Note: If you cannot clearly view any of the
periodic tables in this document, go ahead and use the periodic table from your textbook (ps.
286-287) or the periodic table in the back of your agenda (p. 125).
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1.
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Take a close look at the following model of an
atom from the Nobel Gas family.. Two-Part Question 1) How many electron energy levels does this
element have? 2) How many valence electrons does this atom contain?
a. | 1) Three electron energy levels 2) Twenty-two
neutrons | c. | 1) Three electron shells 2) Eighteen total
electrons | b. | 1) Three electron shells 2) Eight valence
electrons | d. | 1) Four electron shells 2) Eight valence
electrons |
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2.
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Review the following
non-metal group from the periodic table. What
is the family name for this group, and how many valence electrons does every element in this group
have?
a. | Family Name:
Noble Gases Valence
Electrons: Eight | c. | Family
Name: Transition
Metals Valence Electrons: Six | b. | Family Name: Halogens Valence Electrons: Seven | d. | Family Name: Halogens Valence Electrons:
Eight |
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3.
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Look at the diagram below of one non-metal
atom. Two-Part Question 1) Which
group is this atom found in? 2) What is the family name for this element?
a. | 1) Group 18 2) Noble Gas family | c. | 1) Group 1 2) Alkali Metal family | b. | 1) Group 17 2) Halogen family | d. | 1) Group 17 2)
Transition Metal family |
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4.
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In which group is this element located, and
how many valence electrons does it have?
a. | Group: 18 Valence Electrons:
8 | c. | Group: 2 Valence Electrons: 10 | b. | Group: 12 Valence Electrons:
6 | d. | Group: 18 Valence Electrons:
10 |
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5.
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A periodic table of
the elements is shown below.
What do the following three elements have in common? Atomic Number 19,
Atomic Number 55, and Atomic Number 87
a. | They all are alkaline-earth
metals with three valence electrons. | b. | They all have twp valence electrons, and they are
inert. | c. | They all have one valence electron, and they are very
reactive. | d. | They are in the same period, and they are all very
reactive. |
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6.
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The periodic table
of the elements is shown below.
Based on their locations in the periodic table, which two elements share
the most similar
chemical properties?
a. | B (atomic number: 5)
and O (atomic number: 8) | b. | He (atomic number: 2 and Ne (atomic number:
10) | c. | Au (atomic number: 79 and Ca (atomic number:
20) | d. | Li (atomic number: 3)and F (atomic number:
9) |
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7.
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Look at the diagram below of one Boron (B) atom.
Two-Part Question 1) How
many valence electrons does each Boron atom contain? 2) Is this element reactive or inert?
a. | 1) 5 valence electrons 2) It is
reactive | c. | 1) 5 valence electrons 2) It is
inert | b. | 1) 3 valence electrons 2) It is
reactive | d. | 1) 3 valence electrons 2) It is
non-reactive |
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8.
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Look at the diagram below of one Neon (N) atom.
Two-Part Question 1) Based
on the number of valence electrons, what group number is Neon found in? 2) Is this element
reactive or inert?
a. | 1) Group 18 2) It is very
reactive | c. | 1) Group 18 2) It is inert | b. | 1) Group 10 2) It is reactive | d. | 1) Group 8 2)
It is inert |
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9.
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The diagram below
shows part of the periodic table of the elements.
Which two
elements listed below each have exatly two valence electrons?
a. | C and
O | b. | Ne and
Ar | c. | Ca and
He | d. | Be and
Mg |
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10.
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Examine the following model of an
atom. How can you determine if this element
is reactive or inert?
a. | Count the number of electrons in the outer shell.
If the shell is full, the element is non-reactive. | b. | Round the atomic mass to the nearest whole number. Then subtract the atomic
number. | c. | Count the total number of electrons. If this
amount is greater than 20, then the element is inert. | d. | Add the number of protons and neutrons. If the sum is more than 10, the
element is inert. |
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