a cyclic compound x reacts with cl2 in presence of sunlight to give 1,4 dichloro butane
Answers
Answer:
Butane belongs to Alkanes and undergoes combustion reaction and gives blue non sooty flame. Butane undergoes substitution reaction with chlorine in presence of sunlight. C4H8Cl2 + Cl2 ----> C4H7Cl3 + HCl. Reaction continues till all hydrogen atoms are replaced by Cl.
Explanation:
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Answer:
Butane is an alkane that undergoes combustion and produces a blue, non-sooty flame. In the presence of sunshine, butane performs a substitution process with chlorine.
Butane is an alkane that undergoes combustion and produces a blue, non-sooty flame. In the presence of sunshine, butane performs a substitution process with chlorine. C4H8Cl2 + Cl2 ----> C4H7Cl3 + HCl
Explanation:
- Butane is a non-sooty, blue alkane that burns cleanly.
- Butane undergoes a substitution reaction with chlorine in the presence of sunlight.
- Substitution reactions are more likely than addition reactions. It is lit with a blue flame. LPG has it.
- Combustion of butane using a balanced equation.
2C4H10 +13O2 ---> 8CO2 + 10H2O
- In the presence of sunshine, a C substitution process occurs.
C4H10 + Cl2 ---> C4H9Cl + HCl
C4H10 + Cl2 ---> C4H9Cl + HCl C4H9 + Cl + Cl2 ---> C4H8Cl2 +HCI
- The substitution reaction is carried out again and again until all of the H has been replaced by Cl.
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