Diamond is resistant to most chemical reactions due to its strong carbon-carbon bonds. It does not react with acids, bases, or most other elements at room temperature. However, diamond can react with oxygen at high temperatures to form carbon dioxide.
Metals react with air in a form called oxidizing. This is caused because the oxygen molecules are reacting with the surface of the metal.
One example of an element that fits this description is noble gas. Noble gases such as helium, neon, and argon do not react with water and can react violently with air when exposed to certain conditions.
When iron reacts with air, they form ferric oxide.
Ability to react with oxygen in the air is a chemical property.
Diamond is inert at room temperature and even it does not react with air but at 1405Fahrenheit it reacts with air so that it can be oxidized.
Diamond react, is burned in oxygen.
No, water and diamonds do not react chemically at all.
No, it does not
Yes, it'll react similiarly to sodium in the air.
Halogens react with air to form metal halides. For example, chlorine will react with iron to form iron(III) chloride. Halogens are highly reactive and will readily form compounds with many elements in the air.
Diamond is resistant to most chemical reactions due to its strong carbon-carbon bonds. It does not react with acids, bases, or most other elements at room temperature. However, diamond can react with oxygen at high temperatures to form carbon dioxide.
No, hydrochloric acid does not react with diamond. Diamond is a very stable and inert substance, and it requires extreme conditions such as high temperature and pressure to chemically react with other substances.
Bromine does not react with air because it is not possible. It is a non reactant element.
Gold is a metal that does not react with air. It does not tarnish or corrode in normal atmospheric conditions.
'atoms' cannot 'react' to air pressure for air pressure is generated from atoms (oxygen, noble gasses, water).
Iron can react with water in the presence of air and form rust.