The s-Block Elements Dr. Gurpreet Kaur.

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Presentation transcript:

The s-Block Elements Dr. Gurpreet Kaur

Members of the s-Block Elements Li Be Na K Rb Cs Fr Mg Ca Sr Ra Ba IA IIA IA Alkali metals IIA Alkaline Earth metals

Characteristic properties of alkali metals Lowest First I.E & very High Second I.E Soft metals Metallic character Low electronegativity Basic oxides, hydroxides Ionic bond with fixed oxidation state i.e. +1 Characteristic flame colours Weak tendency to from complex

Atomic radii (nm) Li 0.152 Na 0.186 K 0.231 Rb 0.244 Cs 0.262 Fr 0.270

Ionization Energies Alkali metals have the lowest I.E in each period and it decreases down the group. Group I 1st I.E. 2nd I.E. Li 519 7300 Na 494 4560 K 418 3070 Rb 402 2370 Cs 376 2420

Electropositive or Metallic character High tendency to lose e- to form positive ions. Highly electropositive. Metallic character increases down the group.

Characteristic Flame colouration Li deep red Na yellow K lilac Rb bluish red Cs blue Ca brick red Sr blood red Ba apple green HCl(aq) sample

Oxides, Peroxide, Superoxide Reaction with water: Oxide: O2- + H2O  2OH- Peroxide: O22- + 2H2O  H2O2 + 2OH- Superoxide: 2O2- + 2H2O  2OH- + H2O2 + O2 . . - :O:.O: .. .. Super oxide .. .. 2- :O:O: .. .. Peroxide ion Li does not form peroxide or super oxide Li2O2  Li2O + ½ O2

Basic oxides, hydroxides Li2O LiOH Na2O, Na2O2 NaOH K2O2, KO2 KOH Rb2O2, RbO2 RbOH Cs2O2, CsO2 CsOH Oxide Hydroxides BeO Be(OH)2 MgO Mg(OH)2 CaO Ca(OH)2 SrO Sr(OH)2 BaO, Ba2O2 Ba(OH)2

Action with hydrogen All the alkali metals react directly with hydrogen to form hydrides which are ionic in nature. 2Na(s) + H2(g)  2NaH(s) The ionic character of hydrides increases from Li to Cs. The stability of hydrides decreases from Li to Cs. The hydrides behave as strong reducing agents and the latter increases from Li to Cs.

Action of Halogens Action with water All the alkali metals react directly with halogen to produce ionic halides. The reactivity of halogen towards the alkali metal increases down the group. Action with water Alkali metals react with water to form hydroxides and hydrogen gas is evolved. Li reacts slowly but Na and others react violently. That is why they are kept in kerosene oil. All are soluble and basic strength increases down the group.

Characteristic properties of alkaline earth metals Low First I.E & Second I.E Metallic character Low electronegativity Basic oxides, hydroxides Ionic bond with fixed oxidation state i.e. +2 Characteristic flame colours Weak tendency to from complex

Atomic radii (nm) Be 0.112 Mg 0.160 Ca 0.197 Sr 0.215 Ba 0.217 Ra 0.220

Ionization Energies Group I 1st I.E. 2nd I.E. 3rd I.E. Be 900 1760 14800 Mg 736 1450 7740 Ca 590 1150 4940 Sr 548 1060 4120 Ba 502 966 3390 Have low 1st and 2nd IE. Removal of the 3rd electron is much more difficult as it involves the loss of an inner shell electron. IE decrease as the group is descended. IE of the group II is generally higher than group I.

Hydration Enthalpy General trends: On going down both groups, hydration enthalpy decreases. (As the ions get larger, the charge density of the ions decreases, the electrostatic attraction between ions and water molecules gets smaller.) Group 2 ions have hydration enthalpies higher than group 1. ( Group 2 cations are doubly charged and have smaller sizes)

Basic oxides, hydroxides BeO Be(OH)2 MgO Mg(OH)2 CaO Ca(OH)2 SrO Sr(OH)2 BaO, Ba2O2 Ba(OH)2

Hydroxides Group II hydroxide Be Mg Ca Sr Ba Solubility increase, from Amphoteric to basic, base strength increase

Variation in Melting Points Strength of metallic bond depends on: Ionic radius Number of e- contributed to the electron sea per atom Crystal lattice structure Note: The exceptionally high m.p. of calcium is due to contribution of d-orbital participation of metallic bonding.

Reactions with oxygen Normal Oxide Peroxide Structure Formed by All alkaline earth metals Ba .. 2- :O: .. .. .. 2- :O-O: .. ..

Characteristic Flame colouration Ca brick red Sr blood red Ba apple green HCl(aq) sample

Reaction with water M(s)  M+(aq) + e- H2O(l) + e-  OH-(aq) + ½ H2(g) Li -3.05 volt Na -2.71 K -2.93 Rb -2.99 Cs -3.20 Be -1.85 volt Mg -2.38 Ca -2.87 Sr -2.89 Ba -2.90 Energetic vs. Kinetic Factor

Action with hydrogen Action with halogens All except Be react directly with hydrogen. Ca(s) + H2(g)  CaH2(s) The reactivity increases down the group. Only BeH2 and MgH2 are covalent, others are ionic. Action with halogens BeCl2 is essentially covalent, with comparatively low m.pt. The lower members in group II form essentially ionic chlorides, with Mg having intermediate properties.

Reactions of hydrides They all react readily with water to give the metal hydroxide and hydrogen due to the strong basic property of the hydride ion, H:- H:-(s)+ H2O(l)  H2(g)+ OH-(aq) Hydride ions are also good reducing agent. They can be used to prepare complex hydrides such as LiAlH4 and NaBH4 which are used to reduce C=O in organic chemistry.

Thermal Stability of carbonates Li2CO3  Li2O + CO2 ( at 700oC) All other group I carbonates are stable at ~800oC BeCO3  BeO + CO2 ( at 100oC) MgCO3  MgO + CO2 ( at 540oC) CaCO3  CaO + CO2 ( at 900oC) SrCO3  SrO + CO2 ( at 1290oC) BaCO3  BaO + CO2 ( at 1360oC)

Thermal stability Carbonates and hydroxides of Group I metals are as a whole more stable than those of Group II. Thermal stability increases on descending the group. Lithium often follow the pattern of Group II rather than Group I. This is an example of the diagonal relationship.

Explanation of Thermal Stability Charge of the ions Size of the ions Compounds are more stable if the charge increases and size decreases. For compounds with large polarizable anions, thermal stability is affected by the polarizing power of the cations.

Explanation of Thermal Stability - + Decreasing polarizing power + Increasing stability - + -

Relative solubility of Group II hydroxides Compound Solubility / mol per 100g water Mg(OH)2 0.020 x 10-3 Ca(OH)2 1.5 x 10-3 Sr(OH)2 3.4 x 10-3 Ba(OH)2 15 x 10-3 Solubility of hydroxides increases down the group.

Solubility of Group II sulphates Compound Solubility / mol per 100g water MgSO4 3600 x 10-4 CaSO4 11 x 10-4 SrSO4 0.62 x 10-4 BaSO4 0.009 x 10-4 Solubility of sulphates increases up the group.

Explanation of solubility MX(s) aqueous H solution M+(aq) + X-(aq) M+(g) + X-(g) H hydration -H lattice H solution -H lattice H hydration = +

Explanation of solubility Group I compounds are more soluble than Group II because the metal ions have smaller charges and larger sizes. H lattice is smaller, and H solution is more exothermic. H solution -H lattice H hydration = +