Argon oxygen decarburization (AOD) is a process used in stainless steel making. Argon/oxygen typically 1 to 12% oxygen.
Hydrogen, followed by oxygen. Argon is unreactive.
No, oxygen and argon do not form an ionic compound together. Oxygen typically forms covalent compounds and argon is a noble gas that does not readily form compounds due to its stable electron configuration.
You will get water and argon. Hydrogen an oxygen will readily and violently combine to form water. Argon is an inert gas, and so will not combine with other elements.
oxygen-23% nitrogen-71% carbon dioxide-0.03 argon-0.9
No. Second place goes to oxygen. Argon takes third or fourth place depending on the amount of water vapor.
Argon displaces oxygen that is necessary for combustion. By flooding the environment with argon, the oxygen concentration is reduced, preventing the combustion process from occurring, which stops things from burning at high temperatures.
They are examples of elements.
Hydrogen, followed by oxygen. Argon is unreactive.
Argon dose not react with oxygen, reason be argon is a noble gas and dose not react with any other element.
argon
Before coming into contact with oxygen, blood is typically a dark red or maroon color.
Before coming into contact with oxygen, blood is typically a dark red or maroon color.
Blood is always red.
Argon is produced through the radioactive decay of potassium-40 in the Earth's crust. It is also present in the Earth's atmosphere, making up about 0.93% of the air we breathe. Additionally, argon is a byproduct of the production of liquid oxygen and liquid nitrogen.
When oxygen reacts with argon, it forms argon oxide compounds such as argon(II) oxide (ArO) or argon(IV) oxide (ArO2). These compounds are unstable and tend to decompose easily. This reaction is not commonly observed under normal conditions as argon is generally inert and does not readily react with other elements.
No, oxygen and argon do not form an ionic compound together. Oxygen typically forms covalent compounds and argon is a noble gas that does not readily form compounds due to its stable electron configuration.
Argon is heavier than oxygen and helium. Argon has an atomic mass of 39.948 g/mol, while oxygen has an atomic mass of 16.00 g/mol and helium has an atomic mass of 4.003 g/mol. Argon is a noble gas that is denser than both oxygen and helium.