Apply vsepr theory to these molecules and explain their structure, geometry,bondangle BeF2,BF2,CH4,Pcl5,SF6,sncl2,NH3,H2o,SF4,CiF3,xeF2
Answers
Concept :
structure of any atom depends upon number of bond pair and lone pair.
for finding,
bond pair = total number of atoms present in molecule -1 [ ex:-for H2O, bond pair = 3 -1 = 2 ]
lone pair = [sum of number of valance electrons - 2 or 8 ]/2
2 for Be , Li, H like surrounded atom
ex:- BeCl2
number of lone pair = [ 2× 7 + 2 - 8 × 2]/2 = 0
hence, number of lone pair in BeCl2 = 0
after finding lone pair and bond pair , use VSEPR theory . and get structure of any molecule.
now come to the point ,
BeCl2 : - number of bond pair = 2
number of lone pair = [ 2 × 7 + 2 - 2 × 8 ]/2 =0
hence, structure of BeCl2 Like AB. e.g., linear.
Cl : Be : Cl
BCl3 : - number of bond pair = 3
number of lone pair = [ 7 × 3 + 3 - 3 × 8 ]/2 =0
[ because configuration of B = 1s², 2s², 2p¹ hence, number of valance electrons = 3]
hence, structure of BCl3 like AB2 .e.g., trigonal planar.
SiCl4 :- number of bond pair = 4
number of lone pair = [ 4 × 7 + 4 - 4 × 8]/2 =0
hence, bp's = 4 and lp = 0
e.g., structure of SiCl4 is Like AB3 . e.g., tetrahedral.
AsF5 :- number of bond pair = 5
number of lone pair = [5 × 7 + 5 - 5 × 8 ]/2 =0
hence, bp's = 5 and lp = 0
so, structure of AsF5 is like AB4 .e.g., trigonal bipyramidal.
H2S :- number of bond pair = 2
number of lone pair = [ 6 + 2 × 1 - 2 × 2 ]/2 =2
hence , bp's = 2 and lp's = 2
so, structure of H2S is like AB2L2 [ where L shows the lone pair ] hence, structure of H2S is V- shaped.
PH3 :- number of bond pair = 3
number of lone pair = [ 5 + 3 × 1 - 3 × 2 ]/2 = 1
hence, bp's = 3 and lp = 1
so, structure of PH3 is like AB2L .e.g., pyramidal shape.
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