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....
Yes, you can stir a silver nitrate solution with a copper spoon. When copper comes in contact with the silver nitrate solution, a redox reaction occurs where copper gives electrons to silver ions, causing silver metal to deposit on the surface of the copper spoon. The overall equation is: 2AgNO3 (aq) + Cu (s) → Cu(NO3)2 (aq) + 2Ag (s).
If a copper spoon is used to stir a solution of aluminum nitrate, a redox reaction may occur between the copper and the aluminum ions in solution. This could lead to the displacement of copper by aluminum, forming aluminum metal on the surface of the copper spoon and changing the composition of the solution.
When a silver spoon is immersed in aqueous copper sulphate solution, a displacement reaction occurs. The silver spoon will react with the copper sulphate, displacing the copper ions and forming silver sulphate solution. Over time, the silver spoon will start to turn slightly reddish as a thin layer of copper is deposited on its surface.
When a silver spoon is kept in an aqueous solution of copper sulfate, a redox reaction takes place where silver displaces copper from the solution. As a result, silver ions in the solution get reduced and deposit copper onto the spoon. This process is known as displacement reaction, where a more reactive metal displaces a less reactive metal in a compound.
First you put a penny in a glass measuring cup containing vinegar. Then hold it over a stove set at low for 2 min. Finally dip in a plastic spoon and remove the penny it should be silver. P.S If it does not work don't blame me. It's ben 2 years since I've done this.
Yes, you can stir a silver nitrate solution with a copper spoon. When copper comes in contact with the silver nitrate solution, a redox reaction occurs where copper gives electrons to silver ions, causing silver metal to deposit on the surface of the copper spoon. The overall equation is: 2AgNO3 (aq) + Cu (s) → Cu(NO3)2 (aq) + 2Ag (s).
If a copper spoon is used to stir a solution of aluminum nitrate, a redox reaction may occur between the copper and the aluminum ions in solution. This could lead to the displacement of copper by aluminum, forming aluminum metal on the surface of the copper spoon and changing the composition of the solution.
When a silver spoon is immersed in aqueous copper sulphate solution, a displacement reaction occurs. The silver spoon will react with the copper sulphate, displacing the copper ions and forming silver sulphate solution. Over time, the silver spoon will start to turn slightly reddish as a thin layer of copper is deposited on its surface.
as silver is less reactive than copper the silver when immersed will loose its electrons and the copper will displace it. i apologize if it is the wrong answer.... this is actually a guess :P
When a silver spoon is kept in an aqueous solution of copper sulfate, a redox reaction takes place where silver displaces copper from the solution. As a result, silver ions in the solution get reduced and deposit copper onto the spoon. This process is known as displacement reaction, where a more reactive metal displaces a less reactive metal in a compound.
First you put a penny in a glass measuring cup containing vinegar. Then hold it over a stove set at low for 2 min. Finally dip in a plastic spoon and remove the penny it should be silver. P.S If it does not work don't blame me. It's ben 2 years since I've done this.
To copper plate a spoon, you can use an electroplating process. First, clean the spoon thoroughly to remove any dirt or grease, then prepare a copper sulfate solution. By connecting the spoon to a power source as the cathode and a copper anode in the solution, the copper ions will deposit onto the spoon's surface when electricity is applied. After plating, rinse and polish the spoon to achieve a smooth finish.
Copper plated the spoon because it acted as the cathode in the electrochemical cell formed between the spoon and the copper solution. The beaker did not plate because it likely did not provide the necessary conditions for the reduction reaction to occur on its surface.
The marking 925 on a spoon indicates that the spoon is made of sterling silver, which is an alloy containing 92.5% silver and 7.5% other metals, typically copper. This marking is a standard for silverware and indicates the purity of the silver used in the spoon.
The phrase "pearl silver" was stamped on flatware that was actually nickel silver, that is made of copper, zinc and nickel with no silver content.
copper sulfate, or Cu(SO4)(aq). The first clue we have that it is, in fact, copper sulfate is its reaction with the ammonia solution. When the deep blue color formed(in the reaction), the solution formed is [Cu(NH3)4](OH)2(aq), which gives off a bluish color. Secondly, upon acidification of [Cu(NH3)4](OH)2(aq), we see the solution become practically colorless again, The third clue when potassium ferrocyanide is mixed with copper sulfate, it also forms a red precipitate. And last but not least, when copper sulfate reacts with steel, which is primarily iron, copper is formed. This is why the steel changed to a bronze like metal.mystery=copper sulfate
It is electroplated onto nickel-silver blanks.In a solution of silver nitrate an electric charge is passed from a silver cathode to the anode to which the spoon blank is attached. This transfers silver from the silver cathode through the solution to the spoon.