Any reaction occur.
NO. Platinum will not react with lead(II) nitrate because platinum is BELOW lead in the activity series.
Copper nitrate (Cu(NO3)2) will not react with lead nitrate (Pb(NO3)2), or if they do, no observable change will be noticed, given that both are soluble nitrate salts, i.e. Pb2+(aq) + NO32-(aq) > Pb(NO3)2 (This will also work for copper)
Silver nitrate and lead nitrate do not react, so there would be no precipitate.
Lead can react with salts containing chloride, sulfate, and nitrate ions to form lead chloride, lead sulfate, and lead nitrate, respectively. These reactions typically result in insoluble lead compounds that may precipitate out of solution.
Yes, lead nitrate and tin nitrate can react together to form insoluble lead(II) tin(IV) oxide when subjected to appropriate conditions. This reaction involves the displacement of lead with tin, resulting in the creation of the new compound.
NO. Platinum will not react with lead(II) nitrate because platinum is BELOW lead in the activity series.
NO. Platinum will not react with lead(II) nitrate because platinum is BELOW lead in the activity series.
Yes, gold will not react with lead nitrate. Gold is a noble metal and is relatively unreactive, so it does not easily form compounds with other elements. Lead nitrate, on the other hand, typically reacts with reactive metals like zinc or iron to form lead metal.
No, lead does not react with tin nitrate under normal conditions. Lead is a less reactive metal and is unlikely to displace tin in a compound like tin nitrate.
Examples: platinum metals, gold, silver, lead, etc.
These compounds doesn't react.
no
Copper nitrate (Cu(NO3)2) will not react with lead nitrate (Pb(NO3)2), or if they do, no observable change will be noticed, given that both are soluble nitrate salts, i.e. Pb2+(aq) + NO32-(aq) > Pb(NO3)2 (This will also work for copper)
No, they will not because their anions are same i.e. Nitrate
Silver nitrate and lead nitrate do not react, so there would be no precipitate.
Lead can react with salts containing chloride, sulfate, and nitrate ions to form lead chloride, lead sulfate, and lead nitrate, respectively. These reactions typically result in insoluble lead compounds that may precipitate out of solution.
Yes, lead nitrate and tin nitrate can react together to form insoluble lead(II) tin(IV) oxide when subjected to appropriate conditions. This reaction involves the displacement of lead with tin, resulting in the creation of the new compound.