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Electron Configurations

Electron Configurations. Bohr’s model-electron cloud. Energy level of an electron analogous to the rungs of a ladder The electron cannot exist between energy levels, just like you can’t stand between rungs on a ladder.

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Electron Configurations

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  1. Electron Configurations

  2. Bohr’s model-electron cloud • Energy level of an electron • analogous to the rungs of a ladder • The electron cannot exist between energy levels, just like you can’t stand between rungs on a ladder

  3. of energy is the amount of energy required to move an electron from one energy level to another A quantum

  4. In 1926, Erwin Schrodinger • derived an equation that described the energy and position of the electrons in an atom

  5. The Quantum Mechanical Model • Has energy levels for electrons. • Orbits are not circular. • It can only tell us the probability of finding an electron a certain distance from the nucleus.

  6. The Quantum Mechanical Model • The atom is found inside a blurry “electron cloud” • An area where there is a chance of finding an electron. • Think of fan blades

  7. atomic orbitals(coined by scientists in 1932) - regions where there is a high probability of finding an electron. • Sublevels- letters s, p, d, and f Atomic Orbitals

  8. Principal Quantum Number Generally symbolized by “n”, it denotes the shell (energy level/period) in which the electron is located. Maximum number of electrons that can fit in an energy level is: 2n2

  9. Summary # of shapes (orbitals) Maximum electrons Starts at energy level 2 s 1 1 6 p 3 2 10 5 3 d 14 7 4 f

  10. …are the way electrons are arranged in various orbitals around the nuclei of atoms. Electron Configurations…

  11. Aufbau principle- electrons enter the lowest energy first. Three rules tell us how:

  12. Pauli Exclusion Principle- at most 2 electrons per orbital - different spins

  13. Pauli Exclusion Principle No two electrons in an atom can have the same four quantum numbers. To show the different direction of spin, a pair in the same orbital is written as: Wolfgang Pauli

  14. Hund’s Rule- When electrons occupy orbitals of equal energy, they don’t pair up until they have to. Let’s write the electron configuration for Phosphorus Electron Configurations

  15. 7p 6d 5f 7s 6p 5d 6s 4f 5p 4d 5s 4p 3d 4s 3p Increasing energy 3s 2p 2s 1s • The first two electrons go into the 1s orbital Notice the opposite direction of the spins • only 13 more to go...

  16. 7p 6d 5f 7s 6p 5d 6s 4f 5p 4d 5s 4p 3d 4s 3p Increasing energy 3s 2p 2s 1s • The next electrons go into the 2s orbital • only 11 more...

  17. 7p 6d 5f 7s 6p 5d 6s 4f 5p 4d 5s 4p 3d 4s 3p Increasing energy 3s 2p 2s 1s • The next electrons go into the 2p orbital • only 5 more...

  18. 7p 6d 5f 7s 6p 5d 6s 4f 5p 4d 5s 4p 3d 4s 3p Increasing energy 3s 2p 2s 1s • The next electrons go into the 3s orbital • only 3 more...

  19. 7p 6d 5f 7s 6p 5d 6s 4f 5p 4d 5s 4p 3d 4s 3p Increasing energy 3s 2p 2s 1s • The last three electrons go into the 3p orbitals. • They each go into separate shapes (Hund’s) • 3 unpaired electrons Orbital notation

  20. Let’s stick with P = 1s22s22p63s23p3 Confused? Don’t be…there is an easy way to write these things based on the positions of elements on the chart First, grab your chart However, there is an easier way to do electron configurations

  21. Look at the Labels • group 1: s1 • Group 2: s2 • Group 3: p1 • Group 4: p2 • Group 5: p3 • Group 6: p4 • Group 7: p5 • Group 8: p6 • Transition Metals: d 1-10 • Lanthanide series f: 1-14

  22. Now, go back to P • What period is P? 3 • What group is P? 5 • So, now we build up: 1s1 (H), 1s2 (He),2s1 (Li), 2s2 (Be),2p1 (B), 2p2 (C), 2p3, (N), 2p4 (O), 2p5 (F), 2p6 (Ne), 3s1 (Na), 3s2 (Mg),3p1 (Al), 3p2 (Si), 3p3 (P) 1s22s22p63s23p3

  23. H He Li Be Let’s Try These Together

  24. B C N O

  25. F Ne

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