Answer
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Hint:The ground state electron configuration of ground state vaporous unbiased radon is \[\left[ {Rn} \right]\]. The rot of radon produces numerous other fleeting nuclides, known as radon daughters, finishing at stable isotopes of lead. \[Xe = {\text{ }}4{f^{14}}{\text{ }}5{d^{10}}{\text{ }}6{s^2}{\text{ }}6{p^6}\]\[Radon/Electron\] configuration.
Complete step by step answer:Radon is an element in the periodic table represented by the symbol \[Rn\] and atomic number \[86\]. It is a radioactive, dull, unscented, boring honorable gas. The elements that are found in the last section of the occasional table are a significant group of elements that are known as the inert gases. They are \[Helium,{\text{ }}neon,{\text{ }}argon,{\text{ }}krypton,{\text{ }}xenon,{\text{ }}radon\]. Sodium's inert gas configuration becomes \[\left[ {Ne} \right]3{s^1}\].
Inert elements are the most stable due to having the greatest number of valence electrons their external shell can hold. Subsequently, they infrequently respond with different elements since they are as of now steady. Different qualities of the noble gases are that they all direct power, fluoresce, are unscented and dismal, and are utilized in numerous conditions when a steady element is expected to keep a protected and consistent climate. This chemical arrangement contains \[Helium,{\text{ }}neon,{\text{ }}argon,{\text{ }}krypton,{\text{ }}xenon,{\text{ }}radon\]. The respectable gases were recently alluded to as inert gases; however, this term isn't carefully exact in light of the fact that few of them do partake in chemical reactions. Radon is a dreary, unscented, and boring gas and thus isn't recognizable by human faculties alone. At standard temperature and pressing factor, radon frames a monatomic gas with a thickness of \[9.73{\text{ }}kg/{m^3}\], around multiple times the thickness of the Earth's environment adrift level, \[1.217{\text{ }}kg/{m^3}\]. Radon is probably the densest gas at room temperature and is the densest of the respectable gases. Albeit lackluster at standard temperature and pressing factor, when cooled underneath its edge of freezing over of \[202{\text{ }}K\]
Note:
That these electron configurations are given for unbiased molecules in the gas stage, which are not equivalent to the electron configurations for similar particles in chemical conditions. By and large, numerous configurations are inside a little scope of energies and the abnormalities appeared above are very unimportant chemically.
Complete step by step answer:Radon is an element in the periodic table represented by the symbol \[Rn\] and atomic number \[86\]. It is a radioactive, dull, unscented, boring honorable gas. The elements that are found in the last section of the occasional table are a significant group of elements that are known as the inert gases. They are \[Helium,{\text{ }}neon,{\text{ }}argon,{\text{ }}krypton,{\text{ }}xenon,{\text{ }}radon\]. Sodium's inert gas configuration becomes \[\left[ {Ne} \right]3{s^1}\].
Inert elements are the most stable due to having the greatest number of valence electrons their external shell can hold. Subsequently, they infrequently respond with different elements since they are as of now steady. Different qualities of the noble gases are that they all direct power, fluoresce, are unscented and dismal, and are utilized in numerous conditions when a steady element is expected to keep a protected and consistent climate. This chemical arrangement contains \[Helium,{\text{ }}neon,{\text{ }}argon,{\text{ }}krypton,{\text{ }}xenon,{\text{ }}radon\]. The respectable gases were recently alluded to as inert gases; however, this term isn't carefully exact in light of the fact that few of them do partake in chemical reactions. Radon is a dreary, unscented, and boring gas and thus isn't recognizable by human faculties alone. At standard temperature and pressing factor, radon frames a monatomic gas with a thickness of \[9.73{\text{ }}kg/{m^3}\], around multiple times the thickness of the Earth's environment adrift level, \[1.217{\text{ }}kg/{m^3}\]. Radon is probably the densest gas at room temperature and is the densest of the respectable gases. Albeit lackluster at standard temperature and pressing factor, when cooled underneath its edge of freezing over of \[202{\text{ }}K\]
Note:
That these electron configurations are given for unbiased molecules in the gas stage, which are not equivalent to the electron configurations for similar particles in chemical conditions. By and large, numerous configurations are inside a little scope of energies and the abnormalities appeared above are very unimportant chemically.
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