Suspend a copper wire in a solution of silver nitrate. Over the course of a few hours the silver nitrate will convert to copper II nitrate, turning the solution blue. Elemental silver will precipitate.
Silver has a higher reduction potential than copper (ie silver "wants" to be in reduced form - metalic form - "more" than copper does). If silver METAL (Ag0) is added to a solution of CuSO4, nothing happens since silver is already reduced and it wants to stay that way.
Yes it will. If you consider the electrochemical series of the elements, then you will notice that copper is more reactive than silver and hence it would react to silver nitrate to replace silver and form copper nitrate. Reaction:- Cu(s) + 2AgNO3(aq.) ------> Cu(NO3)2(aq.) + 2Ag(s)
No, copper is less reactive than hydrogen. Copper is a relatively unreactive metal, while hydrogen is a highly reactive non-metal. Copper typically does not react with most acids or oxygen in the air, while hydrogen can easily react with many elements and compounds.
Sodium is more reactive than copper. Sodium is a highly reactive metal that can easily lose electrons to form positive ions, while copper is less reactive and tends to form compounds with a lower oxidation state. Sodium is a group 1 alkali metal with one electron in its outer shell, making it more likely to undergo reactions compared to copper.
Potassium (K) is more reactive than silver (Ag). Potassium is an alkali metal on the far left side of the periodic table, making it highly reactive with water and oxygen. Silver is a transition metal that is more stable and less reactive compared to alkali metals like potassium.
Copper is more active than silver. Copper reacts more readily with other substances compared to silver, which is less chemically reactive.
Silver is more reactive than copper and platinum. Silver tarnishes easily when exposed to air, while copper only reacts slowly with air over time. Platinum is the least reactive of the three metals and remains largely unaffected by air and water.
No, copper will not displace silver from silver nitrate and silver will not displace copper from copper nitrate. This is because the reactivity series dictates that silver is below copper, so copper can displace silver but not vice versa.
It gives green color . Copper is more reactive than silver therefore it displaces silver from silver nitrate and forms silver + copper nitrate
No, copper is less reactive than aluminum.
Silver has a higher reduction potential than copper (ie silver "wants" to be in reduced form - metalic form - "more" than copper does). If silver METAL (Ag0) is added to a solution of CuSO4, nothing happens since silver is already reduced and it wants to stay that way.
Gold reacts the least out of copper, gold, iron, and silver. Gold is a noble metal, which means it is less reactive and does not easily corrode or tarnish when exposed to air or moisture. Copper, iron, and silver are more reactive than gold and can form oxides or other compounds more readily.
When silver nitrate is added to copper, a redox reaction occurs where the Cu from copper displaces the Ag from silver nitrate. This results in the formation of copper nitrate and silver metal as a solid precipitate.
more reactive than copper. In a displacement reaction, the more reactive element will displace the less reactive element from its compound. Zinc has a higher reactivity than copper on the reactivity series of metals, allowing it to displace copper in the reaction.
One of the easiest ways is to prepare an aqueous solution of a soluble silver salt such as silver nitrate, then insert a piece of solid metallic copper into the solution. The copper will be coated with silver because of the reaction 2 Cu (s) + 2 Ag+1 (aq)-> Cu2+2 (aq) + 2 Ag (s).
Yes it will. If you consider the electrochemical series of the elements, then you will notice that copper is more reactive than silver and hence it would react to silver nitrate to replace silver and form copper nitrate. Reaction:- Cu(s) + 2AgNO3(aq.) ------> Cu(NO3)2(aq.) + 2Ag(s)
no,almuminium is more reactive