aluminum oxide
The Group 1 compound must be heated more because, force the carbon dioxide to break off and leave the metal oxide.
Magnesium is a metal when we say burning of magnesium it means formation of its oxide with liberation of heat and light.
When you "burn" something you simply combine it with oxygen, you oxidise it. Rapid buring of a metal can be achieved in the presence of heat and Oxygen to produce an oxide of the metal.
thermite is a rusty red colored powder consisting of:iron oxidepowdered aluminum.these items are fairly easy to get if you know where to look. be careful not to be to close so you do not get a 3rd degree burn from the heat.
The chemical reaction is:2 PbO + C = 2 Pb + CO2
The Group 1 compound must be heated more because, force the carbon dioxide to break off and leave the metal oxide.
lead
It is not thermally stable so it will become an oxide
Magnesium is a metal when we say burning of magnesium it means formation of its oxide with liberation of heat and light.
When you "burn" something you simply combine it with oxygen, you oxidise it. Rapid buring of a metal can be achieved in the presence of heat and Oxygen to produce an oxide of the metal.
Magnesium oxide is at a lower energy state than lead oxide, which makes it more stable, more likely to form. So this additional energy is released as heat.
thermite is a rusty red colored powder consisting of:iron oxidepowdered aluminum.these items are fairly easy to get if you know where to look. be careful not to be to close so you do not get a 3rd degree burn from the heat.
Metal + oxygen ----> Metal oxide So... 1) Magnesium + oxygen ----> Magnesium oxide 2) Lithium + oxygen -----> Lithium oxide So now try these if your unsure still : 1) Iron + oxygen ----> 2) Copper + oxygen ------> Hope I helped! :D
The chemical reaction is:2 PbO + C = 2 Pb + CO2
It is an alkaline earth metal. It conducts heat and electricity. It reacts with atmospheric oxygen and forms oxide.
metal oxide and carbon dioxide Na2CO3(s) + heat -----> Na2O(s) + CO2(g) [not decomposed in normal conditions as Na2CO3 is very stable] MgCO3(s) + heat -----> MgO(s) + CO2(g) CoCO3(s) + heat -----> CoO(s) + CO2(g) CuCO3(s) + heat -----> CuO(s) + CO2(g) these are some examples from which you can get help.
chemical reaction between the oygen atoms and the carbon atoms