Sulphate is not a substance that can be labeled as reactive in comparison to iron, as they are fundamentally different in nature. Sulphate is an anion, while iron is a metal. The reactivity of iron depends on its oxidation state and the reaction conditions it is exposed to.
When iron nails are placed in copper sulphate solution, a displacement reaction occurs where iron replaces copper in the solution to form iron sulphate and copper metal. The word equations for the reactions involved are: Iron (s) + Copper sulphate (aq) -> Iron sulphate (aq) + Copper (s)
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.
When an iron nail is dipped in copper sulphate solution, a displacement reaction occurs where the iron displaces copper from the copper sulphate solution. This results in the formation of copper metal on the surface of the iron nail, causing the nail to become coated with a layer of copper.
When an iron nail is immersed in copper sulfate solution, a redox reaction occurs where iron displaces copper from the solution, forming iron(II) sulfate and depositing copper on the surface of the nail. This process is known as a displacement reaction and is a common way to demonstrate metal reactivity and the activity series of metals.
Iron is needed to produce iron sulphate.
yes
Iron is a magnet so it could be used for separating bits of metal from crushed up rock? True for iron, and separating bits of iron. But iron sulphate is not magnetic.
Sulphate is not a substance that can be labeled as reactive in comparison to iron, as they are fundamentally different in nature. Sulphate is an anion, while iron is a metal. The reactivity of iron depends on its oxidation state and the reaction conditions it is exposed to.
Nothing. Gold is a noble metal- it is not displaced by iron.
The product of iron and copper (II) sulfate is iron (II) sulfate and copper. This reaction is a single displacement reaction where the more reactive metal (iron) displaces the less reactive metal (copper) from the compound.
When iron nails are placed in copper sulphate solution, a displacement reaction occurs where iron replaces copper in the solution to form iron sulphate and copper metal. The word equations for the reactions involved are: Iron (s) + Copper sulphate (aq) -> Iron sulphate (aq) + Copper (s)
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.
When an iron nail is dipped in copper sulphate solution, a displacement reaction occurs where the iron displaces copper from the copper sulphate solution. This results in the formation of copper metal on the surface of the iron nail, causing the nail to become coated with a layer of copper.
iron and sulphate 2
copper sulphate+iron+water
When an iron nail is immersed in copper sulfate solution, a redox reaction occurs where iron displaces copper from the solution, forming iron(II) sulfate and depositing copper on the surface of the nail. This process is known as a displacement reaction and is a common way to demonstrate metal reactivity and the activity series of metals.