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SCF-07, 1
st
 floor,Sector-15, Panchkula
9217610408,8699438881,8699438882
Page No.1
without ability to achieve them.
God has never given dreams
DPP : 01 / Halogen Derivatives
HALOGEN DERIVATIVES
DAILY  PRACTICE  PROBLEMS - 1
Topics covered under
AIPMT : Haloalkanes: Nomenclature, nature of C –X bond, physical and chemical properties, mechanism of substitution
reactions. Optical rotation. Haloarenes: Nature of C-X bond, substitution reactions (directive influence of halogen
for monosubstituted compounds only). Uses and environment effects of – dichloromethane, trichloromethane,
tetrachloromethane, iodoform, freons, DDT.
JEE-Mains cum Advance : Alkyl Halides: rearrangement reactions of alkyl carbocation, Grignard reactions, nucleophilic
substitution reactions,  Haloarenes : nucleophilic aromatic substitution in haloarenes and substituted haloarenes
(excluding Benzyme mechanism and cine substitution). Nature of C—X bond, mechanisms of substitution reactions,
uses, environmental effects of chlororform, iodoform, freons and DDT.
Some important points & facts
PREPARATION OF ALKYL HALIDES
I. From Alcohols
ROH
Alcohol
HCl(g) + Anhyd. ZnCl
2
HBr(48%) + conc.H
2
SO
4
(little),Reflux
or KBr + conc.H
2
SO
4
,Reflux
HI(57%), Reflux or KI + H
3
PO
4
,Reflux
PCl
5
PX
3
(or P + X
2
) SOCl
2
/Pyridine
R—Cl + H
2
O(Grove' s process) R—Br + H
2
O
R—I + H
2
O
R—Cl +POCl
3
+ HCl
3 R—X + H
3
PO
3
(X = Cl, Br or Cl) R—Cl + SO
2
+HCl(Darzen' s process) II. From Alkenes.
(a) Addition of halogen acids of alkenes gives alkyl halides. In absence of peroxides, addition to unsymmetrical
alkenes occurs according to Markovnikov’s rule while in presence of peroxides (ROOR), i.e., (C
6
H
5
COO) 2
,
H
2
O
2
, etc. the addition of only HBr (and not of HF, HCl or HI) occurs anti to Markovnikov’s rule. This is also
called peroxide effect or kharasch effect.
R—CH = CH
2
+ HBr
Absence of
Peroxides Peroxides
Presence of
R—CH
2
—CH
2
Br R—CHBr—CH
3
(Markvnikov' s
addn. product)(Anti-Markovnikov' s
addn. product) Pr esence or absence
3 2 3 3 of peroxides
Propene 2 Chloropropane
CH CH CH HC CH CHC CH
- - = + - - - - - - - ? - - l l
Page 2


SCF-07, 1
st
 floor,Sector-15, Panchkula
9217610408,8699438881,8699438882
Page No.1
without ability to achieve them.
God has never given dreams
DPP : 01 / Halogen Derivatives
HALOGEN DERIVATIVES
DAILY  PRACTICE  PROBLEMS - 1
Topics covered under
AIPMT : Haloalkanes: Nomenclature, nature of C –X bond, physical and chemical properties, mechanism of substitution
reactions. Optical rotation. Haloarenes: Nature of C-X bond, substitution reactions (directive influence of halogen
for monosubstituted compounds only). Uses and environment effects of – dichloromethane, trichloromethane,
tetrachloromethane, iodoform, freons, DDT.
JEE-Mains cum Advance : Alkyl Halides: rearrangement reactions of alkyl carbocation, Grignard reactions, nucleophilic
substitution reactions,  Haloarenes : nucleophilic aromatic substitution in haloarenes and substituted haloarenes
(excluding Benzyme mechanism and cine substitution). Nature of C—X bond, mechanisms of substitution reactions,
uses, environmental effects of chlororform, iodoform, freons and DDT.
Some important points & facts
PREPARATION OF ALKYL HALIDES
I. From Alcohols
ROH
Alcohol
HCl(g) + Anhyd. ZnCl
2
HBr(48%) + conc.H
2
SO
4
(little),Reflux
or KBr + conc.H
2
SO
4
,Reflux
HI(57%), Reflux or KI + H
3
PO
4
,Reflux
PCl
5
PX
3
(or P + X
2
) SOCl
2
/Pyridine
R—Cl + H
2
O(Grove' s process) R—Br + H
2
O
R—I + H
2
O
R—Cl +POCl
3
+ HCl
3 R—X + H
3
PO
3
(X = Cl, Br or Cl) R—Cl + SO
2
+HCl(Darzen' s process) II. From Alkenes.
(a) Addition of halogen acids of alkenes gives alkyl halides. In absence of peroxides, addition to unsymmetrical
alkenes occurs according to Markovnikov’s rule while in presence of peroxides (ROOR), i.e., (C
6
H
5
COO) 2
,
H
2
O
2
, etc. the addition of only HBr (and not of HF, HCl or HI) occurs anti to Markovnikov’s rule. This is also
called peroxide effect or kharasch effect.
R—CH = CH
2
+ HBr
Absence of
Peroxides Peroxides
Presence of
R—CH
2
—CH
2
Br R—CHBr—CH
3
(Markvnikov' s
addn. product)(Anti-Markovnikov' s
addn. product) Pr esence or absence
3 2 3 3 of peroxides
Propene 2 Chloropropane
CH CH CH HC CH CHC CH
- - = + - - - - - - - ? - - l l
SCF-07, 1
st
 floor,Sector-15, Panchkula
9217610408,8699438881,8699438882
Page No.2
without ability to achieve them.
God has never given dreams
DPP : 01 / Halogen Derivatives
(b) Allylic halogenation. The carbon atom next to the double bond is called allylic carbon and the hydrogens
attached to it are called allylic hydrogens. These hydrogens can be replaced by halogens (Cl or Br) by
heating at 775 K.
() 775K
3 2 2 2 2
3 Chloro 1 propene Propene
Allyl chloride
CH CH CH C C CH CH CH HC
- - - - = + - - -? - = + l l l
775K
3 2 2 2 2
3 Bromo 1 propene Propene
CH CH CH Br Br CH CH CH HBr
- - - - = + - - -? - - = +
475K,hv
3 2 2 2 2 2 2 traces of peroxides
Allyl chloride Propene
CH CH CH SO C C CH CH CH SO HC - = + - - - - - - - ? - - = + + l l l
3 2
Propene
CH CH CH - = +
hv
2 2 Benzoyl Peroxide
Allyl bromide
Br CH CH CH - - - - - -? - - = +
CH
2
—CO
CH
2
—CO
NBr
NBS
Succinimide
CH
2
—CO
CH
2
—CO
NH
III. From Alkanes
() I
or hv
2
R H X R X HX X C ,Br or
?
- + - - - - ? - + = l
IV. By Halogen Exchange Method
I I
Acetone or Methanol
R C Na R NaC - + - - - - - - -? - + l l
This reaction is called Finkelstein reaction.
V. Borodine-Hunsdlecker Reaction. The silver salt of carboxylic acids on reaction with Br
2
 in refluxing CCl
4
 undergo
decarboxylation to form alkyl and aryl bromides with one carbon atom less than the original acid used.
4
CCl / Re flux
3 2 3 2
Silver acetate Methyl bromide
CH COOAg Br CH Br AgBr CO + - - - - -? - + +
4
CCl /Re flux
6 5 2 6 5 2
Silver benzoate Bromobenzene
C H COOAg Br C H Br AgBr CO + - - - - -? + +
Objective Questions
1. Which one is incorrect ?
(a) o and p directing influence of halogens is due to their +R effect
(b) +R effect of Cl is stronger than that of F
(c) Halogens show –I effect and so are deactivating
(d) Cl is more deactivating than I
2. Whenever inductive effect and resonance effect operate together then
(a) resonance effect overweighs Inductive effect
(b) inductive effect overweighs resonance effect
(c) both are equal
(d) there is no connection between resonance and inductive effect
3. Which of the following is correct for stability of phenoxide ion ?
(a) resonating structure of benzene ring(b) localization of p-electron in phenoxide ion
(c) delocalization of p-electron in phenoxide ion(d) all of the above
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FAQs on Halogen Derivatives : Daily Practice Problems (DPP) - 1 - Additional Study Material for NEET

1. What are halogen derivatives and why are they important in organic chemistry?
Ans. Halogen derivatives refer to organic compounds that contain one or more halogen atoms (fluorine, chlorine, bromine, or iodine) attached to a carbon atom. They are important in organic chemistry because halogens can significantly alter the reactivity and properties of organic molecules. For example, halogens can affect the boiling and melting points, solubility, and stability of compounds, and they can also influence the reaction rates and mechanisms.
2. How are halogen derivatives prepared?
Ans. Halogen derivatives can be prepared through various methods. Some common methods include: 1. Halogenation: This involves replacing a hydrogen atom in an organic compound with a halogen atom using a halogenating agent such as chlorine, bromine, or iodine. 2. Nucleophilic Substitution: In this method, a halogen atom is introduced by replacing a functional group, such as an alcohol or an amine, with a halogen atom using a nucleophilic halogenating agent. 3. Addition Reaction: Halogen derivatives can also be prepared through addition reactions, where a halogen molecule adds across a double or triple bond in an organic compound.
3. What are some important applications of halogen derivatives?
Ans. Halogen derivatives find wide-ranging applications in various fields. Some important applications include: 1. Pharmaceuticals: Many drugs contain halogen derivatives, as the presence of halogens can enhance the bioactivity and stability of the compounds. 2. Agrochemicals: Halogen derivatives are commonly used in pesticides and herbicides to control pests and weeds in agriculture. 3. Fire Retardants: Certain halogen derivatives are used as fire retardants in materials like plastics and textiles to reduce the flammability and slow down the spread of fires. 4. Refrigerants: Halogen derivatives, such as chlorofluorocarbons (CFCs) and hydrochlorofluorocarbons (HCFCs), were previously used as refrigerants but have been phased out due to their harmful effects on the ozone layer.
4. What are some safety precautions to consider when working with halogen derivatives?
Ans. When working with halogen derivatives, it is important to follow safety precautions to minimize potential risks. Some key precautions include: 1. Proper Ventilation: Ensure that the work area is well-ventilated to prevent the buildup of potentially harmful fumes. 2. Personal Protective Equipment (PPE): Wear appropriate PPE, including gloves, lab coat, and safety goggles, to protect against direct contact with the chemicals. 3. Handling and Storage: Handle halogen derivatives with care, avoiding direct skin contact. Store them in properly labeled, tightly sealed containers away from heat and incompatible substances. 4. Hazardous Waste Disposal: Dispose of halogen derivatives and any waste materials properly according to local regulations and guidelines.
5. Can you provide examples of halogen derivatives commonly found in everyday products?
Ans. Yes, some examples of halogen derivatives commonly found in everyday products include: 1. Chlorine derivatives: Sodium hypochlorite, commonly known as bleach, is a chlorine derivative used as a disinfectant and cleaning agent. 2. Fluorine derivatives: Sodium fluoride is a fluorine derivative commonly used in toothpaste and dental products for its anti-cavity properties. 3. Bromine derivatives: Ethylene bromide is a bromine derivative used as a fumigant and insecticide in agriculture. 4. Iodine derivatives: Povidone-iodine is an iodine derivative used as an antiseptic in medicine and as a disinfectant in wound care products. These are just a few examples, and halogen derivatives can be found in many other products ranging from plastics and textiles to pharmaceuticals and cosmetics.
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