1 mg of fluoride ions. Store in a tightly closed, plastic container.
541), in mV, of the Standard solutions and the Test solution, with a pH meter capable of a minimum reproducibility of ±0.2 mV, equipped with a glass-sleeved calomel-fluoride specific-ion electrode system. [NOTE—When taking measurements, immerse the electrodes in the solution which has been transferred to a 150-mL beaker containing a polytef-coated stirring bar. Allow to stir on a magnetic stirrer having an insulated top until equilibrium is attained (1 to 2 minutes), and record the potential. Rinse and dry the electrodes between measurements, taking care to avoid damaging the crystal of the specific-ion electrode.] Plot the logarithm of the fluoride-ion concentrations, in µg per mL, of the Standard solutions versus potential, in mV. From the measured potential of the Test solution and the standard curve, determine the concentration, in µg per mL, of fluoride ions in the Test solution: not more than 10 µg per mL is found.
467:
meets the requirements.
621) equipped with a thermal conductivity detector. Under typical conditions, the instrument contains a 4-mm × 3-m stainless steel column packed with 20% liquid phase G4 on 60- to 80-mesh S1A, the column is temperature-programmed at about 6 per minute from 60 to 125, and the injection port temperature is maintained at about 200. Dry helium is used as the carrier gas at a flow rate of about 60 mL per minute. Calculate the percentage purity by dividing 100 times the area under the Enflurane peak by the sum of all of the areas in the chromatogram.