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Name | Mercury(II) Sulfate (Reag. USP) for analysis, ACS |
Formula | HgSO4 |
Molecular Weight | 296.65 g/mol |
Cas Number | 7783-35-9 |
Appearance | White crystalline powder |
Purity | Min. 99.0% |
Melting Point | 273°C |
Boiling Point | 550°C |
Solubility | Soluble in water |
Storage Condition | Store in a cool, dry place |
Hazards | Harmful if swallowed. Causes skin irritation. May cause respiratory irritation. |
Applications | Used in analytical chemistry for testing sulfates in a sample, as a reagent in chemical synthesis |
FAQ
What is Mercury(II) Sulfate (Reag. USP) and its primary usage?
Mercury(II) Sulfate (Reag. USP) is a chemical compound used primarily for analysis in the laboratory setting. It is commonly employed in various analytical procedures in industries such as pharmaceutical, environmental, and research.
How is Mercury(II) Sulfate (Reag. USP) used in analytical procedures?
Mercury(II) Sulfate (Reag. USP) is used as a reagent in analytical chemistry for the determination of certain substances. It is often utilized for precipitation reactions, redox titrations, and other analytical techniques to quantify the presence of specific compounds in a sample.
What are the key properties of Mercury(II) Sulfate (Reag. USP) that make it suitable for analytical purposes?
Mercury(II) Sulfate (Reag. USP) possesses unique properties that make it an ideal reagent for analytical purposes. It is soluble in water, allowing for easy preparation of solutions. Additionally, it exhibits high purity, ensuring accurate and reliable results in analytical procedures.
Are there any safety considerations to keep in mind when working with Mercury(II) Sulfate (Reag. USP)?
When handling Mercury(II) Sulfate (Reag. USP), it is essential to observe proper safety precautions due to its toxic nature. It is imperative to use appropriate personal protective equipment, such as gloves and goggles, and work in a well-ventilated area to minimize exposure to the compound.
What are the storage and handling recommendations for Mercury(II) Sulfate (Reag. USP) to ensure its stability and effectiveness?
Mercury(II) Sulfate (Reag. USP) should be stored in a tightly sealed container away from direct sunlight and heat sources. It is crucial to keep the compound dry to prevent contamination or decomposition. When handling the substance, it is advisable to use appropriate tools and equipment to avoid spills and minimize risks associated with its toxicity.
Mercury(II) Sulfate (Reag. USP) is a chemical compound used primarily for analysis in the laboratory setting. It is commonly employed in various analytical procedures in industries such as pharmaceutical, environmental, and research.
How is Mercury(II) Sulfate (Reag. USP) used in analytical procedures?
Mercury(II) Sulfate (Reag. USP) is used as a reagent in analytical chemistry for the determination of certain substances. It is often utilized for precipitation reactions, redox titrations, and other analytical techniques to quantify the presence of specific compounds in a sample.
What are the key properties of Mercury(II) Sulfate (Reag. USP) that make it suitable for analytical purposes?
Mercury(II) Sulfate (Reag. USP) possesses unique properties that make it an ideal reagent for analytical purposes. It is soluble in water, allowing for easy preparation of solutions. Additionally, it exhibits high purity, ensuring accurate and reliable results in analytical procedures.
Are there any safety considerations to keep in mind when working with Mercury(II) Sulfate (Reag. USP)?
When handling Mercury(II) Sulfate (Reag. USP), it is essential to observe proper safety precautions due to its toxic nature. It is imperative to use appropriate personal protective equipment, such as gloves and goggles, and work in a well-ventilated area to minimize exposure to the compound.
What are the storage and handling recommendations for Mercury(II) Sulfate (Reag. USP) to ensure its stability and effectiveness?
Mercury(II) Sulfate (Reag. USP) should be stored in a tightly sealed container away from direct sunlight and heat sources. It is crucial to keep the compound dry to prevent contamination or decomposition. When handling the substance, it is advisable to use appropriate tools and equipment to avoid spills and minimize risks associated with its toxicity.