Sulphur has greater catenation property than oxygen because S-S bond energy is more than O-O bond energy. ... As a result, oxygen exists as a diatomic molecule and sulphur forms polyatomic molecule that is sulphur shows catenation.
catenation tendency is higher in carbon while silicon comes second highest following germanium and tin which show very less catenation so we can arrange them in decreasing tendency of catenation as: C>>Si>Ge=Ge
NOW HOW DOES THESE SHOW THE PROPERTY OF CATENATION?
Sulphur naturally exist in nature as S8 molecules. On heating these rings break and link jointly in long to chains. Hence sulphur has great tendency for catenation than oxygen.
Sulphur has greater catenation property than oxygen because S-S bond energy is more than O-O bond energy. ... As a result, oxygen exists as a diatomic molecule and sulphur forms polyatomic molecule that is sulphur shows catenation.
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Answer:
Sulphur has greater catenation property than oxygen because S-S bond energy is more than O-O bond energy. ... As a result, oxygen exists as a diatomic molecule and sulphur forms polyatomic molecule that is sulphur shows catenation.
catenation tendency is higher in carbon while silicon comes second highest following germanium and tin which show very less catenation so we can arrange them in decreasing tendency of catenation as: C>>Si>Ge=Ge
NOW HOW DOES THESE SHOW THE PROPERTY OF CATENATION?
Sulphur naturally exist in nature as S8 molecules. On heating these rings break and link jointly in long to chains. Hence sulphur has great tendency for catenation than oxygen.
Explanation:
Sulphur has greater catenation property than oxygen because S-S bond energy is more than O-O bond energy. ... As a result, oxygen exists as a diatomic molecule and sulphur forms polyatomic molecule that is sulphur shows catenation.