Tin carbonate - SnCO3
There are two such tin oxides: Tin (II) oxide with formula SnO and tin (IV) dioxide, with formula SnO2.
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.
We can use carbon, because carbon wants to be carbon dioxide. Like tin oxide, SnO2. By adding carbon, at high temperatures, the carbon will pull out oxygen to form carbon dioxide, which is stable. The left over result is pure tin, along with other impurities and carbon dioxide gas, which is extracted from the tin.
Tin (IV) phosphide
It is a mixture
You can, but you need heat and charcoal. Tin = Sn Carbon = C Oxygen = O2 SnO2 (tin oxide/tin ore) + C = Sn + CO2 You need to melt the tin ore and charcoal (made of C) together, and the carbon will take the oxygen from the tin oxide, creating carbon dioxide and tin. Voila, have your tin, and your waste compound, carbon dioxide.
There are two such tin oxides: Tin (II) oxide with formula SnO and tin (IV) dioxide, with formula SnO2.
Pneumonoultramicroscopicsilicovolcanoconiosis-potassium, nitrogen, erbium, uranium, magnesium, oxygen, nitrogen, oxygen, uranium, lead, tin, radon, argon, magnesium, iron, carbon, radon, oxygen, silver, carbon, oxygen, potassium, iron, carbon, silicon, iron, lead, iron, carbon, oxygen, vanadium, oxygen, lead, carbon, argon, nitrogen, oxygen, carbon, oxygen, nitrogen, iron, oxygen, silicoon, iron, silicon
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.
Because you need heat Because the Tin Ore contains Tin oxide which is a mixture of 2 oxygen (O²) atoms and 1 tin atom (Sn), making the formula for tin ore SnO². Because the atoms are joined making a compound you cant seperate them just by crushing because it will just crush both atoms not just the tin. So you need another atom to come and take the oxygen. Which if you use charcoal (which contains carbon) and smelter you get Tin and carbon dioxide instead of having tin ore and charcoal! (Basically you cant physically seperate them like that because they are joined!)
in a plasma oven
Tin exists in two compounds with oxygen. These compounds vary because of the different oxidation states of tin. The first compound is tin(II) oxide (Sn2+O2-). The second compound is tin(IV) oxide (Sn4+O22-).
Carbon and oxygen are the only pair in that list that will form a covalent bond; the others will form ionic bonds, except for copper and tin which will form a metallic bond.
you heat the tin ore and carbon together to produce tin and carbon dioxide
We can use carbon, because carbon wants to be carbon dioxide. Like tin oxide, SnO2. By adding carbon, at high temperatures, the carbon will pull out oxygen to form carbon dioxide, which is stable. The left over result is pure tin, along with other impurities and carbon dioxide gas, which is extracted from the tin.
Tin (II) fluoride is a compound, with formula SnF2.
The compound SnH2 would be called either tin(II) hydride or stannous(II) hydride, but I'm not sure such a compound exists. The more common hydride of tin is tin(IV) hydride which is H2Sn, or SnH2.