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Page 1
PAGE # 1
PART : CHEMISTRY
SECTION – 1 : (Maximum Marks : 80)
Straight Objective Type (lh/ks oLrqfu"B izdkj)
This section contains 20 multiple choice questions. Each question has 4 choices (1), (2), (3) and (4) for its
answer, out of which Only One is correct.
bl [k.M esa 20 cgq&fodYih iz'u gSaA izR;sd iz'u ds 4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d lgh gSA
1. Correct bond energy order of following is-
fuEu dk lgh cU/k ÅtkZ Øe gS &
(1) C –Cl > C –Br > C – ? > C –F (2) C –F < C –Cl < C –Br < C – ?
(3) C –F > C –Cl > C –Br > C – ? ? ? ? (4) C – ? < C –Br < C –F < C –Cl
Ans. (3)
Sol. Bond energy ?
length Bond
1
cU/k ÅtkZ ?
yEckbZ cU/k
1
2. Determine Bohr's radius of Li
2+
ion for n = 2. Given (Bohr's radius of H-atom = a0)
n = 2 ds fy, Li
2+
vk;u dh cksgj ÅtkZ dk fu/kkZj.k dhft,A fn;k gS (H-ijek.kq dh cksgj f=kT;k = a0)
(1)
4
a 3
0
(2)
3
a 4
0
(3)
3
a
0
(4)
9
a 16
0
Ans. (2)
Sol. r =
Z
n a
2
0
For Li
2+
ds fy, r =
3
) 2 ( a
2
0
=
3
a 4
0
3. Given the following reaction sequence
A +N2 nitride
(B)
H2O
NH3
CuSO4
Blue Colour
A & B are respectively
fuEu vfHkfØ;k vuqØe fn;k x;k gS
A +N2 ukbVªkbM
(B)
H2O
NH3
CuSO4
uhyk jax
A rFkk B Øe'k% gS
(1) Mg, Mg3N2
(2) Na Na3N
(3) Mg Mg(NO3)2
(4) Na NaNO3
Ans. (1)
Sol.
2
HO
2 3 2 2 3
3Mg N Mg N Mg(OH) NH
(B)
? ? ? ? ? ? ? ? ?
Page 2
PAGE # 1
PART : CHEMISTRY
SECTION – 1 : (Maximum Marks : 80)
Straight Objective Type (lh/ks oLrqfu"B izdkj)
This section contains 20 multiple choice questions. Each question has 4 choices (1), (2), (3) and (4) for its
answer, out of which Only One is correct.
bl [k.M esa 20 cgq&fodYih iz'u gSaA izR;sd iz'u ds 4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d lgh gSA
1. Correct bond energy order of following is-
fuEu dk lgh cU/k ÅtkZ Øe gS &
(1) C –Cl > C –Br > C – ? > C –F (2) C –F < C –Cl < C –Br < C – ?
(3) C –F > C –Cl > C –Br > C – ? ? ? ? (4) C – ? < C –Br < C –F < C –Cl
Ans. (3)
Sol. Bond energy ?
length Bond
1
cU/k ÅtkZ ?
yEckbZ cU/k
1
2. Determine Bohr's radius of Li
2+
ion for n = 2. Given (Bohr's radius of H-atom = a0)
n = 2 ds fy, Li
2+
vk;u dh cksgj ÅtkZ dk fu/kkZj.k dhft,A fn;k gS (H-ijek.kq dh cksgj f=kT;k = a0)
(1)
4
a 3
0
(2)
3
a 4
0
(3)
3
a
0
(4)
9
a 16
0
Ans. (2)
Sol. r =
Z
n a
2
0
For Li
2+
ds fy, r =
3
) 2 ( a
2
0
=
3
a 4
0
3. Given the following reaction sequence
A +N2 nitride
(B)
H2O
NH3
CuSO4
Blue Colour
A & B are respectively
fuEu vfHkfØ;k vuqØe fn;k x;k gS
A +N2 ukbVªkbM
(B)
H2O
NH3
CuSO4
uhyk jax
A rFkk B Øe'k% gS
(1) Mg, Mg3N2
(2) Na Na3N
(3) Mg Mg(NO3)2
(4) Na NaNO3
Ans. (1)
Sol.
2
HO
2 3 2 2 3
3Mg N Mg N Mg(OH) NH
(B)
? ? ? ? ? ? ? ? ?
PAGE # 2
4. Correct order of magnetic moment (spin only) for the following complexes
fuEu ladqyksa ds fy,] pqEcdh; vk?kw.kZ ¼dsoy pØ.k½ dk lgh Øe gS&
(a) [Pd(PPh3)2Cl2] (b) [Ni(CO)4]
(c) [Ni(CN)4]
2 –
(d) [Ni(H2O)6]
2+
(1) a = b = c < d (2) a < b < c < d
(3) a > b > c > d (4) a = b > c > d
Ans. (1)
Sol. [Pd(PPh3)2Cl2] Pd
2+
= 4d
8
M = 0
[Ni(CO)4] Ni = 3d
8
4s
2
(SFL) M = 0
[Ni(CN)4]
2 –
Ni
2+
= 3d
8
(SFL) M = 0
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t So, unpaired electron is 2
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t blfy,] v;qfXer bysDVªkWu 2 gSA
M = 8 BM
5. Determine total number of neutrons in three isotopes of hydrogen.
gkbMªkstu ds rhu leLFkkfudks esa U;wVªkWuksa dh dqy la[;k dk fu/kkZj.k dhft,A
(1) 1 (2) 2 (3) 3 (4) 4
Ans. (3)
Sol.
1
1
H
2
1
H(D)
3
1
H(T)
Number of neutrons 0 + 1 + 2 = 3
U;wVªkWuksa dh la[;k 0 + 1 + 2 = 3
6.
1/T
log k
a
d
b
c
Compare Ea (activation energy) for a, b, c and d.
a, b, c rFkk d ds fy, Ea (lfØ;.k ÅtkZZ) dh rqyuk dhft,A
(1) Eb > Ec > Ed > Ea (2) Ea > Ed > Ec > Eb
(3) Ec > Eb > Ea > Ed (4) Ed > Ea > Eb > Ec
Ans. (1)
Sol. log k = log A –
RT 303 . 2
E
a
slope <+ky = –
R 303 . 2
E
a
? Eb > Ec > Ed > Ea
7. Which of the following exhibit both Frenkel & Schottky defect?
fuEu esa ls dkSu Ýsady rFkk 'kkWV~dh nksuksa =kqfV iznf'kZr djrk gS\
(1) AgBr (2) KCl (3) CsCl (4) ZnS
Ans. (1)
Sol. Only AgBr can exhibit both Schottky and Frenkel defect.
dsoy AgBr 'kkWV~dh rFkk Ýsady nksuksa =kqfV iznf'kZr dj ldrk gSA
Page 3
PAGE # 1
PART : CHEMISTRY
SECTION – 1 : (Maximum Marks : 80)
Straight Objective Type (lh/ks oLrqfu"B izdkj)
This section contains 20 multiple choice questions. Each question has 4 choices (1), (2), (3) and (4) for its
answer, out of which Only One is correct.
bl [k.M esa 20 cgq&fodYih iz'u gSaA izR;sd iz'u ds 4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d lgh gSA
1. Correct bond energy order of following is-
fuEu dk lgh cU/k ÅtkZ Øe gS &
(1) C –Cl > C –Br > C – ? > C –F (2) C –F < C –Cl < C –Br < C – ?
(3) C –F > C –Cl > C –Br > C – ? ? ? ? (4) C – ? < C –Br < C –F < C –Cl
Ans. (3)
Sol. Bond energy ?
length Bond
1
cU/k ÅtkZ ?
yEckbZ cU/k
1
2. Determine Bohr's radius of Li
2+
ion for n = 2. Given (Bohr's radius of H-atom = a0)
n = 2 ds fy, Li
2+
vk;u dh cksgj ÅtkZ dk fu/kkZj.k dhft,A fn;k gS (H-ijek.kq dh cksgj f=kT;k = a0)
(1)
4
a 3
0
(2)
3
a 4
0
(3)
3
a
0
(4)
9
a 16
0
Ans. (2)
Sol. r =
Z
n a
2
0
For Li
2+
ds fy, r =
3
) 2 ( a
2
0
=
3
a 4
0
3. Given the following reaction sequence
A +N2 nitride
(B)
H2O
NH3
CuSO4
Blue Colour
A & B are respectively
fuEu vfHkfØ;k vuqØe fn;k x;k gS
A +N2 ukbVªkbM
(B)
H2O
NH3
CuSO4
uhyk jax
A rFkk B Øe'k% gS
(1) Mg, Mg3N2
(2) Na Na3N
(3) Mg Mg(NO3)2
(4) Na NaNO3
Ans. (1)
Sol.
2
HO
2 3 2 2 3
3Mg N Mg N Mg(OH) NH
(B)
? ? ? ? ? ? ? ? ?
PAGE # 2
4. Correct order of magnetic moment (spin only) for the following complexes
fuEu ladqyksa ds fy,] pqEcdh; vk?kw.kZ ¼dsoy pØ.k½ dk lgh Øe gS&
(a) [Pd(PPh3)2Cl2] (b) [Ni(CO)4]
(c) [Ni(CN)4]
2 –
(d) [Ni(H2O)6]
2+
(1) a = b = c < d (2) a < b < c < d
(3) a > b > c > d (4) a = b > c > d
Ans. (1)
Sol. [Pd(PPh3)2Cl2] Pd
2+
= 4d
8
M = 0
[Ni(CO)4] Ni = 3d
8
4s
2
(SFL) M = 0
[Ni(CN)4]
2 –
Ni
2+
= 3d
8
(SFL) M = 0
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t So, unpaired electron is 2
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t blfy,] v;qfXer bysDVªkWu 2 gSA
M = 8 BM
5. Determine total number of neutrons in three isotopes of hydrogen.
gkbMªkstu ds rhu leLFkkfudks esa U;wVªkWuksa dh dqy la[;k dk fu/kkZj.k dhft,A
(1) 1 (2) 2 (3) 3 (4) 4
Ans. (3)
Sol.
1
1
H
2
1
H(D)
3
1
H(T)
Number of neutrons 0 + 1 + 2 = 3
U;wVªkWuksa dh la[;k 0 + 1 + 2 = 3
6.
1/T
log k
a
d
b
c
Compare Ea (activation energy) for a, b, c and d.
a, b, c rFkk d ds fy, Ea (lfØ;.k ÅtkZZ) dh rqyuk dhft,A
(1) Eb > Ec > Ed > Ea (2) Ea > Ed > Ec > Eb
(3) Ec > Eb > Ea > Ed (4) Ed > Ea > Eb > Ec
Ans. (1)
Sol. log k = log A –
RT 303 . 2
E
a
slope <+ky = –
R 303 . 2
E
a
? Eb > Ec > Ed > Ea
7. Which of the following exhibit both Frenkel & Schottky defect?
fuEu esa ls dkSu Ýsady rFkk 'kkWV~dh nksuksa =kqfV iznf'kZr djrk gS\
(1) AgBr (2) KCl (3) CsCl (4) ZnS
Ans. (1)
Sol. Only AgBr can exhibit both Schottky and Frenkel defect.
dsoy AgBr 'kkWV~dh rFkk Ýsady nksuksa =kqfV iznf'kZr dj ldrk gSA
PAGE # 3
8. Given: fn;k gS&
P4 + NaOH + H2O
PH3 + A
HCl
B
Basicity of B is:
B dh {kkjh;rk gS&
(1) 1 (2) 2 (3) 3 (4) 4
Ans. (1)
Sol.
P4 + NaOH + H2O
PH3 + NaH2PO2
HCl
H3PO2
Basicity {kkjh;rk = 1
9. Which reaction does not occurs in the blast furnace in the metallurgy of Fe
dkSulh vfHkfØ;k Fe ds /kkrqdeZ esa okR;k Hkêh esa lEiUu ugha gksrh gS\
(a) CaO + SiO2 ? ? ? CaSiO3
(b) Fe2O3 + CO ? ? ? Fe3O4 + CO2
(c) FeO + SiO2 ? ? ? FeSiO3
(d) FeO
?
? ? ? Fe +
1
2
O2
(1) a & b (2) a,b & c (3) c & d (4) a, b, c, d
Ans. (3)
Sol. Theory based lS)kfUrd
10. Correct order of radius of elements is:
rRoksa dh f=kT;k dk lgh Øe gS &
C, O, F, Cl, Br
(1) Br > Cl > C > O > F (2) Br < Cl < C < O < F
(3) Cl < C < O < F < Br (4) C > F > O > Br > Cl
Ans. (1)
Sol.
C N O F
Size decreases
Cl
Br
Size increases
C N O F
vkdkj ?kVrk gS
Cl
Br
vkdkj c<+rk gS
11. Amongs the following which will show geometrical isomerism.
fuEu esa ls dkSu T;kfefr; leko;ork n'kkZ;sxk\
(a) [Ni(NH3)5Cl]
+
(b) [Ni(NH3)4ClBr] (c) [Ni(NH3)3Cl]
+
(d) [Ni(NH3)2(NO2)2]
(1) b, d (2) a, b (3) a, b & c (4) a, b, c & d
Ans. (1)
Sol. Ma4bc can show 2 G.I.
Ma2b2 can show 2 G.I.
(Square planar)
Ma4bc, 2 G.I. n'kkZ ldrk gSA
Ma2b2, 2 G.I. n'kkZ ldrk gSA
(oxZ leryh;)
Page 4
PAGE # 1
PART : CHEMISTRY
SECTION – 1 : (Maximum Marks : 80)
Straight Objective Type (lh/ks oLrqfu"B izdkj)
This section contains 20 multiple choice questions. Each question has 4 choices (1), (2), (3) and (4) for its
answer, out of which Only One is correct.
bl [k.M esa 20 cgq&fodYih iz'u gSaA izR;sd iz'u ds 4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d lgh gSA
1. Correct bond energy order of following is-
fuEu dk lgh cU/k ÅtkZ Øe gS &
(1) C –Cl > C –Br > C – ? > C –F (2) C –F < C –Cl < C –Br < C – ?
(3) C –F > C –Cl > C –Br > C – ? ? ? ? (4) C – ? < C –Br < C –F < C –Cl
Ans. (3)
Sol. Bond energy ?
length Bond
1
cU/k ÅtkZ ?
yEckbZ cU/k
1
2. Determine Bohr's radius of Li
2+
ion for n = 2. Given (Bohr's radius of H-atom = a0)
n = 2 ds fy, Li
2+
vk;u dh cksgj ÅtkZ dk fu/kkZj.k dhft,A fn;k gS (H-ijek.kq dh cksgj f=kT;k = a0)
(1)
4
a 3
0
(2)
3
a 4
0
(3)
3
a
0
(4)
9
a 16
0
Ans. (2)
Sol. r =
Z
n a
2
0
For Li
2+
ds fy, r =
3
) 2 ( a
2
0
=
3
a 4
0
3. Given the following reaction sequence
A +N2 nitride
(B)
H2O
NH3
CuSO4
Blue Colour
A & B are respectively
fuEu vfHkfØ;k vuqØe fn;k x;k gS
A +N2 ukbVªkbM
(B)
H2O
NH3
CuSO4
uhyk jax
A rFkk B Øe'k% gS
(1) Mg, Mg3N2
(2) Na Na3N
(3) Mg Mg(NO3)2
(4) Na NaNO3
Ans. (1)
Sol.
2
HO
2 3 2 2 3
3Mg N Mg N Mg(OH) NH
(B)
? ? ? ? ? ? ? ? ?
PAGE # 2
4. Correct order of magnetic moment (spin only) for the following complexes
fuEu ladqyksa ds fy,] pqEcdh; vk?kw.kZ ¼dsoy pØ.k½ dk lgh Øe gS&
(a) [Pd(PPh3)2Cl2] (b) [Ni(CO)4]
(c) [Ni(CN)4]
2 –
(d) [Ni(H2O)6]
2+
(1) a = b = c < d (2) a < b < c < d
(3) a > b > c > d (4) a = b > c > d
Ans. (1)
Sol. [Pd(PPh3)2Cl2] Pd
2+
= 4d
8
M = 0
[Ni(CO)4] Ni = 3d
8
4s
2
(SFL) M = 0
[Ni(CN)4]
2 –
Ni
2+
= 3d
8
(SFL) M = 0
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t So, unpaired electron is 2
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t blfy,] v;qfXer bysDVªkWu 2 gSA
M = 8 BM
5. Determine total number of neutrons in three isotopes of hydrogen.
gkbMªkstu ds rhu leLFkkfudks esa U;wVªkWuksa dh dqy la[;k dk fu/kkZj.k dhft,A
(1) 1 (2) 2 (3) 3 (4) 4
Ans. (3)
Sol.
1
1
H
2
1
H(D)
3
1
H(T)
Number of neutrons 0 + 1 + 2 = 3
U;wVªkWuksa dh la[;k 0 + 1 + 2 = 3
6.
1/T
log k
a
d
b
c
Compare Ea (activation energy) for a, b, c and d.
a, b, c rFkk d ds fy, Ea (lfØ;.k ÅtkZZ) dh rqyuk dhft,A
(1) Eb > Ec > Ed > Ea (2) Ea > Ed > Ec > Eb
(3) Ec > Eb > Ea > Ed (4) Ed > Ea > Eb > Ec
Ans. (1)
Sol. log k = log A –
RT 303 . 2
E
a
slope <+ky = –
R 303 . 2
E
a
? Eb > Ec > Ed > Ea
7. Which of the following exhibit both Frenkel & Schottky defect?
fuEu esa ls dkSu Ýsady rFkk 'kkWV~dh nksuksa =kqfV iznf'kZr djrk gS\
(1) AgBr (2) KCl (3) CsCl (4) ZnS
Ans. (1)
Sol. Only AgBr can exhibit both Schottky and Frenkel defect.
dsoy AgBr 'kkWV~dh rFkk Ýsady nksuksa =kqfV iznf'kZr dj ldrk gSA
PAGE # 3
8. Given: fn;k gS&
P4 + NaOH + H2O
PH3 + A
HCl
B
Basicity of B is:
B dh {kkjh;rk gS&
(1) 1 (2) 2 (3) 3 (4) 4
Ans. (1)
Sol.
P4 + NaOH + H2O
PH3 + NaH2PO2
HCl
H3PO2
Basicity {kkjh;rk = 1
9. Which reaction does not occurs in the blast furnace in the metallurgy of Fe
dkSulh vfHkfØ;k Fe ds /kkrqdeZ esa okR;k Hkêh esa lEiUu ugha gksrh gS\
(a) CaO + SiO2 ? ? ? CaSiO3
(b) Fe2O3 + CO ? ? ? Fe3O4 + CO2
(c) FeO + SiO2 ? ? ? FeSiO3
(d) FeO
?
? ? ? Fe +
1
2
O2
(1) a & b (2) a,b & c (3) c & d (4) a, b, c, d
Ans. (3)
Sol. Theory based lS)kfUrd
10. Correct order of radius of elements is:
rRoksa dh f=kT;k dk lgh Øe gS &
C, O, F, Cl, Br
(1) Br > Cl > C > O > F (2) Br < Cl < C < O < F
(3) Cl < C < O < F < Br (4) C > F > O > Br > Cl
Ans. (1)
Sol.
C N O F
Size decreases
Cl
Br
Size increases
C N O F
vkdkj ?kVrk gS
Cl
Br
vkdkj c<+rk gS
11. Amongs the following which will show geometrical isomerism.
fuEu esa ls dkSu T;kfefr; leko;ork n'kkZ;sxk\
(a) [Ni(NH3)5Cl]
+
(b) [Ni(NH3)4ClBr] (c) [Ni(NH3)3Cl]
+
(d) [Ni(NH3)2(NO2)2]
(1) b, d (2) a, b (3) a, b & c (4) a, b, c & d
Ans. (1)
Sol. Ma4bc can show 2 G.I.
Ma2b2 can show 2 G.I.
(Square planar)
Ma4bc, 2 G.I. n'kkZ ldrk gSA
Ma2b2, 2 G.I. n'kkZ ldrk gSA
(oxZ leryh;)
PAGE # 4
12. Assertion: pH of water increases on increasing temperature.
Reason: H2O ? H
+
+ OH
–
is an exothermic process.
(1) Both assertion and reason are correct and reason is correct explanation of assertion.
(2) Both assertion and reason are correct and reason is not correct explanation of assertion.
(3) Assertion is true & reason is false.
(4) Both assertion and reason are incorrect.
dFku: ty dh pH rki c<+kus ij c<+rh gSA
dkj.k: H2O ? H
+
+ OH
–
,d Å"ek{ksih izØe gSA
(1) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k gSA
(2) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k ugha gSA
(3) dFku lR; gS rFkk dkj.k vlR; gSA
(4) nksuksa dFku rFkk dkj.k xyr gSA
Ans. (4)
Sol. Theory Based lS)kfUrd
13. Assertion: It has been found that for hydrogenation reaction the catalytic activity increases from group-
5 to group-11 metals with maximum activity being shown by groups 7-9 elements of the periodic table.
Reason: For 7-9 group elements adsorption rate is maximum.
(1) Both assertion and reason are correct and reason is correct explanation of assertion.
(2) Both assertion and reason are correct and reason is not correct explanation of assertion.
(3) Assertion is true & reason is false.
(4) Both are incorrect
dFku: ;g ik;k x;k fd gkbMªkstuhdj.k vfHkfØ;k ds fy, mRizsjdh; lfØ;rk lewg-5 ls vkorZ lkj.kh ds lewg 7-9
rRo }kjk n'kkZ;h x;h vf/kdre lfØ;rk ;qDr lewg-11 dh /kkrqvksa rd c<+rh gSA
dkj.k: 7-9 lewg ds rRoksa ds fy, vf/k'kks"k.k nj vf/kdre gksrh gS
(1) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k gSA
(2) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k ugha gSA
(3) dFku lR; gS rFkk dkj.k vlR; gSA
(4) nksuksa dFku rFkk dkj.k xyr gSA
Ans. (1)
Sol. Theory Based lS)kfUrd
14. The major product of the following reactions is
fuEufyf[kr vfHkfØ;k dk eq[; mRikn gSA
O
CH3
||
H3O
+
(1)
O
CH3
||
OH
(2)
O
CH3
||
HO
(3)
OH
CH3
?
?
(4)
CH3
OH
HO
Ans. (3)
Sol.
O
CH3
||
H3O
+
OH
CH3
?
?
(Aromatic) (,sjksesfVd)
Page 5
PAGE # 1
PART : CHEMISTRY
SECTION – 1 : (Maximum Marks : 80)
Straight Objective Type (lh/ks oLrqfu"B izdkj)
This section contains 20 multiple choice questions. Each question has 4 choices (1), (2), (3) and (4) for its
answer, out of which Only One is correct.
bl [k.M esa 20 cgq&fodYih iz'u gSaA izR;sd iz'u ds 4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d lgh gSA
1. Correct bond energy order of following is-
fuEu dk lgh cU/k ÅtkZ Øe gS &
(1) C –Cl > C –Br > C – ? > C –F (2) C –F < C –Cl < C –Br < C – ?
(3) C –F > C –Cl > C –Br > C – ? ? ? ? (4) C – ? < C –Br < C –F < C –Cl
Ans. (3)
Sol. Bond energy ?
length Bond
1
cU/k ÅtkZ ?
yEckbZ cU/k
1
2. Determine Bohr's radius of Li
2+
ion for n = 2. Given (Bohr's radius of H-atom = a0)
n = 2 ds fy, Li
2+
vk;u dh cksgj ÅtkZ dk fu/kkZj.k dhft,A fn;k gS (H-ijek.kq dh cksgj f=kT;k = a0)
(1)
4
a 3
0
(2)
3
a 4
0
(3)
3
a
0
(4)
9
a 16
0
Ans. (2)
Sol. r =
Z
n a
2
0
For Li
2+
ds fy, r =
3
) 2 ( a
2
0
=
3
a 4
0
3. Given the following reaction sequence
A +N2 nitride
(B)
H2O
NH3
CuSO4
Blue Colour
A & B are respectively
fuEu vfHkfØ;k vuqØe fn;k x;k gS
A +N2 ukbVªkbM
(B)
H2O
NH3
CuSO4
uhyk jax
A rFkk B Øe'k% gS
(1) Mg, Mg3N2
(2) Na Na3N
(3) Mg Mg(NO3)2
(4) Na NaNO3
Ans. (1)
Sol.
2
HO
2 3 2 2 3
3Mg N Mg N Mg(OH) NH
(B)
? ? ? ? ? ? ? ? ?
PAGE # 2
4. Correct order of magnetic moment (spin only) for the following complexes
fuEu ladqyksa ds fy,] pqEcdh; vk?kw.kZ ¼dsoy pØ.k½ dk lgh Øe gS&
(a) [Pd(PPh3)2Cl2] (b) [Ni(CO)4]
(c) [Ni(CN)4]
2 –
(d) [Ni(H2O)6]
2+
(1) a = b = c < d (2) a < b < c < d
(3) a > b > c > d (4) a = b > c > d
Ans. (1)
Sol. [Pd(PPh3)2Cl2] Pd
2+
= 4d
8
M = 0
[Ni(CO)4] Ni = 3d
8
4s
2
(SFL) M = 0
[Ni(CN)4]
2 –
Ni
2+
= 3d
8
(SFL) M = 0
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t So, unpaired electron is 2
[Ni(H2O)6]
2+
Ni
2+
= 3d
8
(WFL)
1 , 1
g
2 , 2 , 2
g 2
e , t blfy,] v;qfXer bysDVªkWu 2 gSA
M = 8 BM
5. Determine total number of neutrons in three isotopes of hydrogen.
gkbMªkstu ds rhu leLFkkfudks esa U;wVªkWuksa dh dqy la[;k dk fu/kkZj.k dhft,A
(1) 1 (2) 2 (3) 3 (4) 4
Ans. (3)
Sol.
1
1
H
2
1
H(D)
3
1
H(T)
Number of neutrons 0 + 1 + 2 = 3
U;wVªkWuksa dh la[;k 0 + 1 + 2 = 3
6.
1/T
log k
a
d
b
c
Compare Ea (activation energy) for a, b, c and d.
a, b, c rFkk d ds fy, Ea (lfØ;.k ÅtkZZ) dh rqyuk dhft,A
(1) Eb > Ec > Ed > Ea (2) Ea > Ed > Ec > Eb
(3) Ec > Eb > Ea > Ed (4) Ed > Ea > Eb > Ec
Ans. (1)
Sol. log k = log A –
RT 303 . 2
E
a
slope <+ky = –
R 303 . 2
E
a
? Eb > Ec > Ed > Ea
7. Which of the following exhibit both Frenkel & Schottky defect?
fuEu esa ls dkSu Ýsady rFkk 'kkWV~dh nksuksa =kqfV iznf'kZr djrk gS\
(1) AgBr (2) KCl (3) CsCl (4) ZnS
Ans. (1)
Sol. Only AgBr can exhibit both Schottky and Frenkel defect.
dsoy AgBr 'kkWV~dh rFkk Ýsady nksuksa =kqfV iznf'kZr dj ldrk gSA
PAGE # 3
8. Given: fn;k gS&
P4 + NaOH + H2O
PH3 + A
HCl
B
Basicity of B is:
B dh {kkjh;rk gS&
(1) 1 (2) 2 (3) 3 (4) 4
Ans. (1)
Sol.
P4 + NaOH + H2O
PH3 + NaH2PO2
HCl
H3PO2
Basicity {kkjh;rk = 1
9. Which reaction does not occurs in the blast furnace in the metallurgy of Fe
dkSulh vfHkfØ;k Fe ds /kkrqdeZ esa okR;k Hkêh esa lEiUu ugha gksrh gS\
(a) CaO + SiO2 ? ? ? CaSiO3
(b) Fe2O3 + CO ? ? ? Fe3O4 + CO2
(c) FeO + SiO2 ? ? ? FeSiO3
(d) FeO
?
? ? ? Fe +
1
2
O2
(1) a & b (2) a,b & c (3) c & d (4) a, b, c, d
Ans. (3)
Sol. Theory based lS)kfUrd
10. Correct order of radius of elements is:
rRoksa dh f=kT;k dk lgh Øe gS &
C, O, F, Cl, Br
(1) Br > Cl > C > O > F (2) Br < Cl < C < O < F
(3) Cl < C < O < F < Br (4) C > F > O > Br > Cl
Ans. (1)
Sol.
C N O F
Size decreases
Cl
Br
Size increases
C N O F
vkdkj ?kVrk gS
Cl
Br
vkdkj c<+rk gS
11. Amongs the following which will show geometrical isomerism.
fuEu esa ls dkSu T;kfefr; leko;ork n'kkZ;sxk\
(a) [Ni(NH3)5Cl]
+
(b) [Ni(NH3)4ClBr] (c) [Ni(NH3)3Cl]
+
(d) [Ni(NH3)2(NO2)2]
(1) b, d (2) a, b (3) a, b & c (4) a, b, c & d
Ans. (1)
Sol. Ma4bc can show 2 G.I.
Ma2b2 can show 2 G.I.
(Square planar)
Ma4bc, 2 G.I. n'kkZ ldrk gSA
Ma2b2, 2 G.I. n'kkZ ldrk gSA
(oxZ leryh;)
PAGE # 4
12. Assertion: pH of water increases on increasing temperature.
Reason: H2O ? H
+
+ OH
–
is an exothermic process.
(1) Both assertion and reason are correct and reason is correct explanation of assertion.
(2) Both assertion and reason are correct and reason is not correct explanation of assertion.
(3) Assertion is true & reason is false.
(4) Both assertion and reason are incorrect.
dFku: ty dh pH rki c<+kus ij c<+rh gSA
dkj.k: H2O ? H
+
+ OH
–
,d Å"ek{ksih izØe gSA
(1) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k gSA
(2) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k ugha gSA
(3) dFku lR; gS rFkk dkj.k vlR; gSA
(4) nksuksa dFku rFkk dkj.k xyr gSA
Ans. (4)
Sol. Theory Based lS)kfUrd
13. Assertion: It has been found that for hydrogenation reaction the catalytic activity increases from group-
5 to group-11 metals with maximum activity being shown by groups 7-9 elements of the periodic table.
Reason: For 7-9 group elements adsorption rate is maximum.
(1) Both assertion and reason are correct and reason is correct explanation of assertion.
(2) Both assertion and reason are correct and reason is not correct explanation of assertion.
(3) Assertion is true & reason is false.
(4) Both are incorrect
dFku: ;g ik;k x;k fd gkbMªkstuhdj.k vfHkfØ;k ds fy, mRizsjdh; lfØ;rk lewg-5 ls vkorZ lkj.kh ds lewg 7-9
rRo }kjk n'kkZ;h x;h vf/kdre lfØ;rk ;qDr lewg-11 dh /kkrqvksa rd c<+rh gSA
dkj.k: 7-9 lewg ds rRoksa ds fy, vf/k'kks"k.k nj vf/kdre gksrh gS
(1) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k gSA
(2) nksuksa dFku rFkk dkj.k lgh gS] rFkk dkj.k dFku dk lgh Li"Vhdj.k ugha gSA
(3) dFku lR; gS rFkk dkj.k vlR; gSA
(4) nksuksa dFku rFkk dkj.k xyr gSA
Ans. (1)
Sol. Theory Based lS)kfUrd
14. The major product of the following reactions is
fuEufyf[kr vfHkfØ;k dk eq[; mRikn gSA
O
CH3
||
H3O
+
(1)
O
CH3
||
OH
(2)
O
CH3
||
HO
(3)
OH
CH3
?
?
(4)
CH3
OH
HO
Ans. (3)
Sol.
O
CH3
||
H3O
+
OH
CH3
?
?
(Aromatic) (,sjksesfVd)
PAGE # 5
15. Find the final major product of the following reactions-
fuEufyf[kr vfHkfØ;k vuqØe dk eq[; mRikn gS&
CH3 —C CH —CH2 —CH3
CH(CH3)2
B 2H 6
A
H 2O 2, OH
–
dil H 2SO 4
B
heat
(1)
CH3 —C —CH2 —CH2 —CH3
C(CH3)2
(2)
CH3 —C CH —CH2 —CH3
CH(CH3)2
(3)
CH3 —CH —CH
CH —CH3
CH(CH3)2
(4)
CH2
C —CH2 —CH2 —CH3
CH(CH3)2
Ans. (1)
Sol.
CH3 —C CH —CH2 —CH3
CH(CH3)2
B 2H 6
CH3 —C —CH —CH2 —CH3
H 2O 2, OH
–
|
|
CH(CH3)2
H
|
OH
CH3 —C —CH2 —CH2 —CH3
C(CH3)2
dil H 2SO 4, ?
16. There are two compounds A and B of molecular formula C9H18O3. A has higher boiling point than B.
What are the possible structures of A and B?
nks ;kSfxd A rFkk B dk v.kqlw=k C9H18O3 gSA ;kSfxd A dk DoFkukad fcUnq B ls T;knk gS rks A rFkk B dh lajpuk
gksxhA
(1)
CH3O
OCH3
OH
OH
OH HO
A
B
(2)
CH3O
OH
OH HO
OCH3
OCH3
A
B
(3)
CH3O
OCH3
OH
OH HO
OCH3
A
B
(4)
OCH3
OCH3 OH
OH HO
HO
A
B
Ans. (2)
Sol. In (A), extensive inter-molecular H-bonding is possible while in (B) there is no Inter-molecular H-
bonding.
(A) esa foLrh.kZ varj v.kqd H-caèk ik;k tkrk gS tcfd (B) esa dksbZ vUrj v.kqd H-caèk ugh ik;k tkrk gSA
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