Ce diaporama a bien été signalé.
Nous utilisons votre profil LinkedIn et vos données d’activité pour vous proposer des publicités personnalisées et pertinentes. Vous pouvez changer vos préférences de publicités à tout moment.
Electron Configuration
The periodic table
How are electrons
distributed in
the atom?
 A designation of the most probable distribution is called
electron configurat...
1. As the electrons get farther from the
nucleus, their energy becomes greater.
2. The same principle holds true for the
s...
consider three
other principles
that will help us
distribute the
electrons
properly:1.Pauli’s Exclusion Principle
2.Aufbau...
Pauli’s Exclusion
Principle
1. States that no two electrons in
an atom should have the same
four quantum numbers.
2. Electrons will go into available
...
Aufbau Principle
When placing electrons into
the orbitals of polyelectronic
atoms, we use the Aufbau
Principle.
AUFBAU (German: BUILD UP)
• Electrons will successively occupy the
available orbitals in order of increasing
energy.
• Sta...
The aufbau Principle
Hund’s Rule
• States that the most stable
arrangement of electrons is that
which allows the maximum number of
unpaired electrons.
• Ap...
Summary
• Electrons go into hydrogen-like orbitals to
construct polyelectronic atoms.
• Elements in the same column have t...
Prochain SlideShare
Chargement dans…5
×

Electron configuration.ppt

15 033 vues

Publié le

Electron configuration

Publié dans : Sciences
  • Identifiez-vous pour voir les commentaires

Electron configuration.ppt

  1. 1. Electron Configuration
  2. 2. The periodic table
  3. 3. How are electrons distributed in the atom?  A designation of the most probable distribution is called electron configuration. It refers to the distribution of electrons in the different sublevels or orbitals as well as in the main energy levels. There are 3 principles that you have to consider.
  4. 4. 1. As the electrons get farther from the nucleus, their energy becomes greater. 2. The same principle holds true for the sub-levels or orbitals. Therefore, s<p<d<f. 3. The maximum number of electrons per orientation is 2. Therefore, only 2 electrons can occupy the s orbital, 6 electrons for p orbitals, 10 electrons for d orbitals, and 14 electrons for f orbital.
  5. 5. consider three other principles that will help us distribute the electrons properly:1.Pauli’s Exclusion Principle 2.Aufbau Principle 3.Hund’s Rule
  6. 6. Pauli’s Exclusion Principle
  7. 7. 1. States that no two electrons in an atom should have the same four quantum numbers. 2. Electrons will go into available orbitals singly before beginning to pair up. 3. Two electrons can only be in the same orbital if they have opposite spins.
  8. 8. Aufbau Principle When placing electrons into the orbitals of polyelectronic atoms, we use the Aufbau Principle.
  9. 9. AUFBAU (German: BUILD UP) • Electrons will successively occupy the available orbitals in order of increasing energy. • States that an electron tends to occupy the level with a lower energy first. • This principle states that in addition to adding protons and neutrons to the nucleus, one simply adds electrons to the hydrogen-like atomic orbitals.
  10. 10. The aufbau Principle
  11. 11. Hund’s Rule
  12. 12. • States that the most stable arrangement of electrons is that which allows the maximum number of unpaired electrons. • Applies to electrons that need to occupy the same sub-level. • This arrangement minimizes electron- electron repulsions. • Electrons occupy an orbital having equal energy one by one first before pairing up.
  13. 13. Summary • Electrons go into hydrogen-like orbitals to construct polyelectronic atoms. • Elements in the same column have the same number of valence electrons. • Elements in the same column will have similar chemical properties. • Remember the “trick” for the order of the energies of the orbitals.

×