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Product Name | Mercury(II) Nitrate 0.05 mol/L (0.1N) Volumetric Solution |
Chemical Formula | Hg(NO3)2 |
Molar Mass | 324.61 g/mol |
Concentration | 0.05 mol/L |
Normality | 0.1N |
Appearance | Colorless to white crystalline solid |
Solubility | Soluble in water |
Density | 4.30 g/cm3 |
Boiling Point | 390°C |
Melting Point | 79°C |
Storage Conditions | Store in a cool, dry, well-ventilated area |
Hazards | May be harmful if swallowed, causes skin and eye irritation |
Uses | Laboratory reagent for volumetric analysis |
Preparation | Dissolve the appropriate amount of Mercury(II) Nitrate in distilled water to make the desired concentration |
Shelf Life | 1-2 years when stored properly |
Safety Precautions | Wear gloves, goggles, and lab coat when handling |
Manufacturer | Various chemical suppliers |
Alternative Names | Mercury dinitrate, Mercuric nitrate |
UN Number | 1627 |
FAQ
What is Mercury(II) Nitrate 0.05 mol/L (0.1N) volumetric solution used for?
Mercury(II) Nitrate 0.05 mol/L (0.1N) volumetric solution is commonly used in laboratory settings for various analytical and experimental purposes. It is often utilized in titrations, chemical reactions, and as a reagent in organic synthesis.
How is Mercury(II) Nitrate solution prepared and stored?
To prepare Mercury(II) Nitrate 0.05 mol/L (0.1N) volumetric solution, the appropriate amount of Mercury(II) Nitrate should be dissolved in a specified volume of water to achieve the desired concentration. It is important to store the solution in a tightly sealed container away from light and heat to prevent degradation.
What safety precautions should be taken when handling Mercury(II) Nitrate solution?
Mercury(II) Nitrate is a toxic compound and should be handled with extreme caution. Always wear appropriate personal protective equipment such as gloves, goggles, and lab coat when working with the solution. Additionally, ensure proper ventilation to avoid inhaling the fumes.
Can Mercury(II) Nitrate solution be used in conjunction with other chemicals?
Mercury(II) Nitrate solution should not be mixed with incompatible chemicals as it may result in hazardous reactions. Always refer to the chemical compatibility chart and safety data sheet for guidance when working with Mercury(II) Nitrate solution and other substances.
What are some common applications of Mercury(II) Nitrate solution in laboratory experiments?
Mercury(II) Nitrate solution is commonly used in qualitative and quantitative analysis, as well as in the synthesis of various organic compounds. It can also be employed as a catalyst in certain reactions due to its unique chemical properties.
Mercury(II) Nitrate 0.05 mol/L (0.1N) volumetric solution is commonly used in laboratory settings for various analytical and experimental purposes. It is often utilized in titrations, chemical reactions, and as a reagent in organic synthesis.
How is Mercury(II) Nitrate solution prepared and stored?
To prepare Mercury(II) Nitrate 0.05 mol/L (0.1N) volumetric solution, the appropriate amount of Mercury(II) Nitrate should be dissolved in a specified volume of water to achieve the desired concentration. It is important to store the solution in a tightly sealed container away from light and heat to prevent degradation.
What safety precautions should be taken when handling Mercury(II) Nitrate solution?
Mercury(II) Nitrate is a toxic compound and should be handled with extreme caution. Always wear appropriate personal protective equipment such as gloves, goggles, and lab coat when working with the solution. Additionally, ensure proper ventilation to avoid inhaling the fumes.
Can Mercury(II) Nitrate solution be used in conjunction with other chemicals?
Mercury(II) Nitrate solution should not be mixed with incompatible chemicals as it may result in hazardous reactions. Always refer to the chemical compatibility chart and safety data sheet for guidance when working with Mercury(II) Nitrate solution and other substances.
What are some common applications of Mercury(II) Nitrate solution in laboratory experiments?
Mercury(II) Nitrate solution is commonly used in qualitative and quantitative analysis, as well as in the synthesis of various organic compounds. It can also be employed as a catalyst in certain reactions due to its unique chemical properties.