TRISHUL Organic Chemistry (NEET/JEE) - PDF

Summary

This document is a set of short notes on organic chemistry, specifically for NEET and JEE students. It covers the basics, including classification and nomenclature, bonding, functional groups, and homologous series. The document is in Hindi.

Full Transcript

1

त्रश ल
ू
Pep Sir Special

TRISHUL(
Short notes for revision
)

NEET/ JEE

ORGANIC CHEMISTRY
(Hindi Medium)

PHYSICSWALLAH
2
 1

vk/kkjHkwr oxhZdj.k ,oa ukedj.k
Basics, Classification and Nomenclature
vk/kkjHkwr
 tSo’kfDr fl)kUr (VFT) ( cftZfy;l) (Vital force theory (VFT) (Berzilius):
tSo'kfDr(vital force) dkcZfud ;kSfxdksa ds fuekZ.k ds fy, mÙkjnk;h gSA
oksyj us dkcZfud ;kSfxd ;wfj;k dk la'ys’k.k vdkcZfud ;kSfxd veksfu;e lk;usV ls djds VFT dks [kkfjt dj
fn;kA

NH4CNO ⎯⎯ → NH2CONH2

,sflfVd vEy (dksYcs, 1845)
esFksu (cFkZyksV, 1856)

 dkcZfud ;kSfxdksa dk fu:i.k (Representation of organic molecules):

H H O H O
H C C C C O C C H
O
H H H H H
vkca/k &js[kk la:i.k
foo`r lajpukRed lw=
(खुला सूत्र)

O
C6H10O2
CH3 CH2 CH CH O C CH3
vkf.od lw=
la?kfur lajpuk

 dkcZfud v.kqvksa esa ca/ku laca/kh igyw(Bonding aspects in organic molecules)

  rFkk  ca/k:


A – A A = A A  A
  ladj.k: -
f=foe la[;k(SN) =  + p (LFkkuhd`r) (;fn lajpuk nh gks)
 ,dkdh ;qXeksa dh la[;k:
vFkok
1
f=foe la[;k(SN) = [V + M  C] (;fn vkf.od lw= fn;k gks)
G15 G16 G17 2
lp=1 lp=2 lp=3
N O F
Cl 2→ sp
P S
3→ sp2
As Sc Br 4 → sp
3

5 → sp d
3
Sb Te I
Bi Po At
sp/L
 lp  lp 
 2

 ;kSfxdksa dh fMxzh (Degree of Compounds)

(i) dkcZu dh fMxzh% fn;s x;s dkcZu ls lh/ks rkSj ls caf/kr dkcZu ijek.kqvksa dh la[;kA

(ii) gkbMªkstu dh fMxzh: ml dkcZu dh fMxzh ds cjkcj ftlls gkbMªkstu tqM+k gSA

(iii) ,sYdksgkWy dh fMxzh: ml dkcZu dh fMxzh ds cjkcj ftlls – OH tqM+k gksA

(iv) ,sfYdy gSykbM+ dh fMxzh: ml dkcZu dh fMxzh ds cjkcj ftlls gSykstu (–X) tqM+k gksA

(v) ,sehu dh fMxzh: ukbVªkstu ls izR;{k :i ls caf/kr dkcZu dh ijek.kq la[;k ds cjkcj

(vi) vlaRk`Irrk dh dksfV(DU): (a) ;fn lajpuk nh gks ; DU = π ca/k + oy;

(b) ;fn vkf.od lw= fn;k gks ; DU = 2C + 2 + N – H – X
2

 fØ;kRed lewg(Functional group) ijek.kq ;k ijek.kqvksa dk lewg tks dkcZfud ;kSfxdksa ds vfHkYkk{kf.kd jklk;fud
xq.kksa ds fy, mÙkjnk;h gksrk gSA
Ø-l- fØ;kRed lewg lajpuk
1. dkcksZfDlfyd vEy (– COOH) O
C OH
2. lYQksfud vEy (–SO3H) O
S OH
O
3. vEy ,UkgkbMªkbM (–COOCO–) C O C
O O
4. vEy DyksjkbM+ (–COCl) C Cl
O
5. ,LVj (–COOR) C OR
O
6. ,sekbM (–CON
(
C N
O
7. ukbVªkby(–CN) —C  N
8. vkblksaukbVªkby(– NC) N C
9. ,sfYMgkbM (–CHO) C H
O
10. dhVksu (–CO–) C
O
11. ,sYdksgkWy(–OH) – O–H
12. Fkk;ks,sYdksgkWy (–SH) –S – H
13. ,sehu (– N –) N

14. ukbVªk(s –NO2) O
N
O
15. ukbVªkls ks (–NO) –N = O
16. gSykstu(–X) –X
17. bZFkj (– O –) – O–
18. Fkk;ksbZFkj (–S–) – S–
19. ,sYdhu / ,sYdkbu ( C C) C C ) C C C C
20. ,sjksesfVd OH N

cst
a hu QhukWy ,sfuyhu
 3

 ltkrh; Js.kh(Homologous Series)
→ dkcZfud ;kSfxdksa ds lewg dh ,slh Js.kh ftlesa ,d fof'k’V fØ;kRed lewg gks rFkk – CH2 bdkbZ dk
varj gksA
→ latkrh; Js.kh ds lnL;ksa dks ltkr (homologous) dgrs gSA
fØ;kRed lewg
leku lkekU; lw=
ltkr esa fojpu dh lkekU; fof/k
jklk;fud vfHkfØ;k
fHkUu&fHkUu vkf.od lw=
HkkSfrd xq.k

;kSfxdksa ds fofHkUu oxZ vkSj muds lkekU; lw=
(Different class of compounds and their general formula)
Ø-l- ;kSfxd dk oxZ lkekU; lw=
1. ,sYdsu CnH2n+2
2. ,sYdhu CnH2n
3. ,Ydkbu CnH2n–2
4. ,sYdksgkWy /bZFkj CnH2n+2O
(,sYdsukWy)
5. ,sfYMgkbM/dhVksu CnH2nO
(,sYdsuy)/ (,sYdsukWu)
6. dkcksZfDlfyd vEy /,LVj CnH2nO2
7. gSyks,Ys dsUl CnH2n+1X
8. ,sehu CnH2n+3N
9. ,sekbM CnH2n+1NO
10. ukbVªk,s sYdsu CnH2n+1NO2

 dkcZfud ;kSfxdksa dk oxhZdj.k ( Classification of organic compounds)
dkcZfud ;kSfxd pØh;

vpØh; @ foo`r J`a[kyk
pØh;
dksbZ can lajpuk
mifLFkr ugah ,sfylkbfDyd ,sjkseSfVd
¼pØh; ysfdu ¼pØh;] iw.kZ vuquknh]
,sjkseSfVd ugha½ gdy fu;e dh ikyuk½
Ex ; CH4 CH3
CH3 CH3
CH3CH3 CH3
(1).
CH3CH2OH NH CH3 CH3
COOH (2). cst
a hu us¶Fksyhu VkWywbu o – tk;yhu es lhVhyhu

(3).
O NH O S -
lkbDyksisUVk
N
ik;jkWy ¶;wjkWu Fkk;ksQhu
fifjM+hu
Mkb,fuy _.kk;u
lepØh;(dkcksZlkbfDyd) : oy; esa lHkh ijek.kq dkcZu gksrs gSA
fo’ke pØh; : oy; esa fo’ke ijek.kq (N\O\S) mifLFkr gksrk gSA
csUthukW;M : lajpuk es csthu oy; mifLFkr gksrh gS
vcsaUthukW;M : csathu oy; vuqifLFkr gksrh gS
 4

lkekU; ukedj.k (Common naming)

 ,sYdsUl o blds ewyd(Alkanes & its radicals)
(1) CH4 (2) CH3 –CH3 (3) CH3–CH3–CH3
Methane Ethane Propane

CH3 CH2 CH2 CH3 CH3 CH CH3
(4)
CH3
n – Butane Isobutane
CH3
(5) CH3 CH2 CH2 CH2 CH3 CH3 CH CH2 CH3 CH3 C CH3
CH3 CH3
n – Pantane
Isopentane Neopentane

Alkane ⎯⎯→
–H
Alkyl
(,Ydus) ( ,fYdy )

⎯⎯⎯
→ Alkylidene/ Alkylene
–2H

(,YdhyhMhu) (,Ydhyhu)

 CH4 H – CH3
Methane Methyl
 CH3 CH3 –H
CH2 CH3
Ethane Ethyl
–2H
CH2 –2H CH2 CH2
CH3 CH
Methylidene Ethylidene Ethylene

–H
 CH3 CH2 CH3 CH3 CH2 CH2 CH3 CH
Propane
n - Propyl CH3
Isopropyl

CH3 CH2 CH CH3 CH CH2

Propylidene Propylene
CH3 CH CH3
 CH3 CH 2 CH2 CH3
n - Butane CH3
Isobutane
-H -H
-H -H
CH3
CH3 CH2 CH2 CH 2 CH3 CH2 CH CH 3
CH3 CH CH2 CH3 C
n-Butyl
Sec - Butyl
CH3 CH3
Isobutyl t - Butyl
CH3
 CH3 CH2 CH2 CH2 CH3 CH3 CH CH2 CH3
n - Pentane CH3 C CH3
CH3
–H CH3
–H Isopentane
Neopentane
CH3 CH2 CH2 CH2 CH2 –H
–H
n - Pentyl –H
CH3 CH CH2 CH2
CH3 CH2 CH2 CH CH3 CH3 C CH3
CH3 CH2 CH3
CH3 C CH2
Sec - Pentyl (active) Isopentyl CH3
t-Pentyl CH3
Neopentyl
 5

 ,sYdhUl o blds ewyd(Alkenes & its radicals)
1. CH2 CH2 ,fFkyhu
2. CH3 CH CH2 izkfs iyhu
3. CH3 CH2 CH CH2 -C;wfVyhu
4. CH3 CH CH CH3 -C;wfVyhu

5. CH3 C CH2 vkblksC;wfVyhu
CH3

Alkene ⎯⎯→
–H
Alkenyl
,Ysdhu ,Ysdhuhy

CH2 = CH2 ⎯⎯
–H
→ CH2 = CH
,Fkhu ,fFkuhy / foukby

–H
CH3 CH CH Propenyl
CH3 CH CH2
–H 2-Propenyl
Propene CH2 CH CH2
(Allyl)
 ,sydkbZu o blds ewyd (Alkynes & its radicals)
2. CH3 C CH 3. CH3 C C CH3 4. CH3 CH2 C CH
1. HC  CH
Acetylene Methylacetylene Dimethylacetylene Ethylacetylene

Alkyne ⎯⎯
–H
→ Alkynyl

CH  CH ⎯⎯→
–H
CH  C –
Ethyne Ethynyl

–H
CH3 C C Propynyl
CH3 C CH
Propyne –H CH2 C CH 2- Propynyl
(Propargyl)

 ,sjhu¼,sjkseSfVd gkbMªksdkcZu½ vkSj blds ewyd(Arenes (aromatic hydrocarbons) and its radicals)

CH3 CH3 CH3
CH3

CH3 CH3
Benzene Toluene o–Xylene Mesitylene Naphthalene Anthracene

Arene ⎯⎯
–H
→ Aryl
 6

–H

cst
a hu Qsfuy
¼Qhu½ CH2 CH C

CH3 cst
a hu cst
a y cst
a ks

VkWybw u CH3 CH3 CH3

o – VkWfyy m – VkWfyy
p – VkWfyy

fØ;kREkd lewgksa okys ;kSfxdksa dk lkekU; ukedj.k
(COMMON NAMING OF COMPOUNDS HAVING FUNCTIONAL GROUPS)

lkekU; uke

iz.kkyh - I iz.kkyh - II
‘C’ ijek.kqvksa fØ;kRed lewg
gkbMªksdkcZu + fØ;kRed lewg ij vk/kkfjr + ij vk/kkfjr
ewyd dk uke iwoZyXu vuqyXu
COOH ic acid
X Halide C1 Form QkWeZ
COOR ate
OH Alcohol C2 Acet ,slhV
COCl oyl halide
SH Thiol C3 Propion izksfivkWu
CON amide
O Ether C4 Butyr C;wVk;j (n/ vkblkss)
COCOO ic anhydride
S Thioether C5 Valer osyj(n/ vkblks@fuvks)
CN onitrile
N Amine
NC oisonitrile
C Ketone (C C C Acryl )
O (C C C C Croton ) CHO aldehyde
CN Cyanide
NC Isocyanide
 7

IUPAC ukedj.k

C N N

Jà[kyk p;u Øekadu uke
(Chain selection) (Numbering) (Naming)

F.G > M.B > sub > ‘C’ atoms

FG > M.B > sub

2°P + 1°P + :< 'kCn + 1°S + 2°S
( izfrLFkkid) (lkbDyks) C1 → esFk ,su ¼fØ;kRed lewg
C2 → ,Fk bZu dk vuqyXu½
R ,sfYdy (Alkyl) vksbd vEy (oic acid)
C6H5 Qsfuy (Phenyl) C3 →izksi vkbu COOH
dkcksfZ Dlfyd vEy (carboxylic acid)
NO2 UkkbVªks (Nitro) SO3H lYQksfud vEy (sulphonic acid)
vks,sV (oate)
NO UkkbVªkslks (Nitroso) COOR
dkcksfZ DlysV (carboxylate)
C10 → Msd
X gSyks (Halo) COX
vkW;y gSykbM (oyl halide)
dkcksfZ uy gSykbM+ (carbonyl halide)
OR ,sYdkWDlh (Alkoxy) ,sekbM+ (amide)
CON
dkcksDZ lsekbM (carboxamide)
OH gkbMªkWDLkh (Hydroxy) UkkbVªkby (nitrile)
CN
dkcksuZ kbVªkby (carbonitrile)
CH2OH gkbMªkWDlh esfFky (Hydroxy Methyl) ,y (al)
CHO
dkcsZfYM+gkbM (carbaldehyde)
CO vkWu (one)
OH vkWy (ol)
SH Fkk;ksy (thiol)
N ,sehu (amine)
 8

fØ;kRed lewg lkj.kh (Functional Group Table)

Ø-Lk- fØ;kRed lewg iwoZyXu (Prefix) vuqyXu (Suffix)
(Functional Group)
1. Carboxylic Acid (– COOH) Carboxy oic acid (C) ✓

carboxylic acid (C) 

2. Sulphonic acid (–SO3H) Sulpho sulphonic acid

3. Acid anhydride (–COOCO–) – oic anhydride (C) ✓

carboxylic anhydride (C) 

4. Ester (–COOR) Alkoxy carbonyl (PCC – C) oate (C) ✓

Alkanoyl oxy (PCC – O) carboxylate (C) 

5. Acid halide (–COX) Halocarbonyl oyl halide (C) ✓

carbonyl halide (C) 

6. Amide Carbonyl (PCC – C) amide (C) ✓

Alkanoyl amino (PCC – N) carboxamide (C) 

7. Cyanide (–CN) Cyano nitrile (C) ✓

carbonitrile (C) 

8. Isocyanide (–NC) Isocyano isonitrile

9. Aldehyde (–CHO) Oxo (C) ✓ al (C) ✓

Formyl (C)  carbaldehyde (C) 

10. Ketone (–CO–) Oxo/keto one

11. Alcohol (–OH) Hydroxy ol

12. Thioalcohol (–SH) Mercapto thiol

13. Amine ( – N – ) Amino amine
|
 9

leko;ork(Isomerism)
leko;ork (Isomerism): nks ;k nks vf/kd ;kSfxd ftuds v.kqlw= leku gksrs gS] fdUrq xq.k fHkUu gksrs gSA

leko;ork

lajpukRed leko;ork (Structural Isomerism)
f=foe leko;ork (Stereoisomerism)
¼leku v.kq lw=] fdarq fHkUu lajpuk½ ¼ijek.kqvksa ds vkca/ku dk Øe rks leku
jgrk gS ijarq muds v.kqvksa
eas ijek.kqvksa vFkok lewgks dh
f=foe fLFkfr;k¡ fHkUUk jgrh
gSA½
J`a[kyk] leko;ork

fLFkfr leko;ork
T;kferh; leko;ork
fØ;kRed leko;ork & RCI
izdk 'kh; leko;ork
e/;ko;ork

pyko;ork

 ljapukRed leko;rk(Structural Isomerism)

(1) J`a[kyk leko;ork: leku v.kq lw= ijarq fHkUu dkcZu 1) n = dkbZjy ijek.kq
dkbjy v.kq
¼lfØ;½
DOG
DEO

POS 
Double bond Odd
COS 
POS  POS Double bond Even
f}ca/k fo’ke T;kferh; leko;ork
f}ca/k le
POS  COS  Optically active
COS  Geometrically active
 izdk'kh; leko;ork
vdkbjy v.kq COS  
¼vlfØ;½  vdkbjy v.kq dkbjy v.kq
vdkbjy v.kq ¼vlfØ;½ ¼lfØ;½
¼vlfØ;½

Ikzdk'kh; leko;oh;ksa ds chp laca/k(Relationship between optical isomers)

1. izfrfcac:ih(Enantiomer): fdlh ;kSfxd ds vu–v/;kjksfir niZ.k izfrfcac:ihA izfrfcac:Ikh;ksa ds HkkSfrd rFkk
jklk;fud xq.k/keZ leku gksrs gS rFkk HkkSfrd fof/k;ksa }kjk i`Fkd ugha fd;k tk ldrs gSA gkyk¡fd bUgsa fo'ks’k rduhdksa
}kjk fo;ksftr ¼i`FkDd½ fd;k tk ldrk gSA

izfrfcac:ih;ksa dk
leeksyj feJ.k
jslsfed feJ.k

ckâ; izfrdkj ds
dkj.k izdkf'kd vlfØ;
2. foofje leko;oh(Diastereomers):f=foeleko;oh tks ,d nwljs ds niZ.k izfrfcac ugha gksrs gS foofje:ih dgyrs gSaA
buds HkkSfrd xq.k/keZ fHkUu&fHkUu gksrs gS blfy, HkkSfrd fof/k;ksa tSls vklou bR;kfn }kjk i`Fkd fd;k tk ldrk gSA

3. eslks ;kSfxd(Meso compound):cgqy dkbjy dsUnz okyk ;kSfxd ftlesa vkarfjd lefefr (POS ;k COS) gksus ds
dkj.k ;g vkarfjd izfrdkj ds dkj.k izdkf'kd vlfØ; ¼/kzqo.k v/kw.kZd½ gksrk gSA
S

R

II
R I/II → izfrfcac:ih
R
R I/III → fofoje leko;oh
S I/IV → fofoje leko;oh
III

I
S

S
IV
 13

f=foeleko;oh;ksa dh la[;k
(GI dh la[;k ;k OI dh la[;k ;k GI + O.I dh la[;k )

vlefer v.kq
lefer v.kq
N = 2n
n → le n → fo’ke
n → f=foe dsUnzks dh la[;k
( dkbjy dsUnzks ;k T;kferh dsUnzks dh al[;k½ n–2 n–1
N = 2n–1 + 2 2 N = 2n–1 + 2 2
(GI dh la[;k½
(OI ;k GI dh la[;k½
N = 2n–1
(OI dh la[;k ;k GI + OI dh la[;k ;fn dkbjy dsUnz e/; esa gkss½
n–2
2
N = 2n – 2
(GI + OI dh la[;k ;fn e/; esa T;kferh dsUnz gks½

la:i.k leko;ork (Conformational Isomerism): C – C ca/k ds pkjksa vksj eqDr ?kw.kZu ds dkj.k mRiUUk gksus okyh fofHkUu
f=foe O;oLFkkvksa dks la:i.kh; leko;oh ;k l
a a:i.k ;k ?kw.khZ dgk tkrk gSA

mnk% ,Fksu ds la:i.k(Conformation of ethane)
H
H H
H H
fo’keyh;
H [vU; dksbZ la:i.k]
H
H H
H H
fod` fr
lkarfjr xzflr
ejksM+h f=foe
gkbMªkstu gkbMªkstu ,d nwljs fod`fr fod`fr
,d nwljs ds ftruk djhc gks nks lehiLFk ca/kks nks lehiLFk Hkkjh
ls vf/kdre lds mRkus djhc gS ds chp izfrd’kZ.k lewgksa ds chp
nwjh ij gSaA izfrd’kZ.k

LFkkf;Ro : lkarfjr > fo’keryh; > xzflr

 
U;wUkRke vf/kdre
ejksM+h fod`fr ejksM+h fod`fr

n-C;wVsu ds l:ai.k(Conformation of n-butane)
CH3 CH3 CH3 CH3
H CH 3
H
H H CH3

> > ¼LFkk;hRo Øe½
H H
H H H CH3 H H H H
H H
CH3 H
,sUVh xkW'k vkaf'kd xzflr iw.kZ xzflr

xkW’k izHkko(Gauche effect): H–vkca/ku ;k vk;fud vkd’kZ.k ds dkj.k xkW'k :i dk ,aVh :Ik ls vf/kd LFkk;hRo xkW'k izHkko
dgykrk gSA xkW'k ÁHkko fuEu v.kqvksa esa ns[kk tkrk gS&
CH2 CH2 CH2 CH2
|

CH2 CH2
|

|
|

| | , |+
| | , –
OH OH F COO NH3
OH
Ethyl ene 2–Fluoroethanol Zwitter ion of
glyco l 3- amino propanoic
acid
 14

lkekU; dkcZfud jlk;u
GENERAL ORGANIC CHEMISTRY (GOC)

bysDVªkWu foLFkkiu izHkko (Electron displacement effect)
ijek.kq/izfrLFkkfir lewg ds izHkko ;k vkØe.kdkjh vfHkdeZd dh mifLFkfr esa bysDVªkWuksa dk foLFkkiu bysDVªkWu foLFkkiu
izHkko dgykrk gSA

 Ikzsjf.kd izHkko(Inductive effect): lehiLFk ca/k ds /kzqo.k ds dkj.k ca/k dk /kqzohdj.k Ásj.khd ÁHkko dgykrk gSA ;g
nwjh ij fuHkZj djrk gS rFkk oS|qr_.kkRedrk esa varj ds dkj.k mRiUu gksrk gSA

izsjf.kd izHkko
(I – izHkko)

/kUkkRed izsjf.kd izHkko _.kkRed izsjf.kd izHkko
(+ I – izHkko ) (–I – izHkko)

bysDVªkWu nkrk lewg }kjk n'kkZ;k tkrk gS
bysDVªkWu viu;d lewgksa }kjk n'kkZ;k tkrk gSA
– – – –
–CH2 > –NH > –O > COO > – 3°R > –2° R > –1° R > – H  
–NR3 > –NH3 > –NO2 > – CN

> –SO2R > –COOH > – CHO
> –CO– > –F > –Cl > –Br

> –I > – OR > – OH
> –C CH > – NH2 > —Ph> CH CH2 > –H

 izsjf.kd izHkko ds vuqiz;ksx(Application of inductive effect)

+I
(1) dkcZ/kuk;u dk LFkkf;Ro(C)/eqDr ewyd dk LFkkf;Ro(C )  {kkjh; lkeF;Z 
–I
–I
() dkcZ_.kk;u dk LFkkf;Ro@ vEyh; lkeF;Z 
+I
 15

 vuqukn(Resonance)
Tkc ,dy yqbl lajpuk fdlh v.kq dk lVhd o.kZu ugh adj ldrh gS] rks leku ÅtkZ] leku ukfHkd dh fLFkfr] leku
bysDVªkWu ;qXeksa dh okyh dbZ lajpukvksa ls ftUgsa vuquknh (dsUkksfudy) lajpuk,sa dgrs gSa] }kjk okLrfod v.kq (vuqukn
ladj) of.kZr fd;k tk ldrk gS

 vuqukn ds ckjs esa egRoiw.kZ fcaUnq
→ vuqukn v.kq dks LFkk;h djrk gS D;ksafd vuqukn ladj dh ÅtkZ fdlh ,dy dsuksfudy lajpuk dh ÅtkZ dh
rqyuk es de gksrh gS
→ vuqukn ca/k vfHkYk{k.kksa dks vkSlrhdj.k djrk gS

 vuqukn Lak;qXeu ds fy, ifjfLFkfr(Condition for resonance /conjugation)

 – +
(2) – CH2 CH NH2 CH2 CH NH2 CH2 CH NH2
   +
+
(3) – CH2 CH CH2 CH2 CH CH2 CH2 CH CH2


–
–
(4) – CH2 CH CH2 CH2 CH CH2 CH2 CH CH2



(5) – CH2 CH CH2 CH2 CH CH2 CH2 CH CH2

  + +
(6)  CH2 OH CH2 OH CH2 OH

 vuquknh lajpukvksa dk LFkkf;Ro(Stability of resonating structures)

(I) vukosf'kr > vkosf'kr (vkos'k i`FkDdj.k)
(II) iw.kZ v’Vd >viw.kZ v’Vd
(III) ca/kks dh vf/kd la[;k >ca/kks dh de la[;k

(IV) vf/kd EN ijek.kq ij –ve vkos'k > de EN ijek.kq ij –ve vkos'k
(v) vleku vkos'kksa ds e/; de nwjh ( – )  vleku vkos'kksa ds e/; vf/kd nwjh (  – )
(VI) ;fn mijksDr esa ls dksbZ fu;e dk;Z ugha djrk gS rks vU; bysDVªkWu foLFkkiu izHkko dk iz;ksx dhft, TkSls izsjf.kd
izHkko] ,sjkseSfVdrk vkfn
 16

 vuqukn izHkko ;k eslksesfjd izHkko(Resonance effect or mesomeric effect): vuqukn ds dkj.k v.kq esa mRiUu
/kzqo.krk vuqukn izHkko ;k eslksesfjd dgykrh gSA vuqukn ÁHkko fuEu nks ifjfLFkfr;ksa esa mRiUu gksrk gS&

Ex. (i) nks - ca/kks dh vU;ksU; fØ;k
 – 
+
–
C C X Y C C C C

||

|||
C C X Y

|

|
||

||

|
|

|

|
–M
(ii)  ca/k rFkk ,dkdh ;qXe dh vU;ksU; fØ;k.
–  – +
C C G C C G
||

|||
C C G |

|
||

|
|

+M

eslksesfjd izHkko
;k
vuqukn izHkko

/kUkkRed eslksesfjd izHkko (+ M) _.kkRed eslksesfjd izHkko (– M)
(– G ( (– X = Y)
– NH2 > –NHCOR > – OH > – OCOR > – X – NO2 > –CN > – SO 2R > CHO............

 ,sjkseSfVd ukWu&,sjkseSfVd rFkk ,aVh,sjkseSfVd ;kSfxd%

,sjkseSfVd ;kSfxd ,aVh,sjkseSfVd ;kSfxd ukWu&,sjkseSfVd ;kSfxd
→ pØh; – pØh;

→ iw.kZ vuqukn → iw.kZ vuqukn

→ 4n + 2 =  e– → 4n = e– lHkh ;kSfxd tks u rks ,sjkseSfVd gS
(n = 0,1,2,3…….) (n = 0,1,2,3,4…….) uk gah ,aVh,sjkseSfVd
;k ;k
 e–;qXeksa dh fo’ke la[;k  e– ;qXeksa dh le la[;k

vuqukn ÅtkZ: lokZf/kd LFkk;h vuquknh lajpuk rFkk vuqukn ladj ds chp ÅtkZ varj dks vuqukn ÅtkZ dgk tkrk
gSA
vuqukn ÅtkZ = vf/kdre LFkk;h vuquknh lajpuk dh ÅtkZ & vuqukn ladj dh ÅtkZ
vuqukn ÅtkZ  vuqukn ds xq.k rFkk ek=k

Note: lkekU; ÅtkZ LFkkf;Ro ds O;wDrØekuqikrh gksrh gS tcfd vuqukn ÅtkZ LFkkf;Ro ds lekuqikrh gksrh gSA
 17

 vfrla;qXeu(Hyperconjugation)
→ C – H ca/k ds  bysDVªkWuksa dk fudVorhZ p – d{kd esa fOkLFkkuhdj.k vfrla;qXeu dgyrk gSA.

→ vfrla;qXeu ds fy, 'krZsa –
H HS2 HS3..........

C C
H H
Csp Csp
3
2 C C C HS2 HS3...........
H
C C HS2 HS3...........

No⋅ of H. S. = No⋅ of α H + 1 (nh xbZ lajpuk lfgr)
No⋅ of H.S. = No. of α-H (nh xbZ lajpuk ds vfrfjDr)
dkcZu/kuk;u /dkcZu eqDr ewyd/ ,sYdhu dk LFkkf;Ro  α-H dhla[;k

 bysDVªkWesfjd izHkko(Electromeric effect)
→,d vkØe.kdkjh vfHkdeZd dh ek¡x ij cgqca/k ds π bysDVªkWuksa dk fdlh ,d ijek.kq ij iw.kZ LFkkukUrj.kA
→tc vkØe.kdkjh vfHkdeZd gVk;k tk;s rks ;g izHkko [kRe gks tkrk gSA

E– izHkko

+ E– izHkko – E– izHkko

cgqca/k ds  e– ml ijek.kq cgqca/k ds  e– ml ijek.kq dh vksj
dh vksj LFkkUrUrfjr gksrs gS] LFkkukUrfjr gksrs gS] ftl ij
ftl ij vfHkdeZd caf/kr vkØe.kdkjh vfHkdeZd caf/kr
gksrk gSA ugha gksrk gSA

 – –
|

|
| |

| |

C C + CN C C
|

|

||
| |

| |

+
|

C C + H CH C
||

|

| | | | |
CN
 18

# M – izHkko o H–izHkko esVk&fLFkfr ij dk;Zjr ugha gksrk gSA
 bysDVªkWu foLFkkiu izHkko ds vuqiz;ksx(Application of electron displacement effect):
+M | +H | +I
1. dkcZ/kuk;u dk LFkkf;Ro 
–M | –H | –I

dkcZ/kuk;u ds LFkkf;Ro dk Øe :
+I
,sjkseSfVd > u`R;dkjh vuqukn > vuqukn >  −H 
−I
(Dancing resonance)

+M | +H | +I
2. dkcZu eqDr ewyd dk LFkkf;Ro 
–M | –H | –I

+I
dkcZu eqDr ewyd ds LFkkf;Ro dk Øe: vuqukn >  – H >
–I
–M | –H | –I
3. dkcZ_.kk;u dk LFkkf;Ro 
+M | +H | +I

–I
dkcZ_.kk;u ds LFkkf;Ro dk Øe: ,sjkseSfVd > Csp > vuqukn >
+I
 19

−M | −H | −I
4. vEyh; lkeF;Z  l;qaXeh {kkj (_.kk;u) dk LFkkf;Ro 
+M | +H | +I
vEyh; lkeF;Z dk Øe: -

H > H2 > NH3

5. {kkjh; lkeF;Z  e– ?kUkRo  +M | +H | +I 
 –M | –H | –I 
{kkjh; lkeF;Z dk Øe:

6. gkbMªkstuhdj.k dh Å"ek(HOH):
(lkekU;r; ,sYdhu / ,sYdkbuksa ds fy,)

HOH   - ca/kks dh la[;k
1

LFkkf;Ro

7. ngu Å"ek (HOC):

HOC  ‘C’ (ijek.kqvksa dh la[;k)
 1 vpØh;  “kk[ku
LFkkf;Ro pØh;  oy; vkdkj

8. ca/k yEckbZ ij bysDVªkWu foLFkkiu izHkkoksa ds izHkko (Effect of electron displacement effects on bond
length)

foLFkkuhdj.k (vuqukn rFkk vfrla;qXeu)

B.L. B.L.
 20

pyko;ork Tautomerism
lajpukRed leko;oh tks gkbMªkstu ds vfHkxeu ds dkj.k rhoz xfrd lkE; esa fo|eku gksrs gS pyko;oh dgykrs
gSA ;g ifj?kVuk pyko;ork dgykrh gSA
Ex: CH3 CHO CH2 CH OH

dhVks – bZukWy leko;ork :
H O OH
(i) C C C C

dhVks bZukWy

H O OH
(ii) C C C C C C C C

dhVks bZukWy

 bZukWy ek=k (Enol Content)

lkekU;rk dhVks :Ik bZukWy :Ik ls vf/kd LFkk;h gksrk gS blfy, lkE; ij vf/kd ek=k esa gksrk gSA
viokn: bZukWy rc vf/kd ek=k esa vFkok eq[; ?kVd ds :Ik esa mifLFkr gksxk tc mlesa ,SjksesfVdrk ;k H– vkca/ku
mifLFkr gksA
,sjksEkSfVdrk
bZukWy dh ek=k  bZukWy dk LFkkf;Ro H–ca/ku
→H

OH
(1)
O (bZukWy)

y%

OH x > y >z
x%
(dhVks&:i) (bZukWy )

z%

O O
O O O O
(2)
< <
Ph
H H CH3 CH3 Ph

O O
: II > I > III
(3)
O O O
I II III
 21

vfHkfØ;k fØ;kfof/k ds ewyHkwr fcUnq (Basics of reaction mechanism)

fdlh vfHkfØ;k esa bysDVª‚uksa dk lapyu rFkk vkca/k&fonyu vkSj vkca/k&fuekZ.k ds le; dh vkSftZdh rFkk mRikn
cuus ds le; dh foLr`r tkudkjh vkSj Øec) v/;;u ml vfHkfØ;k dh fØ;kfof/k dgykrh gS

,d lkekU; dkcZfud vfHkfØ;k fuEu izdkj ls of.kZr gSa:
dkcZfud v.kq vkØe.kdkjh
[e/;orhZ
[
mRikn
vfHkdeZd
¼fØ;k/kkj½
miksRikn

Cak/k fonyu :
leka’k fonyu: R X R +X

fo’;ka’k fonyu: R X R+X

e/;ofrZ;ksa ds izdkj:( Types of intermediates)
dkcZ/kuk;u dkcZu eqDr ewyd dkcZ_.kk;u

C C
C
→ 6e– (e–U;wu) →7e– (e–U;wu)
→sp2 / f=dks.kh; leryh; →sp2 / f=dks.kh; leryh; →8e– (e–le`)))
→izfrpqEcdh; →vuqpqEcdh; →sp3 / fijkfeMh;
→izfrPkqEcdh;

foyk;d% og inkFkZ tks vfHkdkjdksa dks ?kksyrk gS rFkk vfHkfØ;k dks ek/;e iznku djrk gSA

foyk;d

v/kzqoh; foyk;d v/kzqoh; foyk;d
( = 0) (  0)

n - gsDlsu /kzqoh; izkWfVd foyk;d (PPS)+ /kzqoh; vizkWfVd foyk;d (PAS)
(/kzqoh; izksVkWu j[krk gS  –H) (/kzqoh; izksVkWu ugh j[krk gS½
VkWywbZu O
+
,slhVksu (CH3 C CH3
(
csUthu HO – H
+ O
CCl4 RO – H DMSO S
CS2 +
RCOO– H
(CH 3 CH3
(
CH3
DMF (O N )
CH3
,sflVksUkkbVªkbZy CH3CN

bZFkj (R – O – R)

 vkØe.kdkjh vfHkdeZd (bysDVªkWujkxh rFkk ukfHkdjkxh):(Attacking reagent (Electrophiles and Nucleophiles)
 22

 bysDVªkWujkxh : bysDVªkWu U;wu iztkfr;k¡ tks bysDVªkWu /kuh dsUnzks ij vkØe.k djrh gSA
Ex:
 –
+
  + – + –
+ –

C O, C N , Br Br , R X
Cl+ ,Br+ , I+, H+ ,CH3+

/kzqoh; v.kqvksa esa /kUkkRed (e– U;wu )
dsUnz] bysDVªkWujkxh dsUnz dh
rjg O;ogkj dj ldrk gS
izkV
s kWuhdj.k ;k EWG bysDVªkWujkfxrk dks c Cl2> Br2> I2
CH4 + Cl CH3 + HCl (vR;kf/kd ean)
lapj.k
CH3 + Cl2 CH3Cl + Cl gkbMªkstu%csaftfyd >,sfyfyd> 3º > 2º > 1º
CH3 + CH3 CH3–CH3 (vk;ksMhuhdj.k HIO3;k HNO3 tSls
Cl + Cl Cl – Cl lekiu vkWDlhdkjdksa dh mifLFkfr esa fd;k tkrk gS)
CH3 + Cl CH3 – Cl
2.1.1.2. 2. ngu: → vf/kd ek=k esa Å"ek fudyus ds dkj.k
 3n + 1  ,sYdsuksa dks bZa/ku ds :i esa dke esa ysrs
Cn H 2n + 2 +   O2 ⎯⎯
→ nCO 2 + (n + 1)H 2 O + Å"ek
 2  gSaA
Ex.: CH4 + 2O2 ⎯→ CO2 + 2H2O + Å’ek → viw.kZ ngu ds nkSjku fufeZr dkyk dTty
C2H6 + 3.5O2⎯→ 2CO2 + 3H2O + Å’ek dk mi;ksx L;kgh dkys o.kZd rFkk iwjdksa ds
:Ik esa fd;k tkrk gSA
viw.kZ ngu %
CH4 + O2(limited) ⎯→ C + H2O
dkcZu dTty
3. fu;af=r vkWDlhdj.k: → fu;af=r vkWDlhdj.k ok;q dh fu;fEkr vkiwfrZ
Cu/523 K dh mifLFkfr esa fd;k tkrk gSA
CH3OH
CH4 + O2 esFksukWy → KMnO4 ds lkFk vkWDLkhdj.k rHkh laHko gS
(i) Mo2O3
HCHO tc ,sYdsu esa r`rh;d gkbMªkstu gksrk gSaA

esFksuSy
(CH3COO)2Mn
(ii) CH3–CH3 + O2 CH3COOH
Δ
KMnO4
(iii) (CH3)3CH (CH3)3COH
Δ
4. leko;ohdj.k:
Anh.AlCl3+ HCl
n– ,sYdsUl “kkaf[kr ,sYdsu
(C  4)
Ex.:
Anh.AlCl3 + HCl
CH3 –CH2–CH2–CH3 CH3–CH––CH3
n- C;wVsu CH3
2- esfFky izksisu

CH3– CH2–CH2–CH2–CH2–CH3 An.AlCl3+HCl
n– gsDlsu

CH3–CH–CH2–CH2–CH3 CH3–CH2–CH–CH2–CH3
CH3 CH3
3- esfFkyisUVsu
 24

5. ,sjkseVhdj.k: → bl vfHkfØ;k esa iz;qDr mRizsjd
Cr2 O3 /V2 O5/Mo2O3 (Cr2O3/V2O5/MO2O3) ,Y;wfeuk ij vk/kkfjr
n-,sYdsUl ,sjkseSfVd
Δ
(C  6) gkbMªksdkcZu gksrk gSaA
Cr 2O3 → bl vfHkfØ;k dks iqulZHakou Hkh dgk tkrk
CH3–(CH2 )4 –CH3
Δ gSA
n-gsDlsu
cst
a hu
CH3
Cr 2O3
CH3–(CH2 )5 –CH3
Δ

VkWywbu
6. Hkki ds lkFk vfHkfØ;k%& → bl vfHkfØ;k dk mi;ksx gkbMªkstu xSl ds
CH4 + H2 O
Ni
CO + H2 vkS|ksfxd fuekZ.k ds fy, fd;k tkrk gSA
Δ
flu xSl
7. rki vi?kVu: → bls Hkatu ds :i esa Hkh tkuk tkrk gS

mPprj ,sYdsu ⎯⎯ → fuEurj ,sYdsu → bldk mi;ksx isVªkd s sfedy m|ksx esa
Ex.: fd;k tkrk gSA
C12 H26 ⎯⎯⎯⎯
Pt /Pd/ Ni

→ C7 H16 + C5 H10 + vU; mRikn
MkM
s sdu
s
 25

2.,sYdhu (Alkenes)

1. bysDVªkWujkxh ;ksxt vfHkfØ;k (EAR) → e/;orhZ : dkcZu/kuk;u (iqufoZU;kluh;½
(i) gkbMªksgSykstuu (HX dk ;ksx) → ,sYdhu dh vfHkfØ;k'khyrk  dkcZ/kuk;u
dk LFkkf;Ro
R–CH=CH2 + HX R–CH–CH3 + R–CH2–CH2–X
→ HX dh vfHkfØ;k'khyrk : HI > HBr > HCl
X → eq[; mRikn ds fuekZ.k dks ekdksZuhdkQ fu;e
e/;orhZ
fØ;kfof/k: }kjk of.kZr fd;k tkrk gS ftlesa crk;k tkrk
gS fd ,Msue ¼vfHkdeZd½ dk _.kkRed Hkkx
ml dkcZu ijek.kq ls tqM+rk gS ftlesa
gkbMªkstu ijek.kqvksa dh de la[;k gksrh gSA
CH3 –CH=CH2 + H X CH3 –CH–CH3
H-ijek.kqvksa dh H-ijek.kqvksa dh X
de la[;k vf/kd la[;k

(ii) gsykstuu (gSykstu dk ;ksx) → e/;orhZ pØh; gSyksfu;e vk;u
X
C C + X2
Solvent
C–C– → czkes hu foy;u dk yky&Hkwjs jax dk fojatu
Alkene Halogen X vlar`fIr dh mifLFkfr dks n'kkZrk gSaA
Vic-dihalide
fØ;kfof/k: → f=foejlk;u (Stereochemistry): izfr ;ksx
+ −
X (Anti-addition)
  X
C=C + X–X C–C C–C–
X X
pØh; gSyksfu;e
vk;u
Ex:
CCl4
CH2=CH2 + Br2 CH2–CH2
Ethene Bromine Br Br
(Red-Brown) Ethylene bromide
(Colorless)
(iii) ty;kstu (Addition of H2O) → vfHkdeZd % ty + lkaUnz H2SO4 dh dqN
H2O/H+ cwna s
CH3 CH CH2 CH3 CH CH3
;k
,sYdhu OH ruq H2SO4;k H+/H2O ;k H3O+
,sYdksgkWy
;fn BaMk lkUnz H2SO4 dk ;ksx fd;k tk,-
→ vfHkfØ;k ekdksZuhdkWQ ;ksxt fu;e dk
CH3 − CH = CH 2 ⎯⎯⎯⎯⎯⎯⎯
cold conc. H 2SO4
→ CH3 − CH − CH3 ikyu djrh gSA
|
OSO3H
(iv) gkbMªkscksjhdj.k – vkWDlhdj.k (HBO) → dqy ifj.kke ,aVh ekdksZuhdkWQ fu;e ds lkFk
BH3 ,sYdhu ij ty dk ;ksx gSA
3CH3–CH=CH2 (CH3CH2–CH2)3B
–
H2O2/OH
→ bl vfHkfØ;k esa ,sYdksgkWy vPNh yfC/k esa
CH3–CH2–CH2–OH izkIr gksrh gSaA

2. eqDr ewyd ;ksxt vfHkfØ;k(FRAR)
(ijkWDlkbM izHkko ;k [kjk”k izHkko)
HBr
CH3–CH=CH2 CH3–CH2–CH2–Br
(C6H5–COO)2
 26

fØ;kfof/k: → ;g /;ku fn;k tk ldrk gS fd HCl rFkk HI
pj.k-(i) ds ;ksx esa ijkWDlkbM izHkko ugh ns[kk tkrk
O O O gSA ;g bl rF; ds dkj.k gks ldrk gS fd
levi?kVu
C6H5 –C–O–O–C–C6H5 2C6 H5 –C–O H–Br ca/k (430.5 kJ mol–1)dh rqyuk esa H-
cst
a kW;y ijkWDlkbM –2CO2 Cl ca/k (363.7 kJ mol–1) vf/kd izCky gksrk gS
C6 H5 eqDr ewyd }kjk fonfyr ugha gksrk gS tcfd
pj.k -(ii) H–I ca/k gk¡ykfd nqcZy (296.8 kJ mol-1) rks gS
levi?kVu ijUrq vk;ksMhu eqDr ewyd f}ca/k ij tqM+us
C6H5 + H–Br C6H5 + Br
pj.k -(iii) ds txg vkil esa la;kssftr gksdj vk;ksMhu
HBr v.kq cukrs gSA
CH3–CH–CH 2 CH3–CH–CH 3
Br Br
Br de LFkk;h 1º ewyd vYi mRikn
CH3–CH=CH2

HBr
CH3 –CH–CH2–Br CH3–CH2 –CH2 –Br
vf/kdLFkk;h 2º ewyd eq[; mRikn
3. vip;u¼mRizsjdh; gkbMªkstu½ → lw{e foHkkftr /kkrqvksa tSls Pt, Pd rFkk Ni dk
C=C + H2
Pt/Pd/Ni
C–C mi;ksx mRizsjd ds :i esa fd;k tkrk gSaA
,sYdhu H H
,sYdsu → ;sa /kkrq H2 dk vf/k'kks’k.k djrh gS rFkk
Ex: H–H ca/k dks lfØ; dj nsrh gSA
(1) CH 2 = CH 2 ⎯⎯
H2
→ CH3 − CH3
Pt
→ 'Ni' ds lkFk vfHkfØ;k ds fy, rqyukRed :i
(2) CH3 − CH = CH 2 ⎯⎯
H2
Pd
→ CH3 − CH 2 − CH3 ls mPp rki rFkk nkc dh vko';drk gksrh
(3) CH3 − CH = CH − CH3 ⎯⎯⎯
→ CH3 − CH 2 − CH 2 − CH3
H2
Ni/ 
gSA

4. vkWDlhdj.k: → ruq KMnO4 ds gYds xqykch jax ds
(i) ruq B.M+s KMnO4 }kjk (cs;j vfHkdeZd½ fojatuhdj.k dk mi;ksx valar`fIr ds ijh{k.k
ds :i esa fd;k tkrk gSaA
C=C + dil. KMnO 4 C––C
,sYdhu gYdk xqykch OH OH
fol&MkbvkW
fol&MkbvkWy ;y
¼ja¼jaxxghu½
ghu½
(ii) vEyh; KMnO4;k vEyh; K2Cr2O7}kjk → QkWfeZd vEy (HCOOH) lnSo vkWDLkhdkjh
fLFkfr;ksa ds varxZr CO2 vkSj H2O esa ifjofrZr
+
R R KMnO4/H R R gks tkrk gSA
C=C C=O + O = C
R R R OH
+
KMnO4/H
(1) CH3–CH=CH2 CH3–COOH + CO2 + H2O
+
(2) CH3 − CH = CH − CH3 ⎯⎯⎯⎯→
KMnO4 /H
2CH3 − COOH
+
KMnO4/H
(3) CH3–C=CH–CH3 CH3–C=O + CH3COOH
CH3 CH3
 27

5. vkstksuh vi?kVu: → ;g vfHkfØ;k ,sYdhu ;k vU; vlar`Ir
(i) O3 ;kSfxdksa esa f}ca/k dh fLFkfr dk irk yxkus esa
C=C C=O + O = C
(ii) Zn–H2O vR;f/kd mi;ksxh gSA
fØ;kfof/k:
O
O3 Zn– H2 O
C=C C—C C=O + O=C

,sYdhu O—O dkcksfZ uy
vkstksukbM ;kSfxd
Ex:
(1)
(i) O3
CH2=CH2 2CH2=O
(ii) Zn–H2O
(i) O3
(2) CH3–CH=CH2 CH3–CHO + CH2O
(ii) Zn–H2O
6. cgqydu: → LDP jklk;fud :i ls vfØ;] n` 2ºR–X > 1ºR–X
 34

Ex: (1)
Alc. KOH
CH3–CH2–Br CH2=CH2
Δ
Alc. KOH
CH3–CH2–CH–CH3 CH3–CH=CH–CH3
Δ
Major
Br
+
CH3–CH2–CH=CH2
Minor
Br
Alc. KOH
Δ
Major Minor
3. /kkrqvksa ds lkFk vfHkfØ;k,sa: → oqVZ~t vfHkfØ;k lefer ,YdsUl ¼leku
(a) lksfM;e ds lkFk vfHkfØ;k la[;k esa dkcZu ijek.kqvksa okys ,YdsUl½
(oqVZ~t vfHkfØ;k) ds la'ys’k.k ds fy, lhfer gSA oqVZ~t
vfHkfØ;k dk mi;ksx vlefer ,YdsUl ds
2R − X + 2Na ⎯⎯⎯⎯
Dryether
→ 2R − R + 2NaX fojpu ds fy, ugha fd;k tk ldrk gS
[R −X + 2Na + X – R] D;ksafd ;fn nks vleku ,Ydkby gSykbM
dks vfHkdkjd ds :i esa fy;k tkrk gS] rks
,YdsUl dk feJ.k mRiknksa ds :i esa çkIr
gksrk gS
(b) eSXuhf’k;e ds lkFk vfHkfØ;k: → xzhXU;kj vfHkfØ;k dkCkZu eSXuhf'k;e ca/k
(fxzU;kj vfHkfØ;k) lagla;kstd gksrk gS ysfdu vR;kf/kd /kzqoh;
gksrk gS vkSj eSXuhf'k;e gSykstu ca/k vfuok;Z
Dry ether :i ls vk;fud gksrk gSA
R–X + Mg R–MgX
R—MgX
,sfYdy eSXuhf'k;e
gSykbM Highly polar
covolent bond
Ionic bond

¼xzhU;kj vfHkdeZd½
 35

6. xzhU;kj vfHkdeZd(Grignard reagent (R–MgX))

1. vEy & {kkj vfHkfØ;k ¼xzhU;kj vfHkdeZd }kjk H–fu’dklu½: → xzhU;kj vfHkdeZd vR;kf/kd vfHkfØ;k'khy
+ − gksrs gS vkSj izkVs kWu ds fdlh Hkh L=ksr ds lkFk
R − MgX+ H − Z ⎯⎯
→ R − H + Mg(Z)X vfHkfØ;k djds gkbMªksdkcZu fufeZr djrs gSA
xzhU;kj vEyh; gkbMªkd
s kcZu
vfHkded Z ;kSfxd

→ blfy, xzhU;kj vfHkdeZd dks ueh ds ys'k
Ex. CH3 − MgBr + H − OH ⎯⎯
→ CH4
ek= ls Hkh cpk dj j[kuk vko';d gSA
CH3 − CH 2 MgBr + CH3OH ⎯⎯
→ CH3CH3
PhMgBr + CH3 NH 2 ⎯⎯
→ Ph − H
2. G.R. }kjk ukfHkdLusgh ÁfrLFkkiu
 36

7. ,sfjy gSykbM ¼gSyks,sjhu½(Aryl halides (Haloarenes))
1. ukkfHkdjkxh izfRkLFkkiu vfHkfØ;k,sa (NSR):– → fuEu ds dkj.k ,sfjy gSykbM NSR ds izfr
X csgn de vfHkfØ;k'khy gksrs gSa %&
Nu (i) vuqukn ds dkj.k f}ca/k xq.k
XdksbZ vfHkfØ;k ugha (ii) C–X ca/k esa dkCkZu ijek.kq ds ladj.k dk
lk/kkj.k ifjfLFkfr
lk/kkj.k fLFkfr
gSyks,sjhu sp2 gksuk
(iii) Qsfuy /kuk;u dk vLFkkf;Ro
X Nu (iv) vkØe.kdkjh ukfHkdjkxh dks gSyks,jhu
Nu
dk izfrd’kZ.k
High temp, High press.
→ o/p fLFkfr ij EWG dh mifLFkfr ls
gSyks,sjhu mRikn gSyks,sjhuksa dh vfHkfØ;k'khyrk c 2ºR–OH > 3ºR–OH
Ph − OH+ Na ⎯⎯
→ PhONa + H 2
QhukWy lkfsM;e lksfM;e
fQukWDlkbM → ukbVªkfs QukWyks dk vEyh; lkeF;Z
P>O>M>S
2. ,LVjhdj.k %
→
+

R/Ar–OH + R'COOH
H
R/ArOCOR' + H2 O dkcksZfDlfyd vEy rFkk vEy ,ugkbMªkbM ds
,sYdksgkWy@QhukWy dkcksfZ Dlfyd ,LVj lkFk vfHkfØ;k lkanz lY¶;wfjd vEy dh
vEy FkksM+h ek=k dh mifLFkfr esa dh tkrh gS tcfd
H+ vEy DyksjkbM+ ds lkFk vfHkfØ;k ik;jhMhu
R / Ar − OH + (R 'CO) 2 O R / Ar OCOR '+ R 'COOH
, YsdkgskWy @QhukWy vEy ,ugkbMªkbM ,LVj {kkj dh mifLFkfr esa dh tkrh gS rkfd
Py vfHkfØ;k ds nkSjku fufeZr gksus okys HCl
R/Ar–OH + R'COCl R/ArOCOR' + HCl
dks mnklhu fd;k tk ldsA ;g lkE; dks
Alcohol/Phenol Acid Ester
chloride
nka;h vksj LFkkukarfjr dj nsrk gSA

COOH COOH → ,fLifju esa ihM+kgkjh, lwtujks/kh vkSj
OCOCH3 Tojuk'k;d xq.k gksrs gSaA
(CH3CO)2O
+
H
B Salicylic acid
Benzoic acid Acetylsalicylic acid
(Aspirin)
3. gSykstu ;qDr ;kSfxd ds lkFk vfHkfØ;k% → HX ds lkFk vfHkfØ;k'khyrk dk Øe%
R − OH ⎯⎯⎯⎯⎯⎯⎯
→ R − Cl
PCl3 / PCl5 /SOCl2 / HCl HI > HBr > HCl
PCl3
CH3–CH2–Cl + H3PO3 → laknz HCl + fuTkZy ZnCl2 dks Y;wdkl
Red P + Br2 vfHkdeZd ds :i esa tkuk tkrk gSA
CH3–CH2–Br + H3PO3
PCl5 → ,sYdksgkWy Y;wdkl vfHkdeZd esa ?kqyu'khy
CH3–CH2–OH CH3–CH2–Cl + POCl3 + HCl
gksrs gS tcfd muds gSykbM v?kqyu'khy gksrs
SOCl2
CH3–CH2–Cl + SO2  + HCl  gS vkSj foy;u esa /kqa/kykiu mRiUu djrs gSaA
Darzen process 1º ,YsdkgskWy ⎯⎯⎯
L.R.
→ dkbsZ /kqa/kykiu ugha ¼dejs ds rki ij½
HCl 2º ,YsdksgkWy ⎯⎯⎯
L.R.
→ /kaq /kykiu ¼dN
q feuV i'pkr ~ ½
ZnCl2
CH3–CH2–Cl + H2O + HCl 
3º ,YsdkgskWy ⎯⎯⎯
L.R.
→ rqjr
a /kaq /kykiu
4. futZyhdj.k %

futZyhdkjd
–C–C– –C=C– + H2 O → f}v.kqd futZyu dsoy izkFkfed ,fYdy
Conc. H 2 SO4 /Conc. H 3 PO4
H OH /An. ZnCl /Al O
2 2 3
lewg okys bZFkjkssa ds fuekZ.k ds fy, mi;qDr
gSaA
(i) Conc. H2SO4
CH3–CH2 –O–CH2 –CH3
CH3–CH2 –OH
413 K
¼f}vkf.od fuTkZyfutZ
bZFkj ¼f}vkf.od u½ yu½ → ,dyvkf.od futZyu ds fy, &
(ii) Conc. H2SO4
CH2 =CH2 futZyu dh nh ¼lqxerk½  dkcZ/kuk;u (C+)
443 K
¼,dy vkf.od
,Ydhu futZyu½
dk LFkkf;Ro
¼,dy vkf.od futZyu½ 3ºR–OH > 2ºR–OH > 1ºR–OH
 38

5. vkWDlhdj.k %
[O]
R–CHO → ean vkWDLkhdkjd:
ean
R–CH2 –OH (i) CrO3
1º ,sYdksg kWy [O] (ii) PCC (fifjMhfu;e DyksjksØksesV)
R–COOH (iii) Cu/
izcy

[O]
R–CH–R R–C–R → izCky vkWDlhdkjd
ean@izcy
OH O (i) K2Cr2O7
2º ,sYdksgkWy dhVksu (ii) KMnO4
(iii) CrO3 + H2SO4 + ,slhVksu
CH3 (tkWu vfHkdeZd)
[O]
CH 3–C–OH dksbZ vkWDlhdj.k ugha
CH3 CH2
3º ,sYdk sgkWy Cu/Δ
CH3 –C ¼foyksiu½
CH3
 39

9. QhukWy (Phenol)
1. bysDVªkWujkxh izfrLFkkiu vfHkfØ;k,sa (ESR): → —OH lewg +M çHkko n'kkZrk gS blfy, o/p
OH OH OH OH funsZ'kh rFkk lfØ;dkjh ço`fÙk dk gksrk gSA
– –
  e
E E