Question

5. The type of hybridisation of carbons from left to right in
CH3 - CH = CH – CH = C - CH2 - CH2 is

a) sp sp2 sp2 sp sp sp3 sp3
b) sp2 sp3 sp3 sp sp sp2 sp2
c) sp sp sp2 sp2 sp3 sp3 sp3
d) sp2 sp sp2 sp sp3 sp2 sp3
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Answer 1

Explanation:

From left to right:

From left to right:sp3 - sp2 - sp2 - sp - sp

From left to right:sp3 - sp2 - sp2 - sp - spFor carbon there are simple rules for hybridization:

From left to right:sp3 - sp2 - sp2 - sp - spFor carbon there are simple rules for hybridization:sp3 if only single bonds (alkanes, cycloalkanes, alcohols, etc)

From left to right:sp3 - sp2 - sp2 - sp - spFor carbon there are simple rules for hybridization:sp3 if only single bonds (alkanes, cycloalkanes, alcohols, etc)sp2 if carbon atom has one double bond(alkenes, ketones, etc)

From left to right:sp3 - sp2 - sp2 - sp - spFor carbon there are simple rules for hybridization:sp3 if only single bonds (alkanes, cycloalkanes, alcohols, etc)sp2 if carbon atom has one double bond(alkenes, ketones, etc)sp if carbon atom has one triple bond or two double bonds (alkynes, alkadienes).

From left to right:sp3 - sp2 - sp2 - sp - spFor carbon there are simple rules for hybridization:sp3 if only single bonds (alkanes, cycloalkanes, alcohols, etc)sp2 if carbon atom has one double bond(alkenes, ketones, etc)sp if carbon atom has one triple bond or two double bonds (alkynes, alkadienes).You should remember, that each carbon can have its own hybridization, it is not common for the whole molecule!

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Answer 2

Explanation:

1. sp3 if only single bonds (alkanes, cycloalkanes, alcohols, etc)
2. sp2 if carbon atom has one double bond (alkenes, ketones, etc)
3. sp if carbon atom has one triple bond or two double bonds (alkynes, alkadienes).

Hope now you can ans by your own

any was for me tha answer is

d)

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