Chapter 5: Soap
Jan 18, 2016
Chapter 5: Soap
Section 5.1—Types of Bonds
Objectives:•distinguish between 4 types of bonding•describe the characteristics of each type of bonding
Why atoms bond
Atoms are most stable when they’re outer shell of electrons is full
Atoms bond to fill this outer shellFor most atoms, this means having 8 electrons
in their valence shellThe Octet Rule: atoms will gain, lose, or share
electrons in order to obtain a full set of 8 valence electrons
Common exceptions are Hydrogen and Helium which can only hold 2 electrons.
The Octet Rule & the Formation of Ions
Na-
-
- --
-
-- - -
Cl-
-
- --
-
-- - -
-
-
-
--
-
-
Sodium has 1 electron in it’s valence shell
Chlorine has 7 electrons in it’s valence shell
Metals give electrons away to reveal a full level underneath.
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Recall from the Octet Rule that atoms will gain, lose . . . in order to obtain a full set of 8 valence electrons
Nonmetals gain electrons to fill their current valence shell.
One way valence shells become full
Na-
-
- --
-
-- - -
Cl-
-
- --
-
-- - -
-
-
-
--
-
-
-+ -
The sodium now is a cation (positive charge) and the chlorine is now an anion (negative charge).
These opposite charges are now attracted, which is an ionic bond.
Ionic Bonding—Metal + Non-metal
Metals have fewer valence electrons and much lower ionization energies (energy needed to remove an electron) than non-metals
Therefore, metals tend to lose their electrons and non-metals gain electrons
Metals become cations (positively charged)Non-metals become anions (negatively charged)The cation & anion are attracted because of their
charges—forming an ionic bond
The Octet Rule and Covalent Bonds
When two non-metals bond, neither one loses or gains electrons much more easily than the other one.
Therefore, they share electronsNon-metals that share electrons equally
form non-polar covalent bondsNon-metals that share electrons unequally
form polar covalent bonds
Recall from the Octet Rule that atoms will gain, lose, or share in order to obtain a full set of 8 valence electrons
In a nonpolar covalent bond, electrons spend an equal amount of time with each nucleus.
In a polar covalent bond, the electrons spend more time with one nucleus and less time with the other.
Metallic bonding
Metal atoms form lattice structures. Each atom contributes their valence electrons to form a “sea of electrons” that are shared by all the metal atoms.
The valence electrons are free to move throughout the structure.
The part of each metal atom that remains (the nucleus and inner core electrons) is called a metallic cation.
The electron sea belongs to no one metallic cation but to the network as a whole.
Bond Type Affects Properties
The type of bonding affects the properties of the substance.
There are always exceptions to these generalizations (especially for very small or very big molecules), but overall the pattern is correct.
Melting/Boiling Points
Ionic bonds tend to have very high melting points. This is because it’s hard to pull apart those + and – charges. They are strongly attracted to one another.At room temperature, then, they found as solids!
Polar covalent bonds have the next highest melting/boiling pointsMost are solids or liquids under normal conditions
Non-polar covalent bonds generally have lower melting/boiling pointsMost are found as liquids or gases
Solubility in Water
Ionic & polar covalent compounds tend to be soluble in water
Non-polar & metallic compounds tend to be insoluble
Conductivity of Electricity
In order to conduct electricity, charge must be able to move or flow
Metallic bonds have free-moving electrons—they can conduct electricity in solid and liquid state
Ionic bonds have free-floating ions when dissolved in water or in liquid form that allow them conduct electricity
Covalent bonds never have charges free to move and therefore cannot conduct electricity in any situation
Practice Problems
1. Identify the following compounds as ionic or covalent.
a. AlCl3 b. C6H12O6 c. NO2 d. NaOH
2. Which substance(s) above would dissolve in water and conduct electricity?
3. Which substance(s) have lower melting & boiling points?
4. Describe how metallic bonding allows malleability.