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Name | Oxalic Acid 0.5M (1N) Volumetric Solution |
Concentration | 0.5 mol/L |
Equivalent Concentration | 1N |
Molecular Formula | C2H2O4 |
Molar Mass | 90.03 g/mol |
Appearance | Colorless liquid |
PH | Approximately 1.25 |
Boiling Point | 365 °C |
Melting Point | 101-102 °C |
Solubility | Miscible in water |
Storage Conditions | Store in a cool, dry place |
Hazards | Corrosive, irritant |
FAQ
What is Oxalic Acid 0.5 mol/L (1N) volumetric solution used for?
Oxalic Acid 0.5 mol/L (1N) volumetric solution is commonly used in laboratories for various applications such as titrations, pH adjustments, and as a reducing agent in chemical reactions. It is a versatile solution that can be used in multiple scientific experiments and analyses.
How is Oxalic Acid 0.5 mol/L (1N) volumetric solution prepared?
To prepare Oxalic Acid 0.5 mol/L (1N) volumetric solution, accurately weigh the required amount of oxalic acid dihydrate and dissolve it in distilled water. Adjust the volume to the desired concentration and make sure to mix well to ensure homogeneity. It is important to follow proper lab protocols and safety measures during the preparation process.
What are the precautions to be taken while handling Oxalic Acid 0.5 mol/L (1N) volumetric solution?
Oxalic Acid is a toxic substance and should be handled with caution. Always wear appropriate personal protective equipment such as gloves, goggles, and lab coat when working with the solution. Avoid inhalation or ingestion of the solution and make sure to work in a well-ventilated area. In case of accidental exposure, seek medical attention immediately.
Can Oxalic Acid 0.5 mol/L (1N) volumetric solution be stored for long periods?
Oxalic Acid solution should be stored in a cool, dry place away from direct sunlight and heat sources. It is recommended to use the solution within a short period of time once prepared to ensure its stability and accuracy. Regularly check for any signs of contamination or degradation, and discard if necessary.
What are some common experiments where Oxalic Acid 0.5 mol/L (1N) volumetric solution is used?
Oxalic Acid solution is commonly used in titrations to determine the concentration of base solutions. It can also be used to standardize solutions, adjust pH levels, and as a reducing agent in various chemical reactions. Its versatility makes it a valuable reagent in the laboratory for a wide range of scientific experiments and analyses.
Oxalic Acid 0.5 mol/L (1N) volumetric solution is commonly used in laboratories for various applications such as titrations, pH adjustments, and as a reducing agent in chemical reactions. It is a versatile solution that can be used in multiple scientific experiments and analyses.
How is Oxalic Acid 0.5 mol/L (1N) volumetric solution prepared?
To prepare Oxalic Acid 0.5 mol/L (1N) volumetric solution, accurately weigh the required amount of oxalic acid dihydrate and dissolve it in distilled water. Adjust the volume to the desired concentration and make sure to mix well to ensure homogeneity. It is important to follow proper lab protocols and safety measures during the preparation process.
What are the precautions to be taken while handling Oxalic Acid 0.5 mol/L (1N) volumetric solution?
Oxalic Acid is a toxic substance and should be handled with caution. Always wear appropriate personal protective equipment such as gloves, goggles, and lab coat when working with the solution. Avoid inhalation or ingestion of the solution and make sure to work in a well-ventilated area. In case of accidental exposure, seek medical attention immediately.
Can Oxalic Acid 0.5 mol/L (1N) volumetric solution be stored for long periods?
Oxalic Acid solution should be stored in a cool, dry place away from direct sunlight and heat sources. It is recommended to use the solution within a short period of time once prepared to ensure its stability and accuracy. Regularly check for any signs of contamination or degradation, and discard if necessary.
What are some common experiments where Oxalic Acid 0.5 mol/L (1N) volumetric solution is used?
Oxalic Acid solution is commonly used in titrations to determine the concentration of base solutions. It can also be used to standardize solutions, adjust pH levels, and as a reducing agent in various chemical reactions. Its versatility makes it a valuable reagent in the laboratory for a wide range of scientific experiments and analyses.