Group IIA Elements:
Beryllium (Atomic number - 4)
Magnesium (Atomic number - 12)
Calcium (Atomic number - 20)
Strontium (Atomic number - 38)
Barium (Atomic number - 56)
Radium (Atomic number - 88)
- Have
2 electrons in the outermost orbit.
- By
loosing two electrons they form stable + 2 ions.
- They
are divalent and show + 2 as the stable oxidation state.
General trends
in Periodic Table:
- As
we move from top to bottom, atomic radius increases.
- Order
of atomic radius: Be < Mg < Ca < Sr < Ba < Ra
- Ionization
potential decreases down the group.
- Density
increases with increase in atomic mass.
- Electronegativity
decreases from top to bottom.
- Stability
of thermal decomposition of metal carbonates increases down the group.
- Solubility
of carbonates in water decreases down the group.
- Hydration
enthalpy decreases down the group.
- Reactivity
towards Halogens
All the
alkaline earth metals combine with halogen forming their halides.
M + X₂ → M X₂ (X = F, Cl, Br, I)
Flame Test: Be and Mg give negative
flame test as the electrons are strongly bound.
Hydration Enthalpy: Like alkali metals ions,
the hydration enthalpies of alkaline earth metals ion decrease with increase in
ionic size down the group.
1. Oxides and Hydroxides: The alkaline earth metals
burn in oxygen to form monoxide of the form MO. BeO is Amphoteric and rest are
ionic in nature.
MO + H₂O → M (OH)₂ (hydroxide)
The solubility, thermal stability and the basic character of
hydroxides increases with increase in atomic number.
2. Halides: Except for Beryllium
halides, all halides of alkaline earth metals are ionic in nature.
3. Salts of Oxoacids:
(i) Carbonates:
- Carbonates
of alkaline earth metals are insoluble in water.
- Metal
carbonates on heating give metal oxide and carbon dioxide gas on heating.
- Beryllium
carbonate in highly unstable hence are kept in CO₂ atmosphere.
MCO₃ (s) → MO (s) + CO₂ (g).
(ii) Nitrates:
- On
heating give metal oxides and Nitrogen dioxide.
- Tendency
of formation of hydration decreases with increase in size.
M (NO₃)₂ (s) → 2MO (s) + 4NO₂ (g) + O₂ (g).
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