Due to it's electronic structure it is more reactive than silver and so will displace it from its compound.
When copper is added to a silver nitrate solution, a redox reaction occurs where copper displaces silver in the solution to form copper nitrate and elemental silver. This reaction is used in silver plating processes.
If a copper coin is dipped in silver nitrate solution for hours or days, the solution will likely turn blue due to the formation of copper(II) nitrate. This reaction occurs as copper from the coin reacts with the silver nitrate in the solution.
copper is placed above the silver in the ractivity series which indicates that copper is more reactive than silver . when a copper coin is kept immersed in a solution of siler nitrate ,silver from its solution will deposit on copper coin . copper slowly displaces silver from the silver nitrate solution and the colour of solution changes from colourless to blue due to the formation of copper nitrate . the copper coin will disappear and silver will percipate out .
Copper reacts with silver nitrate solution to form silver metal, copper(II) nitrate, and nitric oxide gas. This reaction is a displacement reaction where copper displaces silver from the silver nitrate solution because copper is higher in the activity series than silver.
When a copper rod is immersed in a silver nitrate solution, a redox reaction occurs where copper displaces silver from the solution to form copper nitrate and silver metal. This is due to copper being higher in the reactivity series than silver. As a result, the copper rod will become coated with a layer of silver metal while copper ions from the rod will transfer into the solution.
When copper is added to a silver nitrate solution, a redox reaction occurs where copper displaces silver in the solution to form copper nitrate and elemental silver. This reaction is used in silver plating processes.
If a copper coin is dipped in silver nitrate solution for hours or days, the solution will likely turn blue due to the formation of copper(II) nitrate. This reaction occurs as copper from the coin reacts with the silver nitrate in the solution.
copper is placed above the silver in the ractivity series which indicates that copper is more reactive than silver . when a copper coin is kept immersed in a solution of siler nitrate ,silver from its solution will deposit on copper coin . copper slowly displaces silver from the silver nitrate solution and the colour of solution changes from colourless to blue due to the formation of copper nitrate . the copper coin will disappear and silver will percipate out .
Copper reacts with silver nitrate solution to form silver metal, copper(II) nitrate, and nitric oxide gas. This reaction is a displacement reaction where copper displaces silver from the silver nitrate solution because copper is higher in the activity series than silver.
When a copper rod is immersed in a silver nitrate solution, a redox reaction occurs where copper displaces silver from the solution to form copper nitrate and silver metal. This is due to copper being higher in the reactivity series than silver. As a result, the copper rod will become coated with a layer of silver metal while copper ions from the rod will transfer into the solution.
When copper metal is placed in a solution of silver nitrate, a reddish-brown solid called copper(I) oxide is formed on the surface of the copper. This occurs due to a single displacement reaction where copper displaces silver from the silver nitrate solution.
When a piece of copper is placed in a silver nitrate solution, a displacement reaction occurs where the copper solid displaces the silver ions in the solution, forming copper nitrate and solid silver. This reaction is represented by the equation: Cu(s) + 2AgNO3(aq) -> Cu(NO3)2(aq) + 2Ag(s).
When silver nitrate is mixed with copper, a displacement reaction occurs where the more reactive copper metal displaces the less reactive silver ions in the silver nitrate solution. This results in the formation of solid silver metal and copper nitrate solution. The reaction is represented by the equation: 2AgNO3 + Cu -> 2Ag + Cu(NO3)2.
When you mix silver nitrate with a copper strip, a displacement reaction occurs. The more reactive copper displaces silver from the silver nitrate solution, forming solid silver and copper(II) nitrate solution. This reaction is represented by the equation: Cu(s) + 2AgNO3(aq) → 2Ag(s) + Cu(NO3)2(aq).
When copper reacts with silver nitrate, there is a displacement reaction where the copper displaces silver from the silver nitrate solution. This results in the formation of copper(II) nitrate solution and solid silver. The reaction is a single displacement reaction where copper is more reactive than silver.
No, we cannot stir silver nitrate solution with a copper spoon because , copper is more reactive than silver. Thus,it would displace silver from the silver nitrate solution forming copper nitrate....
One possibility is Cu + AgNO3 => Ag + CuNO3.