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No. Iron is a more reactive metal than silver, so the iron will replace the silver in the silver nitrate solution, forming an iron nitrate solution and solid silver. Eventually, the iron container will be gone, its atoms having gone into the iron nitrate solution.
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When silver nitrate, a soluble solution, is mixed with a carbonate solution a precipitation reaction (double replacement reaction) takes place forming nitrate ions and the insoluble solid silver carbonate.
They form Silver Iodide and Poassium nitrate. Silver Iodide is a yellow coloured compound which forms precipitate in the solution. Potassium Nitrate remains dissolved. These reactions only take place in solution. When both reactants are in solid state then reaction may not occur, or it is too slow to be observed.
Dissolve the silver nitrate in water (a one molar solution [17 grams per litre of water] is best). There are two paths: pure metal substitution or complex ion replacement. Pure metal: Place a more active metal (such as copper wire or aluminum foil) in the silver nitrate solution and let the oxidation-reduction reaction occur. The more active metal will replace the silver in solution, causing the silver to crystilize on the new material. Complex ion replacement: Add ammonia to the silver nitrate solution in a 1:3 ratio. Stir until the precipitate redissolves. Add about 5 more millilitres of ammonia. This is known as the Tollen's Reagent. Add a dilute solution of glucose to the Tollen's Reagent and heat in a 70 degree celsius water bath. A mirror will form on the inside of whatever container you used (this can be scrapped off, and is slightly more pure than the metal replacement). ~James
No. Iron is a more reactive metal than silver, so the iron will replace the silver in the silver nitrate solution, forming an iron nitrate solution and solid silver. Eventually, the iron container will be gone, its atoms having gone into the iron nitrate solution.
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When silver nitrate, a soluble solution, is mixed with a carbonate solution a precipitation reaction (double replacement reaction) takes place forming nitrate ions and the insoluble solid silver carbonate.
When you place copper wire in a silver nitrate solution, your result should be a heterogeneous mixture.
They form Silver Iodide and Poassium nitrate. Silver Iodide is a yellow coloured compound which forms precipitate in the solution. Potassium Nitrate remains dissolved. These reactions only take place in solution. When both reactants are in solid state then reaction may not occur, or it is too slow to be observed.
A displacement reaction takes place... due to deposition of cu ions the solution turns blue.
A double replacement takes place. And a precipitate is formed called AgCl. It is solution on CuNO3.
A displacement reaction, in which the copper dissolves to form copper nitrate and replaces silver ions in the original silver nitrate, reducing the silver ions to metallic silver.
The chemical reaction is:Cu + 2 AgNO3 = 2 Ag + Cu(NO3)2
Dissolve the silver nitrate in water (a one molar solution [17 grams per litre of water] is best). There are two paths: pure metal substitution or complex ion replacement. Pure metal: Place a more active metal (such as copper wire or aluminum foil) in the silver nitrate solution and let the oxidation-reduction reaction occur. The more active metal will replace the silver in solution, causing the silver to crystilize on the new material. Complex ion replacement: Add ammonia to the silver nitrate solution in a 1:3 ratio. Stir until the precipitate redissolves. Add about 5 more millilitres of ammonia. This is known as the Tollen's Reagent. Add a dilute solution of glucose to the Tollen's Reagent and heat in a 70 degree celsius water bath. A mirror will form on the inside of whatever container you used (this can be scrapped off, and is slightly more pure than the metal replacement). ~James
a heterogeneous f
The copper and silver will combust.