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Noble Gas

Also known as:Inert GasesRare GasesGroup 18 Elements

Noble gases are the six elements of Group 18 — helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), and radon (Rn) — characterised by completely filled outer electron shells, which make them extremely stable and almost entirely unreactive under normal conditions. Their full valence shells give them very high ionisation energies and near-zero electronegativity, meaning they do not readily form chemical bonds. Noble gases have important applications in lighting (neon signs, argon-filled incandescent bulbs), inert atmospheres for welding and chemical synthesis, and medical imaging (xenon anaesthesia, krypton in lung ventilation scans).

Properties of noble gases

ElementSymbolAtomic No.Boiling Point (°C)Common Use
HeliumHe2−269Balloons, MRI cooling
NeonNe10−246Neon lighting
ArgonAr18−186Welding shield gas
KryptonKr36−153Fluorescent lights
XenonXe54−108Flash photography, anaesthesia
RadonRn86−62Radiotherapy (historical)

Interactive Tools

Ptable – Group 18 Data

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Khan Academy – Noble Gases

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NIST Chemistry WebBook

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Emission spectra of noble gases showing characteristic coloured lines

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Related Terms

Chemistry

Halogen

Halogens are the five nonmetallic elements of Group 17 — fluorine (F), chlorine (Cl), bromine (Br), iodine (I), and astatine (At) — each with seven valence electrons, making them one electron short of a full outer shell and therefore highly reactive oxidising agents. They readily gain one electron to form stable 1− anions (halides) and react with metals to form ionic salts, and with hydrogen to form hydrogen halides such as HCl and HF. Halogens have important industrial and biological applications: chlorine disinfects water supplies, iodine is essential for thyroid hormone synthesis, and fluorine is used in making Teflon and fluoride toothpaste.

Chemistry

Chemical Group

A chemical group (also called a family) is a vertical column in the periodic table containing elements that share the same number of valence electrons, and therefore exhibit similar chemical properties and reactivity patterns. The modern IUPAC system numbers groups 1 through 18 from left to right. Elements within a group show predictable trends: for example, reactivity increases down Group 1 (alkali metals) because the outermost electron is progressively further from the nucleus and more easily lost.

Chemistry

Electronegativity Trend

Electronegativity is a measure of the tendency of an atom to attract a shared pair of electrons towards itself in a covalent bond, and its periodic trend describes how this property changes systematically across the periodic table. Electronegativity increases across a period (left to right) because increasing nuclear charge pulls bonding electrons more strongly, and decreases down a group because the bonding electrons are further from the nucleus and shielded by additional inner electron shells. On the Pauling scale, fluorine is assigned the highest electronegativity value of 3.98, making it the most electronegative element, while caesium and francium have the lowest values near 0.79.

From Latin "nobilis" (distinguished, of high birth), implying aloofness or inertness — analogous to the nobility who did not mix with common people. German chemist Hugo Erdmann coined the term "Edelgase" (noble gases) in 1898 after the discovery of the group. They were previously called "inert gases" until the synthesis of xenon compounds in 1962 showed they could react under extreme conditions.

chemistryperiodic-tablegroup-18nonmetalsnoble-gasesinert