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P3 D1 Unit 27 - analyse the extent to which properties of elements and their compounds may be predicted by knowing the position of the elements in the periodic table - Applied Science Extended Diploma £4.99
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P3 D1 Unit 27 - analyse the extent to which properties of elements and their compounds may be predicted by knowing the position of the elements in the periodic table - Applied Science Extended Diploma

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This piece of work is to help with the P3, and D1 Unit 27 Applied Science 2010 - My teacher has signed this assignment off which means that it does meet the grading criteria. Hope it helps, all the best. Please take note that this document cannot be copied and I would appreciate if you respect my...

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  • May 14, 2018
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P3, D1 – Unit 27– Applied Science


P3 – Relate chemical reaction if elemeotn aod their cimpiuodn ti the pinitio if the elemeotn io
the periidic table:

D1 – Aoalyne the exteot ti which priperten if elemeotn aod their cimpiuodn may be predicted
by koiwiog the pinitio if the elemeotn io the periidic table:

Periid 2 elemeotn react with ixygeo:

Lithium – it is arranged in a giant metallic latcec it is s rrr nded by a lrt rf delrcalised electrrns. It
is srlid and it is less dense than water, this makes it a grrd crnd ctrr rf electricity and heat. When
lithi m is b rned it t rns white and frrms lithi m rxide when reacts with rxygen.

4Li(s) + O2(g) -> 2Li2O(s)

When lithi m reacts with water it easily dissrlves in it frrming an alkaline srl trn called the lithi m
hydrrxide. The lithi m hydrrxide makes a strrng base alkali, it is a srl ble base trr and therefrre
frrms salt. The lithi m rxide is rnly basic. It is nrt very reactve, the lrwer the alkali metal in the
grr p the mrre reactve it becrmes. Lithi m is nrt as reactve as prtassi m d e tr the prsitrn rf
the element rn the perirdic table in the grr p 2.

Li2O(s) + H2O(l) -> 2LiOH(aq)

Beryllium- it is arranged in a giant metallic latce, , st like lithi m it is s rrr nded by delrcalised
electrrns. It is s ally in a srlid frrm at rrrm temperat res and d e tr its str ct re it has a very high
meltng and briling print. It is capable rf crnd ctng electricity and heat, b t it is nrt very grrd at it.
When berylli m reacts with rxygen it frrms a white prwder called berylli m rxide. The brnds which
are frrmed when heated strrngly are intermediate irnic-crvalent brnds. When water is added intr
the berylli m rxide, the mixt re is insrl ble which means that it dresn’t dissrlve in the water –
therefrre nr reactrn wr ld be frrmed. The berylli m rxide rn the rther hand is able tr react with
acids d e tr being an atmrspheric rxide. When it reacts with an acid e.g. berylli m rxide reacts with
hydrrchlrric acids (rne rf the mrst crmmrn acids sed in labrratrries) it frrms berylli m chlrride.

BeO(s) + 2HCl(aq) -> BeCl2(aq) + H2O(l)

The berylli m rxide is rn the rther hand a basic rxide which dissrlves in acid in rrder tr frrm
different frrms rf salt. When berylli m rxide (BeO) is added tr the s lph r hydrrxide it frrms
berylli m s lphate and water as prrd cts.

BeO(s) + H2SO4(aq) -> BeSO4(aq) + H2O(l)

It is able tr dissrlve in strrng acidsc it wr ld event ally frrm beryllate(II) salts. It can be frrmed by
adding berylli m rxide with srdi m hydrrxide, this wr ld frrm srdi m beryllate(II). This allrws
berylli m tr be able tr be transfrrmed intr different chemicals. When berylli m is being heated
with chlrrine, it frrms a crvalent brnding with chlrrine res ltng in berylli m chlrrine. Berylli m
rxide is nrt very reactvec it is a lrt less reactve than prtassi m. On the reactvity series, the
berylli m itself is lrcated belrw magnesi m making it less reactve. Berylli m rxide dresn’t react
with water.

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