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Name | Sulfuric Acid 0.5 mol/L (1N) Volumetric Solution |
Formula | H2SO4 |
Molar Mass G Mol | 98.079 |
Molarity | 0.5 mol/L |
Normality | 1N |
Density G Cm3 | 1.137 |
Boiling Point C | 337 |
Melting Point C | 10.31 |
Solubility | Completely miscible in water |
Color | Colorless |
Odor | Odorless |
PH | Highly acidic (≈ 0) |
Uses | N/A |
Storage | Store in a cool, dry, well-ventilated area away from incompatible substances |
FAQ
What is the concentration of the Sulfuric Acid 0.5 mol/L (1N) volumetric solution?
Sulfuric Acid 0.5 mol/L (1N) volumetric solution has a concentration of 0.5 mol per liter. This means that for every liter of solution, there are 0.5 moles of sulfuric acid.
What is the purpose of using Sulfuric Acid 0.5 mol/L (1N) volumetric solution?
Sulfuric Acid 0.5 mol/L (1N) volumetric solution is commonly used in various laboratory applications, such as titrations, pH adjustments, and chemical reactions. It is a versatile chemical reagent that can be utilized for a wide range of scientific experiments and processes.
How should I handle and store Sulfuric Acid 0.5 mol/L (1N) volumetric solution safely?
When handling Sulfuric Acid 0.5 mol/L (1N) volumetric solution, it is important to wear appropriate personal protective equipment, such as gloves, goggles, and a lab coat. The solution should be stored in a cool, dry place away from direct sunlight and incompatible chemicals. It should be kept in a well-ventilated area and away from sources of heat or flame.
Can I dilute the Sulfuric Acid 0.5 mol/L (1N) volumetric solution to obtain a different concentration?
Yes, you can dilute the Sulfuric Acid 0.5 mol/L (1N) volumetric solution to obtain a different concentration. By adding a specific volume of distilled water to a known volume of the solution, you can adjust the concentration to the desired level. It is important to follow proper dilution procedures and safety precautions when working with concentrated acids.
What are some common uses of Sulfuric Acid 0.5 mol/L (1N) volumetric solution in laboratory settings?
Sulfuric Acid 0.5 mol/L (1N) volumetric solution is commonly used in laboratory settings for tasks such as acid-base titrations, cleaning glassware, and preparing other chemical solutions. It can also be used for pH adjustments, catalyst in chemical reactions, and as a reagent in analytical chemistry techniques.
Sulfuric Acid 0.5 mol/L (1N) volumetric solution has a concentration of 0.5 mol per liter. This means that for every liter of solution, there are 0.5 moles of sulfuric acid.
What is the purpose of using Sulfuric Acid 0.5 mol/L (1N) volumetric solution?
Sulfuric Acid 0.5 mol/L (1N) volumetric solution is commonly used in various laboratory applications, such as titrations, pH adjustments, and chemical reactions. It is a versatile chemical reagent that can be utilized for a wide range of scientific experiments and processes.
How should I handle and store Sulfuric Acid 0.5 mol/L (1N) volumetric solution safely?
When handling Sulfuric Acid 0.5 mol/L (1N) volumetric solution, it is important to wear appropriate personal protective equipment, such as gloves, goggles, and a lab coat. The solution should be stored in a cool, dry place away from direct sunlight and incompatible chemicals. It should be kept in a well-ventilated area and away from sources of heat or flame.
Can I dilute the Sulfuric Acid 0.5 mol/L (1N) volumetric solution to obtain a different concentration?
Yes, you can dilute the Sulfuric Acid 0.5 mol/L (1N) volumetric solution to obtain a different concentration. By adding a specific volume of distilled water to a known volume of the solution, you can adjust the concentration to the desired level. It is important to follow proper dilution procedures and safety precautions when working with concentrated acids.
What are some common uses of Sulfuric Acid 0.5 mol/L (1N) volumetric solution in laboratory settings?
Sulfuric Acid 0.5 mol/L (1N) volumetric solution is commonly used in laboratory settings for tasks such as acid-base titrations, cleaning glassware, and preparing other chemical solutions. It can also be used for pH adjustments, catalyst in chemical reactions, and as a reagent in analytical chemistry techniques.