Rank the following elements by effective nuclear charge, zeff, for a valence electron. f li be b n

Rank in increasing order of effective nuclear charge:

Li < Be < B < N < F

Explanation:

This explains the meaning of effective nuclear charge, Zeff, how to determine it, and the calculations for a valence electron of each of the five given elements: F, Li, Be, B, and N.

1) Effective nuclear charge definitions

While the total positive charge of the atom nucleus (Z) is equal to the number of protons, the electrons farther away from the nucleus experience an effective nuclear charge (Zeff) less than the total nuclear charge, due to the fact that electrons in between the nucleus and the outer electrons partially cancel the atraction from the nucleus. Such effect on on a valence electron is estimated as the atomic number less the number of electrons closer to the nucleus than the electron whose effective nuclear charge is being determined: Zeff = Z - S.

2) Z eff for a F valence electron:

F's atomic number: Z = 9Total number of electrons: 9 (same numer of protons)Period: 17 (search in the periodic table or do the electron configuration)Number of valence electrons:  7 (equal to the last digit of the period's number)Number of electrons closer to the nucleus than a valence electron: S = 9 - 7 = 2Zeff = Z - S = 9 - 2 = 7

3) Z eff for a Li valence eletron:

Li's atomic number: Z = 3Total number of electrons: 3 (same number of protons)Period: 1 (search on the periodic table or do the electron configuration)Number of valence electrons: 1 (equal to the last digit of the period's number)Number of electrons closer to the nucleus than a valence electron: S = 3 - 1 = 2Z eff = Z - S = 3 - 2 = 1.

4) Z eff for a Be valence eletron:

Be's atomic number: Z = 4Total number of electrons: 4 (same number of protons)Period: 2 (search on the periodic table or do the electron configuration)Number of valence electrons: 2 (equal to the last digit of the period's number)Number of electrons closer to the nucleus than a valence electron: S = 4 - 2 = 2Z eff = Z - S = 4 - 2 = 2

5) Z eff for a B valence eletron:

B's atomic number: Z = 5Total number of electrons: 5 (same number of protons)Period: 13 (search on the periodic table or do the electron configuration)Number of valence electrons: 3 (equal to the last digit of the period's number)Number of electrons closer to the nucleus than a valence electron: S = 5 - 3 = 2Z eff = Z - S = 5 - 2 = 3

6) Z eff for a N valence eletron:

N's atomic number: Z = 7Total number of electrons: 7 (same number of protons)Period: 15 (search on the periodic table or do the electron configuration)Number of valence electrons: 5 (equal to the last digit of the period's number)Number of electrons closer to the nucleus than a valence electron: S = 7 - 5 = 2Z eff = Z - S = 7 - 2 = 5

7) Summary (order):

  Atom          Zeff for a valence electron

F                   7Li                   1Be                 2B                   3N                   5Conclusion: the order is Li < Be < B < N < F

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