The sale of this product is suspended.
Product description
49. (2) A sample of a standard aluminum alloy containing 12.50% Si, weighing 0.3000 g, was dissolved in a 500.0 ml flask. To construct the calibration curve, 5.00 were placed in volumetric flasks with a capacity of 100.0 ml; 5.20; 5.40; 5.60; 5.80; 6.00 ml of this solution, added reagents - solutions of ammonium molybdate and iron (II) sulphate and brought to the mark. Optical densities relative to the first solution were measured and obtained:
Vst, ml 5.20 5.40 5.60 5.80 6.00
Aotn 0.105 0.215 0.330 0.440 0.550
A sample of the analyzed alloy weighing 0.2500 g was dissolved in a flask with a capacity of 500.0 ml. A sample of 5.00 ml was placed in a 100.0 ml volumetric flask, reagents were added and the relative density was measured, as in the construction of the calibration curve.
Calculate the mass fraction (%) of silicon in the samples according to the following data:
2) Aot.x = 0.360
Vst, ml 5.20 5.40 5.60 5.80 6.00
Aotn 0.105 0.215 0.330 0.440 0.550
A sample of the analyzed alloy weighing 0.2500 g was dissolved in a flask with a capacity of 500.0 ml. A sample of 5.00 ml was placed in a 100.0 ml volumetric flask, reagents were added and the relative density was measured, as in the construction of the calibration curve.
Calculate the mass fraction (%) of silicon in the samples according to the following data:
2) Aot.x = 0.360
Main features
- Content type File
- Content description 31,01 kB
- Added to the site 25.04.2018
Additional information
If you do not open the file - install the RAR archiver. Inside the archive you will find a solution in Word format.Problems in optics and from the collection of problems and problems in analytical chemistry, ed. Vasilyeva V.P.
Reviews
No reviews yet
The sale of this product is suspended.
ученьеСвет
Blocked
ученьеСвет
Blocked