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Three rules are used to determine electron arrangement in an atom. Section 3: Electron Configuration K What I Know W What I Want to Find Out L What I Learned.

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Presentation on theme: "Three rules are used to determine electron arrangement in an atom. Section 3: Electron Configuration K What I Know W What I Want to Find Out L What I Learned."— Presentation transcript:

1 Three rules are used to determine electron arrangement in an atom. Section 3: Electron Configuration K What I Know W What I Want to Find Out L What I Learned

2 6(E) Express the arrangement of electrons in atoms through electron configurations and Lewis valence electron dot structures. Electron Configuration Copyright © McGraw-Hill Education

3 Essential Questions How are the Pauli exclusion principle, the aufbau principle, and Hund’s rule used to write electron configurations? How do electron-dot structures represent an atom’s valence electrons? Electron Configuration Copyright © McGraw-Hill Education

4 Review electron Electron Configuration Copyright © McGraw-Hill Education Vocabulary New electron configuration aufbau principle Pauli exclusion principle Hund’s rule valence electron electron-dot structure

5 Ground-State Electron Configuration The arrangement of electrons in the atom is called the electron configuration. The aufbau principle states that each electron occupies the lowest energy orbital available. Electron Configuration Copyright © McGraw-Hill Education

6 Ground-State Electron Configuration Electron Configuration Copyright © McGraw-Hill Education

7 Ground-State 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. Hund’s rule states that single electrons with the same spin must occupy each equal-energy orbital before additional electrons with opposite spins can occupy the same energy level orbitals. Electron Configuration Copyright © McGraw-Hill Education

8 Interactive Table – Electron Configurations and Orbital Diagrams Concepts in Motion FPO Add link to concepts in motion interactive table from page 158 here. Electron Configuration Copyright © McGraw-Hill Education

9 Interactive Table – Electron Configurations Concepts in Motion FPO Add link to concepts in motion interactive table from page 159 here. Electron Configuration Copyright © McGraw-Hill Education

10 Ground-State 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. Electron Configuration Copyright © McGraw-Hill Education

11 Valence Electrons Valence electrons are defined as electrons in the atom’s outermost orbitals—those associated with the atom’s highest principal energy level. Electron-dot structure consists of the element’s symbol representing the nucleus, surrounded by dots representing the element’s valence electrons. Electron Configuration Copyright © McGraw-Hill Education

12 Interactive Table – Electron Configurations and Dot Structures Concepts in Motion FPO Add link to concepts in motion interactive table from page 161 here. Electron Configuration Copyright © McGraw-Hill Education

13 Electron Configuration Copyright © McGraw-Hill Education Electron-Dot Structures EVALUATE THE ANSWER The correct symbol for tin (Sn) has been used, and the rules for drawing electron- dot structures have been correctly applied. Use with Example Problem 3. Problem Some toothpastes contain stannous fluoride, a compound of tin and fluorine. What is tin’s electron-dot structure? Response ANALYZE THE PROBLEM Consult the periodic table to determine the total number of electrons in a tin atom. Write out tin’s electron configuration, and determine its number of valence electrons. Then use the rules for electron-dot structures to draw the electron-dot structure for tin. SOLVE FOR THE UNKNOWN Tin has an atomic number of 50. Thus, a tin atom has 50 electrons. Write out tin’s electron configuration using noble-gas notation. The closest noble gas is Kr. [Kr]5s 2 4d 10 5p 2 The two 5s and the two 5p electrons (the electrons in the orbitals related to the atom’s highest principal energy level) represent tin’s four valence electrons. Draw the four valence electrons around tin’s chemical symbol (Sn) to show tin’s electron-dot structure.

14 Electron Configuration Copyright © McGraw-Hill Education Review Essential Questions How are the Pauli exclusion principle, the aufbau principle, and Hund’s rule used to write electron configurations? How do electron-dot structures represent an atom’s valence electrons? Vocabulary electron configuration aufbau principle valence electron electron-dot structure Pauli exclusion principle Hund’s rule

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