Only Zinc
Copper is lower in the reactivity series than iron. This means copper is less reactive than iron, so it is unable to displace iron from iron sulfate solution through a displacement reaction. Only metals higher in the reactivity series can displace metals that are lower.
Copper is less reactive than iron, so it cannot displace iron from its salt solution in a single displacement reaction. Iron is higher in the reactivity series than copper, so iron can displace copper from its salt solution.
Iron is more reactive than copper, so when iron is added to a copper sulfate solution, a single displacement reaction occurs where iron displaces copper from the copper sulfate, forming iron sulfate and copper. This is because iron has a greater ability to attract the sulfate ions compared to copper.
Zinc displace iron. Iron displace copper.
Copper is higher in the reactivity series than iron, so when copper sulfate solution is added to iron, the copper ions in the solution will displace the iron from the iron metal, forming copper metal and iron sulfate. This reaction occurs because metals higher in the reactivity series are more willing to give up electrons and undergo oxidation.
Mercury, Iron or Nickel will not replace copper in a reaction between copper II sulfate and the metals because the metals are below copper in the reactivity level of the periodic table.
Metals higher than copper in the reactivity series (e.g. zinc, iron, magnesium) can reduce copper ions in solution by displacing them in a redox reaction. Copper itself cannot displace copper ions.
Copper is lower in the reactivity series than iron. This means copper is less reactive than iron, so it is unable to displace iron from iron sulfate solution through a displacement reaction. Only metals higher in the reactivity series can displace metals that are lower.
Copper is less reactive than iron, so it cannot displace iron from its salt solution in a single displacement reaction. Iron is higher in the reactivity series than copper, so iron can displace copper from its salt solution.
Iron is more reactive than copper, so when iron is added to a copper sulfate solution, a single displacement reaction occurs where iron displaces copper from the copper sulfate, forming iron sulfate and copper. This is because iron has a greater ability to attract the sulfate ions compared to copper.
Iron can displace copper in a chemical reaction because it is a more reactive metal. When iron is added to a copper sulfate solution, the iron atoms will replace the copper atoms in the solution, forming iron sulfate and causing copper metal to be deposited. This process is known as a displacement reaction.
Zinc displace iron. Iron displace copper.
Copper is less reactive than Iron and hence, cannot displace Iron from any of its solutions. Anyhow, the reverse is possible ie, Iron can displace Copper from it's solution as it is more reactive than Copper.
Copper is higher in the reactivity series than iron, so when copper sulfate solution is added to iron, the copper ions in the solution will displace the iron from the iron metal, forming copper metal and iron sulfate. This reaction occurs because metals higher in the reactivity series are more willing to give up electrons and undergo oxidation.
Copper is less reactive than iron, therefore iron will exist as an aqueous ion and copper will be an elemental metal. See the "reactivity series for metals."
The iron is a more active metal than copper, so the iron atoms in the nail replace the copper atoms in the copper sulphate solution, so it becomes iron sulfate. The copper atoms will start to build on the iron nail, as well.
Iron is a more reactive metal than copper, and so will replace it in a compound. The more reactive a metal is, the more stable it is in a compound, and the less stable it is in its elemental form. So relative to one another, iron is more stable in a compound while copper is more stable as apure element.