Aieee 2011 Solved Paper by Prabhat Gaurav

AAIIEEEEEE––22001111 ((SSeett –– QQ))
IMPORTANT INSTRUCTIONS
1. Immediately fill in the particulars on this page of the Test Booklet with Blue/Black Ball Point Pen. Use of
Pencil is strictly prohibited.
2. The Answer Sheet is kept inside the Test Booklet. When you are directed to open the Test Booklet, take
out the Answer Sheet and fill in the particulars carefully.
3. The test is of 3 hours duration.
4. The Test Booklet consists of 90 questions. The maximum marks are 360.
5. There are three parts in the question paper A, B, C consisting of Physics, Mathematics, Chemistry having
30 questions in each part of equal weight age. Each question is allotted 4(four) marks for each correct
response.
6. Candidates will be awarded marks as stated above in instruction No. 5 for correct response of each
question ¼ (one fourth) marks will be deducted for indicating incorrect response of each question. No
deduction from the total score will be made if no response is indicated for an item in the answer sheet.
7. There is only one correct response for each question. Filling up more than one response in each question
will be treated as wrong response and marks for wrong response will be deducted accordingly as per
instruction 6 above.
8. Use Blue/Black Ball Point Pen only for writing particulars/marking responses on Side-1 and Side-2 of the
Answer Sheet. Use of pencil is strictly prohibited.
9. No candidate is allowed to carry any textual material, printed or written, bits of papers, pager, mobile
phone, any electronic device, etc., except the Admit Card inside the examination hall/room.
10. Rough work is to be done on the space provided for this purpose in the Test Booklet only. This space is
given at the bottom of each page and in 3 pages (Pages 21 – 23) at the end of the booklet.
11. On completion of the test, the candidate must hand over the Answer Sheet to the Invigilator on duty in the
Room/Hall. However, the candidates are allowed to take away this Test Booklet with them.
12. The CODE for this Booklet is Q. Make sure that the CODE printed on Side-2 of the Answer Sheet is the
same as that on this booklet. In case of discrepancy, the candidate should immediately report the matter to
the Invigilator for replacement of both the Test Booklet and the Answer Sheet.
13. Do not fold or make any stray marks on the Answer Sheet.
Downloaded from www.EntrancesofIndia.com Engineering | Medical | Law | Fashion | DU | Entrrance NewsDownloaded from www.EntrancesofIndia.com Engineering | Medical | Law | Fashion | DU | Entrance news

AIEEE−2011−2
PART A : PHYSICS
1. The transverse displacement ( )y x,t of a wave on a string is given by ( ) ( )2 2
ax bt 2 ab xt
y x,t e
− + +
= .
This represents a
(1) wave moving in – x direction with speed
b
a
(2) standing wave of frequency b
(3) standing wave of frequency
1
b
(4) wave moving in + x direction with
a
b
2. A screw gauge gives the following reading when used to measure the diameter of a wire.
Main scale reading : 0 mm
Circular scale reading : 52 divisions
Given that 1 mm on main scale corresponds to 100 divisions of the circular scale.
The diameter of wire from the above date is :
(1) 0.052 cm (2) 0.026 cm (3) 0.005 cm (4) 0.52 cm
3. A mass m hangs with the help of a string wrapped around a pulley on a frictionless bearing. The pulley
has mass m and radius R. Assuming pulley to be a perfect uniform circular disc, the acceleration of the
mass m, if the string does not slip on the pulley, is
(1) g (2)
2
g
3
(3)
g
3
(4)
3
g
2
4. Work done in increasing the size of a soap bubble from a radius of 3 cm to 5 cm is nearly (Surface
tension of soap solution = 0.03 Nm−1
):
(1) 0.2π mJ (2) 2π mJ (3) 0.4 π mJ (4) 4π mJ
5. A thin horizontal circular disc is rotating about a vertical axis passing through its centre. An insect is at
rest at a point near the rim of the disc. The insect now moves along a diameter of the disc to reach its
other end. During the journey of the insect, the angular speed of the disc:
(1) continuously decreases (2) continuously increases
(3) first increases and then decreases (4) remains unchanged
6. Two particles are executing simple harmonic motion of the same amplitude A and frequency ω along the
x-axis. Their mean position is separated by distance ( )0 0X X A> . If the maximum separation between
them is ( )0X A+ , the phase difference between their motion is :
(1)
3
π
(2)
4
π
(3)
6
π
(4)
2
π
7. Two bodies of masses m and 4 m are placed at a distance r. The gravitational potential at a point on the
line joining them where the gravitational field is zero is:
(1)
4Gm
r
− (2)
6Gm
r
− (3)
9Gm
r
− (4) zero
8. Two identical charged spheres suspended from a common point by two massless strings of length l are
initially a distance ( )d d 1<< apart because of their mutual repulsion. The charge begins to leak from
both the spheres at a constant rate. As a result the charges approach each other with a velocity v. Then
as a function of distance x between them,
(1) 1
v x−
∝ (2) 1/ 2
v x∝ (3) v x∝ (4) 1/ 2
v x−
∝

AIEEE−2011−3
9. A boat is moving due east in a region where the earth’s magnetic field is 5 1 1
5.0 10 NA m− − −
× due north and
horizontal. The boat carries a vertical aerial 2m long. If the speed of the boat is 1.50 ms−1
, the
magnitude of the induced emf in the wire of aerial is :
(1) 0.75 mV (2) 0.50 mV (3) 0.15 mV (4) 1 mV
10. An object, moving with a speed of 6.25 m/s, is decelerated at a rate given by :
dv
2.5 v
dt
= −
where v is the instantaneous speed. The time taken by the object, to come to rest, would be :
(1) 2 s (2) 4 s (3) 8 s (4) 1 s
11. A fully charged capacitor C with initial charge q0 is connected to a coil of self inductance L at t = 0. The
time at which the energy is stored equally between the electric and the magnetic field is :
(1) LC
4
π
(2) 2 LCπ (3) LC (4) LCπ
12. Let the x – z plane be the boundary between two transparent media. Medium 1 in z ≥ 0 has a refractive
index of 2 and medium 2 with z < 0 has a refractive index of 3 . A ray of light in medium 1 given by
the vector A 6 3 i 8 3 j 10k
→ ∧ ∧ ∧
= + − is incident on the plane of separation. The angle of refraction in
medium 2 is
(1) 450
(2) 600
(3) 750
(4) 300
13. A current I flows in an infinitely long wire with cross section in the form of a semicircular ring of radius R.
The magnitude of the magnetic induction along its axis is
(1) 0
2
I
2 R
µ
π
(2) 0I
2 R
µ
π
(3) 0
2
I
4 R
µ
π
(4) 0
2
I
R
µ
π
14. A thermally insulated vessel contains an ideal gas of molecular mass M and ratio of specific heats γ. It is
moving with speed υ and is suddenly brought to rest. Assuming no heat is lost to the surroundings, its
temperature increases by :
(1)
( ) 2
1
M K
2 R
γ −
υ
γ
(2)
2
M
K
2R
γ υ
(3)
( ) 2
1
M K
2R
γ −
υ (4)
( )
( )
2
1
M K
2 1 R
γ −
υ
γ +
15. A mass M, attached to a horizontal spring, executes S.H.M. with amplitude A1. When the mass M passes
through its mean position then a smaller mass m is placed over it and both of them move together with
amplitude A2. The ratio of 1
2
A
A
 
 
 
is :
(1)
M m
M
+
(2)
1/ 2
M
M m
 
 + 
(3)
1/ 2
M m
M
+ 
 
 
(4)
M
M m+
16. Water is flowing continuously from a tap having an internal diameter 3
8 10 m−
× . The water velocity as it
leaves the tap is 0.4 ms−1
. The diameter of the water stream at a distance 1
2 10 m−
× below the lap is
close to :
(1) 3
7.5 10 m−
× (2) 3
9.6 10 m−
× (3) 3
3.6 10 m−
× (4) 3
5.0 10 m−
×

AIEEE−2011−4
17. This question has Statement – 1 and Statement – 2. Of the four choices given after the statements,
choose the one that best describes the two statements.
Statement-1 : Sky wave signals are used for long distance radio communication. These signals are in
general, less stable than ground wave signals.
Statement-2 : The state of ionosphere varies from hour to hour, day to day and season to season.
(1) Statement-1 is true, Statement-2 is true; Statement-2 is the correct explanation of Statement-1.
(2) Statement-1 is true, Statement-2 is true; Statement-2 is not the correct explanation of Statement-1.
(3) Statement-1 is false, Statement-2 is true.
(4) Statement-1 is true, Statement-2 is false.
18. Three perfect gases at absolute temperatures T1, T2 and T3 are mixed. The masses of molecules are m1,
m2 and m3 and the number of molecules are n1, n2 and n3 respectively. Assuming no loss of energy, the
final temperature of the mixture is :
(1) 1 1 2 2 3 3
1 2 3
n T n T n T
n n n
+ +
+ +
(2)
2 2
1 1 2 2 3 3
1 1 2 2 3 3
n T n T n T
n T n T n T
+ +
+ +
(3)
2 2 2 2 2 2
1 1 2 2 3 3
1 1 2 2 3 3
n T n T n T
n T n T n T
+ +
+ +
(4)
( )1 2 3T T T
3
+ +
19. A pulley of radius 2 m is rotated about its axis by a force ( )2
F 20t 5t= − Newton (where t is measured in
seconds) applied tangentially. If the moment of inertia of the pulley about its axis of rotation made by the
pulley before its direction of motion if reversed, is :
(1) more than 3 but less than 6 (2) more than 6 but less than 9
(3) more than 9 (4) less than 3
20. A resistor ‘R’ and 2µF capacitor in series is connected through a switch to 200 V direct supply. Across
the capacitor is a neon bulb that lights up at 120 V. Calculate the value of R to make the bulb light up 5 s
after the switch has been closed. ( )10log 2.5 0.4=
(1) 5
1.7 10× Ω (2) 6
2.7 10× Ω (3) 7
3.3 10× Ω (4) 4
1.3 10× Ω
21. A Carnot engine operating between temperatures T1 and T2 has efficiency
1
.
6
When T2 is lowered by 62
K, its efficiency increases to
1
3
. Then T1 and T2 are, respectively :
(1) 372 K and 330 K (2) 330 K and 268 K (3) 310 K and 248 K (4) 372 K and 310 K
22. If a wire is stretched to make it 0.1% longer, its resistance will :
(1) increase by 0.2% (2) decrease by 0.2% (3) decrease by 0.05% (4) increases by 0.05%
23. Direction:
The question has a paragraph followed by two statements, Statement – 1 and statement – 2. Of the
given four alternatives after the statements, choose the one that describes the statements.
A thin air film is formed by putting the convex surface of a plane – convex lens over a plane glass plate.
With monochromatic light, this film gives an interference pattern due to light reflected from the top
(convex) surface and the bottom (glass plate) surface of the film.
Statement-1 : When light reflects from the air-glass plate interface, the reflected wave suffers a phase
change of π.
Statement-2 : The centre of the interference pattern is dark.
(3) Statement-1 is false, Statement-2 is true. (4) Statement-1 is true, Statement-2 is false.

AIEEE−2011−5
24. A car is fitted with a convex side-view mirror of focal length 20cm. A second car 2.8 m behind the first
car is overtaking the first car at relative speed of 15 m/s. The speed of the image of the second car as
seen in the mirror of the first one is :
(1)
1
m/ s
15
(2) 10m/ s (3) 15m/ s (4)
1
m/ s
10
25. Energy required for the electron excitation in Li++
from the first to the third Bohr orbit is :
(1) 36.3 eV (2) 108.8 eV (3) 122.4 eV (4) 12.1 eV
26. The electrostatic potential inside a charged spherical ball is given by b2
φ = αρ + where r is the distance
from the centre; a, b are constants. Then the charge density inside ball is
(1) 06a r− ε (2) 024 a r− π ε (3) 06a− ε (4) 024 a r− π ε
27. A water fountain on the ground sprinkles water all around it. If the speed of water coming out of the
fountain is v, the total area around the fountain that gets wet is :
(1)
4
2
v
g
π (2)
4
2
v
2 g
π
(3)
2
2
v
g
π (4)
4
v
g
π
28. 100g of water is heated from 300
C to 500
C. Ignoring the slight expansion of the water, the change in its
internal energy is (specific heat of water is 4148 J/kg/K):
(1) 8.4 kJ (2) 84 kJ (3) 2.1 kJ (4) 4.2 kJ
29. The half life of a radioactive substance is 20 minutes. The approximate time interval ( )2 1t t− between
the time t2 when
2
3
of it has decayed and time t1 and
1
3
of it had decayed is :
(1) 14 min (2) 20 min (3) 28 min (4) 7 min
30.
This question has Statement – 1 and Statement – 2. Of the four choices given after the statements,
choose the one that best describes the two statements.
Statement-1 : A metallic surface is irradiated by a monochromatic light of frequency v > v0 (the threshold
frequency). The maximum kinetic energy and the stopping potential are Kmax and V0 respectively. If the
frequency incident on the surface doubled, both the Kmax and V0 are also doubled.
Statement-2 : The maximum kinetic energy and the stopping potential of photoelectrons emitted from a
surface are linearly dependent on the frequency of incident light.
(3) Statement-1 is false, Statement-2 is true.
(4) Statement-1 is true, Statement-2 is false.

AIEEE−2011−6
FIITJEE (Hyderabad Classes) Limited. 5-9-14/B, Saifabad, (Opp. Secretariat) Hyderabad. 500 063. Phone: 040-66777000 – 03 Fax: 040-66777004
PART B: MATHEMATICS
31. The lines 1L : y x 0− = and 2L : 2x y 0+ = intersect the line 3L : y 2 0+ = at P and Q respectively. The
bisector of the acute angle between 1L and 2L intersect 3L at R .
Statement – 1 : The ratio PR : RQ equals 2 2 : 5 .
Statement – 2 : In any triangle, bisector of an angle divides the triangle into two similar triangles.
(1) Statement – 1 is true, Statement – 2 is true; Statement – 2 is not a correct explanation for Statement
– 1
(2) Statement – 1 is true, Statement– 2 is false.
(3) Statement – 1 is false, Statement– 2 is true.
(4) Statement – 1 is true, Statement – 2 is true; Statement – 2 is a correct explanation for Statement – 1
32. If 2 4
A sin x cos x= + , then for all real x
(1)
13
A 1
16
≤ ≤ (2) 1 A 2≤ ≤ (3)
3 13
A
4 16
≤ ≤ (4)
3
A 1
4
≤ ≤
33. The coefficient of 7
x in the expansion of ( )
6
2 3
1 x x x− − + is
(1) -132 (2) -144 (3)132 (4) 144
34.
( ){ }
x 2
1 cos 2 x 2
lim
x 2→
 − −
 
 − 
 
(1) equals 2 (2) equals 2− (3) equals
1
2
(4) does not exist
35. Statement – 1 : The number of ways of distributing 10 identical balls in 4 distinct boxes such that no
box is empty is 9
3C
Statement – 2 : The number of ways of choosing any 3 places from 9 different places is 9
3C .
– 1
36.
2
2
d x
dy
equals
(1)
1 32
2
d y dy
dxdx
− −
   
−       
(2)
22
2
d y dy
dxdx
−
  
     
(3)
32
2
d y dy
dxdx
−
  
−     
(4)
1
2
2
d y
dx
−
 
  
 

AIEEE−2011−7
37. If
dy
y 3 0
dx
= + > and ( )y 0 2= , then ( )y ln2 is equal to
(1) 5 (2) 13 (3) -2 (4) 7
38. Let R be the set of real numbers
Statement – 1 : ( ){ }A x,y R R : y x is an integer= ∈ × − is an equivalence relation on R .
Statement – 2 : ( ){ }B x,y R R : x y for some rational number= ∈ × = α α is an equivalence relation on
R .
– 1
39. The value of
( )1
2
0
8log 1 x
dx
1 x
+
+∫ is
(1) log2
8
π
(2) log2
2
π
(3) log2 (4) log2π
40. Let ,α β be real and z be a complex number. If 2
z z 0+ α + β = has two distinct roots on the line
Rez 1= , then it is necessary that
(1) ( )1, 0β ∈ − (2) 1β = (3) ( )1,β ∈ ∞ (4) ( )0, 1β ∈
41. Consider 5 independent Bernoulli’s trials each with probability of success p. If the probability of at least
one failure is greater than or equal to
31
32
, then p lies in the interval
(1)
3 11
,
4 12
 
 
 
(2)
1
0,
2
 
 
 
(3)
11
, 1
12
 
 
 
(4)
1 3
,
2 4
 
 
 
42. A man saves Rs. 200 in each of the first three months of his service. In each of the subsequent months
his saving increases by Rs. 40 more than the saving of immediately previous month. His total saving from
the start of service will be Rs. 11040 after
(1) 19 months (2) 20 months (3) 21 months (4) 18 months
43. The domain of the function ( )
1
f x
x x
=
−
is
(1) ( )0, ∞ (2) ( ), 0−∞ (3) ( ) { }, 0−∞ ∞ − (4) ( ),−∞ ∞
44. If the angle between the line
y 1 z 3
x
2
− −
= =
λ
and the plane x 2y 3z 4+ + = is 1 5
cos
14
−
 
  
 
, then λ
equals
(1)
3
2
(2)
2
5
(3)
5
3
(4)
2
3

AIEEE−2011−8
45. If $
( )1
a 3i k
10
= +
r
$ and $
( )1
b 2i 3j 6k
7
= + −
r
$ $ , then the value of ( ) ( ) ( )2a b . a b a 2b − × × +
 
r r r r r r
is
(1) -3 (2) 5 (3) 3 (4) -5
46. Equation of the ellipse whose axes are the axes of coordinates and which passes through the point
( )3, 1− and has eccentricity
2
5
is
(1) 2 2
5x 3y 48 0+ − = (2) 2 2
3x 5y 15 0+ − = (3) 2 2
5x 3y 32 0+ − = (4) 2 2
3x 5y 32 0+ − =
47. Let I be the purchase value of an equipment and ( )V t be the value after it has been used for t years.
The value ( )V t depreciates at a rate given by differential equation
( )
( )
dV t
k T t
dt
= − − , where k 0> is a
constant and T is the total life in years of the equipment. Then the scrap value ( )V T of the equipment is
(1)
2
kT
I
2
− (2)
( )2
k T t
I
2
−
− (3) kT
e−
(4) 2 I
T
k
−
48. The vector a
r
and b
r
are not perpendicular and c
r
and d
r
are two vectors satisfying: b c b d× = ×
r r r r
and
a.d 0=
r r
. Then the vector d
r
is equal to
(1)
a.c
c b
a.b
 
+   
 
r r
r r
r r (2)
b.c
b c
a.b
 
+   
 
r r
r r
r r (3)
a.c
c b
a.b
 
−   
 
r r
r r
r r (4)
b.c
b c
a.b
 
−   
 
r r
r r
r r
49. The two circles 2 2
x y ax+ = and ( )2 2 2
x y c c 0+ = > touch each other if
(1) a c= (2) a 2c= (3) a 2c= (4) 2 a c=
50. If C and D are two events such that C D⊂ and ( )P D 0≠ , then the correct statement among the
following is
(1) ( ) ( )P C | D P C≥ (2) ( ) ( )P C | D P C< (3) ( )
( )
( )
P D
P C | D
P C
= (4) ( ) ( )P C | D P C=
51. The number of values of k for which the linear equations
4x ky 2z 0+ + = ; kx 4y z 0+ + = ; 2x 2y z 0+ + = possess a non-zero solution is
(1) 2 (2) 1 (3) zero (4) 3
52. Consider the following statements
P : Suman is brilliant
Q : Suman is rich
R : Suman is honest
The negation of the statement “Suman is brilliant and dishonest if and only if Suman is rich” can be
expressed as
(1) ( )( )~ Q P ~ R↔ ∧ (2) ~ Q ~ P R↔ ∧ (3) ( )~ P ~ R Q∧ ↔ (4) ( )~ P Q ~ R∧ ↔
53. The shortest distance between line y x 1− = and curve 2
x y= is
(1)
3 2
8
(2)
8
3 2
(3)
4
3
(4)
3
4

AIEEE−2011−9
54. If the mean deviation about the median of the numbers a, 2a, …, 50a is 50, then a equals
(1) 3 (2) 4 (3) 5 (4) 2
55. Statement – 1 : The point ( )A 1, 0, 7 is the mirror image of the point ( )B 1, 6, 3 in the line
x y 1 z 2
1 2 3
− −
= = .
Statement – 2 : The line:
x y 1 z 2
1 2 3
− −
= = bisects the line segment joining ( )A 1, 0, 7 and ( )B 1, 6, 3 .
(1) Statement – 1 is true, Statement–2 is true; Statement–2 is not a correct explanation for Statement – 1
56. Let A and B be two symmetric matrices of order 3.
Statement – 1 : ( )A BA and ( )AB A are symmetric matrices.
Statement – 2 : AB is symmetric matrix if matrix multiplication of A and B is commutative.
– 1
57. If ( )1ω ≠ is a cube root of unity, and ( )7
1 A B+ ω = + ω . Then ( )A, B equals
(1) (1, 1) (2) (1, 0) (3) (-1, 1) (4) (0, 1)
58. The value of p and q for which the function ( )
( )
2
3 / 2
sin p 1 x sinx
, x 0
x
f x q , x 0
x x x
, x 0
x
 + +
 <


= =

+ −
>
is continuous for all x in R, is
(1)
5 1
p , q
2 2
= = (2)
3 1
p , q
2 2
= − = (3)
1 3
p , q
2 2
= = (4)
1 3
p , q
2 2
= = −
59. The area of the region enclosed by the curves
1
y x, x e, y
x
= = = and the positive x-axis is
(1) 1 square units (2)
3
2
square units (3)
5
2
square units (4)
1
2
square units
60. For
5
x 0,
2
π 
∈  
 
, define ( )
x
0
f x t sint dt= ∫ . Then f has
(1) local minimum at π and 2π
(2) local minimum at π and local maximum at 2π
(3) local maximum at π and local minimum at 2π
(4) local maximum at π and 2π

AIEEE−2011−10
PART C: CHEMISTRY
61. Among the following the maximum covalent character is shown by the compound :
(1) 2SnCl (2) 3AlCl (3) 2MgCl (4) 2FeCl
62. The presence or absence of hydroxyl group on which carbon atom of sugar differentiates RNA and DNA
?
(1) 2nd
(2) 3rd
(3) 4th
(4) 1st
63. Trichloroacetaldehyde was subjected to Cannizzaro’s reaction by using NaOH. The mixture of the
products contains sodium trichloroacetate and another compound. The other compound is :
(1) Trichloromethanol (2) 2, 2, 2-Trichloropropanol
(3) Chloroform (4) 2, 2, 2-Trichloroethanol
64. Sodium ethoxide has reacted with ethanoyl chloride. The compound that is produced in the above
reaction is :
(1) 2-Butanone (2) Ethyl chloride (3) Ethyl ethanoate (4) Diethyl ether
65. The reduction potential of hydrogen half cell will be negative if :
(1) ( )2p H = 1 atm and H+
   =1.0 M (2) p ( )2H =2 atm and H+
   =1.0 M
(3) ( )2p H = 2 atm and H+
   = 2.0 M (4) ( )2p H =1 atm and H+
   = 2.0 M
66. The strongest acid amongst the following compounds is :
(1) HCOOH (2) ( )3 2 2CH CH CH Cl CO H
(3) 2 2 2ClCH CH CH COOH (4) 3CH COOH
67. The degree of dissociation ( )α of a weak electrolyte, x yA B is related to van’t Hoff factor (i) by the
expression :
(1)
i 1
x y 1
−
α =
+ +
(2)
x y 1
i 1
+ −
α =
−
(3)
x y 1
i 1
+ +
α =
−
(4)
( )
i 1
x y 1
−
α =
+ −
68. `a’ and `b’ are van der Waals’ constants for gases. Chlorine is more easily liquefied than ethane because
(1) a and b for 2Cl a< and b for 2 6C H
(2) a for 2Cl a< for 2 6C H but b for 2Cl b> for 2 6C H
(3) a for 2Cl a> for 2 6C H but b for 2Cl < b for 2 6C H
(4) a and b for 2Cl > a and b for 2 6C H
69. A vessel at 1000 K contains 2CO with a pressure of 0.5 atm. Some of the 2CO is converted into CO on
the addition of graphite. If the total pressure at equilibrium is 0.8 atm, the value of K is
(1) 3 atm (2) 0.3 atm (3) 0.18 atm (4) 1.8 atm
70. Boron cannot form which one of the following anions ?
(1) 4BH−
(2) ( )4
B OH
−
(3) 2BO−
(4) 3
6BF −
71. Which of the following facts about the complex ( )3 36
Cr NH Cl   s wrong ?
(1) The complex is paramagnetic (2) The complex is an outer orbital complex
(3) The complex gives white precipitate with silver nitrate solution
(4) The complex involves 2 3
d sp hybridization and is octahedral in shape.

AIEEE−2011−11
72. Ethylene glycol is used as an antifreeze in a cold climate. Mass of ethylene glycol which should be
added to 4 kg of water to prevent it from freezing at o
6 C− will be :
[ fK for water = 1.86 K kg mol 1−
, and molar mass of ethylene glycol = 62g mol 1−
)
(1) 204.30g (2) 400.00 g (3) 304.60 g (4) 804.32g
73. Which one of the following order represents the correct sequence of the increasing basic nature of the
given oxides ?
(1) 2 2 3 2MgO K O Al O Na O< < < (2) 2 2 2 3Na O K O MgO Al O< < <
(3) 2 2 2 3K O Na O Al O MgO< < < (4) 2 3 2 2Al O MgO Na O K O< < <
74. The rate of a chemical reaction doubles for every o
10 C rise of temperature. If the temperature is raised
by o
50 C , the rate of the reaction increases by about :
(1) 24 times (2) 32 times (3) 64 times (4) 10 times
75. The magnetic moment (spin only) of [ ]
2
4NiCl
−
is
(1) 5.46 BM (2) 2.83 BM (3) 1.41 BM (4) 1.82 BM
76. The hybridization of orbitals of N atom in 3 2NO ,NO− +
and 4NH+
are respectively :
(1) 2 3
sp , sp, sp (2) 3 2
sp, sp , sp (3) 2 3
sp , sp , sp (4) 2 3
sp, sp , sp
77. In context of the lanthanoids, which of the following statements is not correct ?
(1) All the members exhibit +3 oxidation state
(2) Because of similar properties the separation of lanthanoids is not easy.
(3) Availability of 4f electrons results in the formation of compounds in +4 state for all the members
of the series.
(4) There is a gradual decrease in the radii of the members with increasing atomic number in the
series.
78. A 5.2 molal aqueous solution of methyl alcohol, 3CH OH , is supplied. What is the mole fraction of methyl
alcohol in the solution ?
(1) 0.190 (2) 0.086 (3) 0.050 (4) 0.100
79. Which of the following statement is wrong ?
(1) Nitrogen cannot form dπ - pπ bond.
(2) Single N- N bond is weaker than the single P – P bond,
(3) 2 4N O has two resonance structures
(4) The stability of hydrides increases from 3NH to 3BiH in group 15 of the periodic table
80. The outer electron configuration of Gd (Atomic No : 64 is :
(1) 8 0 2
4f 5d 6s (2) 4 4 2
4f 5d 6s (3) 7 1 2
4f 5d 6s (4) 3 5 2
4f 4d 6s
81. Which of the following statements regarding sulphur is incorrect ?
(1) The vapour at o
200 C consists mostly of 8S rings
(2) At o
600 C the gas mainly consists of 2S molecules
(3) The oxidation state of sulphur is never less than +4 in its compounds
(4) 2S molecule is paramagnetic.
82. The structure of 7IF is :
(1) trigonal bipyramid (2) octahedral (3) pentagonal bipyramid (4) square pyramid

AIEEE−2011−12
83. Ozonolysis of an organic compound gives formaldehyde as one of the products. This confirms the
presence of :
(1) a vinyl group (2) an isopropyl group
(3) an acetylenic triple bond (4) two ethylenic double bonds
84. A gas absorbs a photon of 355 nm and emits at two wavelengths. If one of the emissions is at
680 nm, the other is at :
(1) 325 nm (2) 743 nm (3) 518 nm (4) 1035 nm
85. Silver Mirror test is given by which one of the following compounds ?
(1) Acetone (2) Formaldehyde (3) Benzophenone (4) Acetaldehyde
86. Which of the following reagents may be used to distinguish between phenol and benzoic acid ?
(1) Tollen’s reagent (2) Molisch reagent (3) Neutral Fe 3Cl (4) Aqueous NaOH
87. Phenol is heated with a solution of mixture of KBr and KBrO3. The major product obtained in the above
reaction is
(1) 3-Bromophenol (2) 4-Bromophenol (3) 2, 4, 6- Tribromophenol (4) 2-Bromophenol
88. In a face centred cubic lattice, atom A occupies the corner positions and atom B occupies the face centre
positions. If one atom of B is missing from one of the face centred points, the formula of the compound is
:
(1) 2AB (2) 2 3A B (3) 2 5A B (4) 2A B
89. The entropy change involved in the isothermal reversible expansion of 2 moles of an ideal gas from a
volume of 10 3
dm to a volume of 100 3
dm at o
27 C is :
(1) 35.8J mol 1 1
K− −
(2) 32.3J 1 1
mol K− −
(3) 42.3J 1 1
mol K− −
(4) 38.3J 1 1
mol K− −
90. Identify the compound that exhibits tautomerism.
(1) Lactic acid (2) 2-Pentanone (3) Phenol (4) 2- Butene

AIEEE−2011−13
READ THE FOLLOWING INSTRUCTIONS CAREFULLY
1. The candidates should fill in the required particulars on the Test Booklet and Answer Sheet (Side–1) with
Blue/Black Ball Point Pen.
2. For writing/marking particulars on Side-2 of the Answer Sheet, use Blue/Black Ball Point Pen only.
3. The candidates should not write their Roll Numbers anywhere else (except in the specified space) on the
Test Booklet/Answer Sheet.
4. Out of the four options given for each question, only one option is the correct answer.
5. For each incorrect response, one-fourth (1/4) of the total marks allotted to the question would be deducted
from the total score. No deduction from the total score, however, will be made if no response is indicated
for an item in the Answer Sheet.
6. Handle the Test Booklet and Answer Sheet with care, as under no circumstances (except for discrepancy in
Test Booklet Code and Answer Sheet Code), will another set be provided.
7. The candidates are not allowed to do any rough work or writing work on the Answer Sheet. All
calculations/writing work are to be done in the space provided for this purpose in the Test Booklet itself,
marked ‘Space for Rough Work’. This space is given at the bottom of each page and in 4 pages (Pages 20 –
23) at the end of the booklet.
8. On completion of the test, the candidates must hand over the Answer Sheet to the Invigilator on duty in the
Room/Hall. However, the candidates are allowed to take away this Test Booklet with them.
9. Each candidate must show on demand his/her Admit Card to the Invigilator.
10. No candidate, without special permission of the Superintendent or Invigilator, should leave his/her seat.
11. The candidates should not leave the Examination Hall without handing over their Answer Sheet to the
Invigilator on duty and sign the Attendance Sheet again. Cases where a candidate has not signed the
Attendance Sheet a second time will be deemed not to have handed over the Answer Sheet and dealt with
as an unfair means case. The candidates are also required to put their left hand THUMB impression in the
space provided in the Attendance Sheet.
12. Use of Electronic/Manual Calculator and any Electronic Item like mobile phone, pager etc. is prohibited.
13. The candidates are governed by all Rules and Regulations of the Board with regard to their conduct in the
Examination Hall. All cases of unfair means will be dealt with as per Rules and Regulations of the Board.
14. No part of the Test Booklet and Answer Sheet shall be detached under any circumstances.
15. Candidates are not allowed to carry any textual material, printed or written, bits of papers, pager, mobile
phone, electronic device or any other material except the Admit Card inside the examination hall/room.

AIEEE−2011−14
SOLUTIONS
PART A
PHYSICS
1. 1
Sol. ( ) ( )
2
x,t
y e a x b t−
= +
b
V
a
=
Wave moving in − ve x –direction.
2. 1
Sol. Diameter of wire
1
52 0.52mm 0.052cm
100
= × = =
3. 2
Sol. Mg –T = Ma ….. (1)
21
T R I MR
2
× = α = α
1
T Ma
2
= ( )a R= α ….. (2)
From (1) and (2)
2g
a
3
=
α
T
a
Mg
R
4. 3
Sol. ( )2 2
2 1W T A T 8 r r 0.4 mJ= × ∆ = × π − = π
5. 3
Sol. 0τ =
Angular momentum is conserve
1 1
1 1 2 2 2
2
I
I I
I
ω
ω = ω ⇒ ω =
I2 first decreases and then increases
∴ω first increases and then decreases.
6. 4
Sol. 1 0φ =
2
2
π
φ =
X0
X0+A
A
7. 3
Sol. Position of the null point from mass m,
r r
x
34m
1
m
= =
+
3 12 Gm
V Gm 9
r 2r r
 
= − + = − 
 

AIEEE−2011−15
8. 4
Sol. At any instant of separation between charges is x.
equilibrium condition =
2
2
Q x
K
2x
= ω
l
2 3
Q Cx⇒ =
2dQ dx
2Q C3x
dt dt
⇒ =
3 / 2
1/ 2
2
dx x
x
dt x
−
⇒ ∝ ∝
9. 3
Sol. HE B V 0.15mV= =l
10. 1
Sol.
dv
2.5 v
dt
= −
Integrating the above equation.
2 v 2.5t C⇒ = − +
at t 0,v 6.25 C 5= = ⇒ =
at
5
v 0 t 2s
2.5
= ⇒ = =
11. 1
Sol. Charge oscillates simple harmonic motion q = q0 sin ωt,
2
1 q
U
2 C
=
0q
q t
42
π
= ⇒ ω =
T 2
t LC LC
8 8 4
π π
⇒ = = =
12.
Sol. Normal to the plane is z –axis
z
1 1
A 10 1
cos , 60
A 20 2
θ = = = θ =
0
1 1 2 2 2 2
3
sin sin 2 3 sin 45
2
µ θ = µ θ ⇒ × = θ ⇒ θ =
13. 4
Sol. 0di
dB cos i sin j
2 R
→ ∧ ∧µ  
= − θ − θ π  
T
di Rd
R
= θ
π
I
d= θ
π
y
θ
xθ
dθ
0
2
I
dB cos i sin j
2 R
→ ∧ ∧µ  
= − θ − θ 
π  

AIEEE−2011−16
0
2
I
B j
R
→ ∧µ
= −
π
14. 3
Sol. W U= ∆
2
v
1
mv nC dT
2
=
m R
dT
M 1
=
γ −
( ) 2
M 1 v
dT K
2R
γ −
=
15. 3
Sol. Energy of simple harmonic oscillator is constant.
( )2 2 2 2
1 2
1 1
M A m M A
2 2
⇒ ω = + ω
2
1
2
2
A M m
MA
+
=
1
2
A M m
A M
+
∴ =
16. 3
Sol. Equation of continuity
( ) ( )a v top a v bottom⇒ × = ×
( )
22 2 2
bv 0.4 2 9.8 0.2 v u 2gh is used − = × × − = 
vb = 2m/s (nearly)
3 2
8 10 0.4 d 4−
 π × × = π × 
3
d 3.6 10 m−
≈ ×
17. 1
Sol. Since ionospheric properties change with time, these signals are in general less stable than ground wave
signals.
18. 1
Sol. Data ( )1 2 2 3 3 1 2 3n,k,t n kT n kT n n n kT⇒ + + = + +
1 1 2 2 3 3
1 2 3
n T n T n T
T
n n n
+ +
∴ =
+ +
19. 1
Sol. r × F = I × α
( )2 2
2 20t 5t 10 4t t− = α ⇒ α = −
2d
4t t
dt
ω
= −
( )2 2
d 4t t dtω = −
3
2 t
2t
3
ω = − (on integration)
0 t 6sω = ⇒ =

AIEEE−2011−17
3
2d t
2t
dt 3
θ
ω = = −
3
2 t
d 2t dt
3
 
θ = − 
 
3 4
2t t
3 12
⇒ θ = − (on integration)
( )in 6s 36radθ =
2 n 36⇒ π =
36
n 6
2
= =<
π
20. 2
Sol. ( )t /Rc
cV E 1 e−
= −
t /Rc 120 3
1 e
200 5
−
− = =
6
6
5
R 2.7 10
1.84 10−
⇒ = = × Ω
×
21. 4
Sol. 1 2
1
1
T T 1
T 6
−
η = =
( )1 2
2
1
T T 62 1
T 3
− −
η = =
1 2
1 1
T T 62 1
T T 3
−
⇒ + =
1
1 62 1
6 T 3
+ =
1
62 1
T 6
=
1T 62 6 372K∴ = × =
1 2
1
T T 1
T 6
−
=
2
1
T 1
1
T 6
− =
2T 5
372 6
=
2T 310K⇒ =
22. 1
Sol. 2
R ∝ l (for a given volume)
R 2
% %
R
∆ ∆
⇒ =
l
l
Thus when wire is stretched by 0.1% resistance increases by 0.2%

AIEEE−2011−18
23. 1
Sol. As light enters from air to glass it suffers a phase change on π and therefore at centre there will be
destructive interference.
24. 1
Sol.
1 1 1
v u f
+ =
2 2
1 dv 1 du
0
dt dtv u
− − =
2
2
dv v du
dt dtu
 
= −  
 
f = 20 cm
1 1 1
u 280 20
+ =
−
280
v cm
15
⇒ =
2
I
280
v 15
15 280
 
= − × × 
1
m/ s
15
=
25. 2
Sol.
2
n 2
Z
E 13.6
n
= −
Li
9
E 13.6 122.4eV
1
++
= − × = −
Li
9
E 13.6 13.6eV
9
+++
= − × = −
( )E 13.6 122.4∆ = − − −
= 108.8 eV
26. 3
Sol. Potential inside (φ) = ar2
+ b
r
v
E 2ar
r
δ
∴ = − = −
δ
Electric field inside uniformly charged solid volume varies with ‘r’. So charge density is constant
( ) 2 3
net 2ar 4 r 8 arφ = − π = − π
3
3
0
4
r
38 ar
σ× π
− π =
ε
06a∴σ = − ε
27. 1
Sol. Max. range
2 2
u v
i.e.,
g g
= (radius of circle)
Area occupied
22 4
2
v v
g g
  π
= π = 
 

AIEEE−2011−19
28. 1
Sol. Q U W∆ = ∆ + ∆ (ignoring expansion)
U ms T 0.1 4.184 20 8.368kJ∆ = ∆ = × × =
29. 2
Sol. 1
2
t 20= minutes
2t
0N N e λ−
= 1t ln3λ =
2t
0 0 1
2 1
N N e t ln3
3
λ−
= =
λ
2t
0 0
2
N N e
3
λ−
=
2
1 3
t ln
2
=
λ
2 1
1 3
t t ln ln3
2
 
− = − λ  
1 1 0.693
ln
2
 
= = λ λ 
= 20 min
30. 3
Sol. max 0KE h h= υ − υ
0h h e vυ − υ = × ∆
0
0
hh
V
e e
υυ
= −
‘υ’ is doubled
KEmax = 2hυ − hυ0
( ) 0
0
h2h
V V
e e
υυ′′ = ∆ = −
max
max
KE
KE
may not be equal to 2
0
0
V
V
′
⇒ may not equal to 2
KE max = hυ - hυ0
0hh
V
e e
υυ
= −

AIEEE−2011−20
PART B: MATHEMATICS
31. 2
Sol:
1L 0=O
P
3L 0=
Q
2L 0=
R
y+2=0•
( ) ( )P 2, 2 ; Q 1, 2− − = −
Equation of angular bisector OR is ( ) ( )5 2 2 x 5 2 y+ = −
PR : RQ 2 2 : 5∴ =
32. 4
Sol: 2 4 7 cos4x 3
A sin x cos x A 1
8 4
+
= + = ⇒ ≤ ≤
33. 2
Sol: ( ) ( ) ( )
66 62 2
1 x x 1 x 1 x 1 x − − − = − −
 
6 6 6 2 6 3 6 4 6 5 6 6 6 6 2 6 4 6 6
0 1 2 3 4 5 6 0 1 2 3C C x C x C x C x C x C x C C x C x C x ....   = − + − + − + × − + − +
   
Coefficient of 7 6 6 6 6 6 6
1 3 3 2 5 1x C C C C C C 120 300 36 144= − + = − + = −
34. 4
Sol:
( )2
x 2
2sin x 2
lim
x 2→
−
−
( )
x 2
2 sin x 2
lim
x 2→
−
−
R.H.L. 2= , L.H.L. 2= −
Limit does not exist.
35. 4
Sol: (n 1) (10 1) 9
(r 1) (4 1) 3C C C− −
− −= =
Statement 1 is correct
Statement 2 is also correct
From 9 we can select 3 in 9
3C ways. It is correct explanation.

AIEEE−2011−21
36. 3
Sol: 2
d dx d 1 1 d dy
dydy dy dy dy dxdy
dx dx
 
     = = −          
        
2 32
2
dy 1 d dy d y dy
dydx dx dx dxdx
dx
− −
      
= − = −              
 
 
37. 4
Sol:
dy dy
y 3 dx
dx y 3
= + ⇒ =
+
( )ln y 3 x c+ = +
x 0 y 2= ⇒ =
ln5 0 c⇒ = +
c ln5=
( )ln y 3 x ln5+ = +
x ln5
y 3 e +
+ = ln2 ln5
y 3 e +
⇒ + =
y 3 10 y 7+ = ⇒ =
38. 2
Sol: x y− is an integer
x x 0− = is an integer A⇒ is Reflexive
x y− is an integer y x⇒ − is an integer A⇒ is symmetric
x y, y z− − are integers
As sum of two integers is an integer.
( ) ( )x y y z x z⇒ − + − = − is an integer
A⇒ is transitive. Hence statement – 1 is true.
Also
x
1
x
= is a rational number B⇒ is reflexive
x
y
= α is rational
y
x
⇒ need not be rational
i.e.,
0
1
is rational
1
0
⇒ is not rational
Hence B is not symmetric
⇒ B is not an equivalence relation.

AIEEE−2011−22
39. 4
Sol:
( )1
2
0
log 1 x
I 8 dx
1 x
+
=
+∫
( )
( )
4
2
2
0
log 1 tan
8 sec d let x tan
1 tan
π
+ θ
= θ θ = θ
+ θ∫
4
0
8 log 1 tan d
4
π
 π 
= + − θ θ  
  
∫
4
0
1 tan
8 log 1 d
1 tan
π
− θ 
= + θ + θ ∫ ( )
4 4
0 0
8 log2 d 8 log 1 tan d
π π
= θ− + θ θ∫ ∫
8log2 I
4
π
= −
2I 2 log2= π
I log2= π
40. 3
Sol: Suppose roots are 1 pi, 1 qi+ +
Sum of roots 1 pi 1 qi+ + + = −α which is real
⇒ roots of 1 pi, 1 pi+ −
Product of roots ( )2
1 p 1,= β = + ∈ ∞
p 0≠ since roots are distinct.
41. 2
Sol: n 5=
Success = p
Failure = q
P (at least one failure)
31
32
≥
1 – P (no failure)
31
32
≥
( )
31
1 P x 5
32
− = ≥
5 5
5
31
1 C p
32
− ≥
5 1
p
32
− ≥ −
5 1
p
32
≤
1
p
2
≤
1
p 0,
2
 
∈  
 

AIEEE−2011−23
42. 3
Sol:
1 2 3 4 5 6 ……
200 200 200 240 280 ……. ……..
Sum = 11040
120 + 80 + 160 + 40 + 200 + 240 + … = 11040
( )
n
2a n 1 d 80 40 11040
2
 + − + + = 
( )
n
240 n 1 40 10920
2
 + − = 
n 6 n 1 546+ − =  
( )n n 5 546+ =
n 21=
43. 2
Sol:
1
x x 0 x x x
x x
⇒ − > ⇒ > ⇒
−
is negative
( )x , 0∈ −∞
44. 4
Sol:
5
cos
14
θ =
3
sin
14
θ =
2
1 4 3
sin
1 4 1 4 9
+ + λ
θ =
+ + λ + +
2
3 5 3 2
314 5 14
+ λ
= ⇒ λ =
+ λ
45. 4
Sol: ( ) ( ) ( ){ } ( ) ( ) ( ){ }2a b . a b a 2b 2a b . a. a 2b b b. a 2b a   − × × + = − + − +      
( ) ( ) ( )
2 2 2
5 a b 5 a.b 5= − + = −
46. 4
Sol: ( )
2
2 2 2 2 22 3 3a
b a 1 e a 1 a
5 5 5
 
= − = − = = 
 
2 2
2 2
x y
1
a b
+ = 2 2
9 5
1
a 3a
⇒ + =
2 32
a
3
=
2 32
b
5
=
∴ Required equation of ellipse 2 2
3x 5y 32 0+ − =

AIEEE−2011−24
47. 1
Sol: ( ) ( )
dV
k T t dV k T t dt
dt
= − − ⇒ = − −
Integrate
( )
( )
( )
2 2
k T t k T t
V c V c
2 2
− − −
= + ⇒ = +
−
at t 0 V I= ⇒ =
( )
2 2 2
kT kT kT
I c c I c V T I
2 2 2
= + ⇒ = − ⇒ = = −
48. 3
Sol: b c b d× = ×
( ) ( )a b c a b d⇒ × × = × ×
( ) ( ) ( ) ( )a.c b a.b c a.d b a.b d⇒ − = −
( ) ( ) ( )a.c b a.b c a.b d⇒ − = −
a.c
d c b
a.b
 
∴ = −   
 
49. 1
Sol: ( )1 2
a
c , 0 ; c 0, 0
2
 
= = 
 
1 2
a
r ; r c
2
= =
1 2 1 2
a a
c c r r c c a
2 2
= − ⇒ = − ⇒ =
50. 1
Sol: ( ) ( )
( )
( )
( )
P C DC
C D C P C D P C P P C
D P D
∩ 
∩ = ⇒ ∩ = ⇒ = ≥ 
 
51. 1
Sol: 2
4 k 2
k 4 1 0 k 6k 8 0 k 4, 2
2 2 1
= ⇒ − + = ⇒ =
52. 1
Sol: ( ){ } ( ){ }~ P ~ R Q ~ Q P ~ R∧ ↔ = ↔ ∧

AIEEE−2011−25
53. 1
Sol: ( )2
P y , y=
Perpendicular distance from P to x y 1 0− + = is
2
y y 1
2
− +
2
y y 1 0 y R− + > ∀ ∈
∴ Coefficient 2
y 0>
∴ Min value
2
1 4ac b 3
4a2 4 2
 −
= =  
 
54. 2
Sol: i
1
x A
n
−∑
A = Median =
25a 26a
25.5a
2
+
=
Mean deviation { } ( ) ( ){ }1 2
a 25.5a 2a 25.5a 24.5a 23.5a ... 0.5a
50 50
= − + − = + +
{ }
2
312.5a 50
50
= = (Given)
625a 2500 a 4⇒ = ⇒ =
55. 1
Sol:
B (1,6,3)
1, 2, 3
A (1,0,7)•
Statement – 1 : AB is perpendicular to given line and mid point of AB lies on line
Statement – 2 is true but it is not correct explanation as it is bisector only.
If it is perpendicular bisector then only statement – 2 is correct explanation.
56. 1
Sol: T T
A A, B B= =
( )( ) ( ) ( ) ( ) ( )
T T T T T
A BA BA A A B A AB A A BA= = = =
( )( ) ( ) ( ) ( ) ( )
T TT T T
AB A A AB A B A A BA AB A= = = =
∴ Statement – 1 is correct
Statement – 2
( )T T T
AB B A BA AB= = = (Q AB is commutative)
Statement – 2 is also correct but it is not correct explanation of Statement – 1

AIEEE−2011−26
57. 1
Sol: 2
1+ ω = −ω
( ) ( ) ( ) ( )
77 2 14 2
1 1 A B A, B 1, 1+ ω = −ω = −ω = −ω = + ω = + ω ⇒ =
58. 2
( ) 2
3 / 2x 0 x 0
sin p 1 sinx x x x
lim q lim
x x→ →
+ + + −
= =
( ) ( )x 0
1
lim p 1 cos p 1 x cosx q
2→
+ + + = =
1 3 1
p 1 1 p ; q
2 2 2
⇒ + + = ⇒ = − =
59. 2
Sol:
O 1 e
1 e
0 1
1 1 3
Area xdx dx 1
x 2 2
= + = + =∫ ∫
60. 3
Sol: ( )f ' x x sinx=
Given
5
x 0,
2
π 
∈  
 
( )f ' x changes sign from +ve to –ve at π
( )f ' x changes sign from -ve to +ve at 2π
f has local max at π , local min at 2π

AIEEE−2011−27
PART C: CHEMISTRY
61. (2)
Sol : Greater charge and small size of cation cause more polarization and more covalent is that compound
62. (1)
Sol : In RNA, the sugar is Dβ − − Ribose, where as in DNA the Sugar is β -D-2-deoxy Ribose
63. (4)
Sol :
( )
3 3 3 2
OH
2CCl CHO CCl COONa CCl CH OH
−
→ +
Cannizaro reaction is a disproportionation reaction
One aldehyde molecule is oxidized to salt of the carboxylic Acid, other one is reduced to
Alcohol. So the compound is 3 2CCl CH OH
IUPAC Name is 2, 2, 2, - Trichloro ethanol
64. (3)
Sol : 2 5 3 3 2 5
( )
C H O N a CH C Cl CH C O C H
|| ||
O O
− ⊕
+ − − → − − − Ethyl ethanoate
65. (2)
Sol : 22H 2e H (g)+ −
+ →
o
E E 0.059= − log 2H
2
P
H+
 
 
     
(here E is –ve when 2
2
HP H+
 >   )
= 10
0.0591 2
log
2 1
−  
 
 
=
.0591
.3010
2
−
× = negative value
66. (2)
Sol : Electron releasing groups (Alkyl groups) de stabilizes conjugate base.
The +I effect of 3 7C H is less than - I effect of Cl
Ka of HCOOH is 5
17.9 10−
×
aK of 3 2CH CH CH COOH
|
Cl
− is 5
139 10−
×
67. (4)
Sol : i = 1- ( )n 1 n 1α + α = + α −
i 1
n 1
−
= α
−
y x
x yA B xA yB+ −
→ +
n = x+y
So
i 1
x y 1
−
α =
+ −

AIEEE−2011−28
68. (3)
Sol : ease of liquefaction
a
b
∝
for ethane a = 5.49, b=0.0638
for 2Cl a = 6.49, b = 0.0562
69. (4)
Sol : 2CO (g) C+ 2CO(g)
Initial moles p O
Equilibriumm moles p-x 2x
Total pressure at equilibrium = 0.8 atm ; Total no.of moles = p + x.
Therefore p n∝ ;
0.5 p
x 0.3
0.8 p x
= ⇒ =
+
2
2
CO
p
CO
P 0.6 0.6
K 1.8
P 0.2
×
= = = atm
70. (4)
Sol : As Boron has only four orbitals in the valence shell ( i.e. 2s, 2px, 2py & 2pz) it can show a maximum
valency of four only.
Therefore [ ]
3
6BF
−
is not possible
71. (2)
Sol : ( )3 36
Cr NH Cl   involves 2 3
d sp hybridization and it is an inner orbital complex.
72. (4)
Sol : 2
f f f
1 2
w 1000
T K m K
w m
×
∆ = × = ×
×
1w & 2w = wt of solvent & solute respecting
2m = mw of solute
fT∆ = ( )o 0 2w 1000
0 6 6 1.86
4000 62
×
− − = = ×
×
Therefore 2w 800g=
73. (4)
Sol : Across a period metallic strength decreases & down the group it increases
74. (2)
Sol : Temperature coefficient µ =2;
T
210
1
k
k
∆
µ = ;
50
5 210
1
k
2 2 32
k
= = =
Therefore 32 1 2k k=

AIEEE−2011−29
75. (2)
Sol : In [ ]
2
4NiCl
−
, n = 2
µ = ( )n n 2+ BM
= ( )2 2 2 2.82BM+ =
76. (1)
Sol :
77. (3)
Sol : The general o.s of lanthanides is +3, only few elements exhibit +4 o.s.
78. (2)
Sol : Molefraction of solute ( )2X in aqueous solution =
m
1000
m
18
+
=
5.2
1000
5.2
18
+
= 0.09
79. (4)
Sol : Stability of hydrides decreases down the group from 3NH to 3BiH as M-H bond energy decreases.
80. (3)
81. (3)
Sol : `S’ can exhibit a minimum oxidation state of -2
(Ex. 2H S )
82. (3)
Sol : In 7IF , I undergoes 3 3
sp d hybridisation
83. (1)
Sol : Vinyl group
2CH CH
 
= − 
 
on ozonolosys give formaldehyde
84. (2)
Sol :
absorbed 1 2
1 1 1
= +
λ λ λ
⇒
2
1 1 1
355 680
= +
λ
⇒ 2 742.8λ = ≅ 743 nm
85. (2 , 4)
Sol : Formaldehyde and Acetaldehyde can be oxidized by tollen’s reagent to give silver mirror.

AIEEE−2011−30
86. (3)
Sol : Phenol gives violet coloured comlex compound with neutral 3FeCl , benzoic acid gives pale dull yellow
ppt. with neutral 3FeCl
87. (3)
Sol : In acidic medium, KBr + KBrO3 in turn produces 2Br . Phenol reacts with 2Br (aq) to give 2, 4, 6-
trinitrophenol
88. (3)
Sol : Effective no.of A atoms =
1
8 1
8
× =
Effective no.of B atoms =
1
5
2
× ( One is missing) =
5
2
Therefore formula is 1 5 2 5
2
A B A B=
89. (4)
Sol : For an ideal gas, for isothermal reversible process,
S∆ = 2.303 nR log 2
1
v
v
 
 
 
= 2.303
100
2 8.314 log
10
 
× × ×  
 
= 38.3 J 1 1
mol .k− −
90. 2, (2, 3)
Sol : both 2-pentanone, phenol can exhibit tautomerism

Aieee 2011 Solved Paper by Prabhat Gaurav

More Related Content

What's hot (20)

Viewers also liked (19)

Similar to Aieee 2011 Solved Paper by Prabhat Gaurav (16)

Recently uploaded (20)

Aieee 2011 Solved Paper by Prabhat Gaurav