More reactive than copper.
Iron does not displace sodium from a salt solution because it is not reactive enough. Iron does, however, displace Cu from a copper sulphate solution.
No, zinc will displace copper from copper sulphate but not the other way around.
This is due to something called a displacment reaction, during a displacment reaction one of the particals from one of the substances "swap" with another partical from the solution In the case of zink and copper sulphate solution, the copper and zink 'switch places to produce copper and a solution of zink sulphate. This is how, A + BC = B +AC
The Zinc will displace the copper. It will become Zinc Sulphate. The word equation will be Zinc + Copper Sulphate -----> Copper + Zinc Sulphate. Hope this helps!
This is a simple displacement reaction - the more reactive magnesium displaces the less reactive copper from a solution of its salt. .... magnesium + copper sulphate ---> copper + magnesium sulphate Mg + CuSO4 ----> MgSO4 + Cu the blue colour of the copper sulphate will disappear and the silver coloured magnesium will be replaced by brown-red copper metal. Hope this helps. :)
Iron does not displace sodium from a salt solution because it is not reactive enough. Iron does, however, displace Cu from a copper sulphate solution.
No, zinc will displace copper from copper sulphate but not the other way around.
When a silver rod is placed in a blue copper sulphate solution, there is no visible color change because silver is less reactive than copper. This means that silver does not displace copper from copper sulfate solution during the reaction, so the blue color of the copper sulfate solution remains unchanged.
It is not possible to store copper sulphate solution in iron vessel.since ,iron is more reactive than copper,it displaces copper from any if its solution.the reaction takes place as , Fe(s)+CuSo4(aq)..............>FeSo4(aq)+Cu(s) (Blue color(light green solution)solution)
In the normal conditions, it is not possible as iron is more reactive than copper. However, it is possible in an an electrolytic cell where an opposite electric potential is applied opposite to the normal potential so that the reaction could take in the opposite direction. In this case copper would be able to replace iron from iron sulphate.
To displace silver from a copper sulfate solution, you can add metallic copper to the solution. The more reactive copper will displace the less reactive silver, leading to the formation of copper sulfate and elemental silver. This is based on the principle of displacement reactions in which a more reactive metal displaces a less reactive metal from its compound.
In a displacement reaction between iron and copper sulphate, iron, being more reactive than copper, will displace copper from copper sulphate solution. The chemical equation for this reaction is: Fe + CuSO4 -> FeSO4 + Cu. This reaction results in the formation of iron sulphate and copper metal.
Copper can be released from a copper sulfate solution by electrolysis or by adding a more reactive metal, such as iron or magnesium, which will displace the copper in a single replacement reaction. Another method is to heat the solution to evaporate the water, leaving behind solid copper sulfate which can then be reduced to obtain copper metal.
Copper sulphate crystals form when a hot saturated solution of copper sulphate is cooled down. As the solution cools, the solubility of copper sulphate decreases, causing the excess copper sulphate to come out of the solution and form crystals.
This is due to something called a displacment reaction, during a displacment reaction one of the particals from one of the substances "swap" with another partical from the solution In the case of zink and copper sulphate solution, the copper and zink 'switch places to produce copper and a solution of zink sulphate. This is how, A + BC = B +AC
The Zinc will displace the copper. It will become Zinc Sulphate. The word equation will be Zinc + Copper Sulphate -----> Copper + Zinc Sulphate. Hope this helps!
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.