When silver metal is added to dilute sulphuric acid solution, a redox reaction takes place. The silver metal reacts with the sulfuric acid to produce silver sulfate and hydrogen gas. The reaction can be represented by the following equation: 2Ag(s) + H2SO4(aq) -> Ag2SO4(aq) + H2(g)
Silver is less reactive than hydrogen and iron in dilute acid solution, so it does not displace them. Silver does not easily donate electrons to form silver ions in acidic conditions, whereas both hydrogen and iron are more reactive and readily undergo redox reactions in the presence of acid. This difference in reactivity means that silver cannot displace hydrogen or iron in dilute acid solution.
When dilute nitric acid and silver nitrate solution are added to sodium chloride solution, a white precipitate of silver chloride is formed. When silver nitrate and hydrochloric acid are added, a white precipitate of silver chloride is also formed.
Dilute 1 mL of 0.5 M silver nitrate solution to a total volume of 1 L with water to make a 1 mM silver nitrate solution.
Silver is below hydrogen in the reactivity series, so it cannot displace hydrogen from dilute sulfuric acid, which is a less reactive acid compared to hydrochloric acid. Therefore, silver does not evolve hydrogen gas when reacting with dilute sulfuric acid.
Sulfuric acid is added to the silver nitrate solution in electroplating to increase the conductivity of the solution. This allows for better passage of electric current through the solution, aiding in the deposition of silver onto the object being plated. Additionally, sulfuric acid helps in maintaining the pH of the solution at an optimal level for the electroplating process.
Silver is less reactive than hydrogen and iron in dilute acid solution, so it does not displace them. Silver does not easily donate electrons to form silver ions in acidic conditions, whereas both hydrogen and iron are more reactive and readily undergo redox reactions in the presence of acid. This difference in reactivity means that silver cannot displace hydrogen or iron in dilute acid solution.
When dilute nitric acid and silver nitrate solution are added to sodium chloride solution, a white precipitate of silver chloride is formed. When silver nitrate and hydrochloric acid are added, a white precipitate of silver chloride is also formed.
Dilute 1 mL of 0.5 M silver nitrate solution to a total volume of 1 L with water to make a 1 mM silver nitrate solution.
Silver is below hydrogen in the reactivity series, so it cannot displace hydrogen from dilute sulfuric acid, which is a less reactive acid compared to hydrochloric acid. Therefore, silver does not evolve hydrogen gas when reacting with dilute sulfuric acid.
Yes, using silver nitrate.
Sulfuric acid is added to the silver nitrate solution in electroplating to increase the conductivity of the solution. This allows for better passage of electric current through the solution, aiding in the deposition of silver onto the object being plated. Additionally, sulfuric acid helps in maintaining the pH of the solution at an optimal level for the electroplating process.
Sulfuric acid is added to the silver nitrate solution in electroplating to increase the conductivity of the solution. This allows for a more efficient deposition of silver onto the object being plated. The sulfuric acid also helps to dissolve any oxide layers on the surface of the object, ensuring a good bond between the silver and the substrate.
The chemical equation for the reaction between dilute nitric acid and aqueous silver sulfate is: 2 HNO3 + Ag2SO4 -> Ag2(NO3)2 + H2SO4
silver
To prepare a 0.0141 N silver nitrate solution, you would need to weigh out the appropriate amount of silver nitrate based on its molar mass and dilute it in a known volume of water to make the final solution. Ensure to use a balance for accurate measurement and follow proper safety measures when handling chemicals.
You need to add an amount of solvent, such as water, to dilute it but you didn't specify the volume of the starting solution.
Add dilute nitric acid and silver nitrateResult - A white precipitateAdded:...... but be aware that Bromide and Iodide (and some other anions) will react almost accordingly. So it isn't too specific!However, if you look very closely, the bromide ion turns a cream coloured precipitate, and the iodide ion, a yellow precipitate. Silver chloride and -bromide will turn in grey black after some time exposed to light (photographic illuminate-reaction)