SOIL BASICS II MICROSCOPIC TO ATOMIC ORBITAL DESCRIPTION OF SOIL CHEMICAL CHARACTERISTICS - Introduction to Soil Chemistry

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side - by - side , as depicted in the p x -p x representation. This is possible because

the p and d orbitals are directed in space along the x , y , and z axes.

In some atoms the p and s orbitals are mixed together to form several equiv-

alent orbitals. The most common example is carbon, where four orbitals are

formed by mixing one s orbital with three p orbitals to give four equivalent

orbitals designated as sp 3 orbitals.

Silicon as SiO 2 , or its polymeric form [SiO 4 ] n , has only two types of orbitals

available for bonding. In the following scheme, sp 3 bonding occurs in SiO 4 and

[SiO 4 ] n ; however they are tetrahedral, not planar as shown:

O

Si

O

Si

(2.1)

O

In SiO 2 the Si and O atoms have sp 2 -hybridized orbitals 5 forming sigma bonds

and p orbitals forming p bonds. The oxygen also has p orbitals containing lone

pairs of electrons. Polymeric silicon has sp 3 -hybridized obitals available for

bonding, while oxygen still has lone pairs of electrons in p orbitals. These then

are the orbitals available for bonding to elements or compounds that come

into contact with the particle's surface. This type of interaction could be of

either end-on-end or p type (i.e., side-by-side). In all cases steric hindrances

may limit the type of interaction occurring.

Clays contain aluminum oxides in addition to silica as SiO 2 and its poly-

meric forms. Again there are the p orbitals of oxygen and sp -hybridized

orbitals from aluminum, which may result in end-on-end or side-by-side

bonding with the same restrictions encountered with silicon.

For removal of compounds bonded to silicon, aluminum or oxygen bonded

to silicon or aluminum p - and sp -hybridized orbitals must be broken and new

bonds formed. This will require energy and the correct orientation of attack-

ing groups along with an effective attacking species. In addition, the rate of

species removal will depend on the reaction path and the steric factors

involved. All of these put together will determine the overall rate of the reac-

tion and the time needed for extraction.

2.4.

ENERGY CONSIDERATIONS

The first question in terms of the stability or strength of any bonding interac-

tion is energy. A general equation for energy is D H = H i - H e . This equation

5 sp 2 -hybridized orbitals are formed by mixing one s orbital with two p orbitals to produce three

sp 2 orbitals.

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