Yes that is one of the characteristics of noble gases the other is that they all have their outermost electron shells full up with the required number of electrons - (this is why they do not react with other elements)
Unlikely other elements in the periodic table, noble gases rarely form compounds with other elements.
the noble gases to not like to react, look to the farthest right column for those
Water does not react with krypton, as krypton is a noble gas that is inert and does not readily form chemical compounds with other elements.
Noble gases rarely form chemical bonds due to their stable electron configuration (full valence shell). This stability makes them unreactive and less likely to participate in bonding with other elements.
No. Helium is one of the "noble" gasses, and they generally don't react with much.
The noble gases.
Noble gases.
Noble gas or inert gas.
Unlikely other elements in the periodic table, noble gases rarely form compounds with other elements.
The Inert Gases of Group 0 rarely combine with other elements as they are (exc. Radon) extremely unreactive. The Inert Gases are:HeliumNeonArgonKryptonXenon(Radon)
A group of elements that rarely combine with other elements because they already have eight electrons in the outer shells is a Noble Gas
Because the outer shell of electrons is full.
No, sulfur and helium have very different chemical properties. Sulfur is a nonmetal that reacts with other elements to form compounds, while helium is a noble gas that is inert and rarely forms compounds with other elements.
the noble gases to not like to react, look to the farthest right column for those
Argon is a noble gas, which means it is generally unreactive and does not readily react with other substances at normal conditions. It is considered inert and does not easily form compounds with other elements.
Noble gases rarely combine with each other or with other elements due to their stable electron configuration. These elements already have a full outer electron shell, making them very unreactive under normal conditions.
They are the noble gases whose outermost (valency) orbitals are full.