Difference between revisions of "Electronegativity and Bonding Between Atoms"

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<math>\chi = \frac{IP + EA}{ 2}\,\!</math>
<math>\chi = \frac{IP + EA}{ 2}\,\!</math>


Note that the ionization potential is the energy required to remove an electron from an atom and the electron affinity is the energy released when an atom captures an electron
Note that the ionization potential is the energy required to remove an electron from an atom (to vacuum) and the electron affinity is the energy released when an atom captures an electron (into the lowest unfilled orbital).


The more electronegative the atom the lower the energy of the orbital in a given row.
The more electronegative the atom the lower the energy of the orbital within a given row.
 
Here is a summary of the different kinds of bonds.

Revision as of 12:16, 18 May 2009

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Ionization pot.jpg

Electronegativity describes how much an atom hold its electrons tightly. An atom that is less electronegative will be more likely to give up its electrons. The electronegativity of atoms determines the degree that electrons are transferred between molecules or shared between bonding atoms.

Mulliken presents a useful definition of electronegativity as the average of the ionization potential (IP) and the electron affinity (EA).

<math>\chi = \frac{IP + EA}{ 2}\,\!</math>

Note that the ionization potential is the energy required to remove an electron from an atom (to vacuum) and the electron affinity is the energy released when an atom captures an electron (into the lowest unfilled orbital).

The more electronegative the atom the lower the energy of the orbital within a given row.

Here is a summary of the different kinds of bonds.