Download Chapter 10 Handouts - Bakersfield College

Outline Chapter 10 The Periodic
Law
10-1. Chemical Change
10-2. Three Classes of Matter
10-3. The Atomic Theory
10-4. Metals and Nonmetals
10-5. Chemical Activity
10-6. Families of Elements
10-7. The Periodic Table
10-8. Groups and Periods
10-9. Shells and Subshells
10-10. Explaining the Periodic Table
10-11. Types of Bonding
10-12. Covalent Bonding
10-13. Ionic Bonding
10-14. Ionic Compounds
10-15. Atom Groups
10-16. Naming Compounds
10-17. Chemical Equations
10-1. Chemical Change
The medieval search for a way to change ordinary
metals into gold is called alchemy. A chemical
reaction results in the formation of a new
substance whose properties are different from those
of the individual substances that participate in the
reaction.
10-2. Two Classes of Matter
Two classes of matter are Pure Substances,
and mixtures.
Chemical
Process/
Properties
Physical
Process/
Properties
1
10-2. Two Classes of Matter
The difference between a mixture and pure substance.
10-2. Two Classes of Matter
Examples of Chemical and Physical Processes.
Chemical Process
burning
fermentation
rusting
Chemical Property
combustible
reactive
Edible
Physical Process
Filtering
distillation
reverse osmosis
Physical Property
hardness
color
texture
10-2. Two Classes of Matter
In a compound, the elements are present in a
specific ratio by mass according to the law of
definite proportions. In a mixture, the components
are not present in a specific ratio by mass.
2
10-3. Atomic Theory
The English schoolteacher John Dalton (1766-1844)
proposed an atomic theory, an old idea from Democritus.
Some atoms form molecules. Not all compounds are molecules.
10-4. Metals and Nonmetals
10-4. Metals and Nonmetals
Metals
Nonmetals
•All metals, except mercury, are •Nonmetals may be solid,
solid at room temperature.
liquid, or gaseous.
•Metals have a characteristic
metallic luster.
•Nonmetals do not have a
luster.
•All metals are opaque.
•Most nonmetals are
transparent in thin sheets.
•Metals can be shaped by
bending or hammering.
•Solid nonmetals are brittle.
•Metals are good conductors
of heat and electricity.
•Nonmetals are insulators.
•Most elements are metals.
3
10-5. Chemical Activity
•Active elements combine readily to form compounds.
•Inactive elements have little tendency to react chemically.
•Active elements liberate more heat when they react than do
inactive elements.
•Active elements usually form stable compounds.
10-6. Families of Elements
•The halogens, or "salt formers," are active
nonmetals. They are in group 7.
•The alkali metals are active metals and have
low melting points.They are in group 1.
•The alkaline earth metals are less active than
the alkali metals. They are in group 2.
•The inert gases are inactive nonmetals. They
are in group 8
10-7. The Periodic Table
The Russian chemist Dmitri Mendeleev formulated the
periodic law about 1869 which states that when elements are
listed in order of atomic number, elements with similar chemical
and physical properties appear at regular intervals. The
periodic table is a listing of the elements according to atomic
number in a series of rows such that elements with similar
properties form vertical columns.
http://www.webelements.com/
4
10-8. Groups and Periods
The periodic table arranges
chemical families of
elements in vertical columns
called groups. The
horizontal rows of elements
of the periodic table are
called periods. The
transition elements are
placed between groups 2
and 3 and include: the rareearth metals (atomic
numbers 57-71), the
actinides (atomic numbers
89-105).
10-9. Shells and Subshells
The electrons in an atom that have the same principal quantum
number n occupy the same shell. The electrons in an atom that
have the same orbital quantum number l occupy the same
subshell. The larger the value of l, the more electrons the
subshell can hold. A shell or subshell that contains its full quota of
electrons is said to be closed.
10-10. Explaining the Periodic
Table
The Grand Secret of
Chemistry-All atoms want to
become like the noble gases
with filled shells or electronic
orbitals. They do this by
gaining or losing electrons to
become ions.
5
8
10.11 Types of Bonds
• Covalent Bonds (share electrons)
• Ionic Bonds (transfer electrons)
– Held together by electrostatic
attractions (+ and – ions attract)
• Metallic Bonds (sea of electrons)
10-12. The Covalent Bond
Covalent compounds are substances whose atoms are
joined by one or more pairs of electrons in a covalent bond.
10-12. The Covalent Bond
Polar covalent compounds are those in which the shared
electron pairs are closer to one atom than to the other,
making one part of the molecule relatively negative and
another part relatively positive.
Hδ+-Clδ-
OδHδ+
Hδ+
6
10-13. Ionic Bond
An ionic bond is formed when electrons are transferred
between two or more atoms and the resulting ions of opposite
charge attract each other.
10-14. Ionic Compounds
When a metal atom combines with a nonmetal atom to form
an ionic compound, the chemical formula of the ionic
compound formed can be determined by knowing how many
electrons the metal atom loses and how many electrons the
nonmetal atom gains.
10-14. Ionic Compounds
What ionic compounds can you make from the following?
Na K Ca Mg Al
NaCl
KBr
Cl Br O S N
CaCl2
MgBr2
sodium chloride potassium bromide calcium chloride magnesium bromide
CaO
MgS
AlCl3
K3N
calcium oxide magnesium sulfide aluminum chloride potassium nitride
Al2O3
Aluminum oxide
7
10-15. Atom Groups
Atom groups appear as units
in many compounds and
remain together during
chemical reactions. The
sulfate group SO4 is an
example of an atom group. A
precipitate is an insoluble
solid that results from a
chemical reaction in solution.
When two or more atom
groups of the same kind are
present in the formula of a
compound, parentheses are
placed around the group.
Example: Ca(NO3)2
Ions of Common Atom Groups
Or Polyatomic Ions
•
•
•
•
•
•
•
•
•
•
•
Ammonium……………...
Nitrate……………………
Permanganate……………
Chlorate………………….
Hydroxide……………….
Cyanide………………….
Sulfate…………………...
Carbonate………………..
Chromate………………..
Silicate…………………..
Phosphate……………..…
•
•
•
•
•
•
•
•
•
•
•
NH4+
NO3MnO4ClO3OHCNSO4 2 CO32CrO42SiO32PO43-
10-16. Naming Compounds
•A compound ending in -ide usually is composed of only two
elements. Hydroxides which contain the OH- ion are an
exception. Sodium Chloride=NaCl
•A compound ending in -ate contains oxygen and two or more
other elements. Calcium Sulfate=CaSO4
•When the same pair of elements occurs in two or more
compounds, a prefix (mono = 1, di = 2, tri = 3, tetra = 4, penta =
5, hexa =6, and so on) may be used to indicate the number of
one or both kinds of atoms in the molecule. Carbon Dioxide =
CO2
•When one of the elements in a compound is a metal that can
form different ions, the ionic charge of the metal is given by a
roman numeral. Copper(II) Chloride= CuCl2
8
Lets Practice!
Na2CO3
Sodium carbonate
KMnO4
NaOH
CuSO4
Potassium permanganate
Sodium hydroxide
Copper (II) sulfate or Cupric sulfate
SnF2
Tin (II) Flouride or Stannous Flouride
SnF4
Tin (IV) Flouride or Stannic Flouride
PbCrO4
Lead (II) chromate or Plubous chromate
H2O
Hydrogen oxide (no……just water)
Nitrogen trihydride (no..just ammonia)
NH3
Taking 20 kids to the zoo?
At who’s
What
if you
house
came
would
home
Parents
are
funny
withthat
you
drop
22
kids?
them
off?
only
18 kids?
way!
10-17. Chemical Reactions
In a chemical equation the formulas of the reacting substances
(reactants) appear on the left-hand side and the formulas of the
products appear on the right-hand side.
CH4 + O2
H2O + CO2
Chemical equations must be balanced, meaning that the
number of atoms of each kind of element must be the same on
both sides of the equation. Unbalanced chemical equations
have unequal numbers of at least one kind of atom on both sides
of the equation. Is the reaction below balanced?
K2CrO7+ SO2
K2SO4 + CrO2
9
Balancing using the underline method.
Na2O(s) + H2O(l) 2 NaOH(aq)
CH4(g) + 2 O2(g) CO2(g) + 2 H2O(g)
42 Fe(s) + 3 O2(g) 2 Fe2O3(s)
LiOH(s) + CO2(g) 2 KClO3(s)
∆
MnO2
LiHCO3(s)
2 KCl(s) + 3 O2(g)
Lecture Quiz 10
1. What type of element is Sulfur, metal or
non-metal?
2. What is the difference between a chemical
process and a chemical property?
3. What type of bond does KBr have?
4. What would be the name of CaBr2?
5. What would be the formula for Calcium
Carbonate?
10
Lecture Quiz 10
1. What type of element is Sulfur, metal or
nonmetal? Nonmetal
2. What is the difference between a chemical
process and a chemical property?
Process involves change and property describes
something..
What type of bond does KBr have? Ionic
3.
4. What would be the name of CaCl2?
Calcium Chloride
5. What would be the formula for Calcium
Carbonate? CaCO3
Lecture Quiz 10
1. What are the two basic types of
matter?
2. What are the two basic types of
elements?
3. What family is the element calcium in?
4. What would be the name of Al2S3?
5. What would be the formula for
Sodium Permanganate?
Lecture Quiz 10
1. What are the two basic types of matter?
Pure Substances and Mixtures
2. What are the two basic types of elements?
Metals and Nonmetals
3. What is the difference between a covalent
and an ionic compound? Ionic-complete electron
transfer to form ions, covalent-share electrons
4. What would be the name of Al2S3?
Aluminuim Sulfide
5. What would be the formula for Sodium
Permanganate? NaMnO4
11