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We begin with our understanding of the relationship between chemical behavior and atomic structure. Thatis, we assume the Periodic Law that the chemical and physical properties of the elements are periodic functions of atomic number.We further assume the structure of the atom as a massive, positively charged nucleus, whose size is much smaller than that ofthe atom as a whole, surrounded by a vast open space in which move negatively charged electrons. These electrons can be effectivelypartitioned into a core and a valence shell, and it is only the electrons in the valence shell which are significant to thechemical properties of the atom. The number of valence electrons in each atom is equal to the group number of that element in thePeriodic Table.
The atomic molecular theory is extremely useful in explaining what it means to form a compound its componentelements. That is, a compound consists of identical molecules, each comprised of the atoms of the component elements in a simple wholenumber ratio. However, the atomic molecular theory also opens up a wide range of new questions. We would like to know what atomicproperties determine the number of atoms of each type which combine to form stable compounds. Why are some combinations observed andother combinations not observed? Some elements with very dissimilar atomic masses (for example, iodine and chlorine) form very similarchemical compounds, but other elements with very similar atomic masses (for example, oxygen and nitrogen) form very dissimilarcompounds. What factors are responsible for the bonding properties of the elements in a similar group? In general, we need to knowwhat forces hold atoms together in forming a molecule.
We have developed a detail understanding of the structure of the atom. Our task now is to apply thisunderstanding to develop a similar level of detail about how atoms bond together to form molecules.
To begin our analysis of chemical bonding, we
define the
valence of an atom by its tendencies to form molecules.
The inert gases do not tend to combine with any other atoms. Wethus assign their
valence as 0, meaning that these atoms tend to form 0bonds. Each halogen prefers to form molecules by combining with a
single hydrogen atom (
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