Copper, along with the other members of group 11A (gold and silver included) are unreactive metals because of their electron configuration. The s subshell promotes one of its electrons to the 3d subshell, giving it a filled 3 subshell and only one electron in its outer 4s subshell. Therefore, there is no electron-electron repulsion in the outer subshell, making all electrons rather stable in comparison to all other metals.
Iron is more reactive than copper because iron loses electrons more readily than copper does. This means iron is more likely to undergo oxidation reactions, forming iron ions, compared to copper. The reactivity of an element is determined by its tendency to lose or gain electrons, and iron has a higher tendency to lose electrons compared to copper.
it depends upon their reactivity,on how they react with oxygen and hydrogen.as we know ,copper is a metallic elements.this element reacts more to other elements in oxygen and hydrogen like:calcium and potassium. it depends upon their reactivity,on how they react with oxygen and hydrogen.as we know ,copper is a metallic elements.this element reacts more to other elements in oxygen and hydrogen like:calcium and potassium.
Iron is more reactive than copper, allowing it to displace copper from copper sulfate solution through a single displacement reaction. This process forms iron sulfate and solid copper metal, as iron has a higher affinity for sulfate ions than copper does.
The reaction between iron and copper chloride occurs because iron is more reactive than copper. In the reaction, iron displaces copper from copper chloride, forming iron chloride and releasing copper metal. This type of reaction is known as a single displacement reaction.
Scrap iron is used to displace copper in a chemical reaction because iron is more reactive than copper and can take the place of copper in a compound. This process is known as a displacement reaction, where the more reactive metal displaces the less reactive metal in a compound solution.
Iron sulfate and copper do not react because copper is below iron in the reactivity series. This means iron is more reactive than copper, so iron sulfate will not displace copper from its compounds.
Iron is more reactive than sulfur. Iron reacts with water and oxygen to form iron oxide, while sulfur reacts slowly with oxygen to form sulfur dioxide. Iron also reacts with acids to form salts, while sulfur reacts with acids to form hydrogen sulfide gas.
Iron is more reactive than copper
Copper is less reactive than iron, so it cannot displace iron from iron sulfate solution through a displacement reaction. Iron is higher in the reactivity series than copper, meaning that it can displace less reactive metals like copper from their compounds in a chemical reaction.
Iron is more reactive than copper.
Iron is more reactive than copper, allowing it to displace copper from copper sulfate solution through a single displacement reaction. This process forms iron sulfate and solid copper metal, as iron has a higher affinity for sulfate ions than copper does.
Copper is less reactive than iron, therefore iron will exist as an aqueous ion and copper will be an elemental metal. See the "reactivity series for metals."
Iron is more reactive than copper, so it can displace copper from copper sulfate in a single displacement reaction. This occurs because iron has a higher tendency to lose electrons and form positive ions compared to copper.
Copper is less reactive than Iron and hence, cannot displace Iron from any of its solutions. Anyhow, the reverse is possible ie, Iron can displace Copper from it's solution as it is more reactive than Copper.
Iron will not deposit onto a copper plate when it is dipped in iron sulfate because copper has a lower reactivity than iron. In a displacement reaction, a more reactive metal will displace a less reactive metal from its compound. In this case, since iron is more reactive than copper, it displaces copper in the iron sulfate solution forming iron sulfate and preventing the deposition of iron on the copper plate.
Iron is more reactive than copper, so when iron is added to copper sulfate solution, iron displaces copper in the reaction and forms iron sulfate. This process is known as a displacement reaction. This allows copper to be extracted from copper sulfate solution using iron.
The reaction between iron and copper chloride occurs because iron is more reactive than copper. In the reaction, iron displaces copper from copper chloride, forming iron chloride and releasing copper metal. This type of reaction is known as a single displacement reaction.
A displacement reaction occurs when a more reactive element displaces a less reactive element in a compound. In this case, iron is more reactive than copper and displaces it in the copper-sulphate solution to form iron sulphate and copper metal.
Iron can displace copper in a chemical reaction because it is a more reactive metal. When iron is added to a copper sulfate solution, the iron atoms will replace the copper atoms in the solution, forming iron sulfate and causing copper metal to be deposited. This process is known as a displacement reaction.