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SECTION 3: ELECTRON CONFIGURATIONS CHAPTER 9: ELECTRONS IN ATOMS AND THE PERIODIC TABLE.

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Presentation on theme: "SECTION 3: ELECTRON CONFIGURATIONS CHAPTER 9: ELECTRONS IN ATOMS AND THE PERIODIC TABLE."— Presentation transcript:

1 SECTION 3: ELECTRON CONFIGURATIONS CHAPTER 9: ELECTRONS IN ATOMS AND THE PERIODIC TABLE

2 Learning Goals Apply the Pauli exclusion principle, the aufbau principle, and Hund's rule to write electron configurations using orbital diagrams and electron configuration notation.

3 Electron Configuration An electron configuration shows how the electrons occupy the orbitals for a particular atom. The aufbau principle states that each electron occupies the lowest energy orbital available.

4 1s orbital 2 electrons

5 2s orbital 2 electrons

6 2p orbital 6 electrons

7 3s orbital 2 electrons

8 3p orbital 6 electrons

9 4s orbital 2 electrons

10 3d orbital 10 electrons

11 4p orbital 6 electrons

12 5s orbital 2 electrons

13 4d orbital 10 electrons

14 5p orbital 6 electrons

15 6s orbital 2 electrons

16 4f orbital 14 electrons

17 5d orbital 10 electrons

18 6p orbital 6 electrons

19 7s orbital 2 electrons

20 5f orbital 14 electrons

21 6d orbital 10 electrons

22 7p orbital 6 electrons

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25 Electron Configuration Hund’s rule states that single electrons must occupy each equal- energy orbital before additional electrons with can occupy the same energy level orbitals. All electrons in singly occupied orbitals must have the same spin. School bus rule

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27 Electron Configuration The Pauli exclusion principle states that a maximum of two electrons can occupy a single orbital, but only if the electrons have opposite spins. We symbolize this as two arrows pointing in opposite directions.

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30 Orbital Notation Examples Write the orbital notation electron configuration for the following atoms or ions. State how many unpaired electrons are in each. a. N b. Cl

31 Orbital Notation Examples c. Al d. V

32 Orbital Notation Examples e. Li + f. O 2-

33 Electron Configuration Electron Configurations Using the Periodic Table: Read the periodic table from left to right to determine the electron configuration.

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36 Electron Configuration Write the ground state electron configuration for the following: a. C b. Fe

37 Electron Configuration c. W d. S 2-

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39 Electron Configuration Noble gas notation uses noble gas symbols in brackets to shorten inner electron configurations of other elements. The noble gas must have a lower atomic number than the atom or ion that the electron configuration is being written for.

40 Noble Gas Notation a. W b. Eu

41 Noble Gas Notation c. As d. O

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44 Electron Configuration The aufbau diagram can be used to write correct ground-state electron configurations for all elements up to and including Vanadium, atomic number 23. The electron configurations for certain transition metals, like chromium and copper, do not follow the aufbau diagram due to increased stability of half-filled and filled sets of s and d orbitals.

45 Electron Configuration Chromium: [Ar]4s 1 3d 5 Copper: [Ar]4s 1 3d 10 These exceptions occur because a half-filled d subshell and a completely filled d subshell are particularly stable

46 Electron Configuration The number of outer-shell electrons in a transition series does not change as you move across a period. The transition series represents the filling of core orbitals and the number of outershell electrons is mostly constant—either 2 or 1.

47 Electron Configuration (2e–) for 4s 2 3d x (1e–) for 4s 1 3d 5 or 4s 1 3d 10

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