Copy Set-1 CP Star-2012 XII going [SAT+MAT] - Career Point

SECTION-A [SAT]
PHYSICS
Single correct type (Q.1 to 15)
Q.1 Which of the following physical quantities
have same dimensions -
(1) Gravitational constant and coefficient of
friction
(2) Electromotive force and viscous force
(3) Angular momentum and magnetic moment
(4) None of these
Q.2 A particle of mass m thrown upward under
gravity. If it travel same distance in 5 th and 6 th
of motion during motion then projection
velocity will be (Neglect air resistance and take
g = 10 m/s 2 )
(1) 50 m/s (2) 100 m/s
(3) 25 m/s (4) none
PHYSICS
Single correct type (Q.1 to 15)
Q.1 fuEu esa ls dkSulh HkkSfrd jkf'k;k¡ leku foek j[krh
gS -
(1) xq:Rokd"kZ.k fu;rkad rFkk ?k"kZ.k xq.kkad
(2) fo|qr okgd cy rFkk ';ku cy
(3) dks.kh; laosx rFkk pqEcdh; vk?kw.kZ
(4) buesa ls dksbZ ugha
Q.2 m nzO;eku ds ,d d.k dks xq:Ro ds v/khu Åij dh
vksj QSdk x;k gSA ;fn og xfr ds nkSjku 5osa o 6osa
lsd.M esa leku nwjh r; djrk gS rks iz{ksi.k osx
gksxk (ok;q izfrjks/k dks ux.; ekusa rFkk g = 10 m/s 2
ysa)
(1) 50 m/s (2) 100 m/s
(3) 25 m/s (4) dksbZ ugha
Q.3 Given m 1 = m 2 = 10 kg. The coefficient of
friction between A and B and B and surface is
0.20. Find the value of m 3 so that no block
slips:
Q.3 m 1 = m 2 = 10 kg fn;k x;k gSA A o B rFkk B o
lrg ds e/; ?k"kZ.k xq.kkad 0.20 gSA m 3 dk eku Kkr
dhft, rkfd dksbZ CykWd fQlys ugha
B
A m 1
m 2
m 3
(1) 10 kg (2) 16 kg (3) 18 kg (4) 14 kg
C
B
A m 1
m 2
m 3
(1) 10 kg (2) 16 kg (3) 18 kg (4) 14 kg
C
Space for rough work
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Q.4 A uniform chain of mass M and length L is lying
on a smooth table and a part of it is hanging
from the table. The work required to pull the
hanging part of the chain on to the table is
MgL . Find the part of the chain in terms of its
32
length which is hanging from the table :
(1) L/3 (2) L/4 (3) L/6 (4) L/2
Q.5 Ring A of mass m is in level with top of the
smooth pulley B, when it is suddenly released. If
h is the distance by which ring moves down a
smooth vertical pole before coming to rest for
the first time and L is the horizontal distance
between initial position of ring and pulley, find
approximately the condition for which ring will
slide down even when less in weight, than the
weight of the block C of mass M :
L
B
M
C
(1) h (4L 2 – h 2 ) < 8L 2
(2) h (4L 2 – h 2 ) < 4L 3
(3) h (2L 2 – h 2 ) < 8L 3
(4) h (L 2 – 2h 2 ) < 8L 3
h
A (m)
Q.6 In the arrangement as shown, mass of block A is
m. What should be the mass of the block B so
that magnitude of acceleration of centre of mass
of both the blocks is zero –
B
A
Q.4 M nzO;eku rFkk L yEckbZ dh ,dleku pSu ,d
?k"kZ.kghu est ij bl izdkj j[kh gS fd mldk dqN
Hkkx est ls uhps yVdk gqvk gSA pSu ds yVds gq;s
Hkkx dks est ij [khapus ds fy;s vko';d dk;Z
MgL gSA yEckbZ ds inks esa pSu dk og Hkkx Kkr
32
dhft, tks est ls yVdk gqvk gS
(1) L/3 (2) L/4 (3) L/6 (4) L/2
Q.5 m nzO;eku dh oy; A ?k"kZ.kghu f?kjuh B ds 'kh"kZ ls
leku ry esa gksrh gS tc mls vpkud eqDr fd;k
tkrk gSA ;fn h og nwjh gS tks oy; igyh ckj
fojke ds igys ?k"kZ.kghu Å/oZ iksy ij uhps dh vksj
xfr djrh gS rFkk L oy; dh izkjfEHkd fLFkfr rFkk
f?kjuh ds e/; {kSfrt nwjh gS] yxHkx og 'krZ Kkr
dhft;s ftlds fy;s oy; tc dHkh M nzO;eku ds
CykWd C ds Hkkj ls de gks] uhps dh vksj fQlysA
L
B
M
C
(1) h (4L 2 – h 2 ) < 8L 2
(2) h (4L 2 – h 2 ) < 4L 3
(3) h (2L 2 – h 2 ) < 8L 3
(4) h (L 2 – 2h 2 ) < 8L 3
h
A (m)
Q.6 n'kkZ;h O;oLFkk esa] CYkkWd A dk nzO;eku m gSA CykWd
B dk nzO;eku D;k gksuk pkfg;s rkfd nksuks CykWdksa ds
nzO;eku dsUnz ds Roj.k dk ifjek.k 'kwU; gks –
B
A
60º 30º
m
m 3
(1) (2)
2 2
m
(3) m 2
(4)
3
Space for rough work
60º 30º
m
m 3
(1) (2)
2 2
m
(3) m 2
(4)
3
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Q.7 m nzO;eku x-v{k ds lekUrj js[kk ds vuqfn'k ewy
Q.7 A mass m is moving with a constant velocity
(3) 0.996 ω 0 (4) 0.824 ω 0
(3) 0.996 ω 0 (4) 0.824 ω 0
along a line parallel to x-axis, away from the
origin. Its angular momentum with respect to
origin :
(1) remains constant
(2) zero
(3) goes on increasing
(4) goes on decreasing
fcUnq ls nwj fu;r osx ls xfr'khy gSA ewy fcUnq ds
lkis{k mldk dks.kh; laosx
(1) fu;r jgrk gS
(2) 'kwU;
(3) c

Q.10 Figure shows an isochore, an isotherm, an
adiabatic and two isobars of two gases on a work
done versus heat supplied curve. The initial
states of both gases are the same and the scales
for the two axes are same -
W
tan θ 2 = 2/7
4
tan θ 3 = 2/5
5
3
tan θ 4 = 1
2
θ 2
θ 3 θ 4
O
Q
Which of the following statements is incorrect ?
(1) straight line 1 corresponds to an isochoric
process
(2) Straight line 2 corresponds to an isobaric
process for diatomic gas
(3) Straight line 4 corresponds to an isothermal
process
(4) Straight line 5 corresponds to an isothermal
process
Q.11 A thin lead ring is rotating about its own axis. If
the density of the lead is 11300 kg/m 3 and the
breaking stress is 2 × 10 7 N/m 2 , then the
maximum permissible linear speed of the ring
will be -
(1) 42 m/s (2) 60 m/s
(3) 34.6 m/s (4) 64 m/s
Q.12 A massless piston divides a closed, thermally
insulated cylinder into two equal parts. One part
contains M = 28 g of nitrogen. At this
temperature, one-third of molecules are
dissociated into atoms and the other part is
evacuated. The piston is released and the gas fills
the whole volume of the cylinder at temperature
T 0 . Then, the piston is slowly displaced back to
its initial position. Calculate the increase in
internal energy of the gas. Neglect further
dissociation of molecules during, the motion of
the piston -
8
8
(1) RT0
(2) RT0
( 2 – 1)
3
3
(3)
3
4 RT0 ( 2 – 1) (4) None of these
Q.10 fp=k nks xSlksa ij fd;s x;s dk;Z rFkk nh xbZ Å"ek
dk oØ ,d levk;rfud] ,d lerkih] ,d :)ks"e
rFkk nks lenkch ds fy;s n'kkZrk gSA nksuksa xSlksa ds
fy;s izkjfEHkd voLFkk leku gS rFkk nksuksa v{kksa ds
fy;s iSekuk leku gS &
W
tan θ 2 = 2/7
4
tan θ 3 = 2/5
5
3
tan θ 4 = 1
2
θ 2
θ 3 θ 4
O
Q
fuEu esa ls dkSulk dFku xyr gS ?
(1) ljy js[kk 1 levk;rfud izØe ls lEcfU/kr gS
(2) ljy js[kk 2 f}ijek.kqd xSl ds fy;s lenkch
izØe ls lEcfU/kr gS
(3) ljy js[kk 4 ,d lerkih izØe ls lEcfU/kr gS
(4) ljy js[kk 5 lerkih izØe ls lEcfU/kr gS
Q.11 ,d iryh ySM oy; viuh Lo;a dh v{k ds lkis{k
?kw.kZu djrh gSA ;fn ySM dk ?kuRo 11300 kg/m 3
rFkk Hkatu izfrcy 2 × 10 7 N/m 2 gks] rc oy; dh
vf/kdre vuqfer js[kh; pky gksxh -
(1) 42 m/s (2) 60 m/s
(3) 34.6 m/s (4) 64 m/s
Q.12 ,d nzO;ekughu fiLVu ,d cUn] Å"eh; :i ls
dqpkyd csyu dks nks cjkcj Hkkxksa esa foHkkftr djrk
gSA ,d Hkkx ukbVªkstu dk M = 28 g j[krk gSA bl
rki ij] v.kqvksa ds ,d&frgkbZ ijek.kqvksa ds vUnj
fo;ksftr gksrs gS rFkk vU; Hkkx okf"ir gks tkrk gSA
fiLVu dks eqä fd;k tkrk gS rFkk xSl T 0 rki ij
csyu ds iwjs vk;ru dks Hkj nsrh gSA rc fiLVu dks
/khjs ls mldh izkjfEHkd fLFkfr esa /kdsyk tkrk gSA
xSl dh vkUrfjd ÅtkZ esa o`f) Kkr dhft,A fiLVu dh
xfr ds nkSjku v.kqvksa dk vkxs fo;kstu ux.; ekusa -
8
8
(1) RT0
(2) RT0
( 2 – 1)
3
3
(3) 3
4 RT0 ( 2 – 1) (4) buesa ls dksbZ ugha
Space for rough work
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Q.13 In the arrangement shown in figure, the sleeve M
of mass m is fixed between two identical spring
whose combined force constant is k. The sleeve
can slide without friction over a horizontal bar
AB. The arrangement rotates with a constant
angular velocity ω about a vertical axis passing
through the middle of the bar. At what value of
ω will there be no oscillations of the sleeve ?
A
M
B
Q.13 fp=k esa n'kkZ;h O;oLFkk esa] m nzO;eku dh Lyho M
nks le:i fLizaxksa ftldk la;qä cy fu;rkad
k gS] ds e/; dlh xbZ gSA Lyho {kSfrt NM+ AB ds
Åij fcuk ?k"kZ.k ds fQly ldrh gSaA O;oLFkk fu;r
dks.kh; osx ω ls NM+ ds e/; ls xqtjus okyh m/oZ
v{k ds lkis{k ?kw.kZu djrh gSA ω ds fdl eku ij
Lyho nksyu ugha djsxh ?
A
M
B
(1) k < mω 2 (2) k < 2mω 2
m
(3) k =
2
ω
(4) None of these
Q.14 The earth receives solar energy at the rate of
2 cal cm 2 per min. Assuming the radiation to be
black body in character, estimate the surface
temperature of the sun. Given that σ = 5.67×10 –8
W/m 2 /K 4 and angular diameter of the sun = 32
min of arc.
(1) 3090 K (2) 5810 K
(3) 3260 K (4) 4150 K
Q.15 Seven identical rods of material of thermal
conductivity k are connected as shown in the
figure. All the rods are of identical length l and
cross-section area A. If the one end B is kept at
100ºC and the other end is kept at 0ºC, what
would be the temperatures of the junctions C, D
and E (θ C , θ D and θ E ) in the steady state ?
C k D
ω
(1) k < mω 2 (2) k < 2mω 2
m
(3) k =
2
ω
(4) buesa ls dksbZ ugha
Q.14 i`Foh 2 cal cm 2 izfr feuV dh nj ij lkSj ÅtkZ
izkIr djrh gSA lw;Z dks d`f".kdk ds :i esa ekurs
gq;s] lw;Z dh lrg dk rki ifjdfyr dhft;sA fn;k
x;k gS σ = 5.67×10 –8 W/m 2 /K 4 rFkk lw;Z dk
dks.kh; O;kl = 32 min of arc gSA
(1) 3090 K (2) 5810 K
(3) 3260 K (4) 4150 K
Q.15 izR;sd k Å"eh; pkydrk okys inkFkZ dh cuh lkr
le:i NM+ksa dks fp=kkuqlkj tksM+k x;k gSA lHkh NM+s
le:i yEckbZ l rFkk vuqizLFk dkV {ks=kQy A dh
gSA ;fn ,d fljs B dks 100ºC ij rFkk nwljs fljs
dks 0ºC ij j[kk tk;s] rks fu;r voLFkk esa lfU/k;ksa
C, D o E (θ C , θ D rFkk θ E ) ds rki D;k gksaxs ?
C k D
ω
k
k
k
k
k
k
k
k
A k E k
(1) θ E = 50ºC and θ D = 37.5 ºC
(2) θ E = 50ºC, θ C = 62.5ºC and θ D = 37.5ºC
(3) θ E = 50ºC, θ C = 60ºC and θ D = 40ºC
(4) None of these
B
A k E k
(1) θ E = 50ºC rFkk θ D = 37.5 ºC
(2) θ E = 50ºC, θ C = 62.5ºC rFkk θ D = 37.5ºC
(3) θ E = 50ºC, θ C = 60ºC rFkk θ D = 40ºC
(4) buesa ls dksbZ ugha
B
Space for rough work
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Multiple correct type (Q.16 to 25)
Q.16 The moment of inertia of a thin square plate
ABCD, of uniform thickness about an axis
passing through the centre O and perpendicular
to the plane of the plate is (Where I 1 , I 2 , I 3 and I 4
are respective moments of inertia about axes 1,
2, 3 & 4 which are in the plane of plate.)-
4
1
A
B
O
C
D 2
3
Multiple correct type (Q.16 to 25)
Q.16 ,dleku eksVkbZ dh ,d iryh oxkZdkj IysV ABCD
dk dsUnz O ls xqtjus okyh rFkk IysV ds ry ds
yEcor~ v{k ds lkis{k tM+Ro vk?kw.kZ gSS (tgk¡ I 1 , I 2 , I 3
o I 4 v{kksa 1, 2, 3 o 4 ds lkis{k tM+Ro vk?kw.kZ gS tks
IysV ds ry esa gS) -
4
1
A
B
O
C
D 2
3
(1) I 1 + I 2 (2) I 3 + I 4
(3) I 1 + I 3 (4) I 1 + I 2 + I 3 + I 4
Q.17 Two blocks A and B each of mass m are
connected by a massless spring of natural length
L and spring constant K. The blocks are initially
resting on a smooth horizontal floor with the
spring at its natural length, as shown. A third
identical block C(of mass m) moves on the floor
with a speed V along the line joining A and B
and collides elastically with A -
V
C A
B
(1) the kinetic energy of (A-B) system at
maximum compression of spring is zero.
(2) the kinetic energy of (A-B) system at
maximum compression of the spring is
mV 2 /4.
(3) the maximum compression of the spring is
V ( m / K)
.
(4) the maximum compression of the spring is
V ( m / 2K)
(1) I 1 + I 2 (2) I 3 + I 4
(3) I 1 + I 3 (4) I 1 + I 2 + I 3 + I 4
Q.17 izR;sd m nzO;eku esa nks CykWdksa A o B dks izkjfEHkd
yEckbZ L o fLizax fu;rkad K dh ,d nzO;ekughu
fLizax }kjk tksM+k x;k gSA izkjEHk esa CykWd n'kkZ;s
vuqlkj ,d ?k"kZ.kghu {kSfrt Q'kZ ij fojke esa gS
rFkk fLizax viuh izkjfEHkd yEckbZ esa gSA ,d rhljk
le:i CykWd C(m nzO;eku dk) Q'kZ ij A o B dks
tksM+us okyh js[kk ds vuqfn'k V pky ls xfr djrk
gS rFkk A ls izR;kLFk :i ls Vdjkrk gS-
V
C A
B
(1) fLizax ds vf/kdre ladqpu ij (A-B) fudk; dh
xfrt ÅtkZ 'kwU; gksrh gSA
(2) fLizax ds vf/kdre ladqpu ij (A-B) fudk; dh
xfrt ÅtkZ mV 2 /4 gS
(3) fLizax dk vf/kdre ladqpu V ( m / K)
gS
(4) fLizax dk vf/kdre ladqpu V ( m / 2K)
gS
Space for rough work
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Q.18 The potential energy of a particle moving along
x-axis is given by U = 20 + 5 sin (4πx) where U
is in J and x is in metre under the action of
conservative force -
(1) if total mechanical energy is 20 J, then at
x = 7/8 m, particle is at equilibrium
(2) if total mechanical energy is 20 J, then at
x = 7/8 m, particle is not at equilibrium
(3) if total mechanical energy is 20 J, then
x = 3/8 m, particle is at equilibrium
(4) if total mechanical energy is 20 J, then
x = 3/8m, particle is not at equilibrium
Q.19 The coordinates of a particle moving in a plane
are given by x(t) = a cos (pt) and y(t) = b sin (pt)
where a, b (< a) and p are positive constants of
appropriate dimensions then -
(1) the path of the particle is an ellipse
(2) the velocity and acceleration of the particle
are normal to each other at t = π/2p
(3) the acceleration of the particle is always
directed towards a focus
(4) the distance travelled by the particle in time
interval t = 0 to t = π/2p is a
Q.20 In the arrangement as shown, block A of mass
3kg moves towards left with velocity 10 m/s.
Initially block A is 100 m from pulley on a
smooth surface. Block B is of mass 2 kg (g =
10m/s 2 )
A
Q.18 x-v{k ds vuqfn'k xfr'khy ,d d.k dh fLFkfrt ÅtkZ
laj{kh cyks ds izHkko ds v/khu U = 20 + 5 sin (4πx)
}kjk nh tkrh gS tgk¡ U, J esa gS rFkk x ehVj esa gS -
(1) ;fn dqy ;kaf=kd ÅtkZ 20 J gks rks x = 7/8 m ij
d.k lkE;koLFkk ij gksxk
(2) ;fn dqy ;kaf=kd ÅtkZ 20 J gks rks
x = 7/8 m ij d.k lkE;koLFkk ij ugha gksxk
(3) ;fn dqy ;kaf=kd ÅtkZ 20 J gks] rks
x = 3/8 m ij d.k lkE;koLFkk ij gksxk
(4) ;fn dqy ;kaf=kd ÅtkZ 20 J gks] rks
x = 3/8 m ij d.k lkE;koLFkk ij ugha gksxk
Q.19 ,d ry esa xfr'khy ,d d.k ds funsZ'kkad
x (t) = a cos (pt) rFkk y(t) = b sin (pt) }kjk fn;s
tkrs gS tgk¡ a, b (< a) rFkk p mi;qDr foekvkas ds
/kukRed fu;rkad gS rc -
(1) d.k dk iFk ijoy; gS
(2) d.k dk osx o Roj.k t = π/2p ij ,d nwljs ds
yEcor~ gksrs gSA
(3) d.k dk Roj.k ges'kk Qksdl dh vksj funsZf'kr
gksrk gS
(4) t = 0 ls t = π/2p le; vUrjky esa d.k }kjk r;
dh xbZ nwjh a gS
Q.20 n'kkZ;h O;oLFkk esa 3kg nzO;eku dk ,d CykWd A
ck;ha vksj 10 m/s osx ls xfr djrk gSA izkjEHk esa
CykWd A ?k"kZ.kghu lrg ij fLFkr f?kjuh ls 100 m
ij gSA CykWd B dk nzO;eku 2 kg gS (g = 10m/s 2 )
A
100 m
B
100 m
B
(1) At t = 1 sec, velocity of A will be 6 m/s
towards left
(2) A will stop at t = 2.5 sec
(3) Block A will be at a distance 108 m from
pulley at t = 4s
(4) Block A will again be at a distance of 100 m
from pulley at t = 5s
(1) t = 1 sec ij] A dk osx ck;ha vksj 6 m/s gksxk
(2) A, t = 2.5 sec ij :d tk;sxk
(3) CykWd A , t = 4s ij f?kjuh ls 108 m nwjh ij
gksxk
(4) CykWd A , t = 5s ij f?kjuh ls iqu% 100 ehVj nwjh
ij gksxk
Space for rough work
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Q.21 One mole of an ideal monoatomic gas has initial
temperature T 0 , is made to go through the cycle
abca shown in figure. If U denotes the internal
energy, then choose the correct alternative -
P
2P 0
P 0
a
b
c
V 0 2V 0 V
(1) U c > U b > U a (2) U c – U b = 3RT 0
9RT0 3RT0
(3) U c – U a = (4) U b – U a =
2
2
Q.22 Two points on a string are observed as a
travelling wave passes them. The points are at
x 1 = 1.0 m, the transverse motions of the two
points are found to be as follows.
Y 1 = A sin (3πt) and Y 1 = A sin (3πt + π/8)
T is in seconds and Y in metres. Mark the correct
options (s).
(1) The frequency of the wave is 3 Hz
(2) The frequency of the wave is 1.5 Hz
(3) Wavelength of the wave can be 16 m
(4) Wavelength of the wave can be 16/15 m
Q.23 A solid hemisphere of radius R is made to just
sink in a liquid of density ρ.
Q.21 ,d vkn'kZ ,dy ijek.kqd xSl dk ,d eksy
izkjfEHkd rki T 0 j[krk gS rFkk mls fp=kkuqlkj ,d
pØ abca ls xqtkjk tkrk gSA ;fn U vkUrfjd ÅtkZ
dks n'kkZrk gS] rks lgh fodYi dk p;u dhft;s -
P
2P 0
P 0
a
b
c
V 0 2V 0 V
(1) U c > U b > U a (2) U c – U b = 3RT 0
9RT0 3RT0
(3) U c – U a = (4) U b – U a =
2
2
Q.22 ,d Mksjh ij nks fcUnqvksa ij izxkeh rjax xqtjrh gqbZ
ik;h tkrh gSA fcUnq x 1 = 1.0 m ij gS] nks fcUnqvksa
dh vuqizLFk xfr;k¡ fuEu izdkj ik;h tkrh gSaA
Y 1 = A sin (3πt) rFkk Y 1 = A sin (3πt + π/8)
T lSd.M esa rFkk Y ehVj esa gSA lgh fodYi dk
p;u dhft;sA
(1) rjax dh vko`fÙk 3 Hz gS
(2) rjax dh vko`fÙk 1.5 Hz gS
(3) rjax dh rjaxnS/;Z 16 m gks ldrh gS
(4) rjax dh rjaxnS/;Z 16/15 m gks ldrh gS
Q.23 R f=kT;k dk ,d Bksl v)Zxksyk ρ ?kuRo ds ,d nzo
esa Bhd Mwckdj cuk;k x;k gSA
R
(1) The vertical thrust on the curved surface
πR 3
= ρg
3
(2) Upward thrust on the base = πR 3 ρg
(3) Side thrust = 0
(4) Total hydrostatic force =
3
2 πR 3 ρg
R
πR
(1) oØh; lrg ij Å/okZ/kj mRIykou 3 = ρg
3
(2) vk/kkj ij Åij dh vksj mRIykou cy = πR 3 ρg
(3),d Hkqtk (side) ij mRIykou = 0
(4) dqy nzoLFkSfrd cy = 3
2 πR 3 ρg
Space for rough work
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Q.24 A vertical tank, open at the top, is filled with a Q.24 'kh"kZ ij [kqys ,d Å/oZ VSad dks nzo ls Hkjk x;k gS
liquid and rests on a smooth horizontal surface.
rFkk ,d ?k"kZ.kghu {kSfrt lrg ij fojke esa j[kk
A small hole is opened at the centre of one side
of the tank. The area of cross section of the tank x;k gSA ,d VSad dh ,d Hkqtk ds dsUnz ij ,d NksVk
is A which is Nα where α is the area of cross fNnz cuk;k x;k gSA VSad dk vuqizLFk dkV {ks=kQy
section of hole and N is large number : h is the A tks Nα gS tgk¡ α fNnz dk vuqizLFk dkV {ks=kQy
height of the tank.
rFkk N cM+h la[;k gS : h VSad dh Å¡pkbZ gSA
g
(1) Initial acceleration of tank is g
N (1) VSad dk izkjfEHkd Roj.k gS N
g
(2) Initial acceleration = g
N (2) izkjfEHkd Roj.k =
(3) The velocity of efflux is inversely
N
proportional to α.
(3) cfg%L=kko dk osx α ds O;qRØekuqikrh gS
(4) The velocity of efflux is independent of α.
(4) cfg%L=kko dk osx α ls Lora=k gS
Q.25 A rod of copper, uniform along its length l and Q.25 viuh yEckbZ l ds vuqfn'k ,dleku rk¡cs dh ,d
of a rectangular cross section of sides of length a NM+ yEckbZ a rFkk pkSM+kbZ b (< a) dh Hkqtk dk
and width b (< a) has one end maintained at vk;rkdkj vuqizLFk dkV j[krh gS mldk ,d fljk
100ºC and the other end at 0ºC. The rod is 100ºC ij nwljk 0ºC ij O;ofLFkr gSA NM+ dks
insulated so that no heat is lost from the sides.
Å"ekjks/kh cuk;k x;k gS rkfd Hkqtkvksa ls Å"ek gkfu
Let Q 1 be the amount of heat per second that is
ugha gksA ekuk Q
transmitted along its length, Q a the heat
1 izfr lSd.M Å"ek dh og ek=kk gS
tks mldh yEckbZ ds vuqfn'k lapfjr gksrh gS] fdlh
transmitted parallel to a and Q b the heat
transmitted parallel to b across any section after Hkh vuqizLFk dkV ds fljksa ij LFkkbZ voLFkk izkIr gksus
the steady conditions are reached. Then -
ds ckn a ds lekUrj lapfjr Å"ek Q a rFkk b ds
(1) Q l = constant, Q a > Q b ≠ 0
lekUrj lapfjr Å"ek Q b gSA rc -
(2) Q l = 0, Q a = Q b ≠ 0
(1) Q l = fu;r, Q a > Q b ≠ 0
(3) Q l = 0, Q a = Q b = 0
(2) Q l = 0, Q a = Q b ≠ 0
(4) Q l = constant, Q a = Q b = 0
(3) Q l = 0, Q a = Q b = 0
(4) Q l = fu;r, Q a = Q b = 0
CHEMISTRY
CHEMISTRY
Single correct type (Q.26 to 40)
Single correct type (Q.26 to 40)
Q.26 Which of the following order is incorrect ? Q.26 fuEu esa ls dkSulk Øe xyr gS ?
(1) Acidic : NH 3 < PH 3 < AsH 3
(1) vEyh; : NH 3 < PH 3 < AsH 3
(2) IE 1 : Li < Be < B < C
(2) izFke vk;uu ÅtkZ : Li < Be < B < C
(3) Basic : Al 2 O 3 < MgO < Na 2 O < K 2 O
(4) Ionic radius : Li + < Na + < K + < Cs +
(3) {kkjh; : Al 2 O 3 < MgO < Na 2 O < K 2 O
(4) vk;fud f=kT;k : Li + < Na + < K + < Cs +
Q.27 The correct order of ionic radius is -
Q.27 vk;fud f=kT;k dk lgh Øe gS -
(1) Yb 3+ < Pm 3+ < Ce 3+ < La 3+
(1) Yb 3+ < Pm 3+ < Ce 3+ < La 3+
(2) Ce 3+ < Yb 3+ < Pm 3+ < La 3+
(2) Ce 3+ < Yb 3+ < Pm 3+ < La 3+
(3) Yb 3+ < Pm 3+ < La 3+ < Ce 3+
(3) Yb 3+ < Pm 3+ < La 3+ < Ce 3+
(4) Pm 3+ < La 3+ < Ce 3+ < Yb 3+ (4) Pm 3+ < La 3+ < Ce 3+ < Yb 3+
Space for rough work
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Q.28 Molecular shape of SF 4 , CF 4 and XeF 4 are :
(1) the same with 2, 0 and 1 lone pair of
electrons respectively
(2) the same with 1, 1 and 1 lone pair of
electrons respectively
(3) different with 0, 1 and 2 lone pairs of
electrons respectively
(4) different with 1, 0 and 2 lone pairs of
electrons respectively
Q.28 SF 4 , CF 4 rFkk XeF 4 ds vkf.od vkdkj gksrs gS :
(1) Øe'k% 2, 0 rFkk 1 ,dkdh bysDVªkWu ;qXe ds lkFk
leku
(2) Øe'k% 1, 1 rFkk 1 ,dkdh bysDVªkWu ;qXe ds lkFk
leku
(3) Øe'k% 0, 1 rFkk 2 ,dkdh ;qXe ds lkFk vleku
(4) Øe'k% 1, 0 rFkk 2 ,dkdh bysDVªkWu ;qXe ds lkFk
vleku
Q.29 The correct order of dipole moment is -
(1) CH 4 < NF 3 < NH 3 < H 2 O
(2) NF 3 < CH 4 < NH 3 < H 2 O
(3) NH 3 < NF 3 < CH 4 < H 2 O
(4) H 2 O < NH 3 < NF 3 < CH 4
Q.30 H 2 O 2 is prepared in the laboratory when -
(1) MnO 2 is added to dilute cold H 2 SO 4
(2) BaO 2 is added to CO 2 bubbling through cold
water
(3) PbO 2 is added to an acidified solution of
KMnO 4
(4) Na 2 O 2 is added to boiling water
Q.31 The solubility of sulphates of alkaline earth
metals in water shows the correct order -
(1) Be > Ca > Mg > Ba > Sr
(2) Mg > Be > Ba > Ca > Sr
(3) Be > Mg > Ca > Sr > Ba
(4) Mg > Ca > Ba > Be > Sr
Q.32 The structure of diborane contains :
(1) four 2C – 2e bonds and two 3C – 2e bonds
(2) two 2C – 2e bonds and two 3C – 2e bonds
(3) two 2C – 2e bonds and two 3C – 2e bonds
(4) four 2C – 2e bonds and four 3C – 2e bonds
Q.29 f}/kzqo vk?kw.kZ dk lgh Øe gS -
(1) CH 4 < NF 3 < NH 3 < H 2 O
(2) NF 3 < CH 4 < NH 3 < H 2 O
(3) NH 3 < NF 3 < CH 4 < H 2 O
(4) H 2 O < NH 3 < NF 3 < CH 4
Q.30 iz;ksx'kkyk esa H 2 O 2 dks cuk;k tkrk gS] tc -
(1) MnO 2 dks ruq B.Ms H 2 SO 4 esa feyk;k tkrk gS
(2) BaO 2 dks CO 2 esa feykus ij] B.Ms ty esa
cqncqnkgV gksrh gS
(3) PbO 2 dks KMnO 4 ds vEyh; foy;u esa feyk;k
tkrk gS
(4) Na 2 O 2 dks mcys ty esa feyk;k tkrk gS
Q.31 {kkjh; e`nk /kkrqvksa ds lYQsVksa dh ty esa foys;rk
dk lgh Øe gS -
(1) Be > Ca > Mg > Ba > Sr
(2) Mg > Be > Ba > Ca > Sr
(3) Be > Mg > Ca > Sr > Ba
(4) Mg > Ca > Ba > Be > Sr
Q.32 Mkbcksjsu dh lajpuk esa gksrs gSa :
(1) pkj 2C – 2e ca/k ,oa nks 3C – 2e ca/k
(2) nks 2C – 2e ca/k ,oa nks 3C – 2e ca/k
(3) nks 2C – 2e ca/k ,oa nks 3C – 2e ca/k
(4) pkj 2C – 2e ca/k ,oa pkj 3C – 2e ca/k
Space for rough work
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Q.33 The straight chain polymer is formed by -
(1) hydrolysis of (CH 3 ) 2 SiCl 2 followed by
condensation polymerisation
(2) hydrolysis of (CH 3 ) 3 SiCl followed by
condensation polymerisation
(3) hydrolysis of CH 3 SiCl 3 followed by
condensation polymerisation
(4) hydrolysis of (CH 3 ) 4 Si by addition
polymerisation
Q.34 Molarity and molality of a solution of an liquid
(mol. wt. = 50) in aqueous solution is 9 and 10
respectively. What is the density of solution ?
(1) 1 g/cc (2) 0.95 g/cc
(3) 1.35 gm/litre (4) 1.35 g/cc
Q.35 The momentum (in kg-m/s) of photon having 6
MeV energy is -
(1) 3.2 × 10 –21 (2) 2.0
(3) 1.6 × 10 –21 (4) none of these
Q.36 Which reaction does not represent auto redox or
disproportionation -
(1) Cl 2 + OH – ⎯→ Cl – +
–
ClO 3
+ H 2 O
(2) 2H 2 O 2 ⎯→ H 2 O + O 2
(3) 2Cu + ⎯→ Cu 2+ + Cu
(4) (NH 4 ) 2 Cr 2 O 7 ⎯→ N 2 + Cr 2 O 3 + 4H 2 O
Q.37 The specific heat of a metal is 0.836 J/g. The
approximate at. wt. is -
(1) 16 (2) 64 (3) 40 (4) 32
Q.38 10 –6 M HCl is diluted to 100 times. Its pH is :
(1) 6.0 (2) 8.0 (3) 6.95 (4) 9.5
Q.39 For the reaction
AB 2 (g) AB(g) + B(g)
If α is negligible w.r.t. 1 then degree of
dissociation (α) of AB 2 is proportional to -
(1) 1/P (2) 1/V
(3) 1/ P (4) 1/ V
Q.33 lh/ks J`a[kfyr cgqyd dSls cuk;s tkrs gSa -
(1) (CH 3 ) 2 SiCl 2 ds ty-vi?kVu rnqijkUr la?kuu
cgqydhsdj.k
(2) (CH 3 ) 3 SiCl ds ty-vi?kVu rnqijkUr la?kuu
cgqydhsdj.k
(3) CH 3 SiCl 3 ds ty-vi?kVu rnqijkUr la?kuu
cgqydhsdj.k
(4) ;ksxkRed cgqydhdj.k }kjk (CH 3 ) 4 Si dk ty
vi?kVu
Q.34 tyh; foy;u esa ,d nzo (vkf.od Hkkj = 50) ds
foy;u dh eksyjrk rFkk eksyyrk Øe'k% 9 rFkk 10
gSA foy;u dk ?kuRo D;k gS ?
(1) 1 g/cc (2) 0.95 g/cc
(3) 1.35 gm/litre (4) 1.35 g/cc
Q.35 6 MeV ÅtkZ ;qDr QksVksu dk laosx (kg-m/s esa) D;k
gS -
(1) 3.2 × 10 –21 (2) 2.0
(3) 1.6 × 10 –21 (4) buesa ls dksbZ ugha
Q.36 dkSulh vfHkfØ;k Lor% jsMkWDl ;k fo"ekuqikru dks
iznf'kZr ugha djrh gS -
(1) Cl 2 + OH – ⎯→ Cl – –
+ ClO 3
+ H 2 O
(2) 2H 2 O 2 ⎯→ H 2 O + O 2
(3) 2Cu + ⎯→ Cu 2+ + Cu
(4) (NH 4 ) 2 Cr 2 O 7 ⎯→ N 2 + Cr 2 O 3 + 4H 2 O
Q.37 /kkrq dh fof'k"V Å"ek 0.836 J/g gSA ijek.kq Hkkj
yxHkx gksxk -
(1) 16 (2) 64 (3) 40 (4) 32
Q.38 10 –6 M HCl dks 100 xq.kk ruq fd;k tkrk gSA bldh
pH gS -
(1) 6.0 (2) 8.0 (3) 6.95 (4) 9.5
Q.39 vfHkfØ;k AB 2 (g) AB(g) + B(g) ;fn α, 1 ds
lkis{k ux.; gS rks AB 2 ds fo;kstu dh ek=kk
(α)lekquikrh gksrh gS -
(1) 1/P (2) 1/V
(3) 1/ P (4) 1/ V
Space for rough work
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Q.40 A 821 mL N 2 (g) was collected over liquid water
at 300 K and 1 atm. If vapour pressure of H 2 O is
30 torr then moles of N 2 (g) in moist gas mixture
is -
(1) 0.39 (2) 0.032 (3) 0.96 (4) 0.0013
Multiple correct type (Q.41 to 50)
Q.41 Select correct statement regarding Inductive
effect -
(1) It is a temporary effect
(2) Correct order of reactivity
⇒ (CH 3 ) 3 CX > (CH 3 ) 2 CHX > CH 3 CH 2 X
(3) Correct order of Acidic Nature,
CCl 3 COOH > CHCl 2 COOH > CH 2 ClCOOH
(4) Correct order of –I effect
⇒ NO 2 > Cl > COOH > OH > CN > H
Q.42 Select correct statements about ozonolysis
reactions -
(1) Ozonolysis is used to detect the position and
nature of unsaturation in a molecule
(2) Reduction of ozonide can also be made by
Zn/acid, H 2 -Raney Ni to carbonyl
compounds
O3
(3) CH 3 CH 2 CH = CH 2
Zn dust / H2O
CH 3 CH 2 CHO + HCHO
(4) A symmetrical alkene give two molecules of
same carbonyl compounds.
Q.43 Select correct reactions & statement :
(1) RCOR
Red P
200ºC
4HI
⎯ ⎯⎯⎯
+ → RCH 2 R + H 2 O + 2I 2
B
(2) 2R – CH = CH 2 ⎯ 2H → 6 2(RCH 2 CH 2 ) 3 B
⎯⎯
CH ⎯⎯
3COOH
→ 6RCH 2 CH 3
(3) C 6 H 14
Cr2O3
/ Al2O3
⎯⎯⎯⎯
600ºC/15atm
⎯ → + 4H 2
(4) Order of boiling point
⇒ hexane > pentane > heptane
Q.40 821 mL N 2 (g) dks 300 K rFkk 1 atm ij ty ds
Åij ,df=kr fd;k tkrk gSA ;fn H 2 O dk ok"i nkc
30 torr gS rks ue xSl feJ.k esa N 2 (g) ds eksy gksxsa -
(1) 0.39 (2) 0.032 (3) 0.96 (4) 0.0013
Multiple correct type (Q.41 to 50)
Q.41 fuEu esa ls fdrus dFku izsjf.kd izHkko ds lUnHkZ esa
lgh gSa -
(1) ;g vLFkk;h izHkko gS
(2) fØ;k'khyrk dk lgh Øe gS
⇒ (CH 3 ) 3 CX > (CH 3 ) 2 CHX > CH 3 CH 2 X
(3) vEyh; izd`fr dk lgh Øe gS
CCl 3 COOH > CHCl 2 COOH > CH 2 ClCOOH
(4) –I izHkko dk lgh Øe
⇒ NO 2 > Cl > COOH > OH > CN > H
Q.42 fuEu esa ls fdrus vkstksuh vi?kVu vfHkfØ;k ds
lUnHkZ esa lgh gS -
(1) vkstksuhvi?kVu dh lgk;rk ls fdlh v.kq esa
vlar`Irk ,oa mldh fLFkfr Kkr djus ds fy,
iz;qDr fd;k tkrk gS
(2) vkstksukbM dk vip;u Zn/vEy, H 2 -jsus Ni ls
djds Hkh dkcksZfuy ;kSfxdksa esa cnyk tk ldrk gS
O3
(3) CH 3 CH 2 CH = CH 2
Zn dust / H2O
CH 3 CH 2 CHO + HCHO
(4) lefer ,Ydhu] leku dkcksZfuy ;kSfxdksa ds nks
v.kq nsrs gSa
Q.43 lgh vfHkfØ;k,sa ,oa dFku pqfu;s :
(1) RCOR
Red P
200ºC
4HI
⎯ ⎯⎯⎯
+ → RCH 2 R + H 2 O + 2I 2
B 2 H
(2) 2R – CH = CH 2 ⎯ → 6 2(RCH 2 CH 2 ) 3 B
⎯⎯
CH ⎯⎯
3COOH
→ 6RCH 2 CH 3
(3) C 6 H 14
Cr2O3
/ Al2O3
⎯⎯⎯⎯
600ºC/15atm
⎯ → + 4H 2
(4) DoFkukad dk Øe
⇒ gsDlsu > is.Vsu > gsIVsu
Space for rough work
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Q.44 Select correct statement of wurtz reaction -
(1) If Zn is used in place of Na, the reaction is
named as Frankland method.
(2) Methane can not be obtained by this method
(3) This reaction fails in case of tertiary halides
(4) Compounds containing functional group
–OH, –COOH can not be used
Q.45 Select correct Statements of IUPAC Names -
(1) CH 3 OCH
(2) CH 3 – CH –
|
Cl
CH 3
CH 3
IUPAC name ⇒
2-methoxy propane
CH
NO | − C –O–C 2 H 5 IUPAC ⇒
2 O ||
3-chloro-1-ethoxy-2-nitro butanoate
(3) CH 3 –CH 2 –
O || C –O–
O || C –CH 2 –CH 3
propanoic anhydride
(4) CH 3 –CH 2 –OH IUPAC ⇒ Grain alcohol
Q.44 o`VZt vfHkfØ;k ds lUnHkZ esa lgh dFku pqfu;s -
(1) ;fn Zn, dks Na ls izfrLFkkfir fd;k tkrk gS]
bls Ýsadys.M fof/k dgrs gSa
(2) esFksu dks bl fof/k }kjk izkIr ugha fd;k tk
ldrk gS
(3) ;g vfHkfØ;k r`rh;d gsykbM dh fLFkfr esa ugha
gksrh gS
(4) –OH, –COOH fØ;kRed lewg ;qDr ;kSfxd
iz;qDr ugha fd;s tk ldrs
Q.45 IUPAC ukeksa ds lUnHkZ esa lgh dFku gS -
CH 3
(1) CH 3 OCH IUPAC uke ⇒
CH 3
2-esFkkWDlh izksisu
(2) CH 3 – CH – CH
|
Cl NO | − C –O–C 2 H 5 IUPAC ⇒
2 O ||
3-Dyksjks-1-,FkkWDlh-2-ukbVªks C;wVsuks,V
(3) CH 3 –CH 2 – C –O–
O || C –CH 2 –CH 3
O ||
izksisuksbd ,ugkbMªkbM
(4) CH 3 –CH 2 –OH IUPAC ⇒ /kku ,YdksgkWy
Q.46 In an isothermal ideal gas expansion :
(1) w = 0 (2) U 1 = U 2
(3) H 1 = H 2 (4) q = nRT ln
V
V
2
1
Q.46 vkn'kZ xSl ds lerkih; izlkj esa gksrk gS :
(1) w = 0 (2) U 1 = U 2
(3) H 1 = H 2
V
(4) q = nRT ln
V
2
1
Q.47 Increase in the pressure for the following
equilibrium : H 2 O(l) H 2 O(g), result in the -
(1) formation of more H 2 O(l)
(2) formation of more H 2 O(g)
(3) increase in b.p. of H 2 O(l)
(4) decrease in b.p. of H 2 O(l)
Q.47 fuEu lkE; esa] nkc o`f) ds ifj.kkeLo:i gksrk gS :
H 2 O(l) H 2 O(g)
(1) H 2 O(l) dk vf/kd fuekZ.k
(2) H 2 O(g) dk vf/kd fuekZ.k
(3) H 2 O(l) ds DoFkukad esa o`f)
(4) H 2 O(l) ds DoFkukad esa deh
Space for rough work
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Q.48 If concentration of two weak acids are different
and D.O.I. (α) are very less then their relative
strength can be compared by -
+
[H ] 1
α1
(1)
(2)
+
[H ]
α
(3)
C1α
C α
2
1
2
2
(4)
Q.49 Which are the set of amphiprotic species ?
(1) H 2 O,
(2)
2−
HPO 4 ,
−
2 PO 2
H , 2−
HPO
−
2 PO 4
−
HCO 3
4
K
K
2
a1
a 2
(3) H , H −
, HC −
(4)
−
HPO 3 , H 2 O,
2 PO 3
2−
CO 3
2 O 4
Q.50 The angular momentum of electron can have the
value (s) :
h
(1) 0.5 π
h
(2) π
(3) (4) 2.5
BIOLOGY
Single correct type (Q.51 to 65)
h
0.5π
C
C
1
2
h
0.5π
Q.51 An innovative professor who wanted to give a
live demonstration of a physiological process
filled a glass bottle with previously moistened
gram seed, screw capped the bottle and kept it
away in corner and resumed his lecture, there
was a sudden explosion with glass piece of bottle
thrown around. Which of the following
phenomenon did the professor want to
demonstrate -
(1) Diffusion (2) osmosis
(3) Imbibation (4) 2 & 3 both
Q.52 A cell has 23 pair of chromosomes just after
completion of mitotic telophase. The number of
chromatid at the preceeding metaphase was -
(1) 23 (2) 46 (3) 92 (4) 69
Q.48 ;fn nks nqcZy vEyksa dh lkUnzrk,sa vleku rFkk
vk;uu dh ek=kk (α) cgqr de gks] rks budh
lkisf{kd lkeF;Z dh rqyuk fuEu esa ls fdl izdkj
O;Dr dh tk ldrh gS -
(1)
(3)
[H
[H
2
+
] 1
+
] 2
C1α
C α
1
2
α1
(2)
α2
K a C
1
(4)
K C
Q.49 fuEu esa ls dkSulk leqPp; mHk;izksfVd Lih'khtksa dk
gS ?
−
(1) H 2 O, H 2 PO 4 , 2−
HPO 4
2− −
(2) HPO 4 , HCO 3
−
(3) H , H −
, HC −
(4)
2 PO 2
−
HPO 3 , H 2 O,
2 PO 3
2−
CO 3
2 O 4
Q.50 bysDVªkWu ds dks.kh; laosx dk eku gks ldrk gS :
h h h
h
(1) 0.5 (2) (3) (4) 2.5
π π 0.5π 0.5π
BIOLOGY
Single correct type (Q.51 to 65)
Q.51 ,d iz;ksx/kehZ O;k[;krk dkf;Zdh izfØ;k ij ,d
ltho izn'kZu djuk pkgrk gSA og ,d dk¡p dh
cksry dks ue pus ds chtksa ls Hkjrk gSA cksry dks
can djds dksus esa j[k nsrk gS ,oa viuh O;k[;k iqu%
izkjEHk djrk gSA ogka cksry esa vpkud foLQksV gks
tkrk gS ,oa dk¡p ds VqdM+s pkjks vksj fc[kj tkrs gSA
fuEu esa ls dkSulh ifj?kVuk O;k[;krk iznf'kZr djuk
pkgrk Fkk -
(1) folj.k (2) ijklj.k
(3) vUr%pw"k.k (4) 2 o 3 nksuksa
Q.52 ,d dksf'kdk esa lelw=k.k VhyksQst ds Bhd i'pkr~
23 tksaM+h xq.klw=k gksrs gSA vkus okyh esVkQst esa
ØksesfVM dh la[;k gksxh-
(1) 23 (2) 46 (3) 92 (4) 69
a 2
1
2
Space for rough work
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Q.53 i. Eukaryotes
ii. Cell wall present
iii. Nuclear membrane present
iv. Sexual reproduction present
v. Autotrophic mode of nutrition
How many kingdom in Whittekar classification
have above mentioned all character-
(1) Two (2) Three (3) Four (4) One
Q.54 Endospermic seeds are present is -
(1) Castor (2) onion
(3) orchids (4) 1 & 2 both
Q.55 First step of taxonomy is -
(1) Description (2) Identification
(3) Nomenclature (4) Classification
Q.56 Choose the minerals whose deficiency is
responsible for the symptoms of crickle leaf
disease, which occurs due to toxicity of Mn :
(1) Cu, Mn, Fe (2) Fe, Mg, Ca
(3) N, Co, Zn (4) Mg, Mo, Mn
Q.57 I. Initial carboxylation product
II. Cell types participate in CO 2 fixation
III. Primary carboxylase enzyme
IV. Primary CO 2 acceptor
V. ATP required for assimilation of 1 CO 2
molecule
Choose the correct option of C 3 and C 4 plant
C 3
plant
I II III IV
C 4
plant
C 3
plant
C 4
plant
C 3
plant
C 4
plant
C 3
plant
C 4
plant
C 3
plant
(1)
RuBp PEP 1 2 RUBISCO PEPCase PGA OAA 3 5
(2)
PGA OAA 1 2 RUBISCO PEPCase RuBp PEP 3 5
(3)
PGA OAA 1 2 RUBISCO PEPCase PEP RuBp 3 5
(4)
RuBp PEP 1 2 RUBISCO PEPCase PGA OAA 5 3
V
C 4
plant
Q.53 i. ;wdsfj;ksV~l
ii. dksf'kdk fHkfÙk mifLFkfr
iii. dsUnzd f>Yyh mifLFkfr
iv. ySafxd tuu mifLFkfr
v. iks"k.k dk izdkj Loiks"kh
okbVsdj ds ofxZdj.k esa fdrus txr mijksDr lHkh
y{k.k j[krs gS -
(1) nks (2) rhu (3) pkj (4) ,d
Q.54 Hkzw.kiks"kh; cht mifLFkr gksrs gS -
(1) vj.Mh esa (2) I;kt esa
(3) vkfdZM esa (4) 1 o 2 nksuksa esa
Q.55 ofxZdh dk izFke pj.k gS -
(1) o.kZu (2) igpku
(3) ukedj.k (4) oxhZdj.k
Q.56 [kuht rRoksa dk p;u dhft, ftudh deh fØdy
(Crickle) i.kZ jksx ds y{k.kksa ds fy, mÙkjnk;h gS]
tks Mn dh fo"kkyqrk ds dkj.k gksrh gS :
(1) Cu, Mn, Fe (2) Fe, Mg, Ca
(3) N, Co, Zn (4) Mg, Mo, Mn
Q.57 I. izkjafEHkd dkcksZfDlyhdj.k mRikn
II. dksf'kdk izdkj tks CO 2 fLFkjhdj.k esa Hkkx ysrh gS
III. izkFkfed dkcksZfDlyst ,atkbe
IV. izkFkfed CO 2 xzkgh
(1)
(2)
(3)
(4)
V. ,d v.kq CO 2 ds Lokaxhdj.k gsrq vko';d ATP
C 3 ,oa C 4 ikniksa ds fy;s lgh fodYi dk pquko dhft,
C3
ikni
I II III IV
C4
ikni
C3
ikni
C 4
ikni
C3
ikni
C4
ikni
C 3
ikni
C 4
ikni
C3
ikni
RuBp PEP 1 2 RUBISCO PEPCase PGA OAA 3 5
PGA OAA 1 2 RUBISCO PEPCase RuBp PEP 3 5
PGA OAA 1 2 RUBISCO PEPCase PEP RuBp 3 5
RuBp PEP 1 2 RUBISCO PEPCase PGA OAA 5 3
V
C 4
ikni
Space for rough work
CAREER POINT, CP Tower, Road No.1, IPIA, Kota (Raj.), Ph: 0744-3040000 Page # 15

Q.58 Hyaline cartilage forms embryonic skeleton. But
in adults it is present in all except-
(1) Tip of nose (2) Nasal septum
(3) Sternal part of ribs (4) Larynx
Q.59 Blood vessel leaving glomerulus in a
mammalian nephrons is called
(1) Afferent arteriole and is narrower than the
vessel leaving it.
(2) Efferent venule and is narrower than the
vessel leaving it
(3) Efferent arteriol and is narrower than the
under than the vessel entering in it
(4) Renal artery and is under than the vessel
entering in it
Q.60 Which of the following processes is helped by
bile salts -
(1)
Nucleic acid Nucleotides
Nuclease
Q.58 dkapkHk mikfLFk Hkzw.kh; dadky dk fuekZ.k djrh gSA
ysfdu O;Ld esa ;g fuEu esa ls ,d dks NksM+dj lHkh
esa ik;h tkrh gS] og gS -
(1) ukd dk f'k"kZ (2) uklk iê
(3) iLkyh dk mjksfLFky Hkkx (4) ysfjaDl
Q.59 Lru/kkfj;ksa ds usÝkWUl ds Xykses:yl fudyus okyh
:f/kj okfguh gS
(1) ,QjsUV /kefudk rFkk ;g vUnj vkus okyh
ufydk ls iryh gksrh gS
(2) bQjsUV f'kfjdk rFkk ;g ckgj vkus okyh :f/kj
okfguh ls iryh gksrh gS
(3) bQjsUV /kefudk rFkk ;g vUnj vkus okyh
ufydk ls iryh gksrh gS
(4) o`Ddh; /keuh rFkk ;g vUnj vkus okyh okfguh
ls pkSM+h gksrh gS
Q.60 fuEu eas ls dkSulh izfØ;k fiÙk yo.k ds }kjk
lgk;d ds :i esa gksrh gS -
(1)
Nucleic acid Nuclease
Nucleotides
Nucleotidase
Nucleosides
Sugar + bases
Nucleosidase
(2) Sucrose ⎯⎯→
Glucose + Fructose
⎯ Sucrase
(3) Fats ⎯→ Emulsified fat ⎯⎯
→ Diglycerides
Pr oteins ⎫
⎪
(4) Peptones ⎬
Pr oteoses⎪
⎭
⎯ Lipase
+ Monoglycerides
Trypsin/Ch ymotrypsin Dipeptides
Carboxypeptidase
Nucleotidase
Nucleosides
(2) lwØkst ⎯⎯→
Xywdksl + ÝDVksl
⎯ Sucrase
Sugar + bases
Nucleosidase
(3) olk ⎯→ ik;lhd`r olk ⎯⎯
→ MkbXykblhjkbM~l
Pr oteins ⎫
⎪
(4) Peptones ⎬
Pr oteoses⎪
⎭
⎯ Lipase
+ eksuksXykblhjkbM~l
Trypsin/Ch ymotrypsin Dipeptides
Carboxypeptidase
Space for rough work
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Q.61 The lungs expand in inspiration / inhalation
because -
(1) Diaphragm contracts upward
(2) The volume of thoracic cavity increases
(3) External intercostals muscles relax
(4) Diaphragm relaxes
Q.62 A = Auricle
V = Ventricle
Following are figures of hearts in different
animals
A A A A A A A
V V V V V
I II III IV
Identify with their characteristic hearts
I II III IV
(1) Fishes Reptiles All reptiles Birds,
Mammals
(2) Fishes Birds Reptiles,birds Mammal
(3) Fishes Amphibians
Reptiles
(4) Fishes Crocodile Amphibians,
Reptiles
Crocodiles,
Birds,
Mammal
Birds,
Mammals
Q.61 vUr%'olu@'okl ysus esa QqQl QSyrk gS D;ksafd -
(1) ruqiV Åij dh vksj gksrk gS
(2) o{kh; xqgk dk vk;ru c the volume of
both ventricles
(2) The volume of both ventricle > The volume
of both atria
(3) The volume of both atria = the volume of
both ventricles
(4) Ventricles are upper chambers and atria are
lower chambers in our heart
Q.64 Different components of reflex arc are given
below -
I. Effector organ II. Interneuron
III. Motor neuron IV. Sensory neuron
V. Sensory receptor
choose the correct order an action
potential follows after a sensory receptor is
stimulated -
(1) V, IV, III, II, I (2) V, IV, II, III, I
(3) V, III, IV, I, II (4) V, II, IV, III, I
Space for rough work
Q.63 fuEu eas ls dkSulk ekuo ân; ds ckjs eas lR; gS ?
(1) nksuksa vkfyUnksa dk vk;ru > nksuksa fuy;ksa dk
vk;ru
(2) nksuks fuy;ksa dk vk;ru > nksuksa vkfyUnksa dks
vk;ru
(3) nksuksa vkfyUnksa dk vk;ru = nksuksa fuy;ksa dk
vk;ru
(4) fuy; Åijh d{k rFkk vkfyUn fupys d{k
gksrs gSA
Q.64 uhps izfro`Ùk pki ds fofHkUu ?kVd fn;s x;s gS &
I. izHkkoh vax II. bUVjU;wjksu
III. izsjd ;k pkyd raf=kdk IV. laosnh raf=kdk
V. laosnh xzkgh
laosn xzkgh míhiu dks muds fØ;k'khy foHko ds
vk/kkj ij lgh Øe dk p;u djks &
(1) V, IV, III, II, I (2) V, IV, II, III, I
(3) V, III, IV, I, II (4) V, II, IV, III, I
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Q.65 Hamburger phenomenon is also known as -
(1) Hydrogen shift mechanism
(2) Chloride shift mechanism
(3) Carbonic acid shift mechanism
(4) Sodium-potassium pump
Multiple correct type (Q.66 to 75)
Q.66 Which of the following is a common character
between bacteria and diatom
(1) Presence of cell wall
(2) Presence of DNA & RNA
(3) Type of cell wall
(4) Plasmid
Q.67 Which of the following are true regarding
anaphase -
(1) Each chromosome move towards equatorial
plate
(2) centromere of each chromosome is towards
poles
(3) daughter chromosome move towards
opposite pole
(4) segregation of Mendellian factor occur
Q.68 Which of the following is not correct -
(1) Lysosome contain enzyme for digestion of all
macromolecule
(2) Lipoproteins are synthesized in endoplasmic
reticulam
(3) golgi body is a membranous organelle
composed of flattened vesicle
(4) Centriole form the basal body of cillia only
Q.69 Cell organelle which have electron transport
system in eukaryots -
(1) Mitochondria (2) Chloroplast
(3) Golgi body (4) Nucleus
Q.65 gSEcxZj dh ?kVuk dk vU; uke D;k gS -
(1) gkbMªkstu f'kV fof/k
(2) DyksjkbM f'kV fof/k
(3) dkcksZfud vEy f'kV fof/k
(4) lksfM;e iksVsf'k;e iEi
Multiple correct type (Q.66 to 75)
Q.66 fuEu esa ls dkSulk thok.kq ,oa Mk;,Ve ds e/;
lkekU; y{k.k gS -
(1) dksf'kdk fHkfÙk dh mifLFkfr
(2) DNA ,oa RNA dh mifLFkfr
(3) dksf'kdk fHkfÙk dk izdkj
(4) IykfTeM
Q.67 fuEu esa ls dkSulk ,ukQst ds laca/k esa lgh gS ?
(1) izR;sd xq.klw=k va{kk'kh; IysV dh vksj xfr djrk
gSA
(2) izR;sd xq.klw=k dk lsUVªkseh;j /kzqo dh vksj
(3) iq=kh xq.klw=k foifjr /kzqoksa dh vksj xfr djrs gSA
(4) es.Msfy;u dkjd dk i`FkDdj.k ik;k tkrk gSA
Q.68 fuEu esa ls dkSulk lgh ugha gS -
(1) yk;lkslkse esa o`gn~ v.kqvksa ds ikpu ds lHkh
,Utkbe gksrs gSA
(2) ykbiksizkVhu vUr% iznO;h tkfydk esa la'ysf"kr
gksrs gSA
(3) xkWYthdk; f>Yyhe; vaxd gS tks fd piVh
iqfVdkvksa ls feydj cuk gksrk gSA
(4) rkjddsUnz dsoy i{ekfHkdk dh vk/kkj dk;
cukrh gSA
Q.69 ;wdsfj;ksfVd dksf'kdk vaxd ftuesa bysDVªkWu ifjogu
ra=k gksrk gS -
(1) ekbVksdkWf.Mª;k (2) gfjryod
(3) xkWYthdk; (4) dsUnzd
Space for rough work
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Q.70 Read the following statement regarding heart
wood carefully and select the incorrect
statement-
(1) This wood comprised dead element with non
lignified wall
(2) It is light in colour and involved in water
conduction
(3) It is hard, durable and resistant to attack of
micro organism
(4) It is the greater part of secondary xylem
Q.70 vUr% dk"B ls lEcfU/kr fn;s x;s dFkuksa dks
/;kuiwoZd if

Q.74 Which is incorrect w.r.t. pheretima -
(1) Testes are one pair located in 10-11
segments.
(2) Ovaries are one pair located in 13-14
segments
(3) Seminal vesicles are two pairs
(4) Spermathecae are located in 5/6/7/8
segments
Q.75 Carbonic anhydrase absent in -
(1) Lymphocytes (2) Blood plasma
(3) RBC (4) Leucocytes
MATHEMATICS
Single correct type (Q.51 to 65)
OR
Q.51 On the portion of the straight line x + y = 3
which is intercepted between the axes, a square
is constructed, away from the origin, with this
portion as one of its side. If p denotes the
perpendicular distance of a side of this square
from the origin, then the maximum value of p
is -
3 9
(1) 3 2 (2) (3) (4) 9 2
2 2
Q.52 The equation of the circle of radius 2 2 whose
centre lies on the line x – y = 0 and which
touches the line x + y = 4 and whose centre's
coordinates satisfy the inequality x + y > 4 is -
(1) x 2 + y 2 – 8x – 8y + 24 = 0
(2) x 2 + y 2 = 8
(3) x 2 + y 2 – 8x + 8y = 24
(4) none of these
Q.53 If A and B are acute positive angles satisfying
the equation
3sin 2 A + 2sin 2 B = 1 and 3 sin 2A – 2 sin 2B = 0
then A + 2B is equal to -
π π π 3π
(1) (2) (3) (4)
4 2 3 4
Q.74 QsjsfVek ds fy, Øe'k% dkSulk lgh ugha gS -
(1) o`"k.k ,d tksM+h tks 10-11 osa [k.M esa fLFkr gksrs gS
(2) v.Mk'k; ,dtksM+h tks 13-14 osa [k.M esa fLFkr
(3) 'kqØk'k; nks tksM+h gksrs gS
(4) 'kqØxzkfgdk 5/6/7/8 osa [k.M esa fLFkr gksrh gS
Q.75 dkcksZfud ,UkgkbMªst vuqifLFkr gksrk gS -
(1) fyEQkslkbV~l esa (2) jDr IykTek esa
(3) RBC esa (4) Y;qdkslkbV~l esa
MATHEMATICS
Single correct type (Q.51 to 65)
Q.51 ljy js[kk x + y = 3 ds ml Hkkx tks v{kksa ds e/;
vUr%[kf.Mr gS] dks oxZ dh ,d Hkqtk ysdj ewyfcUnq
ds foijhr vksj ,d oxZ cuk;k tkrk gSA ;fn p bl
oxZ dh ,d Hkqtk dh ewyfcUnq ls yEcor~ nwjh dks
O;Dr djrk gS] rc p dk vf/kdre eku gS-
3 9
(1) 3 2 (2) (3) (4) 9 2
2 2
Q.52 ml o`Ùk dk lehdj.k ftldh f=kT;k 2 2 gS ,oa dsUnz
js[kk x – y = 0 ij fLFkr gS rFkk tks js[kk
x + y = 4 dks Li'kZ djrk gS ,oa ftlds dsUnz ds
funsZ'kkad vlfedk x + y > 4 dks lUrq"V djrs gS] gksxk -
(1) x 2 + y 2 – 8x – 8y + 24 = 0
(2) x 2 + y 2 = 8
(3) x 2 + y 2 – 8x + 8y = 24
(4) buesa ls dksbZ ugha
Q.53 ;fn A rFkk B /kukRed U;wudks.k gS tks lehdj.k
3sin 2 A + 2sin 2 B = 1 rFkk 3 sin 2A – 2 sin 2B = 0
dks lUrq"V djrs gS] rc A + 2B cjkcj gS -
π π π 3π
(1) (2) (3) (4)
4 2 3 4
Space for rough work
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Q.54 If x = α, β satisfies both the equation
cos 2 x + a cosx + b = 0 and sin 2 x + p sinx + q = 0
then the relation between a, b, p and q is -
(1) 1 + b + a 2 = p 2 – q – 1
(2) a 2 + b 2 = p 2 + q 2
(3) b + q = a 2 + p 2 – 2
(4) none of these
Q.55 The values of x between 0 and 2π which satisfy
2
the equation sinx 8cos x = 1 are in A.P. The
common difference of A.P. is -
π π 3π 5π
(1) (2) (3) (4)
8 4 8 8
Q.56 A line bisecting the ordinate PN of a point
P(at 2 , 2at), t > 0 on the parabola y 2 = 4ax is
drawn parallel to the axis to meet the curve at Q.
If NQ meets the tangent at the vertex at the point
T then the co-ordinates of T are -
⎛ 4 ⎞
(1) ⎜0 , at⎟ (2) (0, 2at)
⎝ 3 ⎠
1 2
⎛ ⎞
(3) ⎜ at ,at⎟ ⎝ 4 ⎠
(4) (0, at)
Q.57 If F 1 = (3, 0) and F 2 = (–3, 0) and P is any point
on the curve 16x 2 + 25y 2 = 400 then PF 1 + PF 2
equals -
(1) 8 (2) 6 (3) 10 (4) 12
Q.58 If equation (x ±1) 2 + (y ±1) 2 = 1 represents four
circles then equation of circle which touches
these four circles internally, is -
(1) x 2 + y 2 = 3 − 2 2 (2) x 2 + y 2 = 3 + 2 2
(3) x 2 + y 2 = 2 2 − 3 (4) x 2 + y 2 = 1+ 2
Q.54 ;fn x = α, β nksuksa lehdj.kksa cos 2 x + a cosx + b = 0
,oa sin 2 x + p sinx + q = 0 dks lUrq"V djrs gS] rc
a, b, p ,oa q ds e/; lEcU/k gS -
(1) 1 + b + a 2 = p 2 – q – 1
(2) a 2 + b 2 = p 2 + q 2
(3) b + q = a 2 + p 2 – 2
(4) buesa ls dksbZ ugha
Q.55 0 ,oa 2π ds e/; x ds eku tks lehdj.k
2
sinx 8cos x = 1 dks lUrq"V djrs gS] l-Js- esa gSA
rc l-Js- dk lkoZvUrj gS -
π π 3π 5π
(1) (2) (3) (4)
8 4 8 8
Q.56 ijoy; y 2 = 4ax ij fLFkr fcUnq P(at 2 , 2at), t > 0
dh dksfV PN dks lef}Hkkftr djus okyh ,d js[kk]
v{k ds lekUrj [khaph xbZ gS tks oØ dks Q ij
feyrh gSA ;fn NQ 'kh"kZ ij [khpha xbZ Li'kZjs[kk dks
fcUnq T ij feyrh gS] rc T ds funZs'kkad gS -
⎛ 4 ⎞
(1) ⎜0 , at⎟ (2) (0, 2at)
⎝ 3 ⎠
1 2
⎛ ⎞
(3) ⎜ at ,at⎟ ⎝ 4 ⎠
(4) (0, at)
Q.57 ;fn F 1 = (3, 0) ,oa F 2 = (–3, 0) rFkk P oØ
16x 2 + 25y 2 = 400 ij fLFkr dksbZ fcUnq gS] rc
PF 1 + PF 2 cjkcj gS -
(1) 8 (2) 6 (3) 10 (4) 12
Q.58 ;fn lehdj.k (x ±1) 2 + (y ±1) 2 = 1 pkj o`Ùkksa dks
iznf'kZr djrh gS] rc bu pkj o`Ùkksa dks vUr% Li'kZ
djus okys o`Ùk dk lehdj.k gS -
(1) x 2 + y 2 = 3 − 2 2 (2) x 2 + y 2 = 3 + 2 2
(3) x 2 + y 2 = 2 2 − 3 (4) x 2 + y 2 = 1+ 2
Space for rough work
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Q.59 If a and b (≠ 0) are the roots of the equation
x 2 + ax + b = 0, then the least value of
x 2 + ax + b (x ∈ R) is -
4 9 3
(1) 2 (2) (3) – (4) 9 4 2
Q.60 If 1 2 + 2 2 + 3 2 + ....+ 2003 2 = (2003) (4007) (334)
and (1) (2003) + (2) (2002) + (3) (2001) + .... +
(2003) (1) = (2003) (334) (x), then x
equals -
(1) 2005 (2) 2004 (3) 2003 (4) 2001
Q.61 The minimum value of
positive real numbers x, y, z is -
(1) 2 (2) 2 2
(3) 4 2 (4) 8 2
x
4
4
+ y + z
xyz
Q.62 2m white counters and 2n red counters are
arranged in a straight line with (m + n) counters
on each side of a central mark. The number of
ways of arranging the counters, so that the
arrangements are symmetrical with respect to the
central mark, is -
(1) m+n C m (2) 2m+2n C 2m
1 ( m + n)!
(3) (4) none of these
2 m!n!
20
Q.63 The value of ∑r (20 − r) ( 20 C r ) 2 is equal to -
r=
0
(1) 400 39 C 20 (2) 400 40 C 19
(3) 400 39 C 19 (4) 400 38 C 20
2
for
Q.64 In the expansion of ( 4 9 + 6 8 ) 500 the number of
terms which are integral is -
(1) 250 (2) 43
(3) 251 (4) 44
Q.65 If a variable takes the values 0, 1, 2, 3, ...... n
with frequencies
n C 0 ,
n C 1 ,
n C 2 , ....
n C n
respectively then variance of distribution is -
(1) n (2)
n
2
(3) 2
n
(4) 4
n
Q.59 ;fn a ,oa b (≠ 0) lehdj.k x 2 + ax + b = 0 ds ewy
gSa, rc x 2 + ax + b (x ∈ R) dk U;wure eku gS -
4 9 3
(1) 2 (2) (3) – (4) 9 4 2
Q.60 ;fn 1 2 + 2 2 + 3 2 + ....+ 2003 2 = (2003) (4007) (334)
,oa (1) (2003) + (2) (2002) + (3) (2001) + ....
+ (2003) (1) = (2003) (334) (x), rc x dk eku gS -
(1) 2005 (2) 2004 (3) 2003 (4) 2001
Q.61 /kukRed okLrfod la[;kvksa x, y, z ds fy,
x
4
4
+ y + z
xyz
2
dk U;wure eku gS -
(1) 2 (2) 2 2 (3) 4 2 (4) 8 2
Q.62 2m lQsn ladsrdksa rFkk 2n yky ladsrdksa dks ,d
ljy js[kk esa e/; fpUg~ ds izR;sd vksj
(m + n) ladsrdksa dks O;ofLFkr djuk gSA ladsrdksa
dks O;ofLFkr djus ds rjhdksa dh la[;k rkfd e/;
fpUg~ ds lkis{k O;oLFkk, lefer gks] gksxh -
(1) m+n C m (2) 2m+2n C 2m
1 ( m + n)!
(3) (4) buesa ls dksbZ ugha
2 m!n!
20
Q.63 ∑r (20 − r) ( 20 C r ) 2 dk eku gS -
r=
0
(1) 400 39 C 20 (2) 400 40 C 19
(3) 400 39 C 19 (4) 400 38 C 20
Q.64 ( 4 9 + 6 8 ) 500 ds izlkj esa iw.kkZad inksa dh la[;k
gS -
(1) 250 (2) 43 (3) 251 (4) 44
Q.65 ;fn ,d pj] 0, 1, 2, 3, ...... n eku ysrk gS ftudh
ckjEckjrk,sa Øe'k% n C 0 , n C 1 , n C 2 , .... n C n gS] rc caVu
dk izlj.k gksxk -
(1) n (2)
n
2
(3) 2
n
(4) 4
n
Space for rough work
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Multiple correct type (Q.66 to 75)
Q.66 The equation
in the -
sin 2 x cos x
81 + 81 2
= 30 has two roots
(1) I quadrant (2) II quadrant
(3) III quadrant (4) IV quadrant
Q.67 Let there be two parabolas with the same axis,
focus of each being exterior to the other and
latus rectum being 4a and 4b. The locus of the
middle points of the intercepts between the
parabolas made on the lines parallel to the
common axis is a -
(1) straight line if a = b
(2) parabola if a ≠ b
(3) parabola for all a, b
(4) None of these
Q.68 If A and B are two points on the circle
x 2 + y 2 – 4x + 6y – 3 = 0 which are farthest and
nearest respectively from the point (7, 2) then -
(1) A = (2 – 2 2 , – 3 – 2 2 )
(2) B = (2 + 2 2 , – 3 + 2 2 )
(3) A = (2 + 2 2 , –3 + 2 2 )
(4) B = (2 – 2 2 , –3 + 2 2 )
Multiple correct type (Q.66 to 75)
sin x
Q.66 lehdj.k 81 2 cos x
+ 81 2
= 30 ds nks ewy gS -
(1) I prqFkkZa'k esa (2) II prqFkkZa'k esa
(3) III prqFkkZa'k esa (4) IV prqFkkZa'k esa
Q.67 ekuk nks ijoy; gS ftuds v{k leku gS] izR;sd dh
ukfHk nwljs ds ckgj fLFkr gS rFkk ukfHkyEc 4a ,oa 4b
gSA mHk;fu"B v{k ds lekUrj js[kkvksa ij ijoy;ksa ds
e/; cus vUr%[k.Mkas ds e/; fcUnqvksa dk fcUnqiFk gS-
(1) ,d ljy js[kk ;fn a = b
(2) ,d ijoy; ;fn a ≠ b
(3) lHkh a, b ds fy, ,d ijoy;
(4) buesa ls dksbZ ugha
Q.68 ;fn A rFkk B o`Ùk x 2 + y 2 – 4x + 6y – 3 = 0 ij nks
fcUnq gS tks fcUnq (7, 2) ls Øe'k% nwjLFk rFkk
fudVLFk gS] rc -
(1) A = (2 – 2 2 , – 3 – 2 2 )
(2) B = (2 + 2 2 , – 3 + 2 2 )
(3) A = (2 + 2 2 , –3 + 2 2 )
(4) B = (2 – 2 2 , –3 + 2 2 )
Q.69 If f(x) = 27x 3 +
1
3 and α, β are the roots of
x
Q.69 ;fn f(x) = 27x 3 +
1
3
x
rFkk α, β lehdj.k
3x + x
1 = 2 then -
(1) f(α) = f(β) (2) f(α) = 0
(3) f(β) = –10 (4) f(α) = 10
3x +
x
1 = 2 ds ewy gS] rc -
(1) f(α) = f(β) (2) f(α) = 0
(3) f(β) = –10 (4) f(α) = 10
Space for rough work
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Q.70 The straight lines x + y = 0, 3x + y – 4 = 0 and
x + 3y – 4 = 0 form a triangle which is -
(1) Isosceles
(2) Right angled
(3) Obtuse angled
(4) Equilateral
Q.71 The graph of exp. ax 2 + bx + c (a, b, c ∈ R) with
vertex on y-axis as shown in figure. Then which
is correct -
y
Q.70 js[kk,sa x + y = 0, 3x + y – 4 = 0 rFkk
x + 3y – 4 = 0 ,d f=kHkqt cukrh gS tks gS -
(1) lef}ckgq
(2) ledks.k
(3) vf/kd dks.k
(4) leckgq
Q.71 O;atd ax 2 + bx + c (a, b, c ∈ R) ftldk 'kh"kZ
y-v{k ij fLFkr gS] dk xzkQ fuEu fp=k esa n'kkZ;k
x;k gS] rc dkSulk dFku lgh gS -
y
O
(1) product of roots of corresponding equation is
+ve
(2) discriminant of Q.E. is –ve
(3) nothing can say about sum of roots whether
+ve, –ve or zero
(4) Both roots of Q.E. are purely imaginary
Q.72 For the series,
1
S = 1 + (1 + 2) 2 +
(1 + 3)
1
+
(1 + 2 + 3 + 4) 2 + ....
(1 + 3 + 5 + 7)
(1) 7 th term is 16
(2) 7 th term is 18
505
(3) sum of first 10 terms is
4
405
(4) sum of first 10 terms is
4
x
1
(1 + 2 + 3) 2
(1 + 3 + 5)
Q.72 Js.kh
O
(1) laxr lehdj.k ds ewyksa dk xq.kuQy /kukRed gSA
(2) f}?kkr lehdj.k dk foospd _.kkRed gSA
(3) ewyksa ds ;ksxQy ds ckjs esa dqN ugha dg ldrs gS
fd /kukRed gS] _.kkRed gS ;k 'kwU; gSA
(4) f}?kkr lehdj.k ds nksuksa ewy fo'kq) dkYifud
gSaA
1
S = 1 + (1 + 2) 2 +
(1 + 3)
x
1
(1 + 2 + 3) 2
(1 + 3 + 5)
1
+
(1 + 2 + 3 + 4) 2 + .... ds fy,
(1 + 3 + 5 + 7)
(1) 7ok¡ in 16 gS
(2) 7ok¡ in 18 gS
(3) izFke 10 inksa dk ;ksxQy
(4) izFke 10 inksa dk ;ksxQy
505 gS
4
405 gS
4
Space for rough work
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Q.73 The probability that a married man watches a
certain TV show is 0.4 and the probability that a
married woman watches the show is 0.5. The
probability that a man watches the show, given
that his wife does, is 0.7. Then -
(1) the probability that married couple watches
the show is 0.35
(2) the probability that a wife watches the show
given that her husband does is 7/8
(3) the probability that atleast one person of a
married couple will watch the show is 0.55
(4) none of these
Q.73 ,d fookfgr O;fDr ds }kjk ,d fuf'pr TV 'kks
ns[kus dh izkf;drk 0.4 gS rFkk fookfgr efgyk ds
}kjk 'kks ns[kus dh izkf;drk 0.5 gSA O;fDr ds }kjk
'kks ns[kus dh izkf;drk] fn;k x;k gS fd mldh iRuh
ns[krh gS] 0.7 gS] rc -
(1) fookfgr tksM+s ds }kjk 'kks ns[kus dh izkf;drk
0.35 gSA
(2) iRuh ds }kjk 'kks ns[kus dh izkf;drk] fn;k x;k
gS] fd mldk ifr ns[krk gS] 7/8 gSA
(3) ,d fookfgr tksM+s esa ls de ls de ,d lnL;
ds }kjk 'kks ns[kus dh izkf;drk 0.55 gSA
(4) buesa ls dksbZ ugha
Q.74 If P, Q, R are subsets of set A then R × (P c ∪ Q c ) c
is -
(1) (R × P) ∩ (R × Q)
(2) (R × Q) ∩ (R × P)
(3) (R × P) ∪ (R × Q)
(4) R × (P ∩ Q)
Q.75 If z 1 and z 2 are two complex numbers such that
|z 1 + z 2 | 2 = |z 1 | 2 + |z 2 | 2 , then
(1) z 1 z 2
is purely imaginary
(2) z 1 / z 2
is purely imaginary
(3) z 1 z 2
+ z 1 z 2
= 0
(4) O, z 1 , z 2 are vertices of a right triangle
Q.74 ;fn P, Q, R leqPp; A ds mileqPp; gS] rc
R × (P c ∪ Q c ) c cjkcj gS -
(1) (R × P) ∩ (R × Q)
(2) (R × Q) ∩ (R × P)
(3) (R × P) ∪ (R × Q)
(4) R × (P ∩ Q)
Q.75 ;fn z 1 ,oa z 2 nks lfEeJ la[;k,sa bl izdkj gS fd
|z 1 + z 2 | 2 = |z 1 | 2 + |z 2 | 2 , rc
(1) z 1 z 2
fo'kq) dkYifud gSA
(2) z 1 / z 2
fo'kq) dkYifud gSA
(3) z 1 z 2
+ z 1 z 2
= 0
(4) O, z 1 , z 2 ledks.k f=kHkqt ds 'kh"kZ gSA
Space for rough work
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SECTION-B [MAT]
MENTAL ABILITY (Q.76 to Q.120)
Q.76 What is the minimum number of colours
required to fill the spaces in the diagram
without the adjacent sides having the same
colour –
MENTAL ABILITY (Q.76 to Q.120)
Q.76 vkd`fr esa LFkkuksa dh iwfrZ djus ds fy, U;wure
fdrus jaxks dh vko';drk gksxh tcfd layXu Hkqtk,sa
leku jax dh uk gks –
(1) 2 (2) 3 (3) 4 (4) 6
Q.77 The lateral sides of a block in the shape of a
six-sided prism is painted in Violet, Blue,
Green, Yellow, Orange and Red. Two of its
positions are shown below :
(1) 2 (2) 3 (3) 4 (4) 6
Q.77 N% Qydh; fizTe ds vkdkj ds ,d CykWd dh ik'oZ
Hkqtkvksa ij cSaxuh] uhyk] gjk] ihyk] ukjaxh rFkk yky jax
fd, x, gSaA bldh nks fLFkfr;k¡ uhps n'kkZ;h x;h gS :
V G B
Y B
O
V G B
Y B
O
When the block is laid as in the figure what are
the colours adjacent to the Red side ?
tc CykWd dks fuEu vkd`fr ds :i esa n'kkZ;k tkrk
gS rks yky jax dh Hkqtk ds layXu dkSuls jax gksaxs ?
R
(1) Yellow and Orange
(2) Yellow and Blue
(3) Violet and Yellow
(4) Violet and Orange
(1) ihyk o ukjaxh
(2) ihyk o uhyk
(3) cSaxuh o ihyk
(4) cSaxuh o ukjaxh
R
Q.78 Count the number of triangles and squares into
the following figure –
Q.78 fuEu vkd`fr esa f=kHkqtksa rFkk oxksZa dh la[;k
gksxh –
(1) 28 triangles, 10 squares
(2) 28 triangles, 8 squares
(3) 32 triangles, 10 squares
(4) 32 triangles, 8 squares
Space for rough work
(1) 28 f=kHkqt, 10 oxZ
(2) 28 f=kHkqt, 8 oxZ
(3) 32 f=kHkqt, 10 oxZ
(4) 32 f=kHkqt, 8 oxZ
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Direction : (Q.79 to Q.80)
In each of the following question, a
metrices of certain characters is given.
These characters follow a certain trend,
row-wise or column-wise. Find out this
trend and choose the missing character
accordingly.
Q.79
Z ? S
R O ?
? G C
(1) WJK (2) KWT (3) WKJ (4) JKW
funsZ'k : (Q.79 to Q.80)
uhps fn, x, izR;sd iz'u esa fuf'pr la[;kvksa dh
eSfVªDl nh xbZ gSaA ;s l[;k,sa fuf'pr izk:i esa
iafDr rFkk LrEHk :i esa fy[kh xbZ gSA bl izk:i
dks /;ku esa j[kdj NwVh gqbZ la[;k Kkr dhft,A
Q.79
Z ? S
R O ?
? G C
(1) WJK (2) KWT (3) WKJ (4) JKW
Q.80
28 60 48
Q.80
28 60 48
5 6 7
5 6 7
14 39 27
14 39 27
7 ? 16
7 ? 16
(1) 18 (2) 23 (3) 24 (4) 27
(1) 18 (2) 23 (3) 24 (4) 27
Direction : (Q.81 to Q.82)
In each of the following questions, there is a
certain relationship between two given
words on one side of : : and one word is
given on another side of : : While another
word is to be found from the given
alternatives, having the same relation with
this words of the given pair bear,. Choose
the correct alternatives.
Q.81 Moon : Satellite : : Earth : ?
(1) Sun (2) Planet
(3) Solar system (4) Asteroid
Q.82 Aeroplane : Cockpit : : Train : ?
(1) Wagon (2) Coach
(3) Compartment (4) Engine
funsZ'k : (Q.81 to Q.82)
uhps fn, x, izR;sd iz'u esa fpUg : : ds ,d vksj nks
'kCn fn, x, gS tks ,d nwljs ls lEcfU/kr gS]
fpUg : : ds nwljh vksj ,d 'kCn ,oa iz'u fpUg
fn;k x;k gSA vkidks iz'u fpUg ds LFkku ij fn;s
x, mÙkj fodYiksa esa ls ,d 'kCn pquuk gS ftldk
nwljh vksj okys 'kCn ls ogh lEcU/k gS tks ,d vksj
okys nksuksa 'kCnksa esa gSA lgh fodYi pqfu,A
Q.81 pnzek : mixzg : : i`Foh : ?
(1) lw;Z (2) xzg
(3) lkSj ra=k (4) y?kq xzg
Q.82 gokbZ tgkt : dkWdfiV : : jsyxkM+h : ?
(1) osxu (2) dksp
(3) fMCck (4) batu
Space for rough work
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Direction : (Q.83)
In this type of question, two groups of
alphabets related to each other in same way,
are given. The candidate is required to find
out this relationship and choose a group of
alphabets which is related in the same way
to a third group provided the questions.
Q.83 ABCD : OPQR : : WXYZ : ?
(1) EFGH (2) KLMN
(3) QRST (4) STUV
Direction : (Q.84)
In the following question, four words have
been given, out of which three are alike in
some manner and the fourth one is different.
Choose out the odd one.
Q.84 (1) Yuri Gagarin (2) Rakesh Sharma
(3) Neil Armstrong (4) Edmund Hillary
Q.85 Which term will replace the question mark in
the series –
ABD, DGK, HMS, MTB, SBL, ?
(1) ZKW (2) ZKU (3) ZAB (4) XKW
Direction : (Q.86)
In each of the following letter series, some of
the letters are missing which are given in
that order as one of the alternatives below it.
Choose the correct alternative.
Q.86 __ __ aba __ __ ba __ ab –
(1) abbba (2) abbab
(3) baabb (4) bbaba
Q.87 If CONTRIBUTE is written as
ETBUIRNTOC, which letter will be in the
sixth place when counted from the left if
POPULARISE is written in that code ?
(1) L (2) A (3) I (4) R
Q.88 If PAINT is coded as 74128 and EXCEL is
coded as 93596, then how would you encode
ACCEPT ?
(1) 455978 (2) 547978
(3) 554978 (4) 735961
funsZ'k : (Q.83)
fuEu iz'u esa vaxzth v{kjksa ds rhu lewg fn, x,s gSA
buesa izFke nks lewg vkil esa lEcfU/kr gS Bhd mlh
izdkj dk lEcU/k vfUre nks lewg ds fy, mÙkj
fodYi esa pqfu,A
Q.83 ABCD : OPQR : : WXYZ : ?
(1) EFGH (2) KLMN
(3) QRST (4) STUV
funsZ'k : (Q.84)
fuEu iz'u esa pkj 'kCn fn, x, ftuesa ls rhu fdlh
Hkh izdkj ls leku gS rFkk pkSFkk fHkUu gSA rks ml
fHkUu dks pqfu,A
Q.84 (1) ;wjh xkxfju (2) jkds'k 'kekZ
(3) uhy vkeZLVªkax (4) ,Me.M fgysjh
Q.85 fuEu Js.kh esa iz'u fpUg ds LFkku ij dkSulk in
vk,xk –
ABD, DGK, HMS, MTB, SBL, ?
(1) ZKW (2) ZKU (3) ZAB (4) XKW
funsZ'k : (Q.86)
fuEu v{kjksa dh Js.kh esa dqN v{kj NwVs gq, gSA uhps
fn, x, fodYiksa esa ls lgh fodYi pqfu,A
Q.86 __ __ aba __ __ ba __ ab –
(1) abbba (2) abbab
(3) baabb (4) bbaba
Q.87 ;fn CONTRIBUTE dks ETBUIRNTOC fy[kk tkrk
gS rks POPULARISE dks ml dksM ds vuqlkj fy[kus
ij ck;sa ls NBs LFkku ij dkSulk v{kj gksxk ?
(1) L (2) A (3) I (4) R
Q.88 ;fn PAINT dks 74128 rFkk EXCEL dks 93596
fy[kk tkrk gS rks ACCEPT dks fdl izdkj fy[kk
tk,xk ?
(1) 455978 (2) 547978
(3) 554978 (4) 735961
Space for rough work
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Q.89 If AT = 20, BAT = 40, then CAT will be equal
to –
(1) 30 (2) 50 (3) 60 (4) 70
Q.90 If diamond is called gold, gold is called silver,
silver is called ruby and ruby is called emerald,
which is the cheapest jewel ?
(1) Diamond (2) Silver
(3) Gold (4) Ruby
Q.91 In a certain code language, '851' means 'good
sweet fruit'; '783' means 'good red rose' and
'341' means 'rose and fruit'. Which of the
following digits stands for 'sweet' in that
language ?
(1) 8 (2) 5 (3) 1 (4) 3
Q.92 Pointing to a photograph, a man said, "I have
no brother or sister but that man's father is my
father's son." Whose photograph was it ?
(1) His own (2) His son's
(3) His father's (4) His nephew's
Q.93 Given that
(a) A is the mother of B
(b) C is the son of A.
(c) D is the brother of E
(d) E is the daughter of B
The grandmother of D is –
(1) A (2) B (3) C (4) E
Q.94 A man is facing west. He turns 45º in the
clockwise direction and then another 180º in
the same direction and then 270º in the
anticlockwise direction. Which direction is he
facing now ?
(1) South (2) North-west
(3) West (4) south-west
Q.95 Kunal walks 10 km towards North. From
there he walks 6 km towards South. Then, he
walks 3 km towards East. How far and in
which direction is he with reference to his
starting point ?
(1) 5 km West (2) 7 km West
(3) 7 km East (4) 5 km North-East
Q.89 ;fn AT = 20, BAT = 40, rks CAT cjkcj gskxk –
(1) 30 (2) 50 (3) 60 (4) 70
Q.90 ;fn ghjs dks lksuk, lksus dks pk¡nh] pk¡nh dks :ch rFkk
:ch dks iUuk dgk tk, rks lcls lLrk vkHkw"k.k
dkSulk gS ?
(1) ghjk (2) pk¡nh (3) lksuk (4) :ch
Q.91 ;fn fdlh lkadsfrd Hkk"kk esa '851' dk vFkZ 'good
sweet fruit'; '783' dk vFkZ 'good red rose' rFkk '341'
dk vFkZ 'rose and fruit' gS rks ml Hkk"kk ds vuqlkj
'sweet' ds fy, dkSulk vad vk,xk ?
(1) 8 (2) 5 (3) 1 (4) 3
Q.92 ,d rLohj dh vksj b'kkjk djrs gq, ,d O;fDr us dgk
"esjk dksbZ HkkbZ o cgu ugha gS ijUrq ml O;fDr ds
firkth esjs firk dk iq=k gS" ;g fdldh rLohj Fkh ?
(1) Loa; dh (2) mlds yM+ds dh
(3) mlds firkth dh (4) mlds Hkrhts dh
Q.93 fn;k x;k gS fd
(a) A, B dh ek¡ gS
(b) C, A dk iq=k gS .
(c) D, E dk HkkbZ gS
(d) E, B dh iq=kh gS
D dh nknh gksxh –
(1) A (2) B (3) C (4) E
Q.94 ,d O;fDr if'pe dh vksj eq¡g djds [k+M+k gSA og
nf{k.kkorZ fn'kk esa 45º eqM+rk gS rFkk mlh fn'kk esa
fQj 180º eqM+rk gS vkSj fQj 270º okekorZ fn'kk esa
eqM+rk gS] vc og dkSulh fn'kk esa eq¡g djds [kM+k gS ?
(1) nf{k.k (2) mÙkj-if'pe
(3) if'pe (4) nf{k.k-if'pe
Q.95 dquky 10 km mÙkj dh vksj pyrk gSA ogk¡ ls og
6 km nf{k.k dh vksj pyrk gSA rc og 3 km iwoZ dh
vksj pyrk gS rks og mlds izkjafHkd fcUnq ls fdruh
nwj ,oa dkSulh fn'kk esa gS ?
(1) 5 km if'pe (2) 7 km if'pe
(3) 7 km iwoZ (4) 5 km mÙkj-iwoZ
Space for rough work
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Q.96 Which of the following diagrams correctly
represents "Elephants, Wolves, Animals" ?
(1)
(2)
(3)
(4)
Q.97 Which is the most suitable Venn diagram
among the following, which represents
interrelationship among "Antisocial elements,
Pick pockets and Black mailers" ?
(1)
(2)
Q.96 fuEu esa ls dkSulh vkd`fr "gkFkh] HksfM+;k] tkuoj" ds
fy, lgh izn'kZu djrh gS ?
(1)
(2)
(3)
(4)
Q.97 fuEu esa ls ml osu vkjs[k dk p;u dhft, tks
"vlkekftd rRo] tscdrjs] Cysdesyj" ds e/; vkilh
lEcU/k dk loksZÙke izfrfuf/kRo djs ?
(1)
(2)
(3)
(3)
(4)
(4)
Q.98 In the given figure, the triangle represents girls,
the square represents sports persons and the
circle represents coaches. The portion in the
figure which represents girls, who are sports
persons but not coaches is the one labelled –
A
B
C
D
E
(1) A (2) B
(3) D (4) E
F
Q.98 nh xbZ vkd`fr esa f=kHkqt yM+fd;ksa dks] oxZ f[kykfM+;ksa
dks rFkk o`Ùk dkspksa dks iznf'kZr djrk gSA vkd`fr dk
og Hkkx tks mu yM+fd;ksa dks iznf'kZr djrk gS tks
f[kykM+h gS ijUrq dksp ugha gS] gksxk –
A
B
C
D
E
(1) A (2) B
(3) D (4) E
F
Space for rough work
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Q.99 The diagram below represents the students
who study Physics, Chemistry and
Mathematics. Study the diagram and identify
the region which represents the students who
study Physics and Mathematics but not
Chemistry –
X
Y
Physics
Chemistry
P V Q
Q.99 fuEu vkd`fr esa mu fo|kfFkZ;ksa dks n'kkZ;k x;k gS tks
HkkSfrd] jlk;u rFkk xf.kr i

Q.103 If ÷ means +, – means ÷, × means – and
+ means ×, then
(36 × 4) – 8×
4
= ?
4 + 8×
2 + 16 ÷ 1
(1) 0 (2) 8
(3) 12 (4) 16
Q.104 Consider the diagram given below :
English
Hindi
30 10 75
5
12 12
50 Mathematics
Five hundred candidates appeared in an
examination comprising of tests in English,
Hindi and Mathematics. The diagram gives the
number of candidates who failed in different
tests. What is the percentage of candidates who
failed in at least two subjects ?
(1) 0.078 (2) 1.0
(3) 6.8 (4) 7.8
Direction : (Q.105)
In the following question, a set of figures
carrying certain characters, is given.
Assuming that the characters in each set
follow a similar pattern, find the missing
character in each case.
Q.105
93
27 79
37
38 67
16
Q.103 ;fn ÷ dk vFkZ +, – dk vFkZ ÷, × dk vFkZ – ,oa
(36 × 4) – 8×
4
+ dk vFkZ ×, gS rc
= ?
4 + 8×
2 + 16 ÷ 1
(1) 0 (2) 8
(3) 12 (4) 16
Q.104 fuEu vkd`fr ij fopkj dhft, :
vaxzsth
fgUnh
30 10 75
5
12 12
50
xf.kr
vaxzsth] fgUnh rFkk xf.kr dh ijh{kk esa 500 ijh{kkFkhZ
cSBrs gSA vkd`fr fofHkUu fo"k;ksa dh ijh{kkvksa esa
vlQy gq, ijh{kkfFkZ;ksa dh la[;k dks n'kkZrh gS rks
de ls de nks fo"k;ksa esa vlQy gksus okys
ijh{kkfFkZ;ksa dk izfr'kr D;k gksxk ?
(1) 0.078 (2) 1.0
(3) 6.8 (4) 7.8
funsZ'k : (Q.105)
fuEu iz'u esa vkd`fr;ksa lewgksa esa fuf'pr la[;k,sa nh
xbZ gSaA ;g ekurs gq, fd izR;sd lewg dh la[;k,sa
leku izk:i dk vuqlj.k djrh gS] NqVh gqbZ la[;k
Kkr dhft,A
Q.105
93
27 79
37
38 67
16
63
42
63
42
3
A
B C
(1) 5 (2) 6
(3) 8 (4) 9
Q.106 A camera always has –
(1) Lens (2) Reels
(3) Flash (4) Photograph
4
?
3
A
B
(1) 5 (2) 6
(3) 8 (4) 9
Q.106 ,d dSejs esa lnSo gksrk gS–
(1) ysUl (2) jhy
(3) yS'k (4) QksVks
4
?
C
Space for rough work
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Direction : (Q.107)
In the following question which is the
mirror image of the given figure when the
mirror is placed along the line shown in
each one of the figures.
Q.107
funsZ'k : (Q.107)
fuEu iz'u eas nh-xbZ vkd`fr dk niZ.k izfrfcEc fn,
x, mÙkj fodYiksa esa ls Kkr dhft, tcfd niZ.k
js[kk ds vuqfn'k j[kk x;k gSA
Q.107
M
(X)
M N M N M
N
N
M
N
M
M N M N
(X)
M
N
N
M
N
(1) (2)
(3)
(4)
Direction : (Q.108 to Q.109)
In the following question, choose the correct
water-image of the figure (X) from amongst
the four alternatives (1), (2), (3) and (4) given
along with it.
Q.108
(1) (2)
funsZ'k : (Q.108 to Q.109)
Q.108
(3)
(4)
fuEu iz'u esa fp=k (X) dk lgh ty izfrfcEc fn, x,
pkj fodYiksa esa ls dkSulk gSA
(X)
(X)
(1)
(1)
(2)
(2)
(3)
(3)
(4)
Space for rough work
(4)
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Q.109
Q.109
(X)
(X)
(1) (2) (3) (4)
Q.110 Select one alternative figure out of (1), (2), (3)
and (4), which completes the given matrix.
(1) (2) (3) (4)
Q.110 vkd`fr (1), (2), (3) rFkk (4) esa ls ,d fodYi pqfu,
tks nh xbZ eSfVªDl dks iw.kZ djrk gS
?
?
(1) (2) (3) (4)
Q.111 The six faces of a cube have been marked with
numbers 1, 2, 3, 4, 5 and 6 respectively. This
cube is rolled down three times. The three
positions are given. Choose the figure that will
be formed when the cube is unfolded –
3
2
2
4
1
6
(1)
6
4
1
3
(3)
6
4
2
5
5
1
3
2
5
6
3
3
2
5
6
1
2
(2)
1
3
6
5
(4)
4
4
Space for rough work
(1) (2) (3) (4)
Q.111 ,d ?ku dh 6 Qydksa ij la[;k,sa Øe'k%
1, 2, 3, 4, 5 ,oa 6 vafdr gSA bl ?ku dks rhu ckj
mNkyk tkrk gSA rhu fLFfkr;k¡ nh xbZ gSA ml vkd`fr
dk p;u dhft, tks ?ku dks eksM+s fcuk cuk;h tk
ldrh gS –
3
2
2
4
1
6
(1)
6
4
1
3
(3)
5
5
6
4
2
1
3
2
5
6
3
3
2
5
6
1
2
(2)
1
3
6
5
(4)
4
4
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Q.112 Which of the following figures (1), (2), (3) and
(4) when folded along the lines, will produce
the given figure (X) ?
Q.112 fuEu vkd`fr;ksa (1), (2), (3) o (4) eas ls dkSulh vkd`fr
dks js[kkvksa ds vuqfn'k eksM+us ij nh xbZ vkd`fr (X)
izkIr gksxh ?
(X)
(1) (2)
(X)
(1) (2)
(3) (4)
Q.113 From amongst the following four figures, select
the one which is different from all other –
(1)
+
÷
÷
+
(2) (3) (4)
Q.114 Which of the figures (1), (2), (3) & (4) will be
the answer figure if the following rule is
applied to figure (X) ?
Rule : The curves should become straight lines
and the straight line should become curves.
(3) (4)
Q.113 fuEu pkj vkd`fr;ksa ds e/; ml vkd`fr dk p;u
dhft, tks vU; lHkh ls fHkUu gS –
(1)
+
÷
÷
+
(2) (3) (4)
Q.114 ;fn vkd`fr (X) ds fy, fuEu fu;e ykxw gksrk gS rks
vkd`fr;ksa (1), (2), (3) o (4) esa ls mÙkj vkd`fr dkSulh
gksxh ?
fu;e : oØ ljy js[kk cu ldrs gS rFkk ljy js[kk,sa
oØ cu ldrh gSA
(X)
(X)
(1) (2) (3) (4)
(1) (2) (3) (4)
Space for rough work
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Q.115 Group the following figures into three classes
on the basis of identical properties.
Q.115 fuEu vkd`fr;ksa esa ls leku xq.k/keZ j[kus okyh
vkd`fÙk;ksa dks rhu oxksZa esa foHkkftr dhft, -
1 2 3
4 5 6
7 8 9
(1) 1, 5, 9; 2, 7, 8; 3, 4, 6
(2) 1, 5, 6; 4, 7, 8; 2, 3, 9
(3) 2, 4, 9; 6, 7, 8; 1, 3, 5
(4) 3, 7, 8; 4, 5, 9; 1, 2, 6
Q.116 Which figure is embedded in the given pattern
(X) ?
1 2 3
4 5 6
7 8 9
(1) 1, 5, 9; 2, 7, 8; 3, 4, 6
(2) 1, 5, 6; 4, 7, 8; 2, 3, 9
(3) 2, 4, 9; 6, 7, 8; 1, 3, 5
(4) 3, 7, 8; 4, 5, 9; 1, 2, 6
Q.116 fn, x, izk:i (X) esa dkSulh vkd`fr fufgr gS ?
(X)
(X)
(1) (2) (3) (4)
Q.117 Which is the number that comes next in the
sequence –
0, 6, 24, 60, 120, 210 ?
(1) 240 (2) 290
(3) 336 (4) 504
Direction : (Q.118)
In the following question, there is a certain
relation between two given n numbers on
one side of : : and one number is given on
another side of : : while another number is
to be found from the given alternatives,
having the same relation with this number
on the numbers of the given pair bear.
Choose the best alternative.
Q.118 7528 : 5362 : : 4673 : ?
(1) 2367 (2) 2451
(3) 2531 (4) None of these
Space for rough work
(1) (2) (3) (4)
Q.117 fuEu vuqØe esa vxyh la[;k dkSulh gksxh –
0, 6, 24, 60, 120, 210 ?
(1) 240 (2) 290
(3) 336 (4) 504
funsZ'k : (Q. 118)
uhps fn, x, izR;sd iz'u esa fpUg : : ds ,d vksj nks
la[;k,sa nh xbZ gS tks ,d nwljs ls lEcfU/kr gS]
fpUg : : ds nwljh vksj ,d la[;k ,oa iz'u fpUg
fn;k x;k gSA vkidks iz'u fpUg ds LFkku ij fn;s
x, mÙkj fodYiksa esa ls ,d la[;k pquuh gS ftldk
nwljh vksj okyh la[;k ls ogh lEcU/k gS tks ,d
vksj okyh nksuksa la[;kvksa esa gSA lgh fodYi pqfu,A
Q.118 7528 : 5362 : : 4673 : ?
(1) 2367 (2) 2451
(3) 2531 (4) buesa ls dksbZ ugha
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Direction : (Q.119)
In the following question, some words are
given which are related in some way. The
same relationship obtains among the words
in one of the four alternatives gives under
it. Find the correct alternatives.
Q.119 Magazine : Story : Article –
(1) Tea : Milk : Sugar
(2) Television : Newspaper : Entertainment
(3) Bed : Quilt : Pillow
(4) Novel : Drama : Literature
Q.120 'Engineer' is related to 'Machine' in the same
way as 'Doctor' is related to ….
(1) Hospital (2) Body
(3) Disease (4) Medicine
G.K./CURRENT AFFAIRS (Q.121 to Q.135)
Q.121 Which country has test-launched first 3D
television broadcast ?
(1) China (2) UK
(3) US (4) South Africa
Q.122 The Economic Survey predicts…….GDP
growth in 2012-13 and…….in 2013-14.
(1) 6.9%; 7.6% (2) 7.6%, 7.7%
(3) 8.6%; 9.2% (4) 7.6%; 8.6%
Q.123 An African country, Sudan has been broken
into two recently with formation of new
country named South Sudan. Economy of
South Sudan will depend on its
(1) agricultural product
(2) minerals
(3) forest product
(4) fishery product
funsZ'k : (Q.119)
fuEu iz'u esa dqN 'kCn vkil esa lEcfU/kr gSA
leku lEcU/k uhps fn, x, 'kCnks ds e/; izkIr gksrk
gSA lgh fodYi pqfu,A
Q.119 if=kdk : dgkuh : ys[k –
(1) pk; : nw/k : phuh
(2) Vsyhfotu : lekpkj i=k : euksjatu
(3) fcLrj : jt+kbZ : rfd;k
(4) miU;kl : ukVd : lkfgR;
Q.120 'vfHk;ark' 'e'khu' ls lEcfU/kr gS mlh izdkj
'fpfdRld' fuEu ls lEcfU/kr gksxk ….
(1) fpfdRlky; (2) 'kjhj
(3) chekjh (4) nokbZ
G.K./CURRENT AFFAIRS (Q.121 to Q.135)
Q.121 fdl ns'k us loZizFke 3D nwjn'kZu izlkj.k
ifj{k.k&yk¡p fd;k ?
(1) phu (2) UK
(3) US (4) lkmFk vÝhdk
Q.122 vkfFkZd losZ{k.k 2012-13 esa ……. rFkk 2013-14
esa……. GDP o`f) dk iwokZuqeku crkrk gS
(1) 6.9%; 7.6% (2) 7.6%, 7.7%
(3) 8.6%; 9.2% (4) 7.6%; 8.6%
Q.123 ,d vÝhdh ns'k lwMku dks gky gh esa nks Hkkxksa esa
ckaVdj u;k ns'k nf{k.kh lwMku cuk;k x;k gSA nf{k.kh
lwMku dh vkfFkZdrk fuHkZj djsxh blds
(1) d`f"k mRikn ij
(2) [kfut ij
(3) taxyh mRikn ij
(4) eRL; mRikn ij
Space for rough work
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Q.124 Which of the following were displayed for the
first time in the Republic Day Parade 2012?
(1) Agni IV (2) C-130 –J aircraft
(3) Both (1) & (2) (4) None of these
Q.125 Which company launched India's first CDMA
Android tablet ?
(1) Samsung
(2) Apple
(3) Lenovo
(4) Reliance Communications
Q.126 Which continent of the world does not have a
desert?
(1) Australia (2) Europe
(3) Asia (4) North America
Q.127 Which of the following three rivers of the
Peninsular India have the Amarkantak region
as their source
(1) Narmada, Krishna, Godavari
(2) Son, Mahanadi, Narmada
(3) Godavari, Krishna, Cauveri
(4) Chambal, Betwa, Luni
Q.128 Consider the following
a. Right to Education
b. Right to Equal Access to Public Service
c. Right to Food
Which of the above is/are Right/Human Rights
under Universal Declaration of Human Rights?
(1) Only a (2) a and b
(3) Only c (4) a, b, c
Q.129 In which of the following exchange, 'Currency
Futures' trading was first started?
(1) BSE (2) NSE
(3) MCX-SX (4) All of the above
Q.124 fuEu esa ls dkSulh x.kra=k fnol ijsM 2012 esa izFke
ckj iznf'kZr dh xbZ Fkh ?
(1) vfXu IV (2) C-130 –J ,;jØkWV
(3) (1) rFkk (2) nksuksa (4) buesa ls dksbZ ugha
Q.125 Hkkjr esa izFke CDMA ,UMªkW;M VscysV fdl dEiuh us
ykUp fd;k ?
(1) lSelax
(2) ,Iiy
(3) fyuksoks
(4) fjyka;l dE;wfuds'ku
Q.126 fo'o ds dkSuls egk}hi esa jsfxLrku ugh gS \
(1) vkWLVªsfy;k (2) ;wjksi
(3) ,f'k;k (4) mÙkjh vesfjdk
Q.127 Hkkjrh; izk;}hi dh fuEu esa ls dkSulh rhu ufn;ka
vejdaVd {ks=k dks vius L=kksr ds :i esa j[krh gS
(1) ueZnk] d`".kk] xksnkojh
(2) lksu] egkunh] ueZnk
(3) xksnkojh] d`".kk] dkosjh
(4) pEcy] csrok] ywuh
Q.128 fuEu ij fopkj dhft,
a. f'k{kk dk vf/kdkj
b. lkoZtfud lsok dks izkIr djus dk vf/kdkj
c. [kk| dk vf/kdkj
mijksDr esa ls dkSuls ekuokf/kdkjksa ds lkoZf=kd ?kks"k.kk
ds vUrxZr vf/kdkj@ekuo vf/kdkj gS?
(1) dsoy a (2) a rFkk b
(3) dsoy c (4) a, b, c
Q.129 fuEu esa ls fdlesa djsUlh ;wpj O;kikj fofue; izFke
ckj 'kq: fd;k x;k Fkk?
(1) BSE (2) NSE
(3) MCX-SX (4) mijksDr lHkh
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Q.130 Special Drawing Rights (SDRs) relate to
(1) the World Bank
(2) the Reserve Bank of India
(3) the World Trade Organization
(4) the International Monetary Fund
Q.131 The polymeric fibre used as a substitute for
wool in making synthetic blankets, sweater,
etc., is
(1) nylon (2) teflon
(3) orlon (4) bakelite
Q.132 Who among the following is the Chairman of
the Steering Committee to oversee the
functions of the National Authority, Chemical
Weapons Convention (CWC) ?
(1) The President
(2) The Prime Minister
(3) The National Security Adviser
(4) The cabinet Secretary
Q.133 How many cells and meiosis are needed to
produce 200 cells?
(1) 100 and 50 respectively
(2) 25 and 50 respectively
(3) 50 and 25 respectively
(4) 50 and 50 respectively
Q.134 Which type of computer could be found in a
digital watch?
(1) Mainframe (2) Super computer
(3) Notebook computer (4) Embedded computer
Q.135 For producing sound, a CD (compact disc)
audio player uses a
(1) Quartz crystal
(2) Titanium needle
(3) Laser beam
(4) Barium Titanium ceramic
Q.130 eqnzk fudkyus dk fo'ks"k vf/kdkj (SDRs) fdlls
lacaf/kr gS
(1) fo'o cSad ls
(2) fjtoZ cSad vkWQ bafM;k ls
(3) fo'o O;kikj laxBu ls
(4) vUrjkZ"Vªh; foÙk dks"k
Q.131 dEcy] LosV~j vkfn ds fuekZ.k esa Åu ds izfrLFkkiu ds
:i esa dkSulk cgqydhd`r js'kk iz;qDr gksrk gS
(1) uk;ykWu (2) VsykWu
(3) vkWjykWu (4) cSdsykWbV
Q.132 fuEu esa ls dkSu uS'kuy vkWFkksfjVh ds dk;ksZ]
jklk;fud vL=k&'kL=k (CWC) lEesyuksa ij fuxkg
j[kus ds fy, fu;a=k.k lfefr dk v/;{k gksrk gS?
(1) jk"Vªifr
(2) iz/kkuea=kh
(3) jk"Vªh; lqj{kk lykgdkj
(4) dschusV lfpo
Q.133 200 dksf'kdkvksa ds fuekZ.k ds fy, fdruh dksf'kdk;sa
rFkk v/kZlw=kh foHkktu dh vko';drk gksxh?
(1) Øe'k% 100 rFkk 50
(2) Øe'k% 25 rFkk 50
(3) Øe'k% 50 rFkk 25
(4) Øe'k% 50 rFkk 50
Q.134 dEI;wVj dk dkSulk izdkj fMftVy ?kM+h esa ik;k
tkrk gS?
(1) esuÝse (2) lqij dEI;wVj
(3) uksVcqd dEI;qVj (4) ,secsMsM dEI;qVj
Q.135 /ofu mRiknu ds fy, CD (dkEisDV fMLd) vkWfM;ksa
Iys;j esa iz;ksx fd;k tkrk gS
(1) DokV~Zt fØLVy
(2) VkbVsfu;e lqbZ
(3) yslj iq¡t
(4) csfj;e VkbVsfu;e fljsfed
Space for rough work
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Space for rough work
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