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3 rd - Orbitals

3 rd - Orbitals. Orbitals. each sublevel is broken into orbitals each orbital can hold a maximum of 2 electrons orbital- a 3D region around the nucleus that has a high probability of holding electrons. Number of Orbitals. sublevel max # e - # orbitals s p d f. One s orbital.

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3 rd - Orbitals

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  1. 3rd- Orbitals

  2. Orbitals • each sublevel is broken into orbitals • each orbital can hold a maximum of 2 electrons • orbital- a 3D region around the nucleus that has a high probability of holding electrons

  3. Number of Orbitals sublevel max # e- # orbitals s p d f

  4. One s orbital • spherical

  5. Three p orbitals • dumbbell-shaped

  6. Five d orbitals

  7. Seven f orbitals

  8. Energy # of Types of Level Row #s Sublevels Sublevels 1 2 3 4

  9. 4th -Electron Configurations

  10. Electron Configurations • the arrangement of electrons in an atom • each element has a unique electron configuration • electrons fill the lowest energy levels first • ground state electron configuration- lowest energy arrangement of electrons

  11. Rules for Arrangements • Aufbau Principle- an electron occupies the lowest-energy orbital that can receive it • Beginning in the 3rd energy level, the energies of the sublevels begin to overlap

  12. Rules for Arrangements • Pauli Exclusion Principle- no two electrons in the same atom can occupy the same place at the same time • Hund’s Rule- orbitals of a sublevel are each occupied by one electron before any orbital is occupied by a second • all unpaired electrons must have the same spin

  13. Rules for Arrangements

  14. Writing Configurations • Orbital Notation: • an orbital is written as a line • each orbital has a name written below it • electrons are drawn as arrows (up and down) • Electron Configuration Notation • number of electrons in sublevel is added as a superscript

  15. Order for Filling Sublevels

  16. Writing Configurations • How many e- in the atom? • What sublevel is the element in? • Draw out lines for each orbital beginning with 1s and ending with the sublevel identified • Add arrows individually to the orbitals until all electrons have been drawn

  17. Silicon • number of electrons: 14 • last electron is in sublevel: 3p 1s 2s 2p 3s 3p • Valence Electrons- the electrons in the outermost energy level

  18. 1s 2s Chlorine • number of electrons: 17 • last electron is in sublevel: 3p 2p 3s 3p

  19. Sodium • number of electrons: 11 • last electron is in sublevel: 3s 1s 2s 2p 3s

  20. Calcium • number of electrons: 20 • last electron is in sublevel: 4s 1s 2s 2p 3s 3p 4s

  21. Bromine • number of electrons: 35 • last electron is in sublevel: 4p 1s 2s 2p 3s 3p 1s 2s 2p 3s 3p 4s 3d 4p 4s 3d 4p

  22. Noble Gas Notation • short hand for larger atoms • configuration for the last noble gas is abbreviated by the noble gas’s symbol in brackets

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