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Name | Copper(II) Sulfate 0.1 mol/l (0.1M) Volumetric Solution |
Formula | CuSO4 |
Molar Mass | 159.609 g/mol |
Appearance | Blue solid |
Density | 3.60 g/cm^3 |
Solubility In Water | 31.6 g/100 ml (20°C) |
PH | 3 (0.1 M solution) |
Boiling Point | 653°C |
Melting Point | 110°C |
Uses | As a fungicide, herbicide, and pesticide in agriculture; in electrolyte for batteries; as a reagent in laboratory experiments |
Hazards | Toxic if ingested; may cause skin and eye irritation; harmful if inhaled |
Storage | Store in a cool, dry, well-ventilated area away from incompatible substances |
FAQ
What is Copper(II) Sulfate 0.1 mol/L (0.1M) volumetric solution?
Copper(II) sulfate 0.1 mol/L solution is a standardized solution with a concentration of 0.1 mol/L or 0.1M. It is commonly used in laboratory settings for various analytical and research purposes due to its stability and accuracy.
What are the applications of Copper(II) Sulfate 0.1 mol/L volumetric solution?
Copper(II) sulfate solution is used in various chemical reactions, electroplating processes, and as a reagent in laboratory experiments. It is also used as a fungicide in agriculture and horticulture to control fungal diseases on crops and plants.
How is Copper(II) Sulfate 0.1 mol/L volumetric solution prepared?
Copper(II) sulfate 0.1 mol/L solution is prepared by dissolving a specific amount of copper(II) sulfate pentahydrate (CuSO4·5H2O) in distilled water and adjusting the volume to achieve the desired concentration of 0.1 mol/L. The solution is then standardized using a primary standard to ensure its accuracy.
What are the storage and handling precautions for Copper(II) Sulfate 0.1 mol/L volumetric solution?
Copper(II) sulfate solution should be stored in a cool, dry place away from direct sunlight and heat sources to prevent decomposition. It should be handled with care using appropriate personal protective equipment, as it can cause skin and eye irritation. Proper labeling and storage containers should be used to avoid accidental ingestion or spillage.
Can Copper(II) Sulfate 0.1 mol/L volumetric solution be used in educational settings?
Yes, Copper(II) sulfate 0.1 mol/L solution is commonly used in educational settings for various experiments and demonstrations in chemistry classes. It can be used to demonstrate chemical reactions, precipitation reactions, and redox reactions to students to enhance their understanding of chemical principles.
Copper(II) sulfate 0.1 mol/L solution is a standardized solution with a concentration of 0.1 mol/L or 0.1M. It is commonly used in laboratory settings for various analytical and research purposes due to its stability and accuracy.
What are the applications of Copper(II) Sulfate 0.1 mol/L volumetric solution?
Copper(II) sulfate solution is used in various chemical reactions, electroplating processes, and as a reagent in laboratory experiments. It is also used as a fungicide in agriculture and horticulture to control fungal diseases on crops and plants.
How is Copper(II) Sulfate 0.1 mol/L volumetric solution prepared?
Copper(II) sulfate 0.1 mol/L solution is prepared by dissolving a specific amount of copper(II) sulfate pentahydrate (CuSO4·5H2O) in distilled water and adjusting the volume to achieve the desired concentration of 0.1 mol/L. The solution is then standardized using a primary standard to ensure its accuracy.
What are the storage and handling precautions for Copper(II) Sulfate 0.1 mol/L volumetric solution?
Copper(II) sulfate solution should be stored in a cool, dry place away from direct sunlight and heat sources to prevent decomposition. It should be handled with care using appropriate personal protective equipment, as it can cause skin and eye irritation. Proper labeling and storage containers should be used to avoid accidental ingestion or spillage.
Can Copper(II) Sulfate 0.1 mol/L volumetric solution be used in educational settings?
Yes, Copper(II) sulfate 0.1 mol/L solution is commonly used in educational settings for various experiments and demonstrations in chemistry classes. It can be used to demonstrate chemical reactions, precipitation reactions, and redox reactions to students to enhance their understanding of chemical principles.