it sits there for about 2 seconds then dissolves
from what I've seen, if the reaction is being done in distilled water, then the copper attracts the silver nitrate to it and the copper gets a thick film that is very easily removed and leaves tarnished copper looking bright and brand new.
This reaction is exothermic because it releases heat energy. The reaction between silver nitrate and hydrochloric acid generates a salt and releases heat as a byproduct.
When water is dropped into dry soil, it gets absorbed by the soil particles through capillary action. This helps to moisten the soil and provide hydration to plants and microorganisms living in the soil. Over time, the water will spread evenly throughout the soil, promoting growth and supporting soil health.
you can separate it by looking at its boiling points for example: waters boiling point is about 100'C and ammonium nitrate is a solid so it has eather no boiling point, or a very high one, so an effective way of separating is to boil the mixture, you can use a distiller if you want the water too, but a pan is just fine. another way is to just let it sit and the mixture may settle at the bottem then just collect the water and let the slurry of ammonium nitrate dry, and then grind it back into a powder. *your welcome*
When a small piece of potassium permanganate crystal is dropped into water and heated, it will dissolve and release potassium ions and permanganate ions into the solution. As the temperature increases, the rate of dissolution will also increase, leading to a faster dispersal of the ions. The purple color associated with potassium permanganate will be more pronounced as more of it dissolves.
When a copper rod is immersed in a silver nitrate solution, a redox reaction occurs where copper displaces silver from the solution to form copper nitrate and silver metal. This is due to copper being higher in the reactivity series than silver. As a result, the copper rod will become coated with a layer of silver metal while copper ions from the rod will transfer into the solution.
In this reaction, the zinc metal will displace silver ions in the solution because zinc is more reactive than silver. As a result, zinc will oxidize to form zinc ions while silver ions from the silver nitrate will be reduced to form silver metal. This reaction is an example of a single displacement reaction.
It oxidizes. And turns green.
from what I've seen, if the reaction is being done in distilled water, then the copper attracts the silver nitrate to it and the copper gets a thick film that is very easily removed and leaves tarnished copper looking bright and brand new.
This reaction is exothermic because it releases heat energy. The reaction between silver nitrate and hydrochloric acid generates a salt and releases heat as a byproduct.
The silver gets really, really cold and the nitrogen evaporates. When the "reaction" is done, you still have elemental silver. If you want any silver nitrate (AgNO3), you have to react nitric acid with silver.
With what? Not enough detail, but silver is not very electropositive. Pretty much any compound or chemical entity can be involved in a redox reaction of some kind. The obvious redox reaction involving silver nitrate would involve silver ions being reduced to silver metal, plus some corresponding oxidation reaction.
The nitric acid reacts with other ions that might precipitate with silver nitrate. Doing this first gets these other unwanted precipitates out of the way. If you are testing with Fluoride as your halide remember that silver nitrate does not precipitate with Fluoride, so no precipitate does not mean that halide ions are not present.
vlad gets stabbed through the heart with a silver steak and lives because he is the pravus
== ==
Yes, silver can be dangerous in certain forms. Silver nitrate, for example, can be toxic if ingested or inhaled. Prolonged exposure to silver dust or fumes can also be harmful. It's important to always handle and store silver compounds with caution.
Water and ammonium nitrate. When you break the tube of ammonium nitrate inside, it mixes with the water to cause an endothermic reaction that absorbs heat. That's why it gets cold.