Can anyone say me the electric configuration of S....
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Answers
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The cells in our bodies are masters of quantum physics---they’ve figured out the complicated dance of atoms and electrons, and they use this knowledge to build an endlessly complex series of signalling pathways and genetic circuits. We, however, are not nearly as good at quantum mechanics, and so we must adopt careful notation if we want to keep track of all the complicated situations that the electrons in our bodies find themselves in.
Electron configurations are a simple way of writing down the locations of all of the electrons in an atom. As we know, the positively-charged protons in the nucleus of an atom tend to attract negatively-charged electrons. While these electrons all stick within the atom because of their attraction to the protons, they also mutually repel each other, causing them to spread out around the nucleus in regular patterns. This results in beautiful geometric structures called orbitals that represent the distinct regions around the nucleus that each electron traces out. The reason that electrons tend to stay in their separate orbitals rather than piling on top of one another is the Pauli Exclusion Principle, a theorem from quantum mechanics that dictates that no two electrons can ever be in the same place. The Pauli Exclusion Principle arises from more than just the electrostatic repulsion of negative electrons: it comes from fundamental physical principles that constrain all subatomic particles.
The orbitals represent identifiable “addresses” for each electron around an atom. Think of the electrons as being tenants in one of several blocks of studio apartments located near a nice park. The electrons all want to live near the park (nucleus), but they can’t all live in the same place. Instead, some electrons get to live in the apartments closest to the nucleus, but as the number of electrons that want to live near a given nucleus increases, the further out some of them need to move since apartments closer to the nucleus fill up. This describes a trend observed in the periodic table: elements with small atomic number (and thus fewer electrons) tend to have most of their electrons living in orbitals near the nucleus. As we move further down the periodic table, orbitals and energy levels further out from the nucleus begin to fill up with electrons.
Answer:
you mean sulphur..
it is 2,8,6
i.e 1s2,2s2,2p6,3s2,3p4
Explanation:
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