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Helium, neon, argon, krypton, xenon, and radon are inert gases that can form compounds, primarily with highly electronegative elements such as fluorine and oxygen.
As we all know that noble gases are also called INERT GASES, so the subgroup VIII of GROUP 'A' contains only noble gases and inert gases so helium and neon are also in VIII-A so they are inert gases.
Scientists have observed that certain conditions can cause inert gases like xenon, krypton, and argon to form compounds with other elements. Additionally, experiments have shown that inert gases can react with elements under extreme conditions, such as high pressure and temperature. These observations challenge the traditional view that inert gases are completely unreactive.
The Inert Gases of Group 0 rarely combine with other elements as they are (exc. Radon) extremely unreactive. The Inert Gases are:HeliumNeonArgonKryptonXenon(Radon)
Noble gases have completely filled orbitals. They generally have 8 valence electrons (helium has only 2) and have stable electronic configuration. Hence they are chemically inert and generally donot form compounds under normal conditions and are mono atomic
They have completely filled valence electrons, hence are stable, chemically inert. So they exist as mono atomic species and not as molecules
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Helium, neon, argon, krypton, xenon, and radon are inert gases that can form compounds, primarily with highly electronegative elements such as fluorine and oxygen.
No, also the so called inert gases can be obtained in liquid form. Inert had a chemical sense, especially in the past.
Noble gases have completely filled orbitals. They generally have 8 valence electrons (helium has only 2) and obey octet rule (stable electronic configuration). Hence they are chemically inert (or do not react with other elements) and are known as inert gases.
Because before about 1950, the noble gases were not known to form any chemical compounds.
As we all know that noble gases are also called INERT GASES, so the subgroup VIII of GROUP 'A' contains only noble gases and inert gases so helium and neon are also in VIII-A so they are inert gases.
Exceptionally inert gases belong to Group 18 (Noble gases) in the periodic table. They are inert because their outermost electron shells are full, making them stable and less likely to form chemical bonds with other elements. This full electron shell configuration results in low reactivity, hence their classification as inert gases.
Similarities: Both halogens and inert gases are part of the same group in the periodic table (Group 18). They are both stable elements with full valence electron shells. Differences: Halogens are highly reactive nonmetals that readily form compounds with other elements, while inert gases are extremely unreactive due to their stable electron configurations and rarely form compounds. Halogens are found in nature in various compounds, while inert gases are typically found in their pure form.
Scientists have observed that certain conditions can cause inert gases like xenon, krypton, and argon to form compounds with other elements. Additionally, experiments have shown that inert gases can react with elements under extreme conditions, such as high pressure and temperature. These observations challenge the traditional view that inert gases are completely unreactive.
Yes, noble gases do not typically form compounds with other elements in nature because of their stable and inert nature. However, some rare exceptions include xenon compounds that have been synthesized in the laboratory but do not occur naturally in the environment.