Chapter 5 - Periodic Table
Transcript of Chapter 5 - Periodic Table
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CHAPTER 5
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When the Elements Were DiscoveredWhen the Elements Were Discovered
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ns1
ns2
ns2
np1
ns2
np2
ns2
np3
ns2
np4
ns2
np5
ns2
np6
d1
d5 d10
4f
5f
Ground State Electron Configurations of the ElementsGround State Electron Configurations of the Elements
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The Modern Periodic TableThe Modern Periodic Table
Period
Group
Alkali M
etal
Noble G
as
Halogen
Alkali E
arth Metal
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Classification of the Elements
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Electron Configurations of Cations and AnionsElectron Configurations of Cations and Anions
Na: [Ne]3s1 Na+ [Ne]
Ca: [Ar]4s2 Ca2+ [Ar]
Al: [Ne]3s23p1 Al3+ [Ne]
Atoms lose electrons so that cation has a noble-gas outer electron configuration.
H: 1s1 H- 1s2 or [He]
F: 1s22s22p5 F- 1s22s22p6 or [Ne]
O: 1s22s22p4 O2- 1s22s22p6 or [Ne]
N: 1s22s22p3 N3- 1s22s22p6 or [Ne]
Atoms gain electrons so that anion has a noble-gas outer electron configuration.
Of Representative ElementsOf Representative Elements
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+1
+2
+3 -1-2-3
Cations and Anions Of Representative ElementsCations and Anions Of Representative Elements
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Na+: [Ne] Al3+: [Ne] F-: 1s22s22p6 or [Ne]
O2-: 1s22s22p6 or [Ne] N3-: 1s22s22p6 or [Ne]
Na+, Al3+, F-, O2-, and N3- are all isoelectronic with Ne
What neutral atom is isoelectronic with H- ?
H- : 1s2 same electron configuration as He
Isoelectronic: have the same number of electrons, and hence the same ground-state electron configuration
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Electron Configurations of Cations of Electron Configurations of Cations of Transition MetalsTransition Metals
When a cation is formed from an atom of a transition metal, electrons are always removed first from the ns orbital and then from the (n – 1)d orbitals.
Fe: [Ar]4s23d6
Fe2+: [Ar]4s03d6 or [Ar]3d6
Fe3+: [Ar]4s03d5 or [Ar]3d5
Mn: [Ar]4s23d5
Mn2+: [Ar]4s03d5 or [Ar]3d5
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Effective nuclear charge (Zeff) is the “positive charge” felt by an electron.
Na
Mg
Al
Si
11
12
13
14
10
10
10
10
1
2
3
4
186
160
143
132
ZeffCoreZ Radius (pm)
Zeff = Z - 0 < < Z ( = shielding constant)
Zeff Z – number of inner or core electrons
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Effective Nuclear Charge (Effective Nuclear Charge (ZZeffeff))
increasing Zeff
incr
easi
ng
Ze
ff
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Atomic RadiiAtomic Radii
metallic radius
covalent radius
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Decreasing atomic radius
incr
easi
ng
ato
mic
rad
ius
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Trends in Atomic RadiiTrends in Atomic Radii
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Comparison of Atomic Radii with Ionic RadiiComparison of Atomic Radii with Ionic Radii
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• Cation is always smaller than atom from which it is formed.
• Anion is always larger than atom from which it is formed.
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The Radii (in pm) of Ions of Familiar ElementsThe Radii (in pm) of Ions of Familiar Elements
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Ionization energy is the minimum energy (kJ/mol) required to remove an electron from a gaseous atom in its ground state.
I1 + X (g) X+
(g) + e-
I2 + X+(g) X2+
(g) + e-
I3 + X2+(g) X3+
(g) + e-
I1 first ionization energy
I2 second ionization energy
I3 third ionization energy
I1 < I2 < I3
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Filled n=1 shell
Filled n=2 shell
Filled n=3 shell
Filled n=4 shellFilled n=5 shell
Variation of the First Ionization Energy with Atomic NumberVariation of the First Ionization Energy with Atomic Number
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General Trends in First Ionization EnergiesGeneral Trends in First Ionization Energies
Increasing First Ionization Energy
Incr
ea
sin
g F
irs
t Io
niz
ati
on
En
erg
y
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Electron affinity is the negative of the energy change that occurs when an electron is accepted by an atom in the gaseous state to form an anion.
X (g) + e- X-(g)
F (g) + e- X-(g)
O (g) + e- O-(g)
H = -328 kJ/mol EA = +328 kJ/mol
H = -141 kJ/mol EA = +141 kJ/mol
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Variation of Electron Affinity With Atomic Number (H – Ba)Variation of Electron Affinity With Atomic Number (H – Ba)
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General Trends in Electron AffinityGeneral Trends in Electron Affinity
Electron affinity increase
Ele
ctr
on
aff
init
y d
ecr
eas
e
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Electronegatively Electronegatively
electronegativity increase
ele
ctr
on
ega
tivi
ty d
ec
reas
e
The ability of an atom to attract electrons (or electron density) towards itself in a covalent bond.
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Group 1A Elements (nsGroup 1A Elements (ns11, n , n 2) 2)
M M+1 + 1e-
2M(s) + 2H2O(l) 2MOH(aq) + H2(g)
4M(s) + O2(g) 2M2O(s)
Incr
ea
sing
re
activ
ity
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Group 1A Elements (nsGroup 1A Elements (ns11, n , n 2) 2)
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Group 2A Elements (nsGroup 2A Elements (ns22, n , n 2) 2)
M M+2 + 2e-
Be(s) + 2H2O(l) No Reaction
Incr
easi
ng r
eact
ivity
Mg(s) + 2H2O(g) Mg(OH)2(aq) + H2(g)
M(s) + 2H2O(l) M(OH)2(aq) + H2(g) M = Ca, Sr, or Ba
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Group 2A Elements (nsGroup 2A Elements (ns22, n , n 2) 2)
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Group 3A Elements (nsGroup 3A Elements (ns22npnp11, n , n 2) 2)
4Al(s) + 3O2(g) 2Al2O3(s)
2Al(s) + 6H+(aq) 2Al3+
(aq) + 3H2(g)
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Group 3A Elements (nsGroup 3A Elements (ns22npnp11, n , n 2) 2)
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Group 4A Elements (nsGroup 4A Elements (ns22npnp22, n , n 2) 2)
Sn(s) + 2H+(aq) Sn2+
(aq) + H2 (g)
Pb(s) + 2H+(aq) Pb2+
(aq) + H2 (g)
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Group 4A Elements (nsGroup 4A Elements (ns22npnp22, n , n 2) 2)
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Group 5A Elements (nsGroup 5A Elements (ns22npnp33, n , n 2) 2)
N2O5(s) + H2O(l) 2HNO3(aq)
P4O10(s) + 6H2O(l) 4H3PO4(aq)
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Group 5A Elements (nsGroup 5A Elements (ns22npnp33, n , n 2) 2)
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Group 6A Elements (nsGroup 6A Elements (ns22npnp44, n , n 2) 2)
SO3(g) + H2O(l) H2SO4(aq)
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Group 6A Elements (nsGroup 6A Elements (ns22npnp44, n , n 2) 2)
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Group 7A Elements (nsGroup 7A Elements (ns22npnp55, n , n 2) 2)
X + 1e- X-1
X2(g) + H2(g) 2HX(g)
Incr
easi
ng r
eact
ivity
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Group 7A Elements (nsGroup 7A Elements (ns22npnp55, n , n 2) 2)
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Group 8A Elements (nsGroup 8A Elements (ns22npnp66, n , n 2) 2)
Completely filled ns and np subshells.Highest ionization energy of all elements.No tendency to accept extra electrons.
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Compounds of the Noble GasesCompounds of the Noble Gases
A number of xenon compounds XeF4, XeO3, XeO4, XeOF4 exist.A few krypton compounds (KrF2, for example) have been prepared.
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The metals in these two groups have similar outer electron configurations, with one electron in the outermost s orbital.Chemical properties are quite different due to difference in the ionization energy.
Comparison of Group 1A and 1BComparison of Group 1A and 1B
Lower I1, more reactive