Either these three from the bbc bitesize Periodic Table test.
Magnesium oxide
Magnesium hydroxide
Magnesium carbonate
The gas that reacts with calcium and magnesium when they burn is oxygen. This reaction forms calcium oxide and magnesium oxide as the products.
Nitrogen does not burn magnesium. In order for magnesium to burn, it requires oxygen as the oxidizing agent. When magnesium reacts with oxygen in the air, it produces magnesium oxide and releases a considerable amount of heat and light.
Magnesium can burn in the absence of oxygen if a strong oxidizing agent is present, such as chlorine or fluorine. These elements can react with magnesium to form metal halides, resulting in a combustion reaction.
When you burn magnesium, it forms magnesium oxide, which is a white powder. This reaction occurs when magnesium reacts with oxygen in the air, producing a bright white light and the white powdery magnesium oxide residue.
Magnesium burns more vigorously in oxygen compared to nitrogen. When magnesium is ignited in the presence of oxygen, it undergoes a rapid and exothermic reaction forming magnesium oxide. In contrast, burning magnesium in nitrogen would result in a less intense reaction because nitrogen is an inert gas and does not support combustion like oxygen.
The gas that reacts with calcium and magnesium when they burn is oxygen. This reaction forms calcium oxide and magnesium oxide as the products.
Nitrogen does not burn magnesium. In order for magnesium to burn, it requires oxygen as the oxidizing agent. When magnesium reacts with oxygen in the air, it produces magnesium oxide and releases a considerable amount of heat and light.
Magnesium can burn in the absence of oxygen if a strong oxidizing agent is present, such as chlorine or fluorine. These elements can react with magnesium to form metal halides, resulting in a combustion reaction.
Burning magnesium reacts with oxygen in the air to form magnesium oxide, which is a white ash-like substance.
It needs little to know oxygen to burn.
When magnesium is burned, it combines with oxygen from the air to form magnesium oxide. This reaction increases the overall weight of the magnesium because the newly formed magnesium oxide has a greater mass than the original magnesium metal due to the added oxygen atoms.
Magnesuium burn in air at room temperature.
When you burn magnesium, it forms magnesium oxide, which is a white powder. This reaction occurs when magnesium reacts with oxygen in the air, producing a bright white light and the white powdery magnesium oxide residue.
It is given out. If it were taken in, magnesium would not continue to burn when heat were removed.
First off, it doesn't burn more, it burns quicker. This is because It's reacting with the oxygen, and in a 100% oxygen environment there's simply more oxygen to react with (the air is 21% oxygen).
Oxydation of magnesium: 2 Mg + O2 = 2 MgO
Magnesium burns more vigorously in oxygen compared to nitrogen. When magnesium is ignited in the presence of oxygen, it undergoes a rapid and exothermic reaction forming magnesium oxide. In contrast, burning magnesium in nitrogen would result in a less intense reaction because nitrogen is an inert gas and does not support combustion like oxygen.