Periodic Table Project

Periodic Table Project
Landon Stokes & Sydney Hight

Group 18 Trends
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Atomic radii: Atomic radius decreases from left to right within a period because of
effective nuclear charge. As you move from left to right in a period, you are still in
the same energy level, which means the electron is still the same distance from
the nucleus.
Ionic Radii: The Noble Gases do not have an ionic radius. This is because they don't
form ions.
Reactivity: Noble Gases are extremely unreactive. This is because non-metals gain
electrons. Since the noble gases do not need to gain any electrons because of their
"stable octet", they don't react often.
Electronegativity: Electronegativity is the ability of an atom to gain an electron.
Since electronegativity measures the amount of attraction between an atom and
an electron, noble gases do not have electronegativity.
Ionization Energy: Noble Gases have a very stable electron configuration,
therefore, they have the highest amount of ionization energy within their periods.
It decreases down a family because electrons farther from the nucleus are easier
to remove.
Valence Electrons: The noble gases contain eight valence electrons.

INTERESTING FACT: Most Noble Gases are used for lighting around the world.

Group 18 Elements
1.
2.
3.
4.
5.
6.

Helium (He)
Neon (Ne)
Argon (Ar)
Krypton (Kr)
Xenon (Xe)
Radon (Rn)

Helium
Noble gas configuration: 1s2
Lewis dot:
State of matter: Gas
Boiling point: -268.6 °C
Melting Point: -272.0 °C
Metallic character: trend decreasing going from
left to right

Neon
Noble gas configuration: [He] 2s2 2p6
Lewis dot:
Melting Point: -248.6 °C
left to right

Argon
Noble gas configuration: [Ne] 3s2 3p6
Lewis dot:
Melting point: -189.3 °C
left to right

Krypton
Noble gas configuration: [Ar] 3d10 4s2 4p6
Lewis dot:
Melting point: -157.2 °C
left to right

Radon
Noble Gas Configuration: [Xe]6s25d6p6
Lewis dot:
State of Matter: Gas
Boiling Point: -62°C
Melting Point: -71°C
Metallic Character: trend decreasing going from
left to right

Period 6 Elements
1.Cesium (Cs)
2. Barium (Ba)
3. Lutetium (Lu)
4. Hafnium (Gf)
5. Tantalum (Ta)
6. Tungsten (W)
7. Rhenium (Re)
8. Osmium (Os)
9. Iridium (Ir)
10. Platinum (Pt)
11. Gold (Au)
12. Mercury (Hg)

13. Thallium (Tl)
14. Lead (Pb)
15. Bismuth (Bi)
16. Polonium (Po)
17. Astatine (At)

Period 6 Trends
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Atomic radii: distance from nucleus to boundary of outermost electron level general
decrease from Cesium  Radon
Ionic radii: distance of nucleus to outermost electron level of ions; when an atom is an
anion, the electrons are more attached to the nucleus making the atom smaller, and a
cation makes the electrons repel against the nucleus’ charge and make the atom bigger;
general decrease from Cesium  Radon
Reactivity: outer electron levels try to gain electrons to fill them to the highest capacity
and be “stable,” like the Noble Gases; metals have the most “room” for more electrons,
while non-metals and Noble Gases do not. Radon is the most unreactive element in
Period 6 because its outer level is full; increase from Cesium  Radon
Electronegativity: an ability of an atom to gain electrons; high electronegativity means
the atom attracts many electrons, therefore forming a negative ion; metals on the left
side of the table do not have the energy levels filled completely, attracting electrons
while the non-metals and noble gases are almost completely/completely filled; general
increase from Cesium (least electronegative element)  Radon
Ionization Energy: energy needed to remove 1+ electrons from an ion; alkali metals only
have 1 valence electron so it’s hard to give them up, while noble gases have closed
shells so they give no electrons up; general increase from Cesium  Radon
Valence Electrons: general increase from Cesium  Radon

Cesium
Noble gas configuration: [Xe] 6s1
State of matter: solid
Boiling point: 671 ºC
Melting point: 28.5 ºC
left to right

Barium
Noble gas configuration: [Xe] 6s2
Boiling point: 1897ºC
Melting point: 727ºC
left to right

Lutetium
Noble gas configuration: [Xe] 6s2 5d1
Boiling point: 3402°C
Melting point: 1663°C
left to right

Hafnium
left to right

Tantalum
left to right

Tungsten
left to right

Rhenium
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Metallic character: trend decreasing going
from left to right

Osmium
left to right

Iridium
left to right

Platinum
Noble Gas Configuration: [Xe]6s25d8
State of Matter: Solid
Boiling Point: 3800°C
Melting Point: 1772°C
Metallic Character: trend decreasing going from
left to right

Gold
Metallic Character: trend decreasing from left to
right

Mercury
State of Matter: Liquid
Boiling Point: 356.6°C
Melting Point: -38.9°C
right

Thallium
right

Lead
State of Matter: Lead
right

Bismuth
right

Polonium
right

Astatine
Boiling Point: 337°C (estimate)
right

Periodic Table Project

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