Fe(s) + Cu2+(aq) --> Fe2+(aq) + Cu(s)
The word equation for the reaction between iron sulfate and copper is: iron sulfate + copper → copper sulfate + iron.
Yes, when iron comes into contact with copper sulfate, a chemical reaction occurs where the iron displaces the copper in the compound, forming iron sulfate and copper. This reaction is known as a displacement reaction.
The balanced chemical equation for the reaction between an iron nail (Fe) and copper sulfate (CuSO4) is: Fe + CuSO4 -> FeSO4 + Cu This reaction involves a single displacement reaction where iron displaces copper from copper sulfate to form iron(II) sulfate and copper metal.
When copper sulfate and iron are mixed, a redox reaction will occur. The iron will displace the copper in the copper sulfate solution, forming iron sulfate and copper metal. This reaction is a classic example of a displacement reaction.
i don't know :P
The word equation for the reaction between iron sulfate and copper is: iron sulfate + copper → copper sulfate + iron.
Yes, when iron comes into contact with copper sulfate, a chemical reaction occurs where the iron displaces the copper in the compound, forming iron sulfate and copper. This reaction is known as a displacement reaction.
Yes, there is a fast reaction when iron is placed in copper sulfate solution. The iron reacts with the copper sulfate to form iron sulfate and copper metal. This results in a displacement reaction where the more reactive iron displaces the less reactive copper from the solution.
The balanced chemical equation for the reaction between an iron nail (Fe) and copper sulfate (CuSO4) is: Fe + CuSO4 -> FeSO4 + Cu This reaction involves a single displacement reaction where iron displaces copper from copper sulfate to form iron(II) sulfate and copper metal.
When copper sulfate and iron are mixed, a redox reaction will occur. The iron will displace the copper in the copper sulfate solution, forming iron sulfate and copper metal. This reaction is a classic example of a displacement reaction.
i don't know :P
When iron is placed in copper sulfate solution, a chemical reaction occurs where the iron displaces the copper in the solution, forming iron sulfate and copper metal. This is known as a displacement reaction.
The reaction between iron and copper sulfate leads to the formation of iron(II) sulfate and elemental copper. As a result, the iron pot develops holes due to the corrosion caused by the chemical reaction between the iron in the pot and the copper sulfate solution. This process is known as galvanic corrosion.
When copper sulfate is added to iron, a chemical reaction takes place where the copper in the copper sulfate replaces the iron to form copper metal and iron sulfate. This reaction can be represented by the equation: CuSO4 + Fe → FeSO4 + Cu.
The reaction between CuSO4 (copper(II) sulfate) and Fe (iron) is a single replacement reaction. The iron will displace the copper in the copper(II) sulfate solution, resulting in the formation of iron(II) sulfate and copper metal. The balanced chemical equation for this reaction is: Fe + CuSO4 -> FeSO4 + Cu. This reaction is also known as a displacement reaction, where a more reactive metal displaces a less reactive metal in a compound.
The key findings from the stoichiometry lab involving the reaction of iron with copper sulfate show that the reaction follows the law of conservation of mass. This means that the amount of iron reacted with copper sulfate is directly proportional to the amount of copper produced. These results contribute to our understanding of the relationship between iron and copper sulfate by demonstrating the stoichiometric ratio between the two substances in the reaction.
Iron is more reactive than copper, so when iron is added to copper sulfate solution, iron displaces copper in the reaction and forms iron sulfate. This process is known as a displacement reaction. This allows copper to be extracted from copper sulfate solution using iron.