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Transcript 
Covalent Bonding
Unit 8 Notes
Covalent Bonding
Atoms gain stability when they share
electrons and form covalent bonds.
•Atoms gain stability when they share electrons and form
covalent bonds.
•Lower energy states make an atom more stable.
•Gaining or losing electrons makes atoms more stable by
forming ions with noble-gas electron configurations.
•Sharing valence electrons with other atoms also results in
noble-gas electron configurations.
Covalent Bonds
• Atoms in non-ionic compounds share
electrons.
• The chemical bond that results from sharing
electrons is a covalent bond.
• A molecule is formed when two or more
atoms bond.
Covalent Bonds
• Diatomic molecules (H2, F2 for example) exist
because two-atom molecules are more stable
than single atoms.
Covalent Bonds
• The most stable
arrangement of atoms
exists at the point of
maximum net attraction,
where the atoms bond
covalently and form a
molecule.
• Break for Lewis
Structures
Covalent Bonds
• The strength depends on the distance
between the two nuclei, or bond
• As length increases, strength decreases.
Covalent Bonds
• The amount of energy required to break a bond is
called the bond dissociation energy.
• The shorter the bond length, the greater the energy
required to break it.
Covalent Bonds
• An endothermic reaction is one where a
greater amount of energy is required to break
a bond in reactants than is released when the
new bonds form in the products.
• An exothermic reaction is one where more
energy is released than is required to break
the bonds in the initial reactants.
Naming Molecules
Specific rules are used when naming
binary molecular compounds.
• The first element is always named first using the
entire element name.
• The second element is named using its root and
adding the suffix –ide.
• Prefixes are used to indicate the number of atoms of
each element in a compound.
• Ignore prefix on FIRST element if the molecule
contains only one of them.
Naming Molecules
• Prefixes
–
–
–
–
–
–
–
–
–
–
1 = mono
2 = di
3 = tri
4 = tetra
5 = penta
6 = hexa
7 = hepta
8 = octa
9 = nona
10 = deca
Naming Molecules
• Examples:
– N2O4 is Dinitrogen Tetroxide
– CO2 is carbon dioxide
– PCl5 is phosphorus pentachloride
Naming Molecules
• Practice:
– SBr2
– IF7
– C2H6
– SiO
– Na2O
Naming Molecules
• Writing the formula from the name is
EASY!
– Diphosphorus Pentoxide?
– P2O5
Electronegativity and Polarity
A chemical bond’s character is related to
each atom’s attraction for the electrons in
the bond.
• This table lists the character and type of
chemical bond that forms with differences in
electronegativity.
Electronegativity and Polarity
• Unequal sharing of electrons results in a
polar covalent bond.
• Bonding is on a continuum between nonpolar
covalent (equal sharing), polar covalent
(unequal sharing), and ionic (transfer)
• Electronegativity differences provide a “bully
factor” that provides a relative strength to
“take” electrons from other atoms
Electronegativity and Polarity
• Polar covalent bonds form when atoms pull on
electrons in a molecule unequally.
• Electrons spend more time around one atom than
another resulting in partial charges at the ends of the
bond called a dipole.
Electronegativity and Polarity
• Covalently bonded molecules are either polar
or non-polar.
• Non-polar molecules are not attracted by an
electric field. They tend to have very low
boiling and melting points
• Polar molecules align with an electric field.
Their boiling and melting points are higher
than non-polar molecules, but not as high as
ionic compounds.
Electronegativy and Polarity
• Compare water and CCl4.
• Both bonds are polar, but only water is a
polar molecule because of the shape of the
molecule.
Electronegativity and Polarity
• The electric charge on a CCl4 molecule measured at
any distance from the center of the molecule is
identical to the charge measured at the same
distance on the opposite side.
Electronegativity and Polarity
• Solubility is the property of a substance’s
ability to dissolve
• Polar molecules and ionic substances are
usually soluble in polar substances.
• Non-polar molecules dissolve only in nonpolar substances.
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