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.
Silver is higher in the reactivity series than copper, meaning that it is more reactive. When silver is added to a copper salt solution, the silver ions will not be able to displace the copper ions because copper is lower in the reactivity series. This results in no reaction occurring between silver and copper ions in the solution.
Yes, iron can displace copper from solutions of its salts through a displacement reaction. Iron has a higher reactivity than copper, so it can replace copper in the salt solution, forming iron salts and copper metal.
The copper wire will undergo a redox reaction where it will displace iron from iron sulfate solution, forming copper sulfate and solid iron. The color of the solution will change to blue as copper sulfate forms. Over time, the copper wire will start to dissolve and the iron will start to plate out onto the wire.
Copper chloride salt can be separated from water through the process of evaporation. Heat the solution of copper chloride salt and water until all the water evaporates, leaving behind the solid copper chloride salt.
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.
Silver is higher in the reactivity series than copper, meaning that it is more reactive. When silver is added to a copper salt solution, the silver ions will not be able to displace the copper ions because copper is lower in the reactivity series. This results in no reaction occurring between silver and copper ions in the solution.
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.
Yes, iron can displace copper from solutions of its salts through a displacement reaction. Iron has a higher reactivity than copper, so it can replace copper in the salt solution, forming iron salts and copper metal.
A displacement reaction occurs where the more reactive aluminum displaces copper from the solution, forming aluminum sulfate solution and copper metal. This is because aluminum is higher in the reactivity series than copper.
bcoz CU is situated at a lower poistion in activity series of metal as compared to ZN.
The copper wire will undergo a redox reaction where it will displace iron from iron sulfate solution, forming copper sulfate and solid iron. The color of the solution will change to blue as copper sulfate forms. Over time, the copper wire will start to dissolve and the iron will start to plate out onto the wire.
Iron is more reactive than copper, so when iron is added to a solution of copper salt, iron will displace copper by reducing it from its cationic form (Cu2+) to its elemental form (Cu). This is due to the difference in the reactivity series of metals, with iron being higher in the series than copper.
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. :)
Copper chloride salt can be separated from water through the process of evaporation. Heat the solution of copper chloride salt and water until all the water evaporates, leaving behind the solid copper chloride salt.
Yes, when copper chloride reacts with sulfuric acid, it can produce a solution containing copper sulfate, which is a blue salt. This reaction is often used to prepare copper sulfate solutions for various applications.
One way to separate copper powder and salt is through a process called filtration. You can mix the salt and copper powder with water to dissolve the salt, leaving the copper powder behind. Then, you can use a filter to separate the solid copper powder from the liquid salt solution.