Copper, silver, and gold are three safe examples.
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.
In a displacement reaction, a more reactive metal can displace a less reactive metal from its compound. For example, iron can displace copper in a solution of copper sulfate to form iron sulfate and copper. So yes, metals can swap with another in a displacement reaction.
When lead is added to copper sulfate solution, a displacement reaction occurs where lead displaces copper from the solution to form lead sulfate and copper metal. This reaction is driven by the relative reactivity of the metals, with lead being more reactive than copper. The solid lead sulfate formed can be observed as a precipitate in the solution.
A more reactive metal, such as zinc or magnesium, can replace aluminum in a solution of an aluminum compound through a single displacement reaction due to the reactivity series. For example, if zinc is added to a solution of aluminum chloride, zinc will replace aluminum in the compound, forming zinc chloride and aluminum metal.
Sounds like copper (II) sulfate (ie cupric sulfate or CuSO4)
It depends on the metal in the green sulphate solution.
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.
Nothing will happen. Displacement reaction only happens when the element is more reactive than the salt solution. An example will be the otherwise. If you put aluminum metal into a solution of Copper (II) Sulfate. The aluminum metal will displace copper metal and you will have a solution of Aluminum Sulfate and copper metal. As long the element you put into the salt solution is more reactive than the cation of the solution, it will displace the metal.
When cupric sulfate and Fe metal react, Fe displaces Cu from the cupric sulfate solution, forming ferrous sulfate and copper metal. The reaction produces a reddish-brown precipitate of copper.
When copper sulfate (CuSO4) dissolves in water, it dissociates into copper ions (Cu2+) and sulfate ions (SO4 2-). The copper ions are then free to move within the solution. To release solid copper metal from the copper sulfate solution, a displacement reaction can be carried out using a more reactive metal such as zinc. The zinc displaces the copper in the solution, resulting in solid copper metal and zinc sulfate solution.
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.
When iron is added to a solution of copper sulfate, a displacement reaction occurs where the iron displaces copper from the copper sulfate solution. This results in the formation of iron sulfate and copper metal. The iron gradually dissolves in the solution, while the copper metal precipitates out.
They do not react.
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.
No, a less active metal cannot replace a more active metal in a chemical reaction. In a single displacement reaction, a more active metal will displace a less active metal from its salt solution, but the reverse is not possible.
When aluminum is dipped into copper sulfate solution, a single displacement reaction occurs. The aluminum displaces copper in the solution, forming aluminum sulfate and copper metal. This reaction is spontaneous and the copper metal will begin to precipitate out of the solution.
When nickel is put in a copper (II) sulfate solution, a displacement reaction occurs where the nickel replaces the copper in the solution. This results in the formation of nickel sulfate and copper metal deposits on the surface of the nickel.