Oxygen does not react with Argon. Argon is an inert gas, meaning it does not react with other things.
it reacts with hydrogen and lithium and unknown elements
The chemical formula for argon is the chemical symbol for argon: Ar. It rarely reacts in any conditions. The only force that affects it is the London Dispersion Force.
yes it reacts and combines with a halogen called fluorine and can also make calthrates
the answer is: because it reacts with low temperatures of water at -115 degrees Celsius.
Hydrogen, followed by oxygen. Argon is unreactive.
Oxygen does not react with Argon. Argon is an inert gas, meaning it does not react with other things.
it reacts with hydrogen and lithium and unknown elements
The chemical formula for argon is the chemical symbol for argon: Ar. It rarely reacts in any conditions. The only force that affects it is the London Dispersion Force.
The purpose of argon is to protect materials from reacting with oxygen and other gases. Argon can be found inside of light bulbs and welding to prevent the two metals from being heated when it reacts to oxygen.
yes it reacts and combines with a halogen called fluorine and can also make calthrates
the answer is: because it reacts with low temperatures of water at -115 degrees Celsius.
Valence electrons are the outer layer of electrons, the part that reacts. Argon is a noble gas, so it has a full valence electron level. It has eight valence electrons.
Argon is the 18th element on the periodic table. It is one of the noble gasses. It is called such because it chemically it almost never reacts and those few compounds that it does form are highly unstable.
yes
No. Sulfur is a Group 16 element that reacts readily with many other elements. Argon is a Group 18 element, which means it is a noble gas and typically is unreactive.
Yes you are correct, potassium being an alkali metal is definitely more reactive than argon which is a noble gas (group 18 element). Potassium reacts violently with just water while argon is very inert and stable, which is why it remains in the atmosphere as a monatomic element.