1. No category

1C – Students know how to use the Students know how to use the
periodic table to identify alkali metals, alkaline earth metals and transition metals trends in
transition metals, trends in ionization energy, electronegativity, and the relative sizes of ions and d h
l
f
d
atoms. Alkali Metals
Alkali Metals
• Alkali Metals – Group 1 elements, except for Hydrogen
‐ Li, Na, K, Rb, Cs, Fr
2. Alkaline Earth Metals – Group 2 elements.
‐ Be, Mg, Ca, Sr, Ba, Ra
B M C S B R
3. Transition Metals – Groups 3 through 12, include the most common metals like iron,
include the most common metals like iron, copper, and gold. 4. Noble Gases – Group 18 elements.
‐ He, Ne, Ar, Kr, Xe, Rn
5. Ionization Energy – The energy it takes to remove an electron from an atom.
l
f
6. Electronegativity – The ability of an atom of an element to attract electrons to itself in a
an element to attract electrons to itself in a chemical bond
Alkali Metals
Alkali Metals
ALKALI METALS
The first family in the table of elements.
Does NOT incl de H drogen (H)
Does NOT include Hydrogen (H)
Soft and white, and light in weight
Extremely reactive because of their desire to bond with other elements.
• Explosive when exposed to water!
•
•
•
•
Alkaline Earth Metals
Alkaline Earth Metals
•
•
•
•
•
The second family in the table of elements.
Second most reactive family of
Second most reactive family of elements.
When they are mixed with liquids they form ‘alkaline’
form alkaline solutions.
solutions
Calcium (Ca) and Magnesium (Mg) are important for plants and animals.
U d i thi
Used in things like batteries, fireworks, lik b tt i fi
k
and flashbulbs.
ALKALINE EARTH METALS
1C ‐ Classwork/Homework
/
1.
What is one fact each about the following alkali metals? (pg. 181 182)
181‐182)
a.
b.
c.
2.
3.
Why are alkali metals stored in oil? (pg. 181)
What is one fact each about the following alkaline earth metals? (pg. 183‐184)
a.
b.
c.
4
4.
Lithium
Sodium
Potassium
Beryllium
Calcium
Magnesium
Name three factors that make magnesium a good choice for N
h
f
h
k
i
d h i f
alloys.
Transition Metals
Transition Metals
TRANSITION METALS
TRANSITION METALS
• Element groups 3 – 12 and the elements in the
and the elements in the two periods below are all transition metals. • Some of the most Some of the most
common metals, like copper, gold, and silver, are transition metals.
are transition metals.
• They act like all other metals, but the electrons they use to combine with
they use to combine with other elements are in different shells/orbitals.
Noble Gases
Noble Gases
• The eighteenth family in the table of elements.
• Do not react with other elements.
• Neon (Ne) is used in neon signs, Argon (Ar) is used in light bulbs Helium (He) is
light bulbs, Helium (He) is used in balloons, Xenon (Xe) is used in the headlights of cars.
NOBLE GASES
Classwork/Homework
/
1. What are the five (5) transition metals that are found in nature uncombined with other elements?
nature uncombined with other elements? 2. What transition metals are found in South Africa? Mexico? (pg. 200)
3 What is one fact each about the following noble gases? 3.
Wh t i
f t
h b t th f ll i
bl
?
(pg. 196)
a.
b
b.
c.
Helium
N
Neon
Argon
4. Why where noble gases the last naturally occurring elements to be discovered?
l
b di
d?
Electronegativity
• Measure
Measure of the ability of an atom to of the ability of an atom to
attract shared electrons
• Larger electronegativity means atom attracts shared electrons more strongly
attracts shared electrons more strongly
Electronegativity (cont.)
Trend in Ionization Energy
• Minimum
Minimum energy needed to remove a valence energy needed to remove a valence
electron from an atom
• The lower the ionization energy, the easier it is to remove the electron.
– Metals have low ionization energies
Trend in Atomic Size
Atomic Radius Within A Group
Atomic radius increases
going down each group of
representative elements.
Atomic Radius Across a Period
Going across a period left to right,
• an increase in number of protons increases attraction for
valence electrons.
• atomic radius decreases.
Ionization Energy, Electronegativity, and Atomic Size
d
•
Ionization energy is the energy it takes Ionization
energy is the energy it takes
to remove an electron from an atom.
The closer the electrons are to the nucleus the harder it is to pull them away from the atom
•
•
IONIZATION ENERGY
Electronegativity measures the ability of an atom of an element to attract electrons toward itself in a bond
electrons toward itself in a bond.
ELECTRONEGATIVITY
• The more protons an atom has in its nucleus the better it can attract electrons. •
Atomic and Ionic sizes are a measure of the distance between the electrons and the nucleus.
•
If there are more shells, or orbitals, in an ,
,
atom, then the electrons will be further away from the nucleus. ATOMIC SIZE
1C ‐ Classwork/Homework
/
1. For each of the following pairs of elements, decide which has the largest ionization
decide which has the largest ionization energy, electronegativity, and atomic size:
a. F and I
F dI
b. Na and Mg
c. Cs and Ba
C
dB
d. C and Si
2 Explain
2.
Explain why ionization energy decreases as why ionization energy decreases as
you go down a group.
3. Explain why atomic radii decreases as you l i h
i dii d
move left‐to‐right across a period.