Silver Nitrate + Sodium Chloride --> Silver Chloride + Sodium Nitrate
AgNO3 + NaCL --> AgCL + NaNO3
i have know idea how to do chemical equasions and my science teacher has not taught me anything on it. Are these equasions right? Lead + Silver nitrate -------- Silver + Lead nitrate Pb(s) AgNo3 Ag (s) Pb (No3)2
Lead nitrate has the chemical formula Pb(NO3)2 and is a white crystalline solid, while silver nitrate has the chemical formula AgNO3 and is a colorless crystalline solid. Lead nitrate is toxic and can be harmful if ingested, while silver nitrate is commonly used in photography and as a reagent in chemical reactions.
One way to differentiate between lead nitrate and silver nitrate is to add a few drops of dilute hydrochloric acid to each compound. Lead nitrate will produce a white precipitate of lead chloride, while silver nitrate will produce a white precipitate of silver chloride. Another method is to observe the color of the compounds - silver nitrate is white, while lead nitrate is colorless.
When silver nitrate is mixed with lead, a solid white precipitate of lead(II) nitrate is formed along with silver metal. This reaction is a displacement reaction where the more reactive silver displaces the less reactive lead from the compound.
Lead and silver nitrate will react to produce silver and lead nitrate. Pb(s) + AgNO3(aq) --> Ag(s) + Pb(NO3)2(aq) We can know this by referring to an activity (also called reactivity) series for metals, which lists metals in a vertical list such that any metal will replace any metal below it on the list. Lead is above silver, therefore, the lead will replace the silver in the silver nitrate compound. For an activity series from Wikipedia, refer to the related link below.
Silver nitrate and lead nitrate do not react, so there would be no precipitate.
i have know idea how to do chemical equasions and my science teacher has not taught me anything on it. Are these equasions right? Lead + Silver nitrate -------- Silver + Lead nitrate Pb(s) AgNo3 Ag (s) Pb (No3)2
Lead nitrate has the chemical formula Pb(NO3)2 and is a white crystalline solid, while silver nitrate has the chemical formula AgNO3 and is a colorless crystalline solid. Lead nitrate is toxic and can be harmful if ingested, while silver nitrate is commonly used in photography and as a reagent in chemical reactions.
One way to differentiate between lead nitrate and silver nitrate is to add a few drops of dilute hydrochloric acid to each compound. Lead nitrate will produce a white precipitate of lead chloride, while silver nitrate will produce a white precipitate of silver chloride. Another method is to observe the color of the compounds - silver nitrate is white, while lead nitrate is colorless.
When silver nitrate is mixed with lead, a solid white precipitate of lead(II) nitrate is formed along with silver metal. This reaction is a displacement reaction where the more reactive silver displaces the less reactive lead from the compound.
Lead and silver nitrate will react to produce silver and lead nitrate. Pb(s) + AgNO3(aq) --> Ag(s) + Pb(NO3)2(aq) We can know this by referring to an activity (also called reactivity) series for metals, which lists metals in a vertical list such that any metal will replace any metal below it on the list. Lead is above silver, therefore, the lead will replace the silver in the silver nitrate compound. For an activity series from Wikipedia, refer to the related link below.
When you mix lead with silver nitrate, a solid precipitate of lead(II) nitrate forms while silver metal is produced as a result of displacement reaction, since lead is more reactive than silver. The balanced chemical equation is: Pb + 2AgNO3 -> Pb(NO3)2 + 2Ag.
The balanced chemical equation for the reaction of lead foil with silver nitrate solution is: 2AgNO3 + Pb --> Pb(NO3)2 + 2Ag This reaction forms lead(II) nitrate and silver.
Heating lead nitrate crystals will decompose them into lead oxide, nitric oxide gas, and oxygen gas. When silver nitrate solution and sodium chloride solution are mixed, a white precipitate of silver chloride forms as a result of a double replacement reaction, where silver ions from silver nitrate combine with chloride ions from sodium chloride to form solid silver chloride.
All nitrates are soluble in water. Lead, Silver, and Mercury, however, are some of the most insoluble metals. The halides of these metals are almost always considered insoluble.
An oxidizing agent can react with silver nitrate by accepting electrons from the silver ion, reducing it to metallic silver. This reaction can lead to the formation of a different compound, depending on the specific oxidizing agent used. Additionally, the oxidizing agent's reduction potential will determine the extent to which the silver nitrate is reduced.
Zinc is more reactive than Lead nitrate (See Displacement Series). Therefore, Zinc will displace lead in lead nitrate: Zn + Pb(NO3)2 -> Zn(NO3)2 + Pb