SnCl2 + H2CO3
The reaction will be Tin Nitrate and Hydrogen Gas.
The best way would be to dissolve the solder in some hydrochloric acid or Muriatic acid and then use the process of electrolysis to grow the Tin crystals. I think the tin crystals will form on the cathode....so use an inert electrode such as graphite.
Hydrochloric acid (HCl) + tin (Sn) gives you Tin chloride (SnCl) + Hydrogen (H2) The hydrogen molecule should have the 2 as an underscore but I can't find it on the iPad I am typing this from. Hope this helps.
You can make hydrogen by combining acids with metals. I know for a fact that hydrochloric acid and tin foil makes hydrogen.
Tin(IV) carbonate
The reaction will be Tin Nitrate and Hydrogen Gas.
Lithium is the most reactive.
The best way would be to dissolve the solder in some hydrochloric acid or Muriatic acid and then use the process of electrolysis to grow the Tin crystals. I think the tin crystals will form on the cathode....so use an inert electrode such as graphite.
Hydrochloric acid (HCl) + tin (Sn) gives you Tin chloride (SnCl) + Hydrogen (H2) The hydrogen molecule should have the 2 as an underscore but I can't find it on the iPad I am typing this from. Hope this helps.
You can make hydrogen by combining acids with metals. I know for a fact that hydrochloric acid and tin foil makes hydrogen.
Tin(IV) carbonate
Tin carbonate - SnCO3
Sn (Tin) and C (Carbon) don't normally occur together. The closest reference I could find was to "Tin-Doped Carbon Clusters" in a chemistry journal.
Sn(CO3)2
Tin carbonate is used for a number of things. It is commonly used to make metal alloys, making glass and soldering iron among others.
Tin can not only react with citric acid, it can react with any acid.
mixture of tin and lead, and nothing will happen. If tin atom reacts with lead atom, none of the atoms will oxidise even if they are heated. because reaction will only occur when a metal react with acid and so on.