Chemistry
Give equations for the conversions of – Ethene, Ethyne to:
Ethene | Ethyne | |
---|---|---|
(a) Ethane | (a) Ethane [2 steps ] | by - Catalytic hydrogenation - H2 |
(b) 1,2 dichloroethane | (b) 1,1,2,2 tetrachloroethane [2 steps] | by- Halogenation - Cl2 |
(c) 1,2 dibromoethane | (c) 1,1,2,2 tetrabromoethane [2 steps] | - Br2 |
(d) 1,2 diiodoethane | (d) 1,2 diiodoethene | - I2 |
(e) Bromoethane/Chloroethane | (e) 1,1 -dibromo & 1,1-dichloroethane | by- Halogen acids - HBr/HCl by - Polymerization |
(f) Polyethylene | (f) Copper or silver Acetylide | by Ammoniacal - CuCl/AgNO3 |
Organic Chemistry
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Answer
(a) Conversion of Ethene to Ethane by Catalytic hydrogenation (H2):
(b) Conversion of Ethene to 1,2 dichloroethane by Halogenation (Cl2):
(c) Conversion of Ethene to 1,2 dibromoethane by Halogenation (Br2):
(d) Conversion of Ethene to 1,2 diiodoethane by Halogenation (I2):
(e)(i) Conversion of Ethene to Bromoethane by Halogen acids (HBr):
(e)(ii) Conversion of Ethene to Chloroethane by Halogen acids (HCl):
(f) Conversion of Ethene to Polyethylene by Polymerization:
Ethene polymerises to produce polythene
(a) Conversion of Ethyne to Ethane [2 steps] by Catalytic hydrogenation (H2):
(b) Conversion of Ethyne to 1,1,2,2 tetrachloroethane [2 steps] by Halogenation (Cl2):
(c) Conversion of Ethyne to 1,1,2,2 tetrabromoethane [2 steps] by Halogenation (Br2):
(d) Conversion of Ethyne to 1,2 diiodoethene by Halogenation (I2):
(e)(i) Conversion of Ethyne to 1,1 dibromo ethane by Halogen acids (HBr):
(e)(ii) Conversion of Ethyne to 1,1 dichloro ethane by Halogen acids (HCl):
(f)(i) Conversion of Ethyne to Copper Acetylide by Ammoniacal Cuprous Chloride:
(f)(ii) Conversion of Ethyne to Silver Acetylide by Ammoniacal Silver Nitrate:
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Related Questions
Give equations for the conversions of – Methane, Ethane:
Methane to Ethane to (a) Carbon tetrachloride (a) Hexachloro ethane by - Substitution [diffused sunlight] (b) Carbon dioxide (b) Carbon dioxide by - Oxidation - Complete (c) Methanol
to
Methanal
to
Methanoic acidEthanol
to
Ethanal
to
Ethanoic acidby - Oxidation
(i) catalytic using - catalyst copper [Cu]
(ii) Controlled using acidified K2Cr2O7(d) Methnal Ethanal by- Oxidation - Catalytic - using catalyst MoO (e) Ethyne Ethene by - Pyrolysis [dehydrogenation] Give balanced equations for the laboratory preparations of - Alkanes, Alkenes, Alkynes, Alcohols and Acids.
Sl.
No.Compound from: by/from: (a) Methane [CH4] Sodium ethanoate [sodium acetate] by -decarboxylation (b) Methane [CH4] Iodo methane [methyl iodide] from -an alkylhalide (c) Ethane [C2H6] Sodium propanoate [sodium propionate] by -decarboxylation (d) Ethane [C2H6] Bromo ethane [ethyl bromide] from -alkylhalide (e) Ethene [C2H4] from ethanol [ethyl alcohol] by -dehydration (f) Ethene [C2H4] Bromo ethane [ethyl bromide] by - dehydrohalogenation (g) Ethyne [C2H2] from calcium carbide from -a calcium compound (h) Ethyne [C2H2] 1,2, dibromoethane [ethylene dibromide] by -dehydrohalogenation (i) Ethanol [C2H5OH] Bromo ethane [ethyl bromide] by - hydrolysis of alkylhalide (j) Ethanol [C2H5OH] Ethene [ethylene] by - hydration of ethene (k) Ethanoic acid [CH3COOH] Ethanol [ethyl alcohol] by - oxidation of alcohol Give reasons for:
(i) alkanes are said to be saturated organic compounds
(ii) alkenes are known as olefins
(iii) alkenes are more reactive than alkanes
(iv) ethanoic acid is known as an aliphatic monocarboxylic acid.
Give equations for the conversions of – Ethanol and Ethanoic Acid to:
Ethanol [ethyl alcohol] Ethanoic Acid [acetic acid] (a) Carbon dioxide - by burning (a) Sodium acetate - using alkali - NaOH (b) Ethanal
to
Ethanoic acid - by oxidation using acidified K2Cr2O7(b) Calcium acetate - using alkali - Ca(OH)2 (c) Sodium ethaoxide - using - sodium (c) Ammonium acetate - using alkali - NH4OH (d) Ethyl ethanoate - using - ethanoic acid and conc. H2SO4 (d) Ethyl ethanoate -using - ethanol and conc. H2SO4 [ethyl acetate] (e) Ethene - using conc. H2SO4 at 170 °C