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CAREER POINT
TARGET – AIPMT
PATTERN-MAIN
PHYSICS, CHEMISTRY & BIOLOGY
Duration : 3 Hrs. Max. Marks : 480
Name :______________________________________ Roll No. : ________________________ Date : ______________
INSTRUCTIONS TO CANDIDATE
A. GENERAL :
1. Please read the instructions given for each question carefully and mark the correct answers against
the question numbers on the answer sheet in the respective subjects.
2. Write your Name, Roll No. & Date in the space provided on this cover page of question paper.
3. The Question paper contains blank space for your rough work. No additional sheet will be provided for
rough work.
4. The answer sheet, a machine readable Optical Mark Recognition (OMR) is provided separately.
5. Do not break the seal of the question-paper booklet before being instructed to do so by the invigilators.
6. Blank papers, Clipboards, Log Tables, Slide rule, Calculators, Cellular phones, Pagers and Electronic
gadgets in any form are Not allowed to be carried inside the examination hall.
B. FILLING THE OMR :
7. Fill your Name, Roll No., Batch, Course and Centre of Examination in the blocks of OMR sheet and
darken circle properly.
8. DO NOT TAMPER WITH/ MUTILATE THE OMR.
C. PATTERN :
Each subject in this paper consists of following types of questions:-
9. Multiple choice questions with only one correct answer.
10. Column matching type questions.
11. Passage based single correct type questions.
12. Statement type questions.
13. Diagram based questions.
14. Practical / Experimental based questions.
D. MARKING SCHEME :
15. Each correct answer will be awarded +4 marks & –1 mark for each wrong answer.
CAREER POINT, CP Tower, Road No.1, IPIA, Kota (Raj.)
Ph: 0744-3040000, Fax (0744) 3040050
email : info@careerpointgroup.com ; Website : www.careerpointgroup.com
RS -11- P -6
Now, Schedule practice questions are available on internet also, Visit www.examtayari.com
SEAL

Q.1 Fifty electric bulbs are connected in series across
the main of a 220 volt supply. After one bulb is
fused, the remaining 49 bulbs are again
connected in series across the same mains. The
illumination will be -
(1) more with 50 bulbs than with 49 bulbs
(2) more with 49 bulbs than with 50 bulbs
(3) equal in both cases
(4) in the ratio 50 2 : 49 2 in the first and second
case respectively
Q.2 A silver voltameter of resistance 2Ω and a 3Ω
resistor are connected in series across a cell. If a
resistance of 2Ω is connected in parallel with the
voltameter, then the rate of deposition of silver -
(1) decreases by 25% (2) increases by 25%
(3) increases by 37.5% (4) decreases by 37.5%
Q.3 A particle moves in a circle of radius 4 cm
clockwise at constant speed 2 cm/s. If xˆ and yˆ
are unit acceleration vectors along X and Y-axis
respectively (in cm/s 2 ), the acceleration of the
particle at the instant half way between P and Q is
given by
P y
O Q x
(1) − 4( x ˆ + yˆ
) (2) 4( x ˆ + yˆ
)
(3) − ( x ˆ + yˆ
) / 2 (4) ( xˆ − yˆ
) / 4
Q.4 A projectile can have the same range for two
angles of projection. If h1 and h2 are maximum
heights when the range in the two cases is R,
then the relation between R, h1 and h2 is -
(1) 4 h1h2
(3) h 2
R = (2) R = 2 h1h2
R = 1h (4) None of these
Q.5 Surface tension of soap solution is 2 ×10 –2 N/m.
The work done in producing a soap bubble of
radius 2 cm is -
(1) −6
64π
× 10 J (2) −6
32π
× 10 J
(3) −6
16π
× 10 J (4) −6
8π
× 10 J
PHYSICS
Q.1 50 fo|qr cYc 220 oksYV esUl lIykbZ ls Js.khØe esa
tqM+s gq, gSA ,d cYc ds ;qt gksus ds i'pkr~ 'ks"k
cps 49 cYc dks iqu% mlh esUl lIykbZ esa Js.khØe esa
tksM+k tkrk gSA izfrnhfIr gksxh -
(1) 49 cYcksa dh rqyuk esa 50 cYcksa ds lkFk vf/kd
(2) 50 cYcksa dh rqyuk esa 49 cYcksa ds lkFk vf/kd
(3) nksuksa fLFkfr;ksa esa leku
(4) izFke rFkk f}rh; fLFkfr esa 50 2 : 49 2 ds vuqikr esa
Q.2 2Ω izfrjks/k dk ,d jtr oksYVkehVj ,oa 3Ω dk ,d
izfrjks/k ,d lSy ls Js.khØe esa tqM+s gq, gSA ;fn 2Ω
dk ,d izfrjks/k oksYVkehVj ds lkFk lekUrj Øe esa
la;ksftr gS] rks jtr ds laxzg.k dh nj -
(1) 25% ?kV tk;sxh (2) 25% c

Q.6 In a resonance column first and second
resonance are obtained at depths 22.7 cm and
70.2 cm. The third resonance will be obtained at
a depth -
(1) 117.7 cm (2) 92.9 cm
(3) 115.5 cm (4) 113.5 cm
Q.7 An electron having K.E.E is moving in a circular
orbit of radius R perpendicular to a uniform
magnetic field induction B r . If kinetic energy is
doubled and magnetic field induction is tripted the
radius will become-
3
(1) R
2
3
(2) R
2
2
(3) R
9
2
(4) R
3
Q.8 An inductor of inductance L and resistor of
resistance R are joined in series and connected
by a source of frequency ω. Power dissipated in
the circuit is-
(1)
(3)
2 2
ω
2
( R +
V
L )
( R
2
V
2
2
+ ω L )
(2)
( R
2
V
2
(4) 2
R
2
2
+ ω L )
2
V
2
2
R + ω L
Q.9 The photoelectrons emitted by ultraviolet rays and
X-rays from the same metallic surface differ in -
(1) rest mass
(2) velocity
(3) both in rest mass and velocity
(4) neither in rest mass nor in velocity
Q.10 The different stages of discharge in a discharge
tube can be explained on the basis of -
(1) the wave nature of light
(2) the dual nature of light
(3) the wave nature of electrons
(4) the collision between the charged particles
emitted from the cathode and the atoms of
the gas in the tube
Q.11 Blue light can cause photoelectric emission from
a metal, but yellow light cannot. When a red
light is incident on the metal, then -
(1) photoelectric current will increase
(2) photoelectric current will decrease
(3) no photoelectric emission will occur
(4) any one of the above
Q.6 ,d vuqukn LrEHk esa izFke o f}rh; vuqukn 22.7 cm
o 70.2 cm xgjkbZ ij izkIr gksrs gSA r`rh; vuqukn
fdruh xgjkbZ ij izkIr gksxk -
(1) 117.7 cm (2) 92.9 cm
(3) 115.5 cm (4) 113.5 cm
Q.7 ,d bysDVªkWu ,d ,dleku pqEcdh; {ks=k ds yEcor~
R f=kT;k dh ,d o`Ùkkdkj d{kk esa xfr dj jgk gSA
;fn xfrt ÅtkZ nqxquh gS rFkk pqEcdh; {ks=k f=kxquk
gS] rks f=kT;k gksxh -
3
(1) R
2
3
(2) R
2
2
(3) R
9
2
(4) R
3
Q.8 L izsjdRo dk ,d izsjd rFkk R izfrjks/k dk ,d
izfrjks/kd Js.khØe esa tqM+k gqvk gS rFkk ω vko`fÙk ds
,d L=kksr }kjk la;ksftr gSA ifjiFk esa O;f;r 'kfä gS -
CAREER POINT, CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 3
(1)
(3)
2 2
ω
2
( R +
V
L )
( R
2
V
2
2
+ ω L )
(2)
( R
2
V
2
(4) 2
R
2
2
+ ω L )
2
V
2
2
R + ω L
Q.9 leku /kkfRod lrg ls ijkcSxuh fdj.kksa rFkk
X-fdj.kksa }kjk mRlftZr QksVksbysDVªkWu fHkUu gksrs gS -
(1) fojke nzO;eku esa
(2) osx esa
(3) fojke nzO;eku o osx nksuksa esa
(4) uk rks fojke nzO;eku vkSj uk gh osx esa
Q.10 ,d fujkosf'kr ufydk esa fujkos'ku dh fHkUu fLFkr;ksa
dh fdlds vk/kkj ij O;k[;k dh tk ldrh gS -
(1) izdk'k dh rjax izd`fr
(2) izdk'k dh }Sr izd`fr
(3) bysDVªkWuksa dh rjax izd`fr
(4) dSFkksM ls mRlftZr vkosf'kr d.kksa ,oa ufydk esa
xSl ds ijek.kqvksa ds e/; VDdj
Q.11 uhyk izdk'k ,d /kkrq ls izdk'kfo|qr mRltZu dk
dkj.k gks ldrk gS ijUrq ihyk izdk'k ugha gks ldrkA
tc ,d yky izdk'k /kkrq ij vkifrr gksrk gS] rc -
(1) izdk'k fo|qr /kkjk c

Q.12 Two metallic spheres S1 and S2 are made of the
same material and have identical surface finish.
The mass of S1 is three times that of S2. Both the
spheres are heated to the same high temperature
and placed in the same room having lower
temperature but are thermally insulated from each
other. The ratio of the initial rate of cooling of
S1 to that of S2 is:
1
(1) (2)
3
⎛ 1 ⎞
(3)
⎜
⎟
⎝ 3 ⎠
⎛ 1 ⎞
⎜ ⎟⎠
⎝ 3
1/
3
⎛ ⎞
(4) ⎜
3
⎟
⎜ ⎟
⎝ 1 ⎠
Q.13 If each capacitor is C then equivalent
capacitance-
Y
X W
Z
(a) CXW = C
(b) CYZ = 2C
(c) CXY = 3C
(1) a, b (2) a, b, c
(3) b, c (4) None
Q.14 If a charge q is placed at centre of the line
joining two equal like charges Q then-
(a) q is in equilibrium for value q = – Q/4 only
(b) q is in equilibrium for value q = – Q/2 only
(c) System is in equilibrium for q = – Q/4
(d) q is in equilibrium for any value of q
(1) c,d (2) a, c
(3) a, d (4) None
Q.15 The first law of thermodynamics incorporates
the concepts of:
(a) conservation of energy
(b) conservation of heat
(c) conservation of work
(d) equivalence of heat and work
(1) a, b (2) b, c
(3) a, d (4) b, d
Q.12 nks /kkfRod xksys S1 o S2 leku inkFkZ ds cus gS rFkk
leku i`"Bh; ped gSA S1 dk nzO;eku S2 dk rhu
xquk gSA nksukas xksyks dks leku mPp rki ij xje
fd;k tkrk gS rFkk de rki okys leku dejs esa j[k
fn;k tkrk gS ijUrq ,dnwljs ls Å"eh; :i ls
foyfxrA S1 rFkk S2 dh izkjfEHkd 'khryu dh nj dk
vuqikr gS -
1
(1) (2)
3
⎛ 1 ⎞
(3)
⎜
⎟
⎝ 3 ⎠
CAREER POINT, CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 4
⎛ 1 ⎞
⎜ ⎟⎠
⎝ 3
1/
3
⎛ ⎞
(4) ⎜
3
⎟
⎜ ⎟
⎝ 1 ⎠
Q.13 ;fn izR;sd la/kkfj=k dk eku C gS] rks rqY; /kkfjrk
gksxh -
Y
X W
Z
(a) CXW = C
(b) CYZ = 2C
(c) CXY = 3C
(1) a, b (2) a, b, c
(3) b, c (4) dksbZ ugha
Q.14 ;fn ,d vkos'k q nks ,dleku vkos'kksa Q dks tksM+us
okyh js[kk ds dsUnz ij j[kk tkrk gS] rc -
(a) dsoy q = – Q/4 eku ds fy, q lkE;koLFkk esa gS
(b) dsoy q = – Q/2 eku ds fy, q lkE;koLFkk esa gS
(c) q = – Q/4 ds fy, fudk; lkE;koLFkk esa gS
(d) q ds fdlh eku ds fy, q lkE;koLFkk esa gS
(1) c,d (2) a, c
(3) a, d (4) dksbZ ugha
Q.15 Å"ekxfrdh dk izFke fu;e fdldh vo/kkj.kk dks
bafxr djrk gS -
(a) ÅtkZ ds laj{k.k
(b) Å"ek ds laj{k.k
(c) dk;Z ds laj{k.k
(d) Å"ek o dk;Z ds rqY;kad
(1) a, b (2) b, c
(3) a, d (iv) b, d

Q.16 A closed vessel contains a mixture of two
diatomic gases A and B. Molar mass of A is 16
times that of B and mass of gas A contained in
the vessel is 2 times that of B. Which of the
following statements are correct ?
(a) Average kinetic energy per molecule of A is
equal to that of B
(b) Root mean square value of translational
velocity of B is four times that of A
(c) Pressure exerted by B is eight times of that
exerted by A
(d) Number of molecules of B, in the cylinder,
is eight times that of A
(1) a (2) a, b
(3) a, b, c (4) a ,b, c, d
Q.17 Inter molecular potential energy is
A B
U = −
12 6
r r
A B
(a) Inter molecular force is F = −
13 6
r r
(b) Inter molecular separation at equilibrium
1/
6
2
=
⎛ A ⎞
⎜ ⎟⎠
⎝ B
(c) Minimum potential energy is = –
Correct answer is -
(1) a (2) b, c
(3) c (4) a,b,c
Q.18 In single slit diffraction
4A
2
B
2λD
(a) Width of the central maxima =
d
λ D
(b) Width of the first maxima =
d
λ D
(c) Width of the second maxima =
2d
Correct answer is -
(1) a (2) a, b
(3) a,b,c (4) None
Q.16 ,d can ik=k nks f}ijekf.od xSlksa A o B ds feJ.k
ls ;qDr gSA A dk eksyj nzO;eku B dk 16 xquk gS
rFkk ik=k esa Hkjh xSl A dk nzO;eku B dk 2 xquk
gSA fuEu esa ls dkSulk dFku lgh gS ?
(a) A dh izfr v.kq vkSlr xfrt ÅtkZ B ds cjkcj gS
(b) B ds LFkkukraj.k osx dk ek/; ewy osx A dk
pkj xquk
(c) B }kjk vkjksfir nkc] A }kjk vkjksfir nkc dk
vkB xquk gS
(d) flys.Mj esa B ds v.kqvksa dh la[;k A dh vkB
xquk gS
(1) a (2) a, b
(3) a, b, c (4) a ,b, c, d
Q.17 vUrjvkf.od fLFkfrt ÅtkZ gS -
A B
U = −
12 6
r r
A B
(a) vUrjvkf.od cy F = − gS
13 6
r r
2
(b) lkE;koLFkk ij vUrjvkf.od nwjh =
⎛ A ⎞
⎜ ⎟⎠
⎝ B
(c) U;wure fLFkfrt ÅtkZ = –
lgh mÙkj gS -
4A
gS 2
B
(1) a (2) b, c
(3) c (4) a,b,c
Q.18 ,dy fLyV foorZu esa
2λD
(a) dsUnzh; mfPp"B dh pkSM+kbZ =
d
λ D
(b) izFke mfPp"B dh pkSM+kbZ =
d
λ D
(c) f}rh; mfPp"B dh pkSM+kbZ =
2d
lgh mÙkj gS -
(1) a (2) a, b
(3) a,b,c (4) dksbZ ugha
CAREER POINT, CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 5
1/
6
gS

Q.19 In case of interference of two waves each of
intensity I0, the intensity at a point of
constructive interference will be -
(a) 4I0 for coherent source
(b) 2I0 for coherent source
(c) 4I0 for incoherent source
(d) 2I0 for incoherent source
(1) a, c (2) b, c (3) a, d (4) b, d
Q.20 Vibration magnetometer is used -
(a) For comparing the magnetic moment of two
magnet
(b) For comparing the magnetic field of two
magnet
(c) For measuring magnetic field and magnetic
moment of unknown magnet
(d) For measuring magnetic hardness of
ferromagnetic materials
(1) a, b, c (2) a, b, c, d (3) a, c, d (4) a, b, d
Q.21 Which is the application of transistor from
following ?
(a) Amplifier (b) Oscillator
(c) Switch (d) Rectifier
(1) a, b, c (2) a, b, c, d (3) a, c, d (4) a, b, d
Column Matching :
Q. 22 In fresenl diffraction
Column I Column II
(a) Radius of the n th half
period zone
(b) Area of the n th half
period zone
(c) Average distance of
the n th half period
zone from the point of
observation
Correct Match is -
(1) a → p, b → q, c → r
(2) a → q, b → p, c → r
(3) a → r, b → q, c → p
(4) None
λ
(p) b + (2n – 1)
4
(q) πbλ
(r) nb λ
Q.23 Acceleration due to gravity at surface of earth is
g. Its value is taken as practically constant.
Column I gives different situations and column II
gives values of acceleration due to gravity.
Match correct options.
Q.19 I0 rhozrk okyh nks rjaxks ds O;frdj.k dh fLFkfr esa]
lEiks"kh O;frdj.k ds ,d fcUnq ij rhozrk gksxh -
(a) dyk lEc) L=kksr ds fy, 4I0
(b) dyk lEc) L=kksr ds fy, 2I0
(c) dyk vlEc) L=kksr ds fy, 4I0
(d) dyk vlEc) L=kksr ds fy, 2I0
(1) a, c (2) b, c (3) a, d (4) b, d
Q.20 nksyu pqEcdRoekih mi;ksx fd;k tkrk gS -
(a) nks pqEcdksa ds pqEcdh; vk?kw.kksZ dh rqyuk ds
fy,
(b) nks pqEcdksa ds pqEcdh; {ks=kkssa dh rqyuk ds fy,
(c) vKkr pqEcd ds pqEcdh; {ks=k rFkk pqEcdh;
vk?kw.kZ ds ekiu ds fy,
(d) ykSg pqEcdh; inkFkksZ dh pqEcdh; dBksjrk ekiu
djus ds fy,
(1) a, b, c (2) a, b, c, d (3) a, c, d (4) a, b, d
Q.21 fuEufyf[kr esa ls dkSulk VªkaftLVj dk vuqiz;ksx gS?
(a) izo/kZd (b) nksfy=k
(c) fLop (d) fn"Vdkjh
LrEHk lqesfyr %
(1) a, b, c (2) a, b, c, d (3) a, c, d (4) a, b, d
Q. 22 Ýsuy foorZu esa
LrEHk I LrEHk II
(a) nosa v)Z vkorhZ dfVcU/k
dh f=kT;k
λ
(p) b + (2n – 1)
4
(b) nosa v)Z vkorhZ dfVcU/k
dk {ks=kQy
(q) πbλ
(c) izs{k.k fcUnq ls nosa v)Z (r) nb λ
vkorhZ dfVcU/k dh
vkSlr nwjh
lgh feyku gS -
(1) a → p, b → q, c → r
(2) a → q, b → p, c → r
(3) a → r, b → q, c → p
(4) dksbZ ugha
Q.23 i`Foh dh lrg ij xq:Roh; Roj.k g gSA bldk eku
izk;ksfxd :i ls fu;r fy;k tkrk gSA LrEHk I es
fHkUu fLFkfr;k¡ n'kkZbZ xbZ gS rFkk LrEHk II esa xq:Roh;
Roj.k ds eku gSA lgh fodYi dk feyku dhft,A
CAREER POINT, CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 6

Column I Column II
(a) Acceleration due to (p) g
(b)
gravity at north pole of
earth when earth rotates
with angular speed ω
Acceleration due to
gravity at height x from
surface of earth
⎛ x ⎞
(q) g⎜1 − ⎟
⎝ R ⎠
(c) Acceleration due
gravity at depth x
to ⎛ 2x
⎞
(r) g⎜1−
⎟
⎝ R ⎠
(d) Acceleration due to (s) g – Rω
gravity at equator due to
rotation of earth with
angular speed ω
2
Correct Match is -
(1) a → p, b → q, c → r, d → s
(2) a → s, b → p, c → q, d → r
(3) a → p, b → r, c → q, d → s
(4) a → s, b → r, c → q, d → p
Q.24 Match the column
Column I Column II
(p) Cyclotron (a) Use to measure the
humidity
(q) Flux meter (b) Use to measure
angular velocity
(r) Techometer (c) Accelerate the high
mass charge particle
(s) Hydrometer (d) Used to measure
magnetic field
(1) p → c, q → d, r → a, s → b
(2) p → c, q → d, r → b, s → a
(3) p → c, q → b, r → d, s → a
(4) p → a, q → c, r → b, s → d
Passage : 1 (Ques. 25 to 26)
In the circuit shown in figure, the switch S is
closed at t = 0 for a time long enough for the
capacitor to be fully charged.
5µF 5kΩ
30kΩ
15V
15kΩ
S
LrEHk I LrEHk II
(a) i`Foh ds mÙkjh /kzqo ij
xq:Roh; Roj.k] tc i`Foh
ω dks.kh; pky ls ?kq.kZu
djrh gS
CAREER POINT, CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 7
(p) g
(b) i`Foh dh lrg ls x Å¡pkbZ
ij xq:Roh; Roj.k
⎛ x ⎞
(q) g⎜1 − ⎟
⎝ R ⎠
(c) x xgjkbZ ij xq:Roh; Roj.k ⎛ 2x
⎞
(r) g⎜1
− ⎟
⎝ R ⎠
(d) ω dks.kh; pky ls i`Foh ds (s) g – Rω
?kq.kZu ds dkj.k Hkqe/; js[kk
ij xq:Roh; Roj.k
2
lgh feyku gS -
(1) a → p, b → q, c → r, d → s
(2) a → s, b → p, c → q, d → r
(3) a → p, b → r, c → q, d → s
(4) a → s, b → r, c → q, d → p
Q. 24 LrEHk lqesfyr dhft,A
LrEHk I LrEHk II
(p) lkbDyksVªksu (a) vknZrk ds ekiu esa mi;ksx
gksrk gS
(q) yDl ehVj (b) dks.kh; osx ds ekiu eas mi;ksx
gksrk gS
(r) VsdksehVj (c) mPp nzO;eku ds vkosf'kr d.k
dks Rofjr djrk gS
(s) gkbMªksehVj (d) pqEcdh; {ks=k ds ekiu esa mi;ksx
gksrk gS
(1) p → c, q → d, r → a, s → b
(2) p → c, q → d, r → b, s → a
(3) p → c, q → b, r → d, s → a
(4) p → a, q → c, r → b, s → d
x|ka'k 1 : (iz'u 25 ls 26)
fp=k eas n'kkZ, ifjiFk esa] la/kkfj=k dks iw.kZ vkosf'kr
djus ds fy, ,d yEcs i;kZIr le; ds fy, t = 0 ij
fLop S cUn fd;k tkrk gSA
5µF 5kΩ
30kΩ
15V
15kΩ
S

Answer the following questions.
Q.25 Steady state current in resistance 30 kΩ is -
(1) 0.52 mA (2) 1.25 mA
(3) 0.33 mA (4) 1.72 mA
Q.26 Charge on the capacitor in the steady state is -
(1) 36µC (2) 32µC (3) 30 µC (4) 25µC
Passage : 2 (Ques. 27 to 28)
A ball of mass 20kg moving with velocity of
10 m/s explodes in two equal parts. First part
moves with 10 m/s in opposite direction
Q.27 Velocity of the second part is
(1) 10 m/s (2) 20 m/s (3) 30 m/s (4) 40 m/s
Q.28 Gain of kinetic energy of the system in the
explosion -
(1) 4000 J (2) 2000 J (3) 3000 J (4) 1000 J
A & R Type Questions :
The following questions given below consist
of an Assertion and Reason Type questions.
Use the following Key to choose the
appropriate answer.
(A) If both Assertion & Reason are True &
Reason is a correct explanation of the
Assertion.
(B) If both Assertion & Reason are True but
Reason is not a correct explanation of the
Assertion.
(C) If Assertion is True but the Reason is
False.
(D) If both Assertion and Reason are False.
Q.29 Assertion : When a p-type semi conductor is
constructed from pure semi conductor then not
only number of hole increases but also number
of free electron decreases.
Reason : When imparity is added in pure
semiconductor number of recombination
increases.
(1) A (2) B (3) C (4) D
Q.30 Assertion : A photon has no rest mass, yet it
carries definite momentum.
Reason : Momentum of a photon is due to its
energy and hence its equivalent mass.
(1) A (2) B (3) C (4) D
fuEufyf[kr iz'uksa ds mÙkj nhft,A
Q.25 30 kΩ izfrjks/k esa LFkk;h voLFkk /kkjk gS -
(1) 0.52 mA (2) 1.25 mA
(3) 0.33 mA (4) 1.72 mA
Q.26 LFkk;h voLFkk esa la/kkfj=k ij vkos'k gS -
(1) 36µC (2) 32µC (3) 30 µC (4) 25µC
x|ka'k 2 : (iz'u 27 ls 28)
10 m/s ds osx ls xfreku 20 kg nzO;eku dh ,d xsan
nks Hkkxksa esa QwV tkrh gSA igyk Hkkx 10 m/s ds osx ls
foifjr fn'kk esa xfr djrk gS] rks
Q.27 nwljs Hkkx dk osx gS -
(1) 10 m/s (2) 20 m/s (3) 30 m/s (4) 40 m/s
Q.28 foLQksV esa fudk; dh xfrt ÅtkZ esa o`f) gS -
(1) 4000 J (2) 2000 J (3) 3000 J (4) 1000 J
dFku ,oa dkj.k izdkj ds iz'u %
uhps fn;s x;s fuEufyf[kr iz'u "dFku" rFkk
"dkj.k" izdkj ds iz'u gSaA vr% mfpr mÙkj dk
p;u djus ds fy;s fuEu rkfydk dk mi;ksx
dhft;sA
(A) ;fn dFku rFkk dkj.k nksuksa lR; gSa rFkk dkj.k
dFku dk lgh Li"Vhdj.k gSA
(B) ;fn dFku rFkk dkj.k nksuksa lR; gSa ysfdu
dkj.k( dFku dk lgh Li"Vhdj.k ugha gSA
(C) ;fn dFku lR; gS ysfdu dkj.k vlR; gSA
(D) ;fn dFku rFkk dkj.k nksuksa vlR; gSA
Q. 29 dFku : tc ,d p-izdkj dk v)Zpkyd ,d 'kq)
¼uSt½ v)Zpkyd ls fufeZr fd;k tkrk gS] rc u
dsoy gksyks dh la[;k c

Q.31 Which of the following changes takes place
during roasting ?
(1) Oxidation – reduction
(2) Only oxidation
(3) Only reduction
(4) Neither oxidation nor reduction
Q.32 Which pair of molecule have permanent dipole
moment :
(1) XeF4, SF4 (2) ClF3, BF3
(3) BrF3, PF3 (4) SnCl2, HgCl2
Q.33 In the general electronic configuration
ns 2 (n–1)d 0–1 (n–2)f 1–14 . If value of n = 7, the
wrong statement would be :
(1) The element is actinide
(2) The element is radioactive
(3) The element is d-block metal
(4) The element belong to III B group
Q.34 Which of the following is not a consequence of
the lanthanoid contraction :
(1) Zr and Hf have comparable size
(2) Zr and Hf occurs together in the earth crust
in their minerals
(3) 5d series element have a higher IE1 than 4d
series
(4) Same oxidation state of Zr & Hf
Q.35 NH3 is heated at 15 atm from 27ºC to 347ºC
assuming volume constant. The new pressure
becomes 50 atm at equilibrium of the reaction
2NH3 N2 + 3H2. Calculate % of mole of
NH3 actually decomposed :
(1) 61.3 (2) 28.5
(3) 77 (4) 86.5
Q.36 0.078 g Al(OH)3 is dehydrated to Al2O3. The
Al2O3 so obtained reacted with 6 milliequivalent
of HCl. The equivalent of AlCl3 produced during
the reaction are :
(1) 10 –3 (2) 3 × 10 –3
(3) 4 × 10 –3 10
(4)
2
3 −
CHEMISTRY
Q.31 fuEu esa ls dkSulk ifjorZu HktZu ds nkSjku gksrk gS ?
(1) vkWDlhdj.k & vip;u
(2) dsoy vkWDlhdj.k
(3) dsoy vip;u
(4) u rks vkWDlhdj.k u gh vip;u
Q.32 fuEu esa ls dkSuls ;qXe dk LFkk;h f}/kzqo vk?kw.kZ gksrk
gS :
(1) XeF4, SF4 (2) ClF3, BF3
(3) BrF3, PF3 (4) SnCl2, HgCl2
Q.33 lkekU; bysDVªkWfud foU;kl
ns 2 (n–1)d 0–1 (n–2)f 1–14 esa] ;fn n dk eku 7 gks] rks
lgh dFku gksxk :
(1) rRo ,fDVukbM gS
(2) rRo jsfM;ks lfØ; gS
(3) rRo d-CykWd rRo gS
(4) rRo III B lewg ls lEcfU/kr gS
Q.34 fuEu esa ls dkSulk ySUFksukbM ladqpu dk ifj.kke
ugha gS :
(1) Zr rFkk Hf dk vkdkj rqY; gS
(2) HkwxHkZ ls Zr rFkk Hf buds v;Ldksa esa lkFk&lkFk
izkIr gksrs gSa
(3) 5d Js.kh ds rRoksa dk IE1, 4d Js.kh dh vis{kk
mPp gksrk gS
(4) Zr rFkk Hf dh leku vkWDlhdj.k voLFkk
Q.35 vk;ru dks fLFkj ekurs gq, NH3 dks 15 atm ij
27ºC ls 347ºC rd xeZ fd;k tkrk gSA vfHkfØ;k
2NH3 N2 + 3H2 ds lkE; ij uohu nkc
50 atm gks tkrk gSA okLrfod :i ls fo;ksftr NH3
ds % eksyksa dh la[;k gS :
(1) 61.3 (2) 28.5
(3) 77 (4) 86.5
Q.36 0.078 g Al(OH)3, Al2O3 esa futZyhd`r gksrk gSA
Al2O3 dks 6 feyh rqY;kad HCl ds lkFk fØ;k djds
izkIr fd;k tkrk gSA vfHkfØ;k ds nkSjku mRikfnr
AlCl3 ds rqY;kad gSa :
(1) 10 –3 (2) 3 × 10 –3
(3) 4 × 10 –3 10
(4)
2
3 −
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Q.37 If the shortest wavelength of H-atom in Lyman
series is x, then longest wavelength in Balmer
series of He + is :
(1)
9 x 36 x
(2)
5 5
x
(3)
4
5 x
(4)
9
Q.38 If NaOH is titrated with HCl, variation of
conductance (y-axis) with addition of HCl
(x-axis) will be :
(1)
(3)
Q.39 The maximum entropy of mixing occurs when
hexane and heptane are mixed respectively in the
proportion :
(1) 8.6 g and 10.0 g (2) 8.6 g and 8.6 g
(3) 10.0 g and 8.6 g (4) 10.0 g and 10.0 g
Q.40 Consider following reactions in which A is
converted into B, C and D by different methods :
CH3
I
(CH3)3CCH2CH2OH (B)
CH3CCH CH2
II
(CH3)3CCHCH3 (C)
CH3
(A)
III
(2)
(4)
OH
(CH3)2CCH(CH3)2 (D)
OH
Methods, I, II and III are respectively :
(1) HBO, oxymercuration-demercuration, hydration
(2) HBO, hydration, oxymercuration-demercuration
(3) hydration, oxymercuration-demercuration, HBO
(4) oxymercuration-demercuration, hydration, HBO
Q.41 Glycerol reacts with excess of HI forming :
CH2–I
CH2
(1)
(3)
CH–I
CH2–I
CH3
CH–I
CH3
(2)
CH
CH3
CH3
(4) CH–I
CH2–OH
Q.37 ;fn ykbZeu Js.kh esa H-ijek.kq dh U;wure rjaxnS/;Z
esa x gks] rks He + dh ckej Js.kh dh nh?kZre rjaxnS/;Z
gksxh :
(1)
9 x 36 x
(2)
5 5
x
(3)
4
5 x
(4)
9
Q.38 ;fn NaOH dks HCl ds lkFk vuqekfir fd;k tk;s]
rks HCl (x-v{k) ds ;ksx ds lkFk pkydrk (y-v{k) esa
ifjorZu gksxk :
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(1)
(3)
Q.39 fefJr djus dh lokZf/kd ,.VªkWih gksrh gS] tc gsDlsu
o gsIVsu dks Øe'k% vuqikr esa fefJr fd;k tkrk gS :
(1) 8.6 g rFkk 10.0 g (2) 8.6 g rFkk 8.6 g
(3) 10.0 g rFkk 8.6 g (4) 10.0 g rFkk 10.0 g
Q.40 vfHkfØ;kvksa ij fopkj dhft, ftlesa A fofHkUu izØeksa
}kjk B, C o D esa ifjofrZr gks tkrk gS :
CH3
CH3CCH CH2
CH3
(A)
I
II
III
(2)
(4)
(CH3)3CCH2CH2OH (B)
(CH3)3CCHCH3 (C)
OH
(CH3)2CCH(CH3)2 (D)
OH
izØe I, II o III Øe'k% gS :
(1) HBO, vkWDlheZD;qjhdj.k-foeZD;qjhdj.k] ty;kstu
(2) HBO, ty;kstu] vkWDlheZD;qjhdj.k-foeZD;qjhdj.k
(3) ty;kstu] vkWDlheZD;qjhdj.k-foeZD;qjhdj.k, HBO
(4) vkWDlheZD;qjhdj.k-foeZD;qjhdj.k] ty;kstu, HBO
Q.41 fXyljkWy] HI ds vkf/kD; esa fØ;k djds cukrk gS :
(1)
(3)
CH2–I
CH–I
CH2–I
CH3
CH–I
CH3
(2)
CH2
CH
CH3
CH3
(4) CH–I
CH2–OH

Q.42
Q.43
CH3
CH3C CH2
O
H 2O 18
H +
Product A formed will be diol with following
A
structure having 18 O (isotopic) :
(1)
CH3
CH3C CH2
18
OH OH
(2)
CH3
CH3C CH2
18
OH OH
(3) both are correct (4) none is correct
O
CH3CCH2C CH
end product A is :
O
(1) CH3CCH2CH2CH2CH2
O
(2)
(3)
(4)
CH3CH2CCH2CH2CH3
O
CH3CCH2C CCH3
O
CH3CCH2HC CHCH3
HO OH NaNH2 H3O⊕
CH3I
Q.44 Which is true about beryllium ?
(a) Be(OH)2 is basic in nature only
(b) Beryllium halides are electron deficient
(c) Aqueous solution of BeCl2 is acidic
(d) It forms carbide Be2C
(1) a, b (2) a, b, c
(3) b, c, d (4) a, b, c, d
A ,
Q.45 Which of the following reactions can evolve
phosphine ?
(a) PH4I + NaOH ⎯ ⎯→
(b) White P + Ca(OH)2 ⎯ ⎯→
(c) AlP + H2O ⎯ ⎯→
(d) H3PO4 ⎯⎯ ⎯ →
Heat
(1) a, b (2) a, b, c
(3) c, d (4) b, c, d
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Q.42
Q.43
CH3
CH3C CH2
H 2O 18
H +
O
mRikn A , 18 O (leLFkkfud) ;qä MkbvkWy gS]
ftldh ljapuk gksxh :
(1)
CH3
CH3C CH2
18
OH OH
A
(2)
CH3
CH3C CH2
18
OH OH
(3) nksuksa lgh gSa (4) dksbZ lgh ugha gSa
O
CH3CCH2C CH
vafre mRikn A gS :
O
(1) CH3CCH2CH2CH2CH2
O
(2) CH3CH2CCH2CH2CH3
O
(3) CH3CCH2C CCH3
O
(4) CH3CCH2HC CHCH3
HO OH NaNH2 H3O⊕
CH3I
Q.44 fuEu esa ls dkSulk cSfjfy;e ds fy, lR; gS ?
(a) Be(OH)2 izd`fr esa dsoy {kkjh; gS
(b) csjsfy;e gSykbM] bysDVªkWu U;wu gS
(c) BeCl2 dk tyh; foy;u vEyh; gS
(d) ;g dkckZbM Be2C cukrk gS
(1) a, b (2) a, b, c
(3) b, c, d (4) a, b, c, d
A ,
Q.45 fuEu esa ls dkSulh vfHkfØ;k esa QkWLQhu fu"dkflr
gks ldrh gS ?
(a) PH4I + NaOH ⎯ ⎯→
(b) White P + Ca(OH)2 ⎯ ⎯→
(c) AlP + H2O ⎯ ⎯→
(d) H3PO4 ⎯⎯ ⎯ →
Heat
(1) a, b (2) a, b, c
(3) c, d (4) b, c, d

Q.46 Silver chloride dissolves in ammonium
hydroxide forming P. What is not true about P ?
(a) P is called Tollen's reagent
(b) P is a double salt
(c) P is paramagnetic in nature
(d) P is cationic complex
(1) a, b (2) b, c
(3) c, d (4) a, c, d
Q.47 Select the correct statement(s) :
(a) In K2Cr2O7, every chromium atom is linked
with four oxygen atoms
(b) Blue colour of copper sulphate solution
becomes fade in excess of ammonia
(c) A mixture of alkaline CuSO4 and sodium
potassium tartarate is Fehling's solution
(d) Mixture of CuSO4 + Ca(OH)2 is called
Bordeaux mixture
(1) Only a (2) a, b, c
(3) a, c, d (4) a, b, c, d
Q.48 Which of the following statement(s) is (are)
correct regarding Lewis acids ?
(a) Molecules having a central atom with an
incomplete octet in it can act as Lewis acids
(b) Molecules in which atoms of dissimilar
electronegativity are joined by multiple
bonds can acts as Lewis acids
(c) SiF4, PF5 and FeCl3 are Lewis acids
(d) Neutral species having at least one lone pair
of electrons can act as Lewis acids
(1) a, b (2) b, c
(3) a, b, c (4) a, c, d
Q.49 A 1.5 ampere current is passed for sometime
through a solution of AgNO3 to deposit 0.54 g of
Ag. Select the correct statements :
(a) The time for which current is passed is
321.67 minute
(b) The charge passed is 482.5 F
(c) The charge passed is 482.5 C
(d) The time for which current passed is 321.67
sec.
(1) a, b (2) b, c
(3) c, d (4) a, b, c, d
Q.46 flYoj DyksjkbM] veksfu;e gkbMªkWDlkbM esa ?kqydj
P cukrk gSA fuEu esa ls dkSuls P ds ckjs esa lR; ugha
gS ?
(a) P, dks VkWysu vfHkdeZd dgrs gSa
(b) P, f}d yo.k gS
(c) P, izd`fr esa vuqpqEcdh; gS
(d) P, /kuk;fud ladqy gS
(1) a, b (2) b, c
(3) c, d (4) a, c, d
Q.47 lgh dFku pqfu;s :
(a) K2Cr2O7 esa] izR;sd Øksfe;e ijek.kq pkj
vkWDlhtu ijek.kq ls tqM+k gksrk gS
(b) uhys jax dk dkWij lYQsV foy;u] veksfu;k ds
vkf/kD; esa gYdk gks tkrk gS
(c) {kkjh; CuSO4 o lksfM;e ikSVsf'k;e VkVZjsV dk
feJ.k] Qsgfyax foy;u gksrk gS
(d) CuSO4 + Ca(OH)2 dk feJ.k] ckWjMsDl feJ.k
dgykrk gS
(1) dsoy a (2) a, b, c
(3) a, c, d (4) a, b, c, d
Q.48 fuEu esa ls dkSuls dFku yqbZl vEy ds lUnHkZ esa
lR; gS ?
(a) viw.kZ v"Vd ds lkFk dsUnzh; ijek.kq ;qä v.kq esa
;g yqbZl vEy dh rjg dk;Z dj ldrk gS
(b) v.kq] ftlesa fHkUu fo|qr_.krk ds ijek.kq cgqcU/k
ls tqM+s gksrs gSaA yqbZl vEy dh rjg dk;Z dj
ldrk gS
(c) SiF4, PF5 o FeCl3 yqbZl vEy gS
(d) de ls de ,d ,dkdh ;qXe bysDVªkWu ;qä
Lih'kht] yqbZl vEy dh rjg dk;Z djrh gS
(1) a, b (2) b, c
(3) a, b, c (4) a, c, d
Q.49 1.5 ,Eih;j /kkjk dks dqN le; ds fy, AgNO3 ds
foy;u ls izokfgr fd;k tkrk gS] rks 0.54g Ag
laxzfgr gksrh gSA lgh dFku gS :
(a) /kkjk izokfgr djus dk le; 321.67 feuV gS
(b) izokfgr vkos'k 482.5 F gS
(c) izokfgr vkos'k 482.5 C gS
(d) izokfgr /kkjk dk le; 321.67 sec gS
(1) a, b (2) b, c
(3) c, d (4) a, b, c, d
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Q.50 Study the following figure, and select the correct
statements.
0.1M
NaCl(aq)
solution
0.05-M
BaCl2(aq)
solution
Semipermeable
membrane
(a) There will be no movement of any solution
across the membrane
(b) Water from BaCl2 will flow towards the
NaCl solution
(c) Water from NaCl will flow towards the
BaCl2
(d) The osmotic pressure of 0.1 M NaCl is higher
than the osmotic pressure of 0.05 M BaCl2,
assuming
electrolyte
complete dissociation of the
(1) a, b (2) b, c
(3) b, d (4) a, c, d
Q.51 Rate constant for a reaction varies with
temperature as,
In K(sec –1 1.
25×
10
) = 14.34 – ,
T
which statement(s) is (are) correct ?
(a) The graph plotted in between log10 k vs. 1/T
is straight line with Ea = 24.83 kcal
(b) Pre-exponential factor = 13.34
(c) The rate constant at 500 K is 2.35 × 10 –5
sec –1
(d) Ea = 30.63 kcal
(1) a, b (2) a, c
(3) b, c, d (4) a, b, c, d
Q.52 Which is homopolymer out of the following?
(a) PVC (b) SBR
(c) Orlon (d) Teflon
(1) a, b (2) a, c, d
(3) b, c (4) a, b, c, d
4
Q.50 fuEu lajpuk ij v/;;u dhft, o lgh dFku
pqfu;s
0.1M
NaCl(aq)
solution
0.05-M
BaCl2(aq)
solution
v)ZikjxE;
f>Yyh
(a) f>Yyh ds vkj&ikj dksbZ Hkh foy;u xfreku
ugha gksrk
(b) BaCl2 ls ty dk izokg] NaCl foy;u dh vksj
gksrk gS
(c) NaCl ls ty dk izokg BaCl2 dh vksj gksrk gS
(d) 0.1 M NaCl dk ijklj.k nkc] 0.05 M BaCl2 ds
ijklj.k nkc ls vf/kd gksrk gSA ekurs gq, fd
oS|qr vi?kV~; dk iw.kZ fo;kstu gksrk gS
(1) a, b (2) b, c
(3) b, d (4) a, c, d
Q.51 ,d vfHkfØ;k dk nj fLFkjkad rki ds lkFk fuEu
izdkj ifjofrZr gksrk gS,
In K(sec –1 1.
25×
10
) = 14.34 –
T
dkSulk dFku lR; gS@gSa ?
,
(a) log10 k o 1/T ds e/; [khapk x;k oØ fLFkj
Ea = 24.83 kcal ds lkFk ljy js[kk gksrk gS
(b) iwoZ&pj xq.kkad = 13.34
(c) 500 K ij nj fLFkjkad 2.35 × 10 –5 sec –1 gS
(d) Ea = 30.63 kcal
(1) a, b (2) a, c
(3) b, c, d (4) a, b, c, d
Q.52 fuEu esa ls dkSulk lecgqyd gS?
(a) PVC (b) SBR
(c) vkWjykWu (d) VsykWu
(1) a, b (2) a, c, d
(3) b, c (4) a, b, c, d
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4

Q.53 In the Cannizzaro reaction given below :
−
PhCO 2
2PhCHO OH PhCH2OH +
Which step is/are involve : –
(a) the attack of OH at the carbonyl group
(b) the transfer of hydride to the carbonyl group
(c) the abstraction of proton from the carboxylic
group
(d) the deprotonation of PH—CH2OH
(1) a, c (2) a, b, c
(3) a, b, d (4) b, c, d
Q.54 Match the column :
Column-I Column-II
(Magnetic moment B.M.)
(A) [Pt Cl4] –2 (P) 2.87
(B) [Ni(Cl)4] –2 (Q) 0.0
(C) [CoCl4] –2 (R) 5.94
(D) [MnCl4] –2 (S) 3.89
A B C D
(1) P Q R S
(2) Q S P R
(3) P S Q R
(4) Q P S R
Q.55 Match the column :
Column-I Column-II
d
(A) Kirchhoff's equation (P) (∆H) = ∆Cp
dt
(B) ∆H (Q) ∆U + ∆nRT
q rev
(C)
T
(R) ∆S
∆
(S)
(1) A → P, B → Q C → R,S
(2) A → Q, B → P,S C → R
(3) A → P,R B → Q, C → S
(4) A → P,S B → Q, C → R
− ∆H
∆T
H2 1
= ∆Cp
Q.53 uhps nh xbZ dsuhtkjks vfHkfØ;k esa :
−
PhCO 2
2PhCHO OH PhCH2OH +
dkSulk in fufgr gSS :–
(a) dkckZsfud lewg ij OH dk vkØe.k
(b) gkbMªkbM dk dkckZsfuy lewg ij LFkkukUrj.k
(c) dkckZsfDlfyd lewg ls izksVkWu dk fu"d"kZ.k
(d) PH—CH2OH dk foizksVªkWuhdj.k
(1) a, c (2) a, b, c
(3) a, b, d (4) b, c, d
Q.54 LrEHk lqesfyr dhft, :
LrEHk-I LrEHk-II
(caf/kr vkf.od d{kdksa dk
pqEcdh; vk?kw.kZ)
(A) [Pt Cl4] –2 (P) 2.87
(B) [Ni(Cl)4] –2 (Q) 0.0
(C) [CoCl4] –2 (R) 5.94
(D) [MnCl4] –2 (S) 3.89
A B C D
(1) P Q R S
(2) Q S P R
(3) P S Q R
(4) Q P S R
Q.55 LrEHk lqesfyr dhft, :
LrEHk-I LrEHk-II
(A) fdjpkWQ lehdj.k
d
(P) (∆H) = ∆Cp
dt
(B) ∆H (Q) ∆U + ∆nRT
q rev
(C)
T
(R) ∆S
∆
(S)
(1) A → P, B → Q C → R,S
(2) A → Q, B → P,S C → R
(3) A → P,R B → Q, C → S
(4) A → P,S B → Q, C → R
− ∆H
∆T
H2 1
= ∆Cp
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Passage :
A(C4H8) by hydration forms B(C4H10O). B does
not give haloform test but reacts with HBr
readily. B can be obtained when acetone reacts
with methyl magnesium bromide followed by
hydrolysis.
Q.56 Which is unknown compound A :
(1) CH2=CH–CH2–CH3
(2) CH3–CH=CH–CH3
(3)
(4)
CH3
CH3 C CH2
CH2 CH2
CH2 CH2
Q.57 Which is unknown compound B :
(1) CH3 CH CH2OH
CH3
(2) CH3–CH2–CH2–CH2OH
(3) CH3 CH2 CH CH3
OH
CH3
(4) CH3 C CH3
OH
A & R Type Questions :
The following questions given below consist of
an Assertion and Reason Type questions. Use
the following Key to choose the appropriate
answer.
(A) If both Assertion & Reason are True &
Reason is a correct explanation of the
Assertion.
(B) If both Assertion & Reason are True but Reason
is not a correct explanation of the Assertion.
(C) If Assertion is True but the Reason is False.
(D) If both Assertion and Reason are False.
x|ka'k :
A(C4H8) ty;kstu }kjk B(C4H10O) cukrk gS]
B gsyksQkWeZ ijh{k.k ugha nsrk gSA ijUrq HBr ds lkFk
'kh?kzrk ls fØ;k djrk gSA B ls ,lhVksu dks esfFky
eSfXuf'k;e czksekbM ds lkFk fØ;k rnqijkUr
ty&vi?kVu }kjk Hkh izkIr fd;k tk ldrk gSA
Q.56 fuEu esa ls dkSulk vKkr ;kSfxd A gS :
(1) CH2=CH–CH2–CH3
(2) CH3–CH=CH–CH3
CH3
(3) CH3 C CH2
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(4)
CH2 CH2
CH2 CH2
Q.57 fuEu esa ls dkSulk vKkr ;kSfxd B gS :
(1) CH3 CH CH2OH
CH3
(2) CH3–CH2–CH2–CH2OH
(3) CH3 CH2 CH CH3
OH
CH3
(4) CH3 C CH3
OH
dFku ,oa dkj.k izdkj ds iz'u %
uhps fn;s x;s fuEufyf[kr iz'u "dFku" rFkk "dkj.k"
izdkj ds iz'u gSaA vr% mfpr mÙkj dk p;u djus
ds fy;s fuEu rkfydk dk mi;ksx dhft;sA
(A) ;fn dFku rFkk dkj.k nksuksa lR; gSa rFkk dkj.k
dFku dk lgh Li"Vhdj.k gSA
(B) ;fn dFku rFkk dkj.k nksuksa lR; gSa ysfdu dkj.k(
dFku dk lgh Li"Vhdj.k ugha gSA
(C) ;fn dFku lR; gS ysfdu dkj.k vlR; gSA
(D) ;fn dFku rFkk dkj.k nksuksa vlR; gSA

Q.58 Assertion : A colloid gets coagulated by addition
of an electrolyte.
Reason : The rate of coagulation depends on the
magnitude and sign of the charge of the coagulant
ion.
(1) A (2) B (3) C (4) D
Q.59 Assertion: In the cleavage of ether bond (—O—)
by HI, the halide formed is a tertiary halide when
one of the alkyl groups is a tertiary group.
Reason : Stability of 3º carbocation is high.
(1) A (2) B (3) C (4) D
Q.60 An unknown compound 'X' is first oxidized to
aldehyde and then to acetic acid by a dilute
solution of K2Cr2O7 and H2SO4. The compound
'X' is :
(1) CH3OH (2) C2H5OH
(3) CH3 CH CH3 (4) CH3 CH Ph
OH
OH
Q.58 dFku : ,d dksykWbM oS|qr vi?kV~; ds Hkkx }kjk
LdfUnr gksrk gSA
dkj.k : LdUnu dh nj] LdfUnr vk;u ds ifjek.k o
vkos'k ds fpUg ij fuHkZj djrh gSA
(1) A (2) B (3) C (4) D
Q.59 dFku : HI }kjk bZFkj cU/k (—O—) ds fonyu esa]
fufeZr gSykbM r`rh;d gksrk gS tc ,d ,fYdy lewg
r`rh; lewg gksA
dkj.k : 3º dkcZ/kuk;u dk LFkkf;Ro vf/kd gksrk gSA
(1) A (2) B (3) C (4) D
Q.60 ,d vKkr ;kSfxd 'X' loZizFke ,fYMgkbM esa
vkWDlhd`r gksrk gS rFkk fQj K2Cr2O7 o H2SO4 ds
ruq foy;u }kjk ,lhfVd vEy curk gSA ;kSfxd 'X'
gS :
(1) CH3OH (2) C2H5OH
(3) CH3 CH CH3 (4) CH3 CH Ph
OH
OH
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Q.61 Bateson and Punnet used the terms coupling and
repulsion while discovering linkage in lathyrus. If
A, B are dominant alleles over the genes a, b, the
parental crosses in coupling and repulsion be
written as
Coupling Repulsion
(1) AABB × aabb AAbb × aaBB
(2) AABB × aabb AABB × aabb
(3) AABB × aabb AAbb × aabb
(4) AAbb × aaBB AAbb × aabb
Q.62 Widal test is used to detect
(1) T.B. (2) Typhoid
(3) HIV (4) All the above
Q.63 The ratio of children with blood groups A : B :
AB : O born to a set of parents in which mother is
with 'A' group of blood and father with 'B' group
of blood will be
(1) 1 : 1 : 1 : 1
(2) 2 : 0 : 2 : 0
(3) 0 : 0 : 4 : 0
(4) All the above are possible
Q.64 The theory where ratio between the number of
X-chromosome and number of complete sets of
autosomes will determine the sex is known as
(1) Chromosome theory of sex determination
(2) Genetic balance theory of sex determination
(3) Hormonal balance theory of sex determination
(4) All the above
Q.65 How many different types of gametes
can be formed by an individual with genotype
AaBbCc dd RR
(1) 4 (2) 8 (3) 16 (4) 64
Q.66 The central Dogma is
(1) Direction of flow of information from DNA
→ RNA → Proteins
(2) The transfer of genetic information from
same stand of DNA to mRNA
(3) The faithful transfer of genetic information
from DNA molecule to next generation
molecule through semiconservation
mechanism
(4) Mendelism which has established the
principles of heredity.
BIOLOGY
Q.61 csVlu ,o iqUUksV us eVj ij dk;Z djrs le; nks
'kCn ;qXeu ,oa izfrd"kZ.k 'kCnksa dk mi;ksx fd;k
;fn A, B izHkkoh ;qXefodYih gS thu a, b ijA
iSf=kd ladj.k esa ;qXeu ,oa izfrd"kZ.k dks fuEu :i
ls fy[kk tk;sxkA
;qXeu izfrd"kZ.k
(1) AABB × aabb AAbb × aaBB
(2) AABB × aabb AABB × aabb
(3) AABB × aabb AAbb × aabb
(4) AAbb × aaBB AAbb × aabb
Q.62 foMky VsLV fuEu Kkr djus ds fy, fd;k tkrk gS
(1) T.B. (2) VkbQkbM
(3) HIV (4) mijksDr lHkh
Q.63 cPpksa dk izfr'kr :f/kj lewg A : B : AB : O tks
,d ioZtksa ls mRiUu gkss gS ftlesa ek dk :f/kj
lewg 'A' ,oa firk dk 'B' :f/kj lewg gS rks gksxk
(1) 1 : 1 : 1 : 1
(2) 2 : 0 : 2 : 0
(3) 0 : 0 : 4 : 0
(4) mijksDr lHkh lEHko gS
Q.64 fl)kUr tgk¡ X-xq.klw=kksa dh la[;k ,oa le;qXedksa
dk iw.kZ tksM+k fyax fu/kkZj.k djrk gS og tkuk
tkrk gSA
(1) fyax fu/kkZj.k dk xq.klw=kh; fl)kUr
(2) fyax fu/kkZj.k dk vkauqokfa'kd leUo; fl)kUr
(3) fyax fu/kkZj.k dk gkeksZuy leUo; fl)kUr
(4) mijksDr lHkh
Q.65 thuksVkbi AaBbCc dd RR ls fdrus izdkj
ds;qXed cuk;s tk ldrs gSA
(1) 4 (2) 8 (3) 16 (4) 64
Q.66 lsUVªy MksXek gS
(1) lwpukvksa ds cgko dh fn'kk DNA ls → RNA
→ izksVhUl
(2) vkauqokf'kd lwpukvksa dk LFkkukUrj.k DNA ds
mlh jTtw ls mRNA ij
(3) DNA v.kq ls fo'oluhl vkuqokaf'kd lwpuk;sa
nwljh larfr ds v.kq ij v/kZ laj{k.k ;kafa=kd
ds }kjk
(4) esUMyokn ftlus vkauqokf'kdh ds fl)kUr
cuk;sA
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Q.67 In a dihybrid test cross if parental types exceed
the recombination type among the resulting
progeny, it is due to -
(1) linkage (2) complete linkage
(3) Independent assortment (4) complementation
Q.68 It is advantageous to store food in the form of
polysaccharides because -
(1) of loss of H2O molecule on polymerization
(2) They are insoluble in water and are easily
storable
(3) can be easily hydrolysed by enzymes in case
of need
(4) All of the above
Q.69 The trait represented by dark square and circles
in the following pedigree chart inherited through
a single domiant gene. Calculate the probability
of the trait appearing in the offspring if the
following causing shoud marry
(i) III–1 × III–3
(ii) III–2 × III–4
I
II
1 2
1 2
3 4
III
1 2
3
(1) (i) 0%, (ii) 50% offspring
(2) (i) 50% offspring, (ii) 0%
(3) (i) 0%, (ii) 100% female offspring
(4) Both (1) and (3)
Q.70 In tomato genotype aabbcc produced 100 gm
tomatoes and AABBCC produced 136 gm
tomatoes.Which of the following options
correctly represent the weight of tomatoes in the
parents and progeny of the cross Aabbcc ×
aaBBcc respectively ?
(1) 112g, 124g, 118g, 106g
(2) 106g, 112g
(3) 118g, 124g
(4) 118g, 106g
4
Q.67 ,d f}ladj ijh{k.k Øksl }kjk mRiUu larfr esa ;fn
iwoZt izdkj iqu%la;kstu izdkj ls vf/kd gks rksA
bldk dkj.k gS -
(1) lgyXurk (2) iw.kZ lgyXurk
(3) Lora=k viO;wgu (4) dEIyhesUVs'ku
Q.68 ;g ykHknk;d gS Hkkstu dks iksyh lsdsjkbM ds :Ik
esa laxzg.k djuk D;kasfd -
(1) iksyhejkbts'ku ij H2O v.kq dh gkfu
(2) ;s ty esa v?kqyu'khy gksrs gS ,oa vklkuh ls
laxzg.k fd;k tk ldrk gSA
(3) vko';drk iM+us ij fodjksa }kjk vklkuh ls
vi?kVu fd;s tk ldrk gSA
(4) mijksDr lHkh
Q.69 dkjd tks xgjs pkSdksj ,oa xksys }kjk n'kkZ;s x;s gS
fuEu oa'kkxfr pkVZ esa ,d ,dy izHkkoh thu ds }kjk
n'kkZ;s x;s gSA ;fn fuEu n'kkZ;s x;s dk fookg dj
fn;k tkrk gS rks mijksDr dkjdksa dh laHkkouk dh
x.kuk dhft;sA
(i) III–1 × III–3
(ii) III–2 × III–4
I
1 2
1 2
III
1 2
3
(1) (i) 0%, (ii) 50% larfr
(2) (i) 50% larfr, (ii) 0%
(3) (i) 0%, (ii) 100% eknk larfr
(4) nksuksa (1) ,oa (3)
3 4
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II
Q.70 VekVj esa thuksVkbi aabbcc ls 100 xzke VekVj dk
mRiknu gqvk ,oa AABBCC ls 136 xzke VekVj dk
mRiknu gqvkA fuEu esa ls dkSulk fodYi ladj.k
Aabbcc × aaBBcc dh larfr ,oa iS=kdksa ls fdrus
VekVjksa dk mRiknu gksrk gS] Øe'k%
(1) 112g, 124g, 118g, 106g
(2) 106g, 112g
(3) 118g, 124g
(4) 118g, 106g
4

Q.71 Translation inhibiting protein (TIP) is related to-
(1) Antibodies (2) A.T.S.
(3) Interferon (4) D.P.T
Q.72 Which ratio is reverse by infection of HIV -
(1) T & B cell (2) CD-4 & CD-8 cell
(3) NK-cell & T cell (4) TM & BM
Q.73 Which of the following in induser of this operon
(1) Tryptophan (2) Lactose
(3) Glucose (4) Galactose
Q.74 How many structural gene are present in
tryptophan operon
(1) 3 (2) 5
(3) 1 (4) 7
Q.75 Which of the following is correct with respect to
fern -
(1) Selaginella
heterosporous
is microphyllous and
(2) Sporophylls form distinct cone or strobillus
in Pteridium
(3) Seleginella and pteridium both show seed
habit
(4) All of the above
Q.76 Trimerous flowers are commonly found in -
(1) Onion (2) Pinus
(3) Bean (4) Lupin
Q.77 What is true regarding the figure given below –
Q.71 vuqokn lanfer izksVhu (TIP) fdlls lEcfU/kr gS -
(1) ,.VhckWMh (2) A.T.S.
(3) bUVjQsjkWu (4) D.P.T
Q.72 HIV ds laØe.k ls fdldh izfr'kr foifjr gksrh gS -
(1) T o B cell (2) CD-4 o CD-8 cell
(3) NK-cell o T cell (4) TM o BM
Q.73 bl vksisjksu esa dkSu izsjd gS
(1) fVªIVksQst (2) ysDVkst
(3) Xywdkst (4) xsysDVkst
Q.74 fVªIVksQsu vksisjksu esa fdrus izdkj ds lajpukRed
thu mifLFkr gS
(1) 3 (2) 5 (3) 1 (4) 7
Q.75 QuZ ds lEcU/k esa dkSulk dFku lR; gS -
(1) flysthusyk y?kqi.khZ ,oa fo"ke chtk.kqd gksrk
gSA
(2) VsfjfM;e esa chtk.kqi.kZ 'kadq cukrs gSA
(3) flysthusyk ,oa VsjhfM;e nksuksa cht izd`fr
n'kkZrs gSA
(4) mijksDr lHkh
Q.76 f=kr;h iq"i lkekU;r% ik;s tkrs gS -
(1) I;kt esa (2) ik;ul esa
(3) lse esa (4) Y;wfiu esa
Q.77 fuEu fn;s x;s fp=k ds ckjs esa D;k lR; gS –
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(1) Figure shows shoot apical meristem
(2) Shoot apical meristem is protected by leaf
primordia and they produce branches and
flower
(3) Leaf are originated from axillary bud
(4) All of the above
Q.78 Match the flower type with its respective ovary as
well as its example -
(1)
(2)
(3)
(4)
Flower
Ovary
type
Example
Superior Brinzal
Half
inferior
Guava
Superior Plum
Inferior Rose
Q.79 The taxonomic aid which serve as a quick referral
system in taxonomical studies
(1) Herbarium (2) Botanical gardens
(3) Museum (4) Key
Q.80 After meiosis spores are produced within the
capsule and germinate to form free living
gametophyte in -
(1) Liverworts
(2) Moss
(3) Heterosporus pteridophyte
(4) 1 & 2 both
(1) fp=k izjksg 'kh"kZ foHkT;ksÙkd n'kkZrk gSA
(2) izjksg 'kh"kZ foHkT;ksÙkd i.kZ vkn~;d }kjk
lqjf{kr jgrk gS ,oa og 'kk[kk;s ,oa iq"Ik mRiUUk
djrk gSA
(3) i.kZ v{kh; dfydk ls mRiUu gksrk gSA
(4) mijksDr lHkh
Q.78 iq"i ,oa v.Mk'k; dks lEcfU/kr mnkgj.k lfgr
lqesfyr dhft;s -
iq"i v.Mk'k; mnkgj.k
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(1)
(2)
(3)
(4)
Å/oZorhZ cSaxu
v/kZv/kksorhZ ve:n
m/oZorhZ Iye
v/kksorhZ xqykc
Q.79 oxhZdh lgk;rk lk/ku tks oxhZdj.k v?;;u esa
rRdky lanHkZ ra=k miyC/k djkrk gS
(1) gcsZfj;e (2) ouLifr m|ku
(3) laxzgky; (4) dqUth
Q.80 v/kZlw=kh foHkktu ds i'pkr dsIlqy esa Liksj dk
fuekZ.k gksrk gS tks vadqfjr gksdj eqDrthoh
xsehVksQkbV cukrk gS] fdleas \
(1) fyojoVZ
(2) eksl
(3) fo"kechtk.kqd VsfjMksQkbV
(4) 1 ,oa 2 nksuksa

Q.81 Identify the life cycle pattern/shown in figure and
choose the correct match of organism showing
it –
Q.82
(1) Diplontic – Ginkgo, Cycas
(2) Haplontic – Volvox, Spirogyra
(3) Diplontic – Fucus, Liverwort
(4) Haplontic – Ectocarpus, Polysiphonia
Observe the above diagrammatic representation.
Identify A to D
(1) A-Hypothalamic neurons, B-Hypothalamic
artery, C-Posterior pituitary
(2) A-Epithalamic neurons, B-Hypothalamic
vein, C-Pars distalis, D-Pars intermedia
(3) A-Hypothalamic neurons, B-Portal
circulation, C-Anterior pituitary, D-Posterior
pituitary.
(4) A-Hypothalamic neurons, B-Portal
circulation, C-Posterior pituitary, D-Anterior
pituitary
Q.81 fn;s x;s fp=k esa thou pØ ds izdkj dks fpfUgr
dhft;s ,oa iznf'kZr djus okys thoksa ds lgh tksM+s
dks igpkfu;s –
(1) f}xqf.krd – fxaxks] lk;dl
(2) vxqf.krd – oksYoksDl] Likbjksxk;jk
(3) f}xqf.krd – ;wdl] fyojoVZ
(4) vxqf.krd – ,DVksdkiZl] iksyhlk;Qkfu;k
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Q.82
mijksDr fp=k dk v/;;u dhft;s A A ls D dks
igpkfu;s
(1) A-gk;iksFksysfed
/keuh, C-i'p ih;q"k
raf=kdk, B-gk;iksFksysfed
(2) A-,ihFksysfed raf=kdk, B-gkbiksFksysfed f'kjk,
C-iklZ nwjLFk, D-iklZ e/;e
(3) A-gk;iksFksysfed raf=kdk, B-fuokfgdk lapj.k,
C-vxzih;q"k, D-i'Pk ih;q"k.
(4) A-gk;iksFksysfed raf=kdk, B-fuokfgdk lapj.k,
C-i'Pk ih;q"k, D-vxz ih;q"k

Q.83 Match Column-I with Column-II
Column-I Column-II
A Ear pinna I Collects vibrations in
the air which
produces sound
B Ear canal II Passage for sound
wave from ear pinna
to ear drum
C Tympanic
membrane
D Ear
Ossicles
III Transfers sound
wave to ear ossicles
IV Increases the
efficiency of
transmission of
sound waves to the
inner ear
E Cochlea V Has hearing receptors
F Eustachian
tube
G. Auditory
nerves
VI Equlizes the pressure
on both sides of ear
drum
VII Impulse transfer from
organ of corti to
auditory cortex in
temporal lobe of
cerebrum
(1) A-I, B-II, C-III, D-IV, E-V, F-VI, G-VII
(2) A-VII, B-VI, C-V, D-IV, E-III, F-II, G-I
(3) A-I, B-II, C-IV, D-III, E-V, F-VI, G-VII
(4) A-I, B-II, C-III, D-IV, E-V, F-VII, G-VI
Q.84 Select the true statement(s)
(1) A-band is present in the middle of sarcomere
(2) H-zone is present in the middle of A-band
(3) M-line is present in the middle of H-zone
(4) All of the above
Q.85 Which of the following statements is false
(1) Mucosal epithelium has goblet cells which
secrete mucus for lubrication
(2) Mucosa forms gastric glands in the stomach
and crypts of leiberkuhn in between the
bases of villi in intestine
(3) Cells lining the villi has brush border or
microvilli
(4) All the four basic layer in the wall of gut
never modification in different parts of the
alimentary canal
Q.83 LrEHk-I dk LrEHk-II ls feyku dfj;s
LrEHk-I LrEHk-II
A d.kZ iYyo I gok ls dEiu laxzg.k
djuk tks /ofu
B d.kZ
ufydk
mRiknu djrs gS
II /ofu rajxksa dk iFk tks
d.kZ iYyo ls d.kZ
iVg rd tkrk gSA
C d.kZ iVg III /ofu rajxksa dk d.kZ
vfLFkdkvksa rd
D d.kZ
vfLFkdk,sa
LFkkukUrfjr djrk gSA
IV /ofu rajxksa ds
LFkkukUrj.k dh {kerk
dks vkarfjd d.kZ rd
c

Q.86 Na + – K + pump –
I. Need energy (ATP) to work
II. Expels 3 Na+ for every 2K+ ions imported
III. Works against a concentration gradient
IV. Maintains resting membrane potential
(1) All are correct
(2) Only II and III are correct
(3) Only I and III are correct
(4) None is correct
Q.87 Natural selection favours those alleles which
make the organisms better adapted to the
environment. Under which condition the two
alternative alleles make an organism equally well
adapted -
(1) Genetic drift
(2) In absence of predator
(3) Mutation
(4) Bottle neck effect
Q.88 Which is incorrect w.r.t. cockroach -
(1) Opening of spiracles is regulated by the
sphincters
(2) Malphigian tubule is lined by glandular and
stereo ciliated cells
(3) Each eye is consist of 2000 ommatidium
(4) Dioecious
Q.89 Match the column –
Column-I Column-II
A Adipose tissue I Epidermis
B Stratified
epithelium
II Plasma
C Hyaline cartilage III Storage of
excess of
nutrients in the
form of fat
D Fluid connective
tissue
IV Tip of nose
(1) A-I, B-II, C-III, D-IV
(2) A-III, B-I, C-II, D-IV
(3) A-III, B-I, C-IV, D-II
(4) A-I, B-II, C-IV, D-III
Q.86 Na + – K + iEi –
I. dk;Z ds fy;s (ATP) ÅtkZ dh vko';drk gksrh gSA
II. izR;sd 2K + vk;u ds izkIr djus ds fy;s 3Na+
ckgj fudkyrk gSA
III. lkanzrk foHko ds foijhr dk;Z djrk gSA
IV. foJke dyk foHko cuk;s j[krk gSA
(1) lHkh lgh gS
(2) dsoy II ,oa III lgh gS
(3) dsoy I ,oa III lgh gS
(4) dksbZ lgh ugha gS
Q.87 izkd`frd p;u mu ;qXefodYiksa dh lgk;rk djrk
gS tks tho dks okrkoj.k esa vuqdwyu ds fy;s
lgk;d gksrs gSA fdu voLFkkvksa esa nks ,dkUrj
;qXe fodYi tho dks vPNh rjg vuqdwyu ;qDr
cukrs gS -
(1) vkauqokf'kd fopyu
(2) ijHk{kh dh vuqifLFkfr esa
(3) mRifjorZu
(4) ckWVyusd izHkko
Q.88 dkWdjksp ds lEcU/k esa D;k vlR; gS -
(1) LikbjsdYl dk [kqyuk fLaQVjksa }kjk fu;fer
gksrk gSA
(2) esYihf?k;u ufydk,sa xzfUFky ,oa n`

Q.90 Mark A,B,C, correctly
(1) A-Mast cell, B-Collagen fibres,
C-Macrophage
(2) A-Macrophage, B-Collagen fibres,
C-Mast cell
(3) A-Fibroblast, B-Collegen fibres,
C-mast cell
(4) A-Fibroblast, B-Collegen fibres,
C-Macrophage
Q.91 A pregnant woman with B +ve blood group
required immediate transfusion of blood. In blood
bank only one unit of blood without any label
was available but when this was given to her,
after few hours she showed great improvement in
her condition. What could be the group of blood
she was transfused with -
(1) A +ve | O –ve | AB –ve (2) B –ve | O +ve | AB +ve
(3) B –ve | O –ve | B +ve (4) O +ve | AB –ve
Q.92 A. Life originated in water environment only.
B. all life forms were originated in air but
alongwith rain water they came to water
environment.
C. Life forms were originated simultaneously in
water and air both
D. All life forms originated in terrestrial
environment
Which is a correct statement -
(1) Only A (2) A, B
(3) A, C (4) A, B, C, D
Q.93 A. Theory of special creation suggest that earth
is about 4000 yrs old.
B. Flippers of Penguine and Dolphins are
analogous organs.
C. The evolution of Darwin finches in the
Galapagos islands was due to the adaptation
to local condition
D. Darwins variations are small and directional
Which of the above statements is not wrong -
(1) A, B, C, D (2) A, B, C
(3) B, C, D (4) A, C, D
Q.90 A,B,C, dks lgh fpfUgr dhft;s
(1) A-ekLV dksf'kdk,sa, B-dkWystu js'ks,
C-o`gnHk{kh
(2) A-o`gnHk{kh, B-dkWystu js'ks,
C-ekLV dksf'kdk,sa
(3) A-QkbczksCykLV, B-dkWystu js'ks,
C-ekLV dksf'kdk,sa
(4) A-QkbczksCykLV, B-dkWystu js'ks,
C-o`gnHk{kh
Q.91 ,d xHkZorh efgyk ftldk :f/kj B +ve gS dks rqjUr
:f/kj p

Q.94 Match the column –
Column-I Column-II
I Pioneer
community on
lithosphere
A Crustose lichens
II Ecological
succession
B Mesophytes
III Climax
C Ecosystem
community
development
IV Ecological
pyramid
D Elton
(1) I-C, II-B, III-D, IV-A
(2) I-C, II-A, III-D, IV-B
(3) I-A, II-C, III-B, IV-D
(4) I-B, II-C, III-D, IV-A
Q.95 Ecological succession is -
(1) Directional but unpredictable
(2) Directionless but predictable
(3) Directional and predictable
(4) Directionless and unpredictable
Q.96 Predators are prudent as -
(1) Predators kept their population size always
less than the prey
(2) Predators never make zero population size of
their prey by predation
(3) Predators are more intelligent than their prey
(4) Predator population evolve predatory traits
Q.97 The addition of sewage and other organic material
into a lake _______
(1) Increases oxygen consumption by
decomposers
(2) Increases biological oxygen demand
(3) Causes oxygen deficiency
(4) All of the above
Q.98 Which of the following contributes to both global
warming and ozone thinning ?
(1) Carbon dioxide
(2) NO2
(3) Methane
(4) CFCs
Q.94 LrEHkksa dks lqesfyr dhft;s –
LrEHk-I LrEHk-II
I 'kSy e.My ij
uohu leqnk;
A ØLVkst ykbdsu
II ikfjfLFkfrdh;
vuqØe.k
B Lkeksn~fHkn
III Pkje leqnk; C ikfjfLFkfrdh;
fodkl
IV ikfjfLFkfrdh;
fijkfeM
D ,YVksu
(1) I-C, II-B, III-D, IV-A
(2) I-C, II-A, III-D, IV-B
(3) I-A, II-C, III-B, IV-D
(4) I-B, II-C, III-D, IV-A
Q.95 ikfjfLFkfrdh; vuqØe.k gS -
(1) fn'kk;qDr ijUrq vizR;kf"kr
(2) fn'kkghu ijUrq vuqekfur
(3) fn'kk;qDr ,oa vuqekfur
(4) fn'kkghu ,oa vizR;kf"kr
Q.96 ijHk{kh prqj gksrs gS] D;ksafd -
(1) ijHk{kh lnSo viuk lef"B vkdkj f'kdkj ds
lef"B vkdkj ls de cuk;s j[krs gSA
(2) ijHk{kh dHkh Hkh vius f'kdkj ds lef"B
vkdkj dks ijHk{k.k }kjk 'kwU; ugha gksus nsrs
(3) ijHk{kh f'kdkj dh rqyuk eas vf/kd cqf)eku
gksrs gS
(4) ijHk{kh dh lef"B esa ijHk{k.k y{k.kksa dk
fodkl gksrk gSA
Q.97 >hy esa eyew=k ,oa vU; dkcZfud inkFkZ dk
la;kstu _______
(1) vi?kVdksa }kjk vkDlhtu dk mi;ksx cM+k nsrk
gSA
(2) tSfod vkDlhtu vko';drk c

Q.99 The figure given below is a diagrammatic
representation of response of organisms to abiotic
factors. What do (i), (ii) and (iii) represent
respectively ?
(ii)
Internal level →
(i)
(iii)
(i)
External level →
(ii) (iii)
(1) Conformer Regulator Partial
regulator
(2) Regulator Partial
regulator
Conformer
(3) Partial
regulator
Conformer Regulator
(4) Regulator Conformer Partial
regulator
Q.100 Which of the following crop plant is not
correctly matching
I. Wheat Him giri
II. Brassica Pusa Gaurav
III. SCP PPLO
IV. Biofortified crop Golden rice
V. Somatic
hybridization
Triticle
(1) I,III
(2) II and III
(3) III, IV
(4) III and V
Q.101 Select the false statement
(1) Agriculture accounts for approximately 33%
of India's GDP and employs nearly 62% of
the population
(2) Saccharum barberi originally grown in south
India, and it had high sugar content and yeild
(3) Hybrid maize, jowar and bajra have been
successfully developed in India
(4) "Parbhani kranti" is variety of okra
developed by gene transfer
Q.99 uhps fn;s x;s fp=k esa js[kk fp=k }kjk tarqvks dh
vtSfod dkjdksa ls izfrfØ;k n'kkZbZ x;h gS (i), (ii)
,oa (iii) }kjk Øe'k% D;k n'kkZ;k x;k gS
(ii)
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Internal level →
(i)
(iii)
(i)
External level →
(ii) (iii)
(1) la:id fu;ked vkaf'kd
fu;ked
(2) fu;ked vkaf'kd
fu;ked
la:id
(3) vkaf'kd
fu;ked
la:id fu;ked
(4) fu;ked la:id vkaf'kd
fu;ked
Q.100 fuEu esa ls dkSulk Qly ikni tksM+s ugha lnh
lqesfyr ugh gS
I. xsgw¡ fgefxjh
II. Lkjlksa Ikwlk xkSjo
III. SCP PPLO
IV. tSo iqf"Vd`r
Qly
xksYMu jkbl
V. dkf;d
ladj.k
fVªfVdsy
Q.101
(1) I, II
(2) II rFkk III
(3) III, IV
(4) III rFkk V
xyr dFku dk p;u dhft;s
(1) d`f"k dk Hkkjr esa GDP yxHkx 33% gS ,oa
yxHkx 62% tula[;k dks jkstxkj nsrh gSA
(2) lsdsje cjcsjh nf{k.k Hkkjr esa mxk;k tkrk gS o
bleas mPp 'kdZjk ,oa iSnkokj ikbZ tkrh gSA
(3) ladj eDdk] Tokj ,oa cktjk dks Hkkjr us
lQyrkiwoZd fodflr fd;k gSA
(4) fHkUMh dh fdLe ^^ijHkuh Økafr^^ dks thu
LFkkukarj.k }kjk rS;kj fd;k x;k gSA

Q.102 Which of the following is false ?
I. Endosperm formation starts prior to first
division of zygote
II. In angiospermic plants endosperm is mostly
3N while gymnospermic is N
III. The most common type of endosperm in
angiosperms is nuclear type
IV. Coconut has both liquid nuclear
(multinucleate) and cellular endosperm.
V. Single cotyledon of monocots embryo is
represented by epiblast.
(1) I and II only (2) III only
(3) V only (4) II, V only
Q.103 The number of chromosomes in radicle is 16.
What will be the number of chromosomes in tube
nucleus, antipodal cells, Proembryo and
endosperm respectively ?
(1) 8, 8, 16, 24 (2) 8, 8, 16, 16
(3) 16, 16, 32, 48 (4) 8, 8, 16, 46
Q.104 Select the correct sequence from the following
I. Juvenile phase → Senescent phase →
Reproductive phase
II. Juvenile phase → Reproductive phase →
Senescent phase
III. Reproductive phase → Juvenile phase →
Senescent phase
IV. Vegetative phase → Reproductive phase →
Senescent phase
(1) I and II (2) I and IV
(3) III and IV (4) II and IV
Q.105 Select correct statements about mechanism of
enzymes action
I. Lowering the activation energy
II. Competitive inhibitions are irreversible
III. Isoenzymes acts on different substreates
IV. Enzyme with high km value posses high rate
of reaction
V. Product may inhibits enzyme action
reversiblely
(1) I and V (2) I and III
(3) II, III, IV (4) III and IV
Q.102 fuEu esa ls dkSulk vlR; gS ?
I. Hkwz.kiks"k dk cuuk tk;xksV ds izFke foHkktu ls
igys izkjEHk gks tkrk gSA
II. vko`Ùkchth;ksa dk Hkzw.kiks"k] lkekU;r;k 3N
tcfd vuko`rchth;ksa dk N gksrk gSA
III. vko`Ùkchth;ksa esa lcls vf/kd lkekU; izdkj dk
Hkzw.kiks"k dSUnzdh; izdkj dk gksrk gSA
IV. ukfj;y esa nksuksa nzo dsUnzdh; ¼cgqdsUnzdh;½
,oa dksf'kdh; Hkzw.kiks"k gksrk gSA
V. ,dchti=kh Hkqz.k dk ,dy chti=k vf/kdksjd
}kjk izLrqr fd;k tkrk gSA
(1) dsoy I ,oa II (2) dsoy III
(3) dsoy V (4) dsoy II o V
Q.103 ,d ewykadqj esa xq.klw=kksa dh la[;k 16 gSA Øe'k%
ufydk dsUnzd] izfreq[kh dksf'kdk] izkdHkzq.k ,oa
Hkzw.kiks"k esa xq.klw=k la[;k D;k gksxh] ?
(1) 8, 8, 16, 24 (2) 8, 8, 16, 16
(3) 16, 16, 32, 48 (4) 8, 8, 16, 46
Q.104 fuEu esa ls lgh Øe dk p;u dhft;s
I. fd'kksj voLFkk → izkS

Q.106 The oxidation of pyruvic acid to CO2 and H2O is
called -
(1) Fermentation
(2) TCA / Citric acid cycle
(3) Glycolysis
(4) Oxidative phosphorylation
Q.107 I. Cytokinin is primaryly concerned with cell
division
II. ABA breaks seed and bud dormany
III. Cytokinin stimulates the opening of stomata
IV. IAA is synthetic auxin
V. Ethylene synthesis is induced by auxin
The true statements are -
(1) I, II, IV (2) III, V (3) I, III, V (4) IV, V
Q.108 Which of the following statements about the
mechanism of ventilation / breathing is false ?
(1) As the diaphragm relaxes, air is expelled
from the respiratory system
(2) During inspiration the lungs act as sunction
pump
(3) Inspiration is passive and expiration is an
active process
(4) For quiet breathing external intercostal
muscles and diaphragm play an important
role
Q.109 Advantage of closed circulatory system over
open circulatory system includes which of the
following ?
(1) Closed system can direct blood to specific
tissues
(2) Exchange occurs more rapidly
(3) Close circulatory system can support higher
levels of metabolic activity
(4) All
Q.110 Which of the following is correct ?
(1) Blood vessel leading away from glomerulus
is called efferent arteriole
(2) Vasa recta, pertubular capillaries, Bowmans
capsule all have blood
(3) Cortical nephron has no or highly reduced
vasa recta
(4) Vasa recta acts as counter current multiplier
in juxtamedullary nephrons
Q.106 ik;:fod vEy dk CO2 ,oa H2O esa vkDlhdj.k
dgykrk gS -
(1) fd.ou
(2) TCA / lk;fVªd vEy pØ
(3) Xyk;dksykbfll
(4) vkDlhdkjh QkWLQksjhyhdj.k
Q.107 I. lkbVksdk;fuu izkFkfed :Ik ls dksf'kdk
foHkktu ls lEcfU/kr gSA
II. ABA cht ,oa dfydk izlqIrkoLFkk rksM+rk gS
III. lkbVksdkbuhu ja/kz dk [kqyus dks izksRlkfgr djrk gS
IV. IAA, la'ys"kh vkfDlu gS]
V. bFkkbyhu dk la'ys"k.kh vkfDlu izsfjr djrk gSA
lR; dFku gSa -
(1) I, II, IV (2) III, V (3) I, III, V (4) IV, V
Q.108 fuEu esa ls dkSulk dFku osUVhys'ku@'olu dh
fØ;k ds fy;s vlR; gS ?
(1) tSls gh Mk;Ýke foJke voLFkk esa vkrk gSA
ok;q QsQM+ks ls ckgj fudy tkrh gSA
(2) vUr%'olu ds le; QsQM+s pw"k.k iEi dh rjg
dk;Z djrs gSA
(3) vUr%'olu ,d vfØ;k'khy ,oa cká 'olu
fØ;k'khy izfØ;k gSA
(4) lkekU; 'olu esa cká bUVjdksLVy isf'k;k¡ ,oa
Mk;Ýke egRoiw.kZ Hkwfedk fuHkkrk gSA
Q.109 [kqyk lapj.k ra=k dh rqyuk eas cUn lapj.k ra=k esa
fuEu esa ls D;k fo'ks"krk gksrh gS ?
(1) can ra=k esa lh/kk fdlh fof'k"V Ård dks
:f/kj igq¡pk;k tk ldrk gSA
(2) fofue; vf/kd rsth ls gksrh gSA
(3) can lapj.k ra=k mikip; fØ;k dh mPp Lrj
rd lgk;rk djrk gSA
(4) lHkh
Q.110 fuEu esa ls dkSulk lgh gS ?
(1) :f/kj ufydk,sa tks Xykses:yl ls nwj tkrh gSA
viokgh /kefu;k¡ dgykrh gSA
(2) oklkjsDVk] V;wcwyj lw{e ufydk;sa rFkk ckmesu
lEiqV lHkh esa :f/kj gksrk gSA
(3) dksVhZdy usÝksu esa vR;f/kd lw{e ;k
vuqifLFkr oklk jsDVk gksrh gSA
(4) tDVkesMwyjh usÝksu esa oklkjsDVk izfrizokg
xq.kd dk dk;Z djrh gSA
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Q.111 Which of the following sequences is correct for
regulation of kidney function ?
(1) An excess loss of salt from body →
Stimulates hypothalamus → Osmoreceptor
→ Neurohypophysis → ADH → Increases
salt permeability of DCT and CD →
Prevention of diuresis
(2) An excess loss of fluid from body →
Osmoreceptor → Hypothalamus →
Adenohypophysis → ADH → Increases
water permeability of DCT and CD →
Prevention of diuresis
(3) An excess loss of fluid from body →
Osmoreceptor → Hypothalamus →
Neurohypophysis → ADH → Increases
water permeability of DCT and CD →
Prevention of diuresis
(4) An excess loss of fluid from body →
Osmoreceptor → Hypothalamus →
Neurohypophysis → Aldosterone →
Increases water permeability of DCT and CD
→ Prevention of diuresis
Q.112 Which of the following is not the function of
vertebral column ?
(1) Protects spinal cord and supports the head
(2) Serves as the point of attachment for ribs and
musculature of the back
(3) Both 1 & 2
(4) Supports Tarsals and Metacarpals
Q.113 The following diagram refers to female
reproductive system of human, Identify A to E -
(1) A-Urethra, B-Urinary bladder, C-Uterus,
D-Cervix, E-Vagina
(2) A-Uterus, B-Urinary bladder, C-Urethra,
D-Vagina, E-Cervix
(3) A-Urethra, B-Urinary bladder, C-Uterus
D-Cervix, E-Vagina
(4) A- Uterus, B-Urinary bladder, C-Urethra
D-Cervix, E-Vagina
Q.111 fuEu esa ls dkSulk Øe o`Dd ds dk;Z ds fu;eu
ds fy, lgh gS ?
(1) 'kjhj ls yo.k dh vR;f/kd gkfu →
gkbiksFkSysel mn~nhiu → ijklj.k xzkgh →
U;wjksgkbiksQkbfll → ADH → DCT ,oa CD
dh yo.k ikjxE;rk dk c

Q.114 The events of the menstrual cycle are represented
below. In which of the following option the level
of FSH, LH and progesterone are mentioned
correctly –
Menstruation
(1st – 5th day)
Proliferative phase
or
Follicular phase
(5 th – 15 th day)
Luteal phase
or
Secretory phase
(16 th – 28 th day)
13 th -14 th day 21 st -23 rd day
FSH LH Proges- FSH LH Progesteroneterone
(1) High High Low Low Low High
(2) High High High Low Low Low
(3) Low Low Low High High High
(4) Low Low High High Low Low
Q.115 Fill up the blanks –
In the female external genitalia ___A___ is a
cushion of fatty tissue covered by skin and pubic
hair. The ____B____ are fleshy folds of tissue,
which extend down from the mons pubis and
surround the vaginal opening. The ____C____ are
paired folds of tissue under the ____B____. The
opening of the vagina is often covered partially
by a membrane called____D____. The
____E____ is a tiny finger-like structure which
lies at the upper junction of the two labia minora
above the urethral opening. The ____D____ is
often torn during the first coitus (intercourse).
(1) A-Mons pubis, B-labia majora, C-labia
minora, D- hymen, E- clitoris
(2) A-Mons pubis, B-labia minora, C-labia
minora, D- hymen, E- clitoris
(3) A-Mons pubis, B-labia majora, C-labia
minora, D- clitoris, E- hymen
(4) A-Mons pubis, B-labia minora, C-labia
minora, D- clitoris, E- hymen
Q.114 ekfld pØ dh ?kVuk;sa uhps nh gqbZ gS fdl
fodYi esa FSH, LH ,oa izkstsLVªksu dk Lrj lgh
crk;k x;k gS –
Menstruation
(1st – 5th day)
Proliferative phase
or
Follicular phase
(5 th – 15 th day)
Luteal phase
or
Secretory phase
(16 th – 28 th day)
13 th -14 th day 21 st -23 rd day
FSH LH Proges- FSH LH Progesteroneterone
(1) mPp mPp fuEu fuEu fuEu mPp
(2) mPp mPp mPp fuEu fuEu fuEu
(3) fuEu fuEu fuEu mPp mPp mPp
(4) fuEu fuEu mPp mPp fuEu fuEu
Q.115 fjDr LFkkuksa dh iwfrZ dhft, –
L=kh ds cká tuusafnz; ds vUrxZr ___A___
olke; Årdksa ls cuh ,d xn~nh lh gksrh gS tks
Ropk vkSj t?ku&ckyksa ls

Q.116 Refer the given flow chart of sewage treatment
and the Column-I with Column-II
Primary
(Physical)
Sewage
Comminute
Grit
Compost
Land Filling
Primary
Settling
Secondary
(Biological )
Sludge
Digester
Aeration
tanks
Alternate path
Trickling
Filter
Secondary
Setting
Column-I Column-II
A. The stage in
which physical
treatment of
sewage is done
B The stage in
which biological
treatment of
sewage is done
C The names of
sediment and
supernatant in
primary
treatment
D ______ is
carried to
aeration tanks
from primary
settling .
E Site of flocs
growth
F Name of the
sediment of
secondary
settling
G The junction of
sludge digestor
Biogas
Manure
Burning
Land filling
Liquid
River
I Anaerobic
digestion of
activated sludge
and production
of biogas
II Activated sludge
III Aeration tanks
IV Primary effluent
V Primary sludge,
effluent
VI Secondary
treatment
VII Primary
treatment
(1) I-G, II-F, III-E, IV-D, V-C, VI-B, VII-A
(2) I-A, II-C, III-E, IV-G, V-B, VI-D, VII-F
(3) I-A, II-B, III-C, IV-D, V-E, VI-F, VII-G
(4) I-G, II-F, III-A, IV-B, V-C, VI-D, VII-E
Q.116 iznwf"krey ds mipkj ds lanHkZ esa fn;s gq;s yks
pkVZ esa LrEHk-I dk LrEHk-II ls feyku dfj;s
Primary
(Physical)
Sewage
Comminute
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Grit
Compost
Land Filling
Primary
Settling
Secondary
(Biological )
Sludge
Digester
Aeration
tanks
Alternate path
Trickling
Filter
Secondary
Setting
LrEHk-I LrEHk-II
A. voLFkk ftlesa
iznwf"krey dk
HkkSfrd mipkj
fd;k tkrk gS
B voLFkk ftlesa
iznwf"krey dk
tSfod mipkj
fd;k tkrk gS
C izkFkfed mipkj
esa lsMhesUV ,oa
lqijesVsUV dk
uke
D ______ izkFkfed
teko ls ok;q;qDr
Vsad esa ys tk;h
tkrh gSA
E yksDl o`f) dk
LFkku
F f}rh; teko dk
uke
G Lyt Mk;tsLVj
dk taD'ku
Biogas
Manure
Burning
Land filling
Liquid
River
I vukDlhd`r
ikpd fØ;k'khy
Lyt dk ,oa
ck;ksxSl dk
mRiknu
II fØ;k'khy Lyt
III gok;qDr Vsad
IV izkFkfed iznw"kd
V izkFkfed Lyt+
iznw"kd
VI f}rh;d mipkj
VII izkFkfed mipkj
(1) I-G, II-F, III-E, IV-D, V-C, VI-B, VII-A
(2) I-A, II-C, III-E, IV-G, V-B, VI-D, VII-F
(3) I-A, II-B, III-C, IV-D, V-E, VI-F, VII-G
(4) I-G, II-F, III-A, IV-B, V-C, VI-D, VII-E

Q.117 Which one / ones is / are incorrect ?
A. The first menstrual discharge is called
menarche
B. Meiosis is peculiar to gonads
C. Spermiation is the release of sperms from
sertoli cells
D. Spermatogonium has 23 chromosomes in its
nucleus
(1) A, B (2) A, B, C
(3) D (4) A, B, C, D
Q.118 What is amniocentesis ?
I. A pre-natal, foetal determination test.
II. A post-natal foetal determination test
III. It is based on the chromosomal pattern of the
amniotic fluid cells
IV. It is based on the chromosomal pattern of the
chorionic fluid
V. It is based on the chromosomal pattern of the
amniotic fluid and the seminal fluid
(1) II, III (2) I, V (3) I, III (4) I, V
Q.119 Match the column-I with Column-II
Column-I Column-II
A. Peyer's
patches
i Aedes
B Rheumatoid ii Neoplastic
arthritis
transformation
C IgA iii Cancer
treatment
D Interferon iv Allergy
E Gambusia v Secondary
lymphoid organ
F Chikungunya vi Metastasis
G Tetanus vii Colostrum
H IgE viii Autoimmunity
I Malignant
tumor
ix Antitoxin
J Carcinogen x Mosquito larvae
(1) A-iv, B-viii, C-vii, D-iii, E-x, F-i, G-ix, H-v,
I-vi, J-ii
(2) A-vi, B-viii, C-vii, D-iii, E-x, F-ii, G-ix, Hiv,
I-v, J-iii
(3) A-v, B-viii, C-vii, D-iii, E-x, F-i, G-ix, H-iv,
I-vi, J-ii
(4) A-x, B-viii, C-vii, D-iii, E-v, F-i, G-ix, H-iv,
I-vi, J-ii
Q.117 dkSulk vlR; gS / gS?
A. izFke ekfld L=kko esukdhZ dgykrk gS
B. v/kZlw=kh foHkktu tunksa dh fo'ks"krk gS
C. LifeZ;s'ku 'kqØk.kqvksa dk lVksZyh dksf'kdkvksa ls
eqDr gksuk gSA
D. LiesZVksxksfu;e ds dsUnzd esa 23 xq.klw=k gksrs gSA
(1) A, B (2) A, B, C
(3) D (4) A, B, C, D
Q.118 ,fEu;ks lsUVsfll D;k gS ?
I. izlo ds igys dk Hkzw.k dk irk yxkus dh tk¡p
II. izlo ds ckn dk Hkzw.k dh tk¡p
III. ;g ,fEu;ksfVd nzo dh dksf'kdkvksa esa xq.klw=kkas
ds teko dh izfØ;k ds vk/kkj ij dh tkrh
gSA
IV. ;g dksfj;ksfUVd nzo esa xq.klw=kksa ds teko dh
izfØ;k dk vk/kkj gSA
V. ;g ,fEu;ksfVd ,oa lsfeuy nzo esa xq.klw=kksa ds
teko dh izfØ;k dk vk/kkj gSA
(1) II, III (2) I, V (3) I, III (4) I, V
Q.119 LrEHk-I dk LrEHk-II ls feyku dhft,
LrEHk-I LrEHk-II
A. isilZ ispst i ,Mht
B xfB;k ii fu;ksIykfLVd
LFkkukUrj.k
C IgA iii dsUlj
dk mipkj
D bUVjQsjksu iv ,ythZ
E xsEcwfl;k v f}rh;d
fYkEQksbM vax
F fpduxqfu;k vi esVkLVsfll
G fVVsul vii dksyksLVªe
H IgE viii Loizfrj{kk
I esfyXusUV xkWB ix ,UVhVksfDlu
J dklhZukstu x ePNj dk ykokZ
(1) A-iv, B-viii, C-vii, D-iii, E-x, F-i, G-ix, H-v,
I-vi, J-ii
(2) A-vi, B-viii, C-vii, D-iii, E-x, F-ii, G-ix, Hiv,
I-v, J-iii
(3) A-v, B-viii, C-vii, D-iii, E-x, F-i, G-ix, H-iv,
I-vi, J-ii
(4) A-x, B-viii, C-vii, D-iii, E-v, F-i, G-ix, H-iv,
I-vi, J-ii
CAREER POINT: CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 32

Q.120 Go through the figure and select the option out of
(1 – 4)
A- B- Enzyme Enzyme
DNA DNA recognizing joining the
palindrome sticky ends
(1) Vector Foreign DNA ligase EcoRI
(2) Vector Foreign EcoRI DNA ligase
(3) Vector Foreign Exonuclease DNA ligase
(4) Vector Foreign DNA ligase Exonuclease
Q.120 fp=k ns[ks ,oa (1 – 4) rd esa ls fodYi dk p;u
dhft,
A-
DNA
B-
DNA
,Utkbe tks
isyhUMªkse dks
igpkurk gS
(1) Okkgd fons'kh DAN ykbxst EcoRI
,Utkbe tks
fpifpis fljks
dks tksM+rk gS
(2) Okkgd fons'kh EcoRI DAN ykbxst
(3) Okkgd fons'kh ,DlksU;wfDy,t DAN ykbxst
(4) Okkgd fons'kh DAN ykbxst ,DlksU;wfDy,t
CAREER POINT: CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 33

Space for Rough Work
CAREER POINT: CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 34

SEAL
Duration : 3 Hrs. Max. Marks : 480
ijh{kkfFkZ;ksa ds fy, funsZ'k %
A. lkekU; :
1. Ñi;k izR;sd iz'u ds fy, fn, x, funsZ'kksa dks lko/kkuhiwoZd if