An electrolytic cell
An electrolytic cell
AgNO3
An electrolytic cell
Silver is a not magnetic metal - the most highly magnetic metal is iron - so no unless the cores of the coins are iron
An electrolytic cell
An electrolytic cell
agno3
An electrolytic cell
An electrolytic cell
To electroplate silver Ag on iron Fe, you would need a silver nitrate solution as the source of silver ions (Ag+), and an iron (II) sulfate solution as the electrolyte to facilitate the exchange of ions during the electroplating process. You would also need a conducting material for the anode and cathode, along with an external power source to drive the electroplating reaction.
AgNO3
Iron and silver nitrate do not react to produce a single compound. However, a reaction between iron and silver nitrate would result in the displacement of silver from the silver nitrate solution, forming iron nitrate and silver metal. This reaction is a single displacement reaction.
To electroplate an iron nail with a copper rod, set up an electrolytic cell with the iron nail as the cathode and the copper rod as the anode. Place them in a copper sulfate solution and pass a current through the cell. This will cause copper ions to be reduced at the iron nail, resulting in copper plating on the surface of the nail.
Metals that can be electroplated with copper include nickel, iron, zinc, and brass. Copper electroplating is commonly used to enhance the appearance and protect the surface of these metals.
Iron can be separated with a magnet.
You can not plate silver with iron, so no. (you can cover silver inside iron, but that would be just ridiculous, unless you want to hide the silver) But if you plate iron with silver, then you can lift the silvery object with magnet. (because the magnet sticks to the iron) But silver, whatever state it is in (wire, plate, necklace) does not stick to a magnet.