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Transcript of New Way Chemistry for Hong Kong A-Level Book 41 1 The s-Block Elements 40.1Characteristic Properties...
![Page 1: New Way Chemistry for Hong Kong A-Level Book 41 1 The s-Block Elements 40.1Characteristic Properties of the s-Block Elements 40.2Variation in Properties.](https://reader033.fdocuments.net/reader033/viewer/2022061502/56649ec55503460f94bcfb4a/html5/thumbnails/1.jpg)
1New Way Chemistry for Hong Kong A-Level Book 4
1
The The ss-Block Elements-Block Elements
40.140.1 Characteristic Properties of the Characteristic Properties of the ss-Block -Block
ElementsElements
40.240.2 Variation in Properties of the Variation in Properties of the ss-Block -Block ElementsElements
40.340.3 Variation in Properties of the Variation in Properties of the Compounds of the Compounds of the ss-Block Elements-Block Elements
4400
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2New Way Chemistry for Hong Kong A-Level Book 4
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The Syllabus
• 8.1 Characteristic Properties
• Metallic character• Low electronegativity• Formation of basic oxides and hydroxides• Fixed Oxidation state in their compounds• Weak tendency to form complexes• Flame colours of salts – flame test
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3New Way Chemistry for Hong Kong A-Level Book 4
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The Syllabus• 8.2 Variation in properties of the s-block
elements and their compounds
Variations in atomic radii, ionisation enthalpies, hydration enthalpies and melting points.
Interpretation of these variations in terms of structure and bonding.
Reactions of the elements with oxygen and water. Reactions of the oxides with water, dilute acids and dilute alkalis.
Relative thermal stability of the carbonates and hydroxides. Relative solubility of the sulphates(VI) and hydroxides
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s-Block elements:
• Consists of Group IA and Group IIA elements
• Outermost electron shell:ns1 ns2
• Highly reactive metals
• Good reducing agents
• Fixed oxidation states +1 for Group I elements+2 for Group II elements
Notes p. 1
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40.40.11Characteristic Characteristic Properties of Properties of
thethes-Block s-Block
ElementsElements
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Group I elements:
• Silvery in colour, tarnish rapidly in air
∴ keep immersed under paraffin oil or in vacuum sealed tubes
• Soft, low boiling and melting points
∵ weak metallic bond due to only 1 e– is contributed to form bonds
• Low density
∵ body-centred cubic structure -- have more spaces
Metallic Character (not mentioned in notes)Metallic Character (not mentioned in notes)
40.1 Characteristic Properties of the s-Block Elements (SB p.38)
Cutting Rubidium
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Group I elements:
Lithium Sodium Potassium
Rubidium
Caesium
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Group I metal
Atomic radius (nm)
Ionic radius (nm)
Crystal structure
Melting point (C)
Boiling point (C)
Density (g cm–3)
Abundance on earth
(%)
Li
Na
K
Rb
Cs
Fr
0.152
0.186
0.231
0.244
0.262
0.270
0.060
0.095
0.133
0.148
0.169
0.176
b
b
b
b
b
—
180.5
97.8
63.7
39.1
28.4
27
1330
890
774
688
690
680
0.53
0.97
0.86
1.53
1.87
—
0.0020
2.36
2.09
0.009 0
0.000 10
Trace
“b” denotes body-centred cubic structure
Some information about Group I elements
40.1 Characteristic Properties of the s-Block Elements (SB p.39)
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Group II elements:
• silvery in colour
• harder and higher boiling and melting points than Gro
up I counterparts
∵ stronger metallic bond due to 2e– are contributed to for
m bond and smaller atomic sizes
• show different crystal structures
40.1 Characteristic Properties of the s-Block Elements (SB p.39)
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Group II elements:Beryllium
Magnesium
Calcium
Strontium
BariumRadium
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Group II metal
Atomic radius (nm)
Ionic radius (nm)
Crystal structure
Melting point (C)
Boiling point (C)
Density (g cm–3)
Abundance on earth
(%)
Be
Mg
Ca
Sr
Ba
Ra
0.112
0.160
0.197
0.215
0.217
0.220
0.031
0.065
0.099
0.113
0.135
0.140
h
h
f
f
b
—
1278
648.8
839
769
729
697
2477
1100
1480
1380
1640
1140
1.85
1.75
1.55
2.54
3.60
5.0
0.000 28
2.33
4.15
0.038
0.042
Trace
“h”, “f” and “b” denote hexagonal close-packed, face-centred cubic and body-centred cubic structures respectively
Some information about Group II elements
40.1 Characteristic Properties of the s-Block Elements (SB p.39)
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Atomic Radius and Ionic Radius (notes p. 1)
Variation in Physical PropertiesVariation in Physical Properties
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Question:
The atomic and ionic radii increase down the Groups, why?
∵ outermost shell electrons become further away, and
more inner shells shielding the outermost shell electrons
attraction between the nucleus and the outermost shell
electrons decreases
atomic and ionic radii increase
41.3 Variation in Properties of the s-Block Elements (SB p.52)
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Question:
Atomic and ionic radii decrease when going from
Group I to II in each period, why?
∵ Group II elements have 1 more proton and electron
than Group I elements. Increase in nuclear charge outweighs
the increase in shielding effect of additional electron of the
same shell.
atomic and ionic radii decrease
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41.3 Variation in Properties of the s-Block Elements (SB p.52)
Question:
Ionic radius of any Group I or II element is smaller than
the atomic radius, why?
∵ after losing the outermost shell electron(s), there is one
electron shell less in the cation than in the atom.
Increase in p/e ratio
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41.3 Variation in Properties of the s-Block Elements (SB p.53)
Ionization Enthalpy (notes p. 2)
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41.3 Variation in Properties of the s-Block Elements (SB p.54)
Variations in the 1st, 2nd and 3rd ionization enthalpies of Group II elements
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1st I.E. is much smaller than 2nd I.E. for Gp. I elements
For the 1st I.E., electron is further away from the nucleus and shield
ing effect of inner shell electrons
small 1st I.E.
For 2nd I.E., electron is removed from stable noble gas configuratio
n and higher effective nuclear charge
large 2nd I.E.
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The ionization enthalpies decrease down the Groups
Reason:
• atomic sizes increase down the group
the outermost shell electron(s) is/are further away from
the nucleus, they will be better shielded by inner electron
shells.
less attractive force experienced
less energy is required to remove the electrons
Because of the high I.E., Li and Be forms a few covalent compounds
instead of forming Li+ and Be2+ respectively.
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Low ElectronegativityLow Electronegativity
• All have low electronegativity values
∵ the outermost electron shell is effectively shielded by inner
electron shells.
- Low effective nuclear charge.
• Decrease when going down the group
∵ the outermost electron shell are further away from nucleus
- increase in shielding effect.
40.1 Characteristic Properties of the s-Block Elements (SB p.41, notes p. 3))
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Group II elements are relatively more electronegative than Group I counterparts
∵ higher nuclear charge, stronger attraction to outermost shell electrons
Group I element
Electro-negativity
Group II element
Electro-negativity
Li
Na
K
Rb
Cs
Fr
1.0
0.9
0.8
0.8
0.7
—
Be
Mg
Ca
Sr
Ba
Ra
1.5
1.2
1.0
1.0
0.9
—
40.1 Characteristic Properties of the s-Block Elements (SB p.41)
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Characteristic Flame Colours of SaltsCharacteristic Flame Colours of Salts
• The outermost shell electrons of Group I & II elements are we
akly held
The electrons can be excited to higher energy levels on
heating
When electrons return to ground state, radiations are
emitted
The radiations fall into the visible light region
The flame colour is a characteristic property of the
element
40.1 Characteristic Properties of the s-Block Elements (SB p.43)
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Flame Test
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40.1 Characteristic Properties of the s-Block Elements (SB p.43)
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Flame colours
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Weak tendency to form complexes (not mentioned in notes)Weak tendency to form complexes (not mentioned in notes)
Complex: Polyatomic ion or neutral molecule formed when
molecular or ionic gropups (called ligands) form da
tive covalent bonds with a central ion.
40.1 Characteristic Properties of the s-Block Elements (SB p.43)
Group I & II elements seldom form complex:- s-block ions do not have low energy vacant orbitals available f
or dative covalent bonds. - Low ionic charge
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41.3 Variation in Properties of the s-Block Elements (SB p.55)
Variations in melting points of Groups I and II elements
Melting Point (notes p. 4)
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Observations:
• melting point decreases as going down Groups I and II
Reason:
• the ionic size of the elements increases
attraction between ions and electrons becomes weaker
metallic bond is weaker
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Observations:
• melting points of Group II elements are much higher than
those of Group I elements
Reason:
• no. of valence electrons per mole contributed to the
delocalized electron sea is greater.
• Group II elements have higher ionic charge
the attractive force between ions and electrons are stronger
metallic bond is stronger
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Observations:
• irregularity in the general decrease in
melting point down Group II elements
Reason:
• different metallic crystal structures of
the Group II elements
41.3 Variation in Properties of the s-Block Elements (SB p.56)
Group II metal
Crystal structure
Be
Mg
Ca
Sr
Ba
Ra
h
h
f
f
b
—
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Extraction of sodium (not in syllabus)
Downs Cell
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Manufacture of sodium hydroxidegraphite anodes
chlorine
used brine
mercury alloyed with sodium
flow of mercury flowing mercury (as cathode)
saturated brine
Flowing mercury cell
WaterMercury (recycle)
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During electrolysis, chlorine is liberated at the anode and
sodium at the cathode.
At anode (graphite): 2Cl(aq) Cl2(g) + 2e
At cathode (mercury): Na+(aq) + e Na(s);
Na(s) + Hg(l) Na/Hg(l)
sodium amalgam
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Flowing mercury cell
Q. 1b; Q.8
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40.3 Variation in Properties of the s-Block Elements (SB p.56, notes p. 8)
Hydration Enthalpy
Hydration enthalpy (Hhyd) is the amount of energy rele
ased when one mole of aqueous ions is formed from its ga
seous ions. Hhyd must be negative value.
Hhyd depends on charge density charge/size
Higher the charge, stronger the attraction, more
energy released
Smaller the size, stronger the attraction, more
energy released
Xn+(g) + aq Xn+(aq)
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Variations in hydration enthalpy of Groups I and II elements
M+
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• magnitude of hydration enthalpies become smaller (less
negative) as going down the Groups
Reason:
• the ionic size of the elements increases down the group,
the charge density decreases
the attractive force between water molecules and ions
becomes weaker
the hydration enthalpy becomes less negative
Down the group, fewer molecules of water of
crystallizationNa2CO3.10H2O MgSO4.7H2O MgCl2.6H2OK2CO3.2H2OCaSO4.2H2OCaCl2.6H2O SrSO4 BaCl2.2H2O
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Observations:
• hydration enthalpies of Group II ions are more negative
than those of Group I ions
Reason:
• Group II ions have higher charge and smaller size
charge density is much higher that of Group I ions
the attractive force would be much stronger
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Lattice Enthalpies of Group I Halides (p.10)
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Lattice Enthalpies of Group I Halides (p.10)
• Lattice Enthalpies decrease down the group:
Reasons:
Size increase
Internuclear distance increase
Attractive force between opposite ions decrease
• Good agreement between calculated and measured value. Why?
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Lattice Enthalpies of Group II Halides (p.11)• Discrepancies occurred between calculated and measured
values.
Reason:
Covalent charactersCovalent characters occurred in small cations.
• Group II Halides have a higher lattice enthalpies than Group I Halides.
Reason:
Higher charge; smaller size.
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Formation of Hydroxides – reactions with waterFormation of Hydroxides – reactions with water
• All Group I metals react with H2O to form metal
hydroxides and H2 gas
e.g. 2Na(s) + 2H2O(l) 2NaOH(aq) + H2(g)
2K(s) + 2H2O(l) 2KOH(aq) +
H2(g)
40.1 Characteristic Properties of the s-Block Elements (SB p.43, notes p. 13)
Li+H2O Na +H2O
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K+H2O Rb+H2O
Cs+H2O
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• All Group II metals (except Be) react with H2O to form me
tal hydroxides and H2 gas (Mg reacts with hot water).
e.g. Ca(s) + 2H2O(l) Ca(OH)2(aq) + H2(g)
Sr(s) + 2H2O(l) Sr(OH)2(aq) + H2(g)
• Be does not react with H2O(l or g)
40.1 Characteristic Properties of the s-Block Elements (SB p.43)
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Strontium + water Barium + water
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Formation of Basic OxidesFormation of Basic Oxides
Group I elements
• Produce more than one type of oxides (except Li(except Li)
• All are ionic
• Three types of oxides: normal oxides (monoxides), peroxides, superoxides
• Relationship between three oxides:
O2– O22– 2O2
–
monoxide peroxide superoxide
2O2
12O
40.1 Characteristic Properties of the s-Block Elements (SB p.41, notes p. 14)
O O-
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• Li forms the Li forms the monoxidemonoxide only only
4Li(s) + O2(g) 2Li2O(s)180C
• Na forms the monoxide and peroxide when O2 is abundant
4Na(s) + O2(g) 2Na2O(s)
2Na2O(s) + O2(g) 2Na2O2(s)
180C
300C
40.1 Characteristic Properties of the s-Block Elements (SB p.41)
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• K forms the monoxide, peroxide and superoxide
4K(s) + O2(g) 2K2O(s)
2K2O(s) + O2(g) 2K2O2(s)
K2O2(s) + O2(g) 2KO2(s)
180C
300C
3000C
• Rb, Cs also forms superoxides
Rb2O2(s) + O2(g) 2RbO2(s)
Cs2O2(s) + O2(g) 2CsO2(s)3000C
3000C
40.1 Characteristic Properties of the s-Block Elements (SB p.41)
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41.2 Characteristic Properties of the s-Block Elements (SB p.45)
Group I element
Monoxide Peroxide Superoxide
Li
Na
K
Rb
Cs
Li2O
Na2O
K2O
Rb2O
Cs2O
—
Na2O2
K2O2
Rb2O2
Cs2O2
—
—
KO2
RbO2
CsO2
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• Li does not form peroxides or superoxides
Reason:
Li+ is small
high polarizing power
serious distortion on electron cloud of peroxide or superoxide (large polyatomic anions)
more distortion , more unstable
Li2O2 and LiO2 do not exist
• K+, Rb+ and Cs+ ions are large
Low polarizing power peroxides and superoxides are relatively stable
40.1 Characteristic Properties of the s-Block Elements (SB p.42 notes p. 14)
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• Form normal oxides only, except Sr, Ba which can form peroxides.
• All are basic (except BeO which is amphoteric), why?
41.2 Characteristic Properties of the s-Block Elements (SB p.46, notes p. 14)
Group II Elements
2Be(s) + O2(g) 2BeO(s)
2Mg(s) + O2(g) 2MgO(s)
2Ca(s) + O2(g) 2CaO(s)
2Ba(s) + O2(g) 2BaO(s)
2BaO(s) + O2(g) 2BaO2(s)
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Strontium + air Barium + air
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Group II
element
Normal oxide
Peroxide Superoxide
Be
Mg
Ca
Sr
Ba
BeO
MgO
CaO
SrO
BaO
—
—
—
SrO2
BaO2
—
—
—
—
—
Be, Mg, Ca peroxide do not exist, why?
Reason:
High charge density high polarizing power
serious distortion on electron cloud of the peroxide ion
40.1 Characteristic Properties of the s-Block Elements (SB p.43)
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40.3 Variation in Properties of the compounds of the s-Block Elements ( p.59) notes p. 14 2(e)
Reaction with Water
Reactions of Oxides of s-Block ElementsReactions of Oxides of s-Block Elements
• Group I oxides react with H2O to form hydroxides
• Normal oxides:e.g. Li2O(s) + H2O(l) 2LiOH(aq)
• Peroxides:e.g. Na2O2(s) + 2H2O(l)
2NaOH(aq) + H2O2(aq)
• Superoxides:e.g. 2KO2(s) + 2H2O(l) 2KOH(aq) + H2O2(aq) + O2(g)
Dissolution of Na2O2 in H2O containing phenolphthalein
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• Group II oxides (except BeO, MgO) react with H2O to form a
weakly alkaline solution
e.g. CaO(s) + H2O(l) Ca(OH)2(aq) (weakly alkalin
e)
• The basicity of all Group II oxides increases down the group
• MgO is slightly soluble in water, but dissolves in acids to
form salts
• BeO is amphoteric
BeO(s) + 2H+(aq) Be2+(aq) + H2O(l)
BeO(s) + 2OH–(aq) + H2O(l) [Be(OH)4]2–(aq)
hot
hot
• BaO2(s) + 2H2O(l) Ba(OH)2(aq) + H2O2(aq)
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Reaction with Acids
• All oxides of s-Block elements are basic except BeO which i
s amphoteric
• Normal oxides:
e.g. CaO(s) + 2HCl(aq) CaCl2(aq) + H2O(l)
• Peroxides:
e.g. Na2O2(s) + 2HCl(aq) 2NaCl(aq) + H2O2(aq)
• Superoxides:
e.g. 2KO2(s) + 2HCl(aq) 2KCl(aq) + H2O2(aq) + O2(g)
40.3 Variation in Properties of the compounds of the s-Block Elements (p.60, not mentioned in notes)
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Reaction with Alkalis
• No reaction between the oxides of s-block elements with al
kalis except BeO
• BeO is amphoteric, it reacts with NaOH to give Na2Be(O
H)4
BeO(s) + 2NaOH(aq) + H2O(l) Na2Be(OH)4(aq)
40.3 Variation in Properties of the compounds of the s-Block Elements (p.60)
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Relative Thermal Stability of the Carbonates and HydroxidesRelative Thermal Stability of the Carbonates and Hydroxides
Thermal stability refers to the resistance of a compound to decomposition on heating
• The higher the thermal stability of a compound, the
higher is the temperature needed to decompose it
• The thermal stability of ionic compounds depends on:
(1) charges &
(2) sizes of ions
40.3 Variation in Properties of the compounds of the s-Block Elements (p.60) notes p. 15, 18
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• Compound with large polarizable polyatomic anion (larg
e electron cloud, as shown in notes), the thermal stability d
epends on the polarizing power (charge density) of cation
s
The stronger the polarizing power, the electron
cloud of anion will be distorted to greater extent
The compound tends to be less thermal stable
40.3 Variation in Properties of the compounds of the s-Block Elements (p.61) notes p. 18
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• Group II ions are smaller and have a higher charge than
Group I ions in the same period
Greater polarizing power
The carbonates and hydroxides of Group II metals are
less stable on heating
e.g. K2CO3 is stable upon heating while CaCO3 decomposes
on heating
40.3 Variation in Properties of the compounds of the s-Block Elements (p.61)
Group II carbonates/hydroxides are less stable than Group I
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• Most carbonates and hydroxides of Group II metals read
ily undergo decomposition on heating to give oxides (m
ore stable)
e.g. MgCO3(s) MgO(s) + CO2(g)
Ca(OH)2(s) CaO(s) + H2O(g)
40.3 Variation in Properties of the compounds of the s-Block Elements (p.61)
Mg2+
-O H
-O HMgO + H2O
Mg2+ C O
-O
-O MgO + CO2
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• Down the group, the size of cations increases
polarizing power decreases
compound with large anion become more stable
∴ thermal stability of carbonates & hydroxides of Groups I and II metals increases down the group
Effect of sizes of cations on thermal stability of compounds
40.3 Variation in Properties of the compounds of the s-Block Elements (p.62)
Do Q. 2b on p. 73
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Q. Explain briefly why lithium hydrogencarbonate does not exist as a solid while other Group I hy
drogencarbonates can be found in solid state.
A. In solid form, the cation and anion are close to each other. Due to small size of Li+, it has a high polarizing power. This distorts the electron cloud of HCO3
-, making the anion unstable.As the size of cations increases down the group, the pol
arizing power decreases, therefore, solid hydrogencarbonates can be formed.
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Effect of Heat on s-block carbonates and hydroxides (p.19)
i. CarbonatesCarbonates
Group I: AllAll are thermally stable except Lithium.
Group II: AllAll decompose on heating forming metal oxides and carbon dioxide.
ii. Hydroxides Hydroxides (p.21)
Group I: AllAll are thermally stable except Lithium.
Group II: AllAll decompose on heating forming metal oxides and water.
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Relative Solubility of the Sulphates(VI) and HydroxidesRelative Solubility of the Sulphates(VI) and Hydroxides
• When an ionic solid is dissolved in water, two processes are taken
place:
1. Breakdown of the ionic solid (-ve lattice enthalpy)
2. Stabilization of ions by water molecules
(hydration enthalpy released)
Processes involved in Dissolution and their Energetics
40.3 Variation in Properties of the compounds of the s-Block Elements (p.63) notes p. 21
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Dissolution of NaCl
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Solubility of s-block Sulphates and Hydroxides (p.23)
MX(s) M+(aq) + X-(aq)
M+(g) + X-(g)
Hs
U Hhyd
A low modulus of lattice enthalpy and a high modulus of hydration enthalpy favour the dissolving process.
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Effect of charge and size of ions on Hhyd and Hlattice
rr
ZZlatticeH
rr
11Hhyd
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Solubility of s-block Sulphates and Hydroxides
i. For large anions, like sulphatesFor large anions, like sulphates
When moving down the group, the decrease in size of the cation does not cause a significant change of U. However, Hhyd become less negative and has a significant change the solubility of sulphates decreases down the grothe solubility of sulphates decreases down the group.up.
SO42-
MgSO4
SO42-
SrSO4
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ii. For smaller anions, like hydroxidesFor smaller anions, like hydroxides
When moving down the group, the increase in size of the cation causes a significant change of U but Hhyd change a little because of the great hydration energy of the anion. Therefore the solubility of hydroxide increases down the solubility of hydroxide increases down the group.the group.
iii. Group I sulphates and hydroxides are more Group I sulphates and hydroxides are more ssoluble than that of Group II. Why?oluble than that of Group II. Why?
Mg(OH)2 Sr(OH)2
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• The sulphates(VI) and hydroxides of Group I metals are mor
e soluble in water than those of Group II metals
∵ Group I metals has a smaller charge and larger size than Gr
oup II metals in the same period
The lattice enthalpies of Group I compounds are smaller
in magnitude than those of Group II compounds
The enthalpy changes of solution are more –ve
Relative Solubility of the Sulphates(VI) and Hydroxides –Trend and Interpretation
40.3 Variation in Properties of the compounds of the s-Block Elements (p.23)
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The END
Do Q. 6, 10 and Q. 7 on p. 74