black-gray color of the liquid produced by the silver deposition
I don't think so.Because it may have a reaction like this: 3Ag+ + Fe =3Ag + Fe3+. (personal opinion, because the reaction above is just from the theory and I don't know whether the iron vessel will get deactivated like being put in concentrated sulfuric acid)
Fe(s) + 3AgNO3 ==> Fe(NO3)3 + 3Ag(s)
Iron (II) sulfate is the correct name for this compound. The Fe ion has a charge of 2 and so does the sulfate ion, so there is no subscript after them.
One way to separate iron (Fe) from silver (Ag) is to use a chemical reaction. By treating a mixture of the two metals with nitric acid, silver will dissolve as silver nitrate while iron remains unaffected. The solution can then be filtered to separate the dissolved silver from the undissolved iron.
FeSO4 stands for iron (II) sulfate, which is a chemical compound composed of iron, sulfur, and oxygen. It is commonly used in various industrial applications and as a dietary supplement for iron deficiency.
Iron and silver nitrate do not react to produce a single compound. However, a reaction between iron and silver nitrate would result in the displacement of silver from the silver nitrate solution, forming iron nitrate and silver metal. This reaction is a single displacement reaction.
Ferrous sulfate is more reactive than silver nitrate because it contains iron, a transition metal that readily undergoes redox reactions, whereas silver nitrate is a stable compound. Ferrous sulfate can act as a reducing agent in certain reactions, while silver nitrate is commonly used as a reagent in silver-related processes.
When silver nitrate is combined with iron, a displacement reaction occurs where iron displaces silver from the nitrate compound. This reaction forms iron(II) nitrate and silver metal as products. The iron displaces the silver because it is higher in the reactivity series.
No. Iron is a more reactive metal than silver, so the iron will replace the silver in the silver nitrate solution, forming an iron nitrate solution and solid silver. Eventually, the iron container will be gone, its atoms having gone into the iron nitrate solution.
Yes, this is a displacement reaction. Iron will displace silver in the silver nitrate solution to form iron(II) nitrate and silver metal.
When silver nitrate and ferrous sulfate are mixed, a white precipitate of silver sulfate forms due to the double displacement reaction between silver and sulfate ions. The iron ions from ferrous sulfate remain in solution.
When silver nitrate solution is reacted with iron metal, a displacement reaction occurs. The iron displaces the silver from the silver nitrate solution, forming iron(II) nitrate and solid silver. The balanced chemical equation for this reaction is: 2AgNO3 + Fe -> 2Ag + Fe(NO3)2.
Silver nitrate is reactive with iron, leading to the formation of iron nitrate and silver metal. This reaction can cause contamination of the silver nitrate solution and compromise its purity. Additionally, the iron container can become corroded by the solution.
When a nail gets dropped into silver nitrate, a redox reaction occurs where the iron in the nail displaces the silver in the silver nitrate solution. This results in the formation of iron(II) nitrate and silver metal precipitate. Over time, the silver precipitate will coat the iron nail, giving it a silvery appearance.
Silver is slightly more reactive than gold, although they are both very unreactive. Assuming that the gold nitrate exists, because it would be very rare, silver would react with it and displace it. The products formed will be silver nitrate and gold.
It is not recommended to place silver nitrate solution in an iron vessel as the iron may react with the silver nitrate solution and cause contamination of the solution, affecting its properties and potentially forming unwanted byproducts. It is best to use glassware or containers made of compatible materials when working with silver nitrate solutions.
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