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Paramagnetism and Diamagnetism

Paramagnetism and Diamagnetism. Atoms with unpaired  electrons are called paramagnetic . Paramagnetic atoms are attracted to a magnet. Atoms with paired  electrons are called diamagnetic . Diamagnetic atoms are repelled by a magnet.

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Paramagnetism and Diamagnetism

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  1. Paramagnetism and Diamagnetism • Atoms with unpaired  electrons are called paramagnetic. • Paramagnetic atoms are attracted to a magnet. • Atoms with paired  electrons are called diamagnetic. • Diamagnetic atoms are repelled by a magnet.

  2. The number of orbitals per n level is given by n2. • The maximum number of electrons per n level is 2n2.

  3. Energy Level# of OrbitalsMax. # of e- nn2 2n2 1 1 2 2 4 8 3 9 18 4 16 32

  4. The Periodic Table and Electron Configurations • The principle that describes how the periodic chart is a function of electronic configurations is the Aufbau Principle. • The electron that distinguishes an element from the previous element enters the lowest energy atomic orbital available.

  5. The Periodic Table and Electron Configurations • The Aufbau Principle describes the electron filling order in atoms.

  6. Hund’s rule • Hund’s rule tells us that the electrons will fill the p orbitals by placing electrons in each orbital singly and with same spin until half-filled. Then the electrons will pair to finish the p orbitals.

  7. The Periodic Table and Electron Configurations • 1st row elements

  8. 2nd row elements

  9. 3rd row elements

  10. There is an extra measure of stability associated with half-filled or completely filled orbitals.

  11. The Periodic Table and Electron Configurations

  12. The Periodic Table and Electron Configurations

  13. The Periodic Table and Electron Configurations • Now we can write a complete set of quantum numbers for all of the electrons in these three elements as examples. • Na • Ca • Fe

  14. Chemistry is fun!

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