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Name | Iodine 0.02365 mol/L (0.0473N) Volumetric Solution |
Concentration | 0.02365 mol/L |
Normality | 0.0473N |
Method | ASTM D 1510 |
Molecular Weight | 253.8 g/mol |
Solvent | Water |
Color | Brownish-red |
Odor | Pungent |
Application | Used in titration for determining the concentration of thiosulfate solutions |
Shelf Life | 2 years |
Storage Conditions | Store in a cool, dry place away from light sources |
FAQ
1. What is the concentration of the Iodine 0.02365 mol/l (0.0473N) volumetric
solution?
The concentration of the Iodine 0.02365 mol/l (0.0473N) volumetric solution refers to the molarity of iodine present in the solution. It is a standardized solution commonly used in titration experiments to determine the concentration of other substances.
2. How is the Iodine 0.02365 mol/l (0.0473N) solution prepared?
The Iodine 0.02365 mol/l (0.0473N) volumetric solution is prepared by dissolving a precise amount of iodine in a solvent, usually water, to achieve the desired molarity. The solution is then standardized using a primary standard solution to ensure its accuracy.
3. What is the significance of using the ASTM D1510 method for the Iodine 0.02365 mol/l (0.0473N) volumetric solution?
The ASTM D1510 method is a widely recognized standard for the determination of iodine in solution. By following this method, the accuracy and precision of the results obtained with the Iodine 0.02365 mol/l (0.0473N) volumetric solution can be ensured, making it suitable for a variety of analytical applications.
4. How should the Iodine 0.02365 mol/l (0.0473N) volumetric solution be stored and handled?
The Iodine 0.02365 mol/l (0.0473N) volumetric solution should be stored in a cool, dry place away from direct sunlight. It should be handled with care to prevent contamination or evaporation of the solution. Proper labeling and documentation of the solution are also recommended for traceability and quality control purposes.
5. In what applications can the Iodine 0.02365 mol/l (0.0473N) solution be used?
The Iodine 0.02365 mol/l (0.0473N) volumetric solution is commonly used in chemical analysis, titrations, and other laboratory experiments where precise iodine concentrations are required. It can be used for the determination of various substances, including reducing agents, inorganic compounds, and organic compounds, making it a versatile tool in analytical chemistry.
The concentration of the Iodine 0.02365 mol/l (0.0473N) volumetric solution refers to the molarity of iodine present in the solution. It is a standardized solution commonly used in titration experiments to determine the concentration of other substances.
2. How is the Iodine 0.02365 mol/l (0.0473N) solution prepared?
The Iodine 0.02365 mol/l (0.0473N) volumetric solution is prepared by dissolving a precise amount of iodine in a solvent, usually water, to achieve the desired molarity. The solution is then standardized using a primary standard solution to ensure its accuracy.
3. What is the significance of using the ASTM D1510 method for the Iodine 0.02365 mol/l (0.0473N) volumetric solution?
The ASTM D1510 method is a widely recognized standard for the determination of iodine in solution. By following this method, the accuracy and precision of the results obtained with the Iodine 0.02365 mol/l (0.0473N) volumetric solution can be ensured, making it suitable for a variety of analytical applications.
4. How should the Iodine 0.02365 mol/l (0.0473N) volumetric solution be stored and handled?
The Iodine 0.02365 mol/l (0.0473N) volumetric solution should be stored in a cool, dry place away from direct sunlight. It should be handled with care to prevent contamination or evaporation of the solution. Proper labeling and documentation of the solution are also recommended for traceability and quality control purposes.
5. In what applications can the Iodine 0.02365 mol/l (0.0473N) solution be used?
The Iodine 0.02365 mol/l (0.0473N) volumetric solution is commonly used in chemical analysis, titrations, and other laboratory experiments where precise iodine concentrations are required. It can be used for the determination of various substances, including reducing agents, inorganic compounds, and organic compounds, making it a versatile tool in analytical chemistry.