the arrangement for the electrons are 2882 2 on the first shell 8 on the second and third and another 2 on the fourth shell
Count the total number of electrons.
No, the Bohr model does not work for all elements. It accurately describes the electronic structure of hydrogen and other single-electron systems, but it fails to explain the behavior of multi-electron atoms. Instead, a more complex quantum mechanical description, such as the Schrödinger equation, is required to accurately describe the electronic structure of all elements.
All group 2 element have same outmost shell (2)
Knowing the properties of atoms can allow the creation of new technologies. For example, doping silicon with impurities can allow the creation of semiconductors with superior/unique properties. These properties are a direct consequence of the electronic structure of the atoms, which in turn influences the band structure of the semiconductor. Thus, the knowledge of atomic properties can be used to produce useful materials.
potassium
Count the total number of electrons.
No, the Bohr model does not work for all elements. It accurately describes the electronic structure of hydrogen and other single-electron systems, but it fails to explain the behavior of multi-electron atoms. Instead, a more complex quantum mechanical description, such as the Schrödinger equation, is required to accurately describe the electronic structure of all elements.
Do to unequal distribution of electronic cloud between two atoms, the both atoms acquire a partial positive atoms, the both atoms acquire a partial positive and negative charge resperctively.
All group 2 element have same outmost shell (2)
Henry F. Schaefer has written: 'The electronic structure of atoms and molecules' -- subject(s): Quantum chemistry
which valance shell electron configuration of neutral atoms would represent an element most likely to form a 2-ion?
Look down at the link "Atomic structure of silicon atoms". There you will find the atomic structure of silicon atoms.
mbpl
2,7
1s22s1
Knowing the properties of atoms can allow the creation of new technologies. For example, doping silicon with impurities can allow the creation of semiconductors with superior/unique properties. These properties are a direct consequence of the electronic structure of the atoms, which in turn influences the band structure of the semiconductor. Thus, the knowledge of atomic properties can be used to produce useful materials.
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