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.
Yes. Iron is more reactive than copper, so will displace it from a compound. If you put a piece of iron into copper sulfate solution, it will be soon coated with a deposit of orangey red copper.CuSO4 + Fe --> FeSO4 + Cu
IF THE COPPER SULFATE DISSOLVES IN WATER, HAS A BLUE COLOR. WHEN STEEL WOOL IS MIXED WITH COPPER SULFATE,, THE STEEL WOOL DISSAPEARS, A BROWNISH SOLID FORMS, AND THE COLOR OF THE SOLUTION CHANGES FROM BLUE TO GREEN.Copper is produced.
In this case, copper ions from the copper sulfate solution will react with the iron in the nail through a redox reaction. The iron will gradually dissolve into the solution, while copper ions will deposit on the surface of the nail, forming a layer of copper on the nail.
When copper wire is dipped in ferrous sulfate solution, a displacement reaction occurs where copper displaces iron from ferrous sulfate, forming copper sulfate and iron. As a result, the copper wire will become coated with a reddish-brown deposit of iron.
I think basically what happens is a single replacement (or maybe double?) but copper will be drawn from the copper sulfate and form on the outside of the steel wool. If it's a double replacement then something in the steel wool will replace the copper and you'll have a new sulfate solution. I remember doing this lab in chemistry a number of years back, so sorry that I can't remember all the details. T_T
The reaction of aluminum with copper II sulfate solution is a redox reaction. Aluminum displaces copper from the copper II ion in the copper sulfate solution, forming aluminum sulfate and copper metal.
When aluminum is mixed with copper sulfate, the aluminum reacts with the copper ions in the copper sulfate solution and displaces the copper, forming aluminum sulfate and copper metal. Magnesium does not play a direct role in this reaction.
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 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 solute in a copper sulfate solution is copper sulfate (CuSO4).
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.
When copper sulfate is added to water, it dissociates into copper ions and sulfate ions. The copper ions give the solution a blue color, while the sulfate ions do not impact the color. The solution becomes a blue color due to the presence of copper ions.
When you add copper sulfate to a urea solution, a chemical reaction occurs that results in the formation of a complex between the copper ions in copper sulfate and urea molecules. This complexation reaction can lead to the precipitation of copper hydroxide if the pH of the solution is high.
In this reaction, aluminum is the limiting reagent because it will be fully consumed before all the copper sulfate is used up. The aluminum will react with the copper sulfate to form aluminum sulfate and copper metal. Once all the aluminum has reacted, the reaction will stop.
a copper sulfate solution it becomes copper (II) sulfate pentahydrate
When aluminum is added to copper sulfate, a displacement reaction occurs where aluminum displaces copper from the compound. This results in the formation of aluminum sulfate and copper metal. The reaction is exothermic and releases heat.
Aluminum metal can react with a solution of copper(II) sulfate (CuSO4) to displace copper metal and form aluminum sulfate. This is a single displacement reaction where aluminum replaces copper in the compound.