| 1. | In metallic bonds valence shell electrons are delocalized and shared between many atoms.
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| 2. | Outer shell electrons drop down to replace inner shell vacancies, however only certain transitions are allowed.
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| 3. | As a rule, it requires far less energy to remove an outer-shell electron than an inner-shell electron.
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| 4. | As a rule, it requires far less energy to remove an outer-shell electron than an inner-shell electron.
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| 5. | The-closo-term is designated to the molecule as a result of its closed shell electron count for boron chemistry.
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| 6. | However, when more electrons are involved, each electron ( in the n-valence-shell electrons are more easily removed from the atom.
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| 7. | Ionizing radiation is any form of radiation that has sufficient energy to remove an outer shell electron from an atom.
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| 8. | The deformation depends on the field magnitude and the orbital type of outer shell electrons, as shown by low-symmetry lattice sites.
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| 9. | This is equal to the number of electrons in its valence shell if all the valence shell electrons are used for bonding.
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| 10. | Atoms of metals readily lose their outer shell electrons, resulting in a free flowing cloud of electrons within their otherwise solid arrangement.
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