test review – periodic table unit 2 section a
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Test Review – Periodic Table Unit 2 Section A. Use your periodic table to enter the symbol of the element for each of the following questions. - PowerPoint PPT PresentationTRANSCRIPT
Test Review – Periodic Table Unit 2 Section A
Use your periodic table to enter the symbol of the element for each of the following questions.
The name given to all the elements on the left side of the
periodic table which have from 1 to 3 valence electrons, conduct
electricity and heat, are malleable and ductile.
Metals
The name given to all the elements on the right side of the periodic table which have from 5
to 7 valence electrons, do not conduct electricity or heat, and
are brittle in texture.
Nonmetals
The name given to all the elements on the border of metals
and nonmetals which are not malleable or ductile, and sometimes can conduct
electricity (semiconductors)
Metalloids
The vertical columns of the periodic table. These groups share common characteristics
and are placed in these columns by their number of valence
electrons.
Families (groups)
The horizontal rows of the periodic table. These tell the number of electron shells or
energy levels for each element.
Periods
The name given to the electrons found in the outside shell of each
atom.
Valence electrons
These are the group IA elements with 1 valence electron in their
outside shell.
Alkali metals
These are the group IIA elements with 2 valence electrons in their
outside shell.
Alkali Earth Metals
These are the group VII A elements with 7 valence
electrons in their outside shell.
Halogens
These are the group VIII A or group 0 elements with 8 valence electrons in their outside shell. They have filled outside shells
and are inert.
Noble Gases
These are the Group B metals. They are not very reactive and
their valenceelectrons can change from 1 to 3.
They resist corrosion and are used for coins and jewelry.
Transition metals
These groups include large elements which are sometimes
radioactive and some are synthetically made.
Rare earth metals
The family of most reactive metals.
Alkali metals
The family of most reactive nonmetals
Halogens
The family of least reactive elements all of which are gases.
Noble gases
Examples of this family include Be, Mg, and Ca.
Alkali earth metals
Examples of this family include Cl, Br, F, and I
Halogens
Examples of this family include Cu, Ag, Au, Fe, and Zn.
Transition metals
Examples of this family include He, Ne, Ar, and Kr.
Noble gases
Examples of this family include Li, Na, and K
Alkali metals
Examples of this family include Uranium, Plutonium, and Curium.
Rare earth metals
Examples of this family include B, Si, As, and Ge,
Metalloids
Name the halogen in period 4.
Name the halogen in period 4.
Name the halogen in period 4.
Br
Name the alkali metal in period 2.
Name the alkali metal in period 2.
Name the alkali metal in period 2.
Li
Name an element with properties similar to Neon.
Name an element with properties similar to Neon.
He, Ar, Kr, Xe, or Rn
Which element has 8 protons?
Which element has 8 protons?
O
Which element has 20 electrons?
Which element has 20 electrons?
Ca
Which element has 24 neutrons?
Which element has 24 neutrons?
44.956 = 4545 – 21 = 24
Sc - Scandium
44.956 = 45
45 – 21 = 24
Which element has an atomic mass (weight) closest to 56?
Which element has an atomic mass (weight) closest to 56?
Fe
Name the alkaline earth metal in period 3.
Name the alkaline earth metal in period 3.
Mg
Which period 3 element is the most reactive metal?
Which period 3 element is the most reactive metal?
Na
Which period 2 element is the most reactive nonmetal?
Which period 2 element is the most reactive nonmetal?
F
Which element has 2 more protons than Iron?
Which element has 2 more protons than Iron?
Iron = Fe = 2626 + 2 = 28
Ni
Iron = Fe = 26
26 + 2 = 28
What is the least reactive period 4 element?
What is the least reactive period 4 element?
Kr
Which two elements are in the same family and have properties
most similar to Zinc?
Which two elements are in the same family and have properties
most similar to Zinc?
Cd and Hg
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Alkali Metals:
1)
2)
3)
4)
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Alkali Metals:
1) 1
2) IA
3) Most reactive metals; combine with Halogens
4)Na, K
5)Outer e- config: *s1
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Alkali Earth Metals:
1)
2)
3)
4)
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Alkali Earth Metals:
1) 2
2) IIA
3) +2 charge
•Ca, Mg
•Outer e- config: *s2
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Transition Metals:
1)
2)
3)
4)
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Transition Metals:
1) 1-3
2) Group B
3) Valence varies, resist corrosion
4)Cu, Ag, Au, Zn, Fe
5)Sublevel orbital block = d
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Rare Earth Metals:
1)
2)
3)
4)
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Rare Earth Metals:
1) 1-3
2) Group B
3) Large, synthetic, radioactive
4)U, La, Ac
5)Sublevel orbital block = f
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Metalloids:
1)
2)
3)
4)
For each of the following Groups (Families) state;
1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Metalloids:
1) 3-7
2) IIIA-VIIA
3) Semi-metals, Semiconductors
•Si, B, As
•Outer e- config: *s2 *p1 - *s2 *p5
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Halogens:
1)
2)
3)
4)
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Halogens:
1) 7
2) VIIA
3) Most reactive nonmetals
4)Cl, Br
5)Outer e- config: *s2 *p5
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Noble Gases:
1)
2)
3)
4)
For each of the following Groups (Families) state; 1) The # of valence e-, 2) The Group #, 3) Defining characteristics, 4) Example
Noble Gases :
1) 8
2) VIIIA or 0
3) Inert, least reactive
4)Ne, Kr
5)Outer e- config: *s2 *p6
• Explain how the sizes of atomic radii change as you travel down and across the periodic table:
• Explain how the sizes of atomic radii change as you travel down and across the periodic table:
• Sizes increase going down table
• Sizes decrease going left to right
Size increases going down table Size decreases going left to right
Largest
Smallest
Place these elements in order of increasing atomic radii size:
P, Cl, Fr, Mg, K =
Place these elements in order of increasing atomic radii size:
P, Cl, Fr, Mg, K = Cl, P, Mg, K, Fr
• Explain how the electronegativity of atom change as you travel down and across the periodic table:
• Explain how the electronegativity of atom change as you travel down and across the periodic table:
• Electronegativity decreases going down table
• Electronegativity increases going left to right
Electronegativity decreases going down table Electronegativity increases going left to right
Lowest
Highest
Place these elements in order of decreasing electronegativity:
Ca, Br, As, Cl, Rb =
Place these elements in order of decreasing electronegativity:
Ca, Br, As, Cl, Rb = Cl, Br, As, Ca, Rb
• Which two Groups (families) are most reactive and why?
• Which two Groups (families) are most reactive and why?
• 1) Alkali metals – Group 1A – only 1 valence electron
• 2) Halogens – Group VII A – 7 valence electrons
• What is the main property of noble gases and why?
• What is the main property of noble gases and why?
• Inert – Don’t react
• 8 valence electrons (octet) in outside shell, filled outer shells.
• Why do all elements in a group (or family) have similar properties?
• Why do all elements in a group (or family) have similar properties?
• Same number of outside or valence electrons, so same reactivity.