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Product Name | Sodium Hydroxide 0.2 mol/L (0.2N) Standard Volumetric Solution |
Concentration | 0.2 mol/L |
Equivalent Weight | 40.00 g/mol |
Appearance | Clear colorless liquid |
Chemical Formula | NaOH |
CAS Number | 1310-73-2 |
Molar Mass | 40.00 g/mol |
Density | 1.0 g/mL |
Solubility | Soluble in water |
Boiling Point | 1,388 °C |
Melting Point | 318 °C |
FAQ
What is Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution used for?
Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution is commonly used in laboratories for various applications including titrations, pH adjustments, chemical analysis, and industrial processes.
How is Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution prepared?
Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution is prepared by dissolving a specific amount of sodium hydroxide (NaOH) in a known volume of water to achieve a concentration of 0.2 mol/L. The concentration can be confirmed by titrating against a standardized solution of an acid.
What are the precautions to be taken while handling Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution?
When handling Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution, it is important to wear appropriate personal protective equipment such as gloves, goggles, and lab coat to prevent skin and eye contact. Avoid inhaling fumes by working in a well-ventilated area and always handle the solution with care to prevent spills.
What is the shelf life of Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution?
The shelf life of Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution can vary depending on storage conditions, but it is generally recommended to use the solution within six months to one year of preparation. It is essential to store the solution in a tightly sealed container away from light and heat to maintain its stability.
What are the advantages of using Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution in laboratory applications?
Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution offers several advantages in laboratory applications, including accurate and precise results in titrations, pH adjustments, and chemical analysis. Additionally, its standardized concentration allows for easy and reproducible measurements, making it a reliable choice for various experiments and processes.
Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution is commonly used in laboratories for various applications including titrations, pH adjustments, chemical analysis, and industrial processes.
How is Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution prepared?
Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution is prepared by dissolving a specific amount of sodium hydroxide (NaOH) in a known volume of water to achieve a concentration of 0.2 mol/L. The concentration can be confirmed by titrating against a standardized solution of an acid.
What are the precautions to be taken while handling Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution?
When handling Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution, it is important to wear appropriate personal protective equipment such as gloves, goggles, and lab coat to prevent skin and eye contact. Avoid inhaling fumes by working in a well-ventilated area and always handle the solution with care to prevent spills.
What is the shelf life of Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution?
The shelf life of Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution can vary depending on storage conditions, but it is generally recommended to use the solution within six months to one year of preparation. It is essential to store the solution in a tightly sealed container away from light and heat to maintain its stability.
What are the advantages of using Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution in laboratory applications?
Sodium Hydroxide 0.2 mol/L (0.2N) standard volumetric solution offers several advantages in laboratory applications, including accurate and precise results in titrations, pH adjustments, and chemical analysis. Additionally, its standardized concentration allows for easy and reproducible measurements, making it a reliable choice for various experiments and processes.