When copper sulfate is stored in an iron vessel, a chemical reaction occurs where the iron reacts with the copper sulfate solution to form iron sulfate and solid copper. This results in the iron vessel corroding and the copper sulfate solution losing its blue color as the copper is solidified. Overall, storing copper sulfate in an iron vessel can result in damage to the vessel and a change in the chemical composition of the solution.
No, storing a 1M copper sulfate solution in a nickel vessel is not recommended. Copper sulfate can react with nickel to form undesirable compounds, contaminating the solution. It is best to store the solution in a container made of a non-reactive material such as glass or polyethylene.
Copper can react with the acidic nature of curd, leading to the formation of toxins that may be harmful for consumption. It's best to store curd in containers made of glass, ceramic, or stainless steel to avoid this chemical reaction.
No, zinc sulfate solution should not be stored in a copper vessel as it can react with the copper, causing the formation of zinc-copper compounds and contaminating the solution. This can lead to degradation of the container and potential contamination of the solution. It is advisable to store zinc sulfate solution in containers made of materials that are chemically compatible, such as glass or certain types of plastic.
It is not recommended to store copper sulfate solution in a silver vessel as silver can react with copper sulfate to form silver sulfate and copper, leading to contamination of the solution. It is better to store copper sulfate solution in a glass or plastic container.
When copper sulfate is stored in an iron vessel, a chemical reaction occurs where the iron reacts with the copper sulfate solution to form iron sulfate and solid copper. This results in the iron vessel corroding and the copper sulfate solution losing its blue color as the copper is solidified. Overall, storing copper sulfate in an iron vessel can result in damage to the vessel and a change in the chemical composition of the solution.
When copper reacts with curd, no new products are formed, as curd does not have any specific chemical reaction with copper. However, the acidic nature of curd may cause the copper to corrode or tarnish, forming a greenish layer of copper carbonate or copper hydroxide on the surface of the copper.
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No, storing a 1M copper sulfate solution in a nickel vessel is not recommended. Copper sulfate can react with nickel to form undesirable compounds, contaminating the solution. It is best to store the solution in a container made of a non-reactive material such as glass or polyethylene.
Copper can react with the acidic nature of curd, leading to the formation of toxins that may be harmful for consumption. It's best to store curd in containers made of glass, ceramic, or stainless steel to avoid this chemical reaction.
No, zinc sulfate solution should not be stored in a copper vessel as it can react with the copper, causing the formation of zinc-copper compounds and contaminating the solution. This can lead to degradation of the container and potential contamination of the solution. It is advisable to store zinc sulfate solution in containers made of materials that are chemically compatible, such as glass or certain types of plastic.
It is not possible to store copper sulphate solution in iron vessel.since ,iron is more reactive than copper,it displaces copper from any if its solution.the reaction takes place as , Fe(s)+CuSo4(aq)..............>FeSo4(aq)+Cu(s) (Blue color(light green solution)solution)
Uranium doesn't react with copper.
It is not recommended to store copper sulfate solution in a silver vessel as silver can react with copper sulfate to form silver sulfate and copper, leading to contamination of the solution. It is better to store copper sulfate solution in a glass or plastic container.
the vessel is made up of copper
Copper can be stored in bottles containing water, such that none of the copper is exposed to air, as this can cause the corrosion of copper.
The green coating on a copper vessel in the rainy season is due to the formation of copper carbonate (patina) when copper reacts with moisture and carbon dioxide in the air. This patina acts as a protective layer, preventing further corrosion of the copper surface.