Academic Session: 2017-18
AAIIIIMMSS PPAATTTTEERRNN TTEESSTT--22 ((AAPPTT--22)) ((AAIIIIMMSS PPAATTTTEERRNN))
TTaarrggeett:: AAIIIIMMSS--22001188
Please read the last page of this booklet for the instructions. (Ñi;k funsZ'kksa ds fy;s bl iqfLrdk ds vxys i"B dks i<+sA)
RReessoonnaannccee EEdduuvveennttuurreess LLttdd.. Pre Medical Division:- CG Tower-2, A-51(A), IPIA, Behind City Mall, Jhalawar Road, KOTA - 324005 (Rajasthan)
CORPORATE OFFICE : CG Tower, A-46 & 52, IPIA, Near City Mall, Jhalawar Road, Kota (Raj.) - 324005 Ph.No. : +91-744-3012222, 6635555 | Toll Free : 1800 258 5555
Reg. Office : J-2, Jawahar Nagar, Main Road, Kota (Raj.)-324005 | Ph. No.: +91-744-3192222 | FAX No. : +91-022-39167222 website : www.medical.resonance.ac.in | E-mail : [email protected] | CIN: U80302RJ2007PLC024029
DDaattee:: 2200 MMaayy,, 22001188 || DDuurraattiioonn:: 33½½ HHoouurrss || MMaaxx.. MMaarrkkss:: 220000
CCOODDEE -- 4
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CCOOUURRSSEE :: AALLLL IINNDDIIAA TTEESSTT SSEERRIIEESS ((VVIIKKAALLPP)) :: CCLLAASSSS –– XXIIII//XXIIIIII
Please read the instructions carefully. You are allotted 5 minutes specifically for this purpose. Ñi;k bu funsZ'kksa dks /;ku ls i<+saA vkidks 5 feuV fo'ks"k :i ls bl dke ds fy, fn;s x;s gSaA
1. Immediately fill the particulars on this page of the Test
Booklet with Blue / Black Ball Point Pen. Use of pencil is strictly prohibited.
1.ijh{kk iqfLrdk ds bl i"B ij vko';d fooj.k uhys@dkys ckWy
IokbaV isu ls rRdky HkjsaA isfUly dk iz;ksx fcYdqy oftZr gSA
2. The Answer Sheet is kept inside this Test Booklet. When you are directed to open the Test Booklet, take out the Answer Sheet and fill in the particulars carefully.
2. mÙkj i=k bl ijh{kk iqfLrdk ds vUnj j[kk gSA tc vkidks ijh{kk
iqfLrdk [kksyus dks dgk tk, rks mÙkj i=k fudky dj
lko/kkuhiwoZd fooj.k HkjsaA
3. The test is of 3½ hours duration. 3. ijh{kk dh vof/k 3½ ?kaVs gSA 4. The Test Booklet consists of 200 questions. The maximum
marks are 200. 4. bl ijh{kk iqfLrdk esa 200 iz'u gSA vf/kdre vad 200 gSA
5. This Question Paper contains 200 (60 Physics, 60 Chemistry, 60 Biology & 20 General Knowledge) questions according to new pattern of AIIMS.
5. ;g iqfLrdk vkidk iz'u i=k gSA ftlesa AIIMS ds iSVuZ ds
vuqlkj 200 (60 Physics, 60 Chemistry, 60 Biology & 20
General Knowledge) iz'u gSaA 6. For each question, you will be awarded 1 marks if you
darken the bubble corresponding to the correct answer and zero marks if no bubble is darkened. In case of bubbling of incorrect answer, minus one third (–1/3) mark will be awarded.
6. [k.M–I ds izR;sd iz'u ds fy,] ;fn vkius flQZ mfpr mRrjokys
cqYys dks gh dkyk fd;k gS rks vkidks 1 vad fn;s tk,axsA ;fn
fdlh Hkh cqYys dks dkyk ugha fd;k gS rks 'kwU; vad fn;k tk,xkA
xyr mRrj ds cqYys dks dkyk djus ij _.kkRed ,d frgkbZ
(–1/3) vad fn;k tk,xkA
7. There is only one correct response for each question. Filling up more than one response in any question will be treated as wrong response and marks for wrong response will be deducted accordingly as per instructions 6 above.
7. çR;sd iz'u dk dsoy ,d gh lgh mÙkj gSA ,d ls vf/kd mÙkj
nsus ij mls xyr mÙkj ekuk tk;sxk vkSj mijksDr funsZ'k 6 ds
vuqlkj vad dkV fy;s tk;saxsA
Filling the Top-half of the ORS : Use only Black ball point pen only for filling the ORS.
Do not use Gel / Ink / Felt pen as it might smudge the ORS.
vksvkj,l (ORS) ds Åijh&vk/ks fgLls dk Hkjko : ORS dks Hkjus ds fy, dsoy dkys ck¡y iSu dk mi;ksx dhft,A
8. Write your Roll no. in the boxes given at the top left corner of your ORS with black ball point pen. Also, darken the corresponding bubbles with Black ball point pen only. Also fill your roll no on the back side of your ORS in the space provided (if the ORS is both side printed).
8. ORS ds lcls Åij cka;s dksus esa fn, x, ck¡Dl esa viuk jksy
uEcj dkys ck¡y ikbUV ls fyf[k, rFkk laxr xksys Hkh dsoy dkys
isu ls Hkfj;sA ORS ds ihNs dh rjQ Hkh viuk jksy uEcj fyf[k,
(;fn ORS nksuksa rjQ Nih gqbZ gSA).
9. Fill your Paper Code as mentioned on the Test Paper and darken the corresponding bubble with Black ball point pen.
9. ORS ij viuk isij dksM fyf[k, rFkk laxr xksyksa dks dkys ck¡y
isu ls dkys dhft,A
10. If student does not fill his/her roll no. and paper code correctly and properly, then his/her marks will not be displayed.
10 ;fn fo|kFkhZ viuk jksy uEcj rFkk isij dksM lgh vkSj mfpr
rjhds ugha Hkjrk gS rc mldk ifj.kke jksd fy;k tkosxkA
11.Since it is not possible to erase and correct pen filled bubble, you are advised to be extremely careful while darken the bubble corresponding to your answer.
11. pawfd isu ls Hkjs x, xksys feVkuk vkSj lq/kkjuk laHko ugha gS
blfy, vki lko/kkuh iwoZd vius mÙkj ds xksyksa dks HkjsaA
12.Neither try to erase / rub / scratch the option nor make the Cross (X) mark on the option once filled. Do not scribble, smudge, cut, tear, or wrinkle the ORS. Do not put any stray marks or whitener anywhere on the ORS.
12. fodYi dks u feVk,a@u Ldzsp djsa vkSj u gh xyr (X) fpUg dks
HkjsaA ORS dks dkVs u gh QkMs u gh xUnk ugha djsa rFkk dksbZ Hkh
fu'kku ;k lQsnh ORS ij ugha yxk,aA
13.If there is any discrepancy between the written data and the bubbled data in your ORS, the bubbled data will be taken as final.
13. ;fn ORS esa fdlh izdkj dh fy[ks x, vkadMksa rFkk xksys fd, vkadMksa
esa fojks/kkHkkl gS rks xksys fd, vkadMksa dks gh lgh ekuk tkosxkA
AAIIIIMMSS PPAATTTTEERRNN TTEESSTT--22 ((AAPPTT--22)) ((AAIIIIMMSS PPAATTTTEERRNN))
CCOOUURRSSEE:: AALLLL IINNDDIIAA TTEESSTT SSEERRIIEESS ((VVIIKKAALLPP)) :: CCLLAASSSS –– XXIIII//XXIIIIII
CCOODDEE -- 4 DDAATTEE :: 2200--0055--22001188
Name of the Candidate (ijh{kkFkhZ dk uke) :
I have read all the instructions and shall abide by them eSaus lHkh funsZ'kksa dk i<+ fy;k gS vkSj eSa mudk
vo'; ikyu d:¡xk@d:¡xhA
...................................... Signature of the Candidate
ijh{kkFkhZ ds gLrk{kj
Roll Number (jksy uEcj) :
I have verified all the information filled by the candidate. ijh{kkFkhZ }kjk Hkjh xbZ lkjh tkudkjh dks eSusa
tk¡p fy;k gSA
...................................... Signature of the Invigilator
ijh{kd ds gLrk{kj
Pre Medical Division: CG Tower-2, A-51 (A), IPIA, Behind City Mall, Jhalawar Road, Kota (Raj.)-324005
Website : www.resonance.ac.in | E-mail : [email protected]
Toll Free: |1800 258 5555 | CIN: U80302RJ2007PLC024029 MRAPT2200518C4-1
PART�A
SECTION - I
Straight Objective Type
This section contains 40 multiple choice
questions. Each question has 4 choices (1), (2),
(3) and (4) for its answer, out of which Only One
is correct.
1. A man can swim in still water with a speed of
3 m/s. x and y axis are drawn along and normal
to the bank of river flowing to right with a speed
of 1 m/s. The man starts swimming from origin O
at t = 0 second. Assume size of man to be
negligible. Find the equation of locus of all the
possible points where man can reach at
t = 1 sec.
(1) (x � 1)2 + y2 = 3 (2) (x � 1)2 + y2 = 9
(3) x2 + (y � 1)2 = 3 (4) x2 + (y � 1)2 = 9
2. Two boats are moving along perpendicular paths
on a still lake at night. One boat moves with a
speed of 3ms-1 and the other boat moves with a
speed of 4ms-1 in the directions such that they
collide after some time. At t = 0, the boats are
300m apart. Two boats will collide after
time_________.
(1) 30 sec (2) 45 sec
(3) 60 sec (4) 90 sec
[k.M- I
lh/ks oLrqfu"B izdkj
bl [k.M esa 40 cgq&fodYih iz'u gSaA izR;sd iz'u ds
4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d
lgh gSA
1. ,d vkneh 'kkUr ikuh esa 3 m/s pky ls rSj ldrk gSA
x rFkk y v{k Øe'k% unh izokg ds vuqfn'k o blds
yEcor~ crkbZ xbZ gSA unh 1 m/s dh pky ls py jgh
gSA vkneh t = 0 ij ewy fcUnq O ls rSjuk pkyw izkjEHk
djrk gSA ;g ekfu;s fd vkneh dk vkdkj ux.; gSA
t = 1 lsd.M ij mu lHkh lEHko fcUnqvksa ds fcUnqiFk
D;k gksxk tgk¡ vkneh igq¡p ldrk gSA
(1) (x � 1)2 + y2 = 3 (2) (x � 1)2 + y2 = 9
(3) x2 + (y � 1)2 = 3 (4) x2 + (y � 1)2 = 9
2. nks uko ,d nwljs ds yEcor~ iFk esa 'kkUr rykc esa xfr
dj jgh gSA ,d uko dh pky 3ms-1 rFkk nwljs dh
4ms-1 bl rjg gS fd og dqN le; ckn Vdjkrh gSA
t = 0 ij og ,d nwljs ls 300m nwjh ij gS rks uko
fdrus le; ckn Vdjk;sxhA
(1) 30 sec (2) 45 sec
(3) 60 sec (4) 90 sec
Pre Medical Division: CG Tower-2, A-51 (A), IPIA, Behind City Mall, Jhalawar Road, Kota (Raj.)-324005
Website : www.resonance.ac.in | E-mail : [email protected]
Toll Free: |1800 258 5555 | CIN: U80302RJ2007PLC024029 MRAPT2200518C4-2
3. A particle moves along the parabolic path
y = ax2 in such a way that the y-component of
the velocity remains constant, say c. The x and
y coordinates are in meters. Then acceleration
of the particle at x = 1 m is
(1) ac �k (2) 2ac2 �j
(3) 2
2
c �i4a
(4) c �i2a
4. A particle is projected from the ground level. It
just passes through upper ends of vertical poles
A, B, C of height 20 m, 30 m & 20 m
respectively. The time taken by the particle to
travel from B to C is double of the time taken
from A to B. Find the maximum height attained
by the particle from the ground level.
(1) 75
m4
(2) 125
m2
(3) 105
m2
(4) 125
m4
5. A 15 kg block B is suspended from an
inextensible cord attached to a 20 kg cart A.
Neglect friction.
Determine the acceleration of the cart
immediately after the system is released from
rest.
(1) 75g
b127
(2) 100g
b125
(3) 105g
b127
(4) 100g
b175
3. ,d d.k ijoyf;d iFk y = ax2 ds vuqfn'k bl rjg
xfr djrk gS fd blds osx dk y-?kVd fu;r (ekuk c)
jgrk gSA x rFkk y ehVj esa gSA d.k dk x = 1 eh- ij
Roj.k gS &
(1) ac �k (2) 2ac2 �j
(3) 2
2
c �i4a
(4) c �i2a
4. ,d d.k dks tehu ls ç{ksfir fd;k tkrk gSA ;g Å/oZ
[kEcs A, B, C ftudh Å¡pkbZ Øe'k% 20 m, 30 m rFkk
20 m gS] ds Åijh fljksa dks Bhd Nwrk gqvk fudyrk gSA
B ls C rd tkus esa fy;k x;k le;]A ls B rd tkus esa
fy, x, le; dk nqxuk gSA d.k }kjk tehu ls çkIr
vf/kdre Å¡pkbZ dk eku gSA
(1) 75
m4
(2) 125
m2
(3) 105
m2
(4) 125
m4
5. ,d 20 kg xkM+h A ls ,d 15 kg dk CykWd B, ,d
vfoLrj.kh; jLlh ls yVdk gqvk gSA ?k"kZ.k ux.; gSA
fojkekoLFkk esa NksM+us ds rqjUr ckn xkM+h dk Roj.k Kkr
djksA
(1) 75g
b127
(2) 100g
b125
(3) 105g
b127
(4) 100g
b175
Pre Medical Division: CG Tower-2, A-51 (A), IPIA, Behind City Mall, Jhalawar Road, Kota (Raj.)-324005
Website : www.resonance.ac.in | E-mail : [email protected]
Toll Free: |1800 258 5555 | CIN: U80302RJ2007PLC024029 MRAPT2200518C4-3
6. Block A of mass m is placed on a plank B. A light
support S is fixed on plank B and is attached
with the block A with a spring of spring constant
K. Consider that initially spring is in its natural
length. Find the maximum compression in the
spring, if the plank B is given an acceleration a.
All the surfaces are smooth :
(1) ma2k
(2) 2ma
k
(3) mak
(4) 4ma
k
7. Two smooth spheres each of radius 5 cm and
weight W rest one on the other inside a fixed
smooth cylinder of radius 8 cm. The reactions
between the spheres and the vertical side of the
cylinder are:
(1) W/4 & 3W/4 (2) W/4 & W/4
(3) 3W/4 & 3W/4 (4) W & W
8. The system is released from rest from the
position shown in the diagram. If A and B have
mass m and M respectively and all surfaces are
smooth, then the normal reaction between A and
B is (string and pulley are massless)
(1) 2Mm
(M m) (2)
Mmg2(M m)
(3) Mmg
(M m) (4) zero
6. m nzO;eku dk ,d CykWd A, Iykad B ij fLFkr gSA ,d
gYdk n`<+ vk/kkj S, Iykad B ij fLFkr gS rFkk bl n`<+
vk/kkj ls] fLçax fu;rkad K okyh fLçax ds }kjk CykWd A,
tqM+k gqvk gSA ekuk fLçax çkjEHk esa çkdfrd yEckbZ esa
gSA ;fn Iykad B dks Roj.k a fn;k tkrk gS rks fLçax esa
vf/kdre ladqpu gksxk (lHkh lrg fpduh gS) :
(1) ma2k
(2) 2ma
k
(3) mak
(4) 4ma
k
7. 8 lseh0 f=kT;k ds fpdus fLFkj csyu ds vUnj nks fpdus
xksys çR;sd f=kT;k 5 lseh0 rFkk W Hkkj okys fLFkj j[ks
gSA Å/oZ nhokj ds lkFk xksyksa dh çfrfØ;k gksxh &
(1) W/4 & 3W/4 (2) W/4 & W/4
(3) 3W/4 & 3W/4 (4) W & W
8. fp=k esa n'kkZ;h fLFkr esa fojkekoLFkk ls ra=k dks NksM+k
tkrk gSA ;fn A o B ds nzO;eku Øe'k% m rFkk M gS vkSj
lHkh lrg fpduh gS, rks A o B ds e/; vfHkyEc
çfrfØ;k gksxh& ¼jLlh rFkk f?kjuh nzO;eku jfgr gSA½
(1) 2Mm
(M m) (2)
Mmg2(M m)
(3) Mmg
(M m) (4) 'kwU;
Pre Medical Division: CG Tower-2, A-51 (A), IPIA, Behind City Mall, Jhalawar Road, Kota (Raj.)-324005
Website : www.resonance.ac.in | E-mail : [email protected]
Toll Free: |1800 258 5555 | CIN: U80302RJ2007PLC024029 MRAPT2200518C4-4
9. A body of mass 'm' sliding down a movable
inclined plane of mass 2 m, assuming friction is
absent everywhere the kinetic energy of 2 m as a
function of time is: (m remains on 2m)
(1)
(2)
(3)
(4) none of these
10. If pulley is ideal and string is massless then
reading of weighing machine is 5x3
kg then
calculate x. : (g = 10 m/s2)
(1) 3 (2) 5
(3) 7 (4) 15
9. 'm' nzO;eku dh ,d oLrq 2 m nzO;eku ds xfr djus
;ksX; urry ij uhps fQlyrh gS] ekfu;s fd lHkh txg
?k"kZ.k vuqifLFkr gSA 2 m dh xfrt ÅtkZ le; ds
Qyu :i esa gksxkA (m nzO;eku 2m ij gh jgrk gS)
(1)
(2)
(3)
(4) buesa ls dksbZ ugh
10. ;fn iwyh rFkk Mksjh vkn'kZ rFkk nzO;ekughu gS rFkk Hkkj
e'khu dk ikB~;kad 5x3
kg gS rks x Kkr djks :
(g = 10 m/s2)
(1) 3 (2) 5
(3) 7 (4) 15
Pre Medical Division: CG Tower-2, A-51 (A), IPIA, Behind City Mall, Jhalawar Road, Kota (Raj.)-324005
Website : www.resonance.ac.in | E-mail : [email protected]
Toll Free: |1800 258 5555 | CIN: U80302RJ2007PLC024029 MRAPT2200518C4-5
11. MA = 3 kg, MB = 4 kg and MC = 8 kg. between
any two surface is 0.25. Pulley is frictionless and
string is massless. A is connected to the wall
through a massless rigid rod.(g=10m/s2)
(1) the value of F to keep C moving with
constant speed is 80 N
(2) the value of F to keep C moving with
constant speed is 120 N
(3) to slide C towards left, F should be atleast
50 N.
(4) None of these
12. An open water tanker moving on a horizontal
straight road has a cubical block of cork floating
over its surface. If the tanker has an
accelecration of a as shown, the acceleration of
the cork w.r.t. container is (ignore viscosity) -
a
(1) Zero (2) 2a
g
(3) ay
2 2g a (4) a
11. MA = 3 kg, MB = 4 kg o MC = 8 kg gSA fdUgh Hkh nks
ryksa ds chp = 0.25 gSA f?kjuh ?k"kZ.k jfgr o Mksjh
nzO;eku jfgr gSA A, ,d gYdh n`<+ NM+ }kjk nhokj ls
tqM+k gqvk gSA (g=10m/s2)
(1) C dks fu;r pky ls pyk;s j[kus ds fy;s F dk
eku 80 N gSA
(2) C dks fu;r pky ls pyk;s j[kus ds fy;s F dk
eku 120 N gSA
(3) C dks cka;h vksj fQlyus ds fy;s F de ls de
50 N gksuk pkfg;sA
(4) buesa ls dksbZ ugha
12. ,d [kqyh ikuh dh Vadh lh/kh {kSfrt lM+d ij xfr'khy
gS ftlesa ,d ?kukdkj dkdZ dk CykWd ikuh dh lrg
ij rSj jgk gSA ;fn Vadh dk Roj.k a fp=kkuqlkj
iznf'kZr gks rks dkdZ dk Roj.k Vadh ds lkis{k gksxk
¼';kurk dks ux.; ekusa½
a
(1) 'kwU; (2) 2a
g
(3) ay
2 2g a (4) a
Pre Medical Division: CG Tower-2, A-51 (A), IPIA, Behind City Mall, Jhalawar Road, Kota (Raj.)-324005
Website : www.resonance.ac.in | E-mail : [email protected]
Toll Free: |1800 258 5555 | CIN: U80302RJ2007PLC024029 MRAPT2200518C4-6
13. A light cylindrical tube �T� of length and radius
�r� containing air is inverted in water (density d1).
One end of the tube is open and the other is
closed. A block �B� of density d2 (> d1) is kept on
the tube as shown in the figure. The tube stays
in equilibrium in the position shown. Find the
volume of �B�. The density of the air is negligible
as compared with the density of water. What is
the pressure of the air in the tube assuming that
the atmospheric pressure is P0.
(1) Pa = P0 + d2g 2h3
(2) Pa = P0 � d1g h2
(3) Pa = P0 + d2g h �3
(4) Pa = P0 + d1g h3
14. In the figure shown water is filled in a
symmetrical container. Four pistons of equal
area A are used at the four opening to keep the
water in equilibrium. Now an additional force F is
applied at each piston. The increase in the
pressure at the centre of the container due to
this addition is
(1) FA
(2) 2FA
(3) 4FA
(4) 0
13. ,d gYdh csyukdkj V~;wc �T� ftldh yEckbZ rFkk
f=kT;k �r� gSA blesa gok gS rFkk bldks ikuh ¼?kuRo d1½
esa mYVk fd;k gqvk gSA V~;wc dk ,d fljk [kqyk gS rFkk
nwljk cUn gSA CykWd B ¼?kuRo d2½ tgk¡ d2 > d1 dks
V~;wc ds Åij fp=kkuqlkj j[kk tkrk gSA V~;wc fp=k esa
n'kkZbZ xbZ O;oLFkk ds vuqlkj lkE;koLFkk esa gSA �B� dk
vk;ru Kkr djksA gok dk ?kuRo ikuh ds ?kuRo dh
rqyuk esa ux.; gSA V~;wc esa gok dk nkc D;k gksxkA
;fn okrkoj.k dk nkc P0 gSA
(1) Pa = P0 + d2g 2h3
(2) Pa = P0 � d1g h2
(3) Pa = P0 + d2g h �3
(4) Pa = P0 + d1g h3
14. n'kkZ;s x;s fp=k esa ,d lefer ik=k esa ty Hkjk gSA
leku {ks=kQy A ds pkj fiLVu pkj [kqys LFkkuks ij
ty dks lkE;koLFkk esa j[krs gS vc izR;sd fiLVu ij
vfrfjDr cy F vkjksfir fd;k tkrk gSA blds dkj.k
ik=k ds dsUnz ij nkc esa o`f) gSA
(1) FA
(2) 2FA
(3) 4FA
(4) 0
Pre Medical Division: CG Tower-2, A-51 (A), IPIA, Behind City Mall, Jhalawar Road, Kota (Raj.)-324005
Website : www.resonance.ac.in | E-mail : [email protected]
Toll Free: |1800 258 5555 | CIN: U80302RJ2007PLC024029 MRAPT2200518C4-7
15. A particle executes SHM in a straight line. In the
first second starting from rest it travels 'a'
distance a and in the next second a distance 'b'
in the same direction. The amplitude of S.H.M
will be
(1) 22a
3a b (2) a b
(3) 2a b (4) a / b
16. The displacement time graph of a particle
executing S.H.M. (in straight line) is shown.
Which of the following statements is/are false?
(1) the velocity is maximum at t = T/2
(2) the acceleration is maximum at t = T
(3) the force is zero at t = 3T/4
(4) the potential energy equals the total
oscillation energy at t = T/2
17. For given CE biasing circuit, if voltage across
collector-emitter is 12V and current gain is
100 and base current is 0.04 mA then determine
the value collector resistance RC.
(1) 1200 (2) 200
(3) 400 (4) 2000
15. ,d d.k ljy js[kk es l-vk-x- djrk gSA fojkekoLFkk ls
çkjEHk dj igys lSd.M es ;g a nwjh r; djrk gS rFkk
vxys lSd.M es mlh fn'kk esa b nwjh r; djrk gSA l-
vk-x dk vk;ke gksxk&
(1) 22a
3a b (2) a b
(3) 2a b (4) a / b
16. ljy vkorZ xfr ¼ljy js[kk esa½ djrs d.k dk foLFkkiu
le; oØ fn[kk;k x;k gSA fuEu esa ls dkSulk@ls dFku
vlR; gS@gSaA
(1) t = T/2 ij osx vf/kdre gksxk
(2) t = T ij Roj.k vf/kdre gksxk
(3) t = 3T/4 ij cy 'kwU; gksxk
(4) t = T/2 ij fLFkfrt ÅtkZ dk eku dqy nksyu
ÅtkZ ds eku ds cjkcj gksxkA
17. fn;s x;s mHk;fu"B mRltZd (CE) vfHkur ifjiFk esa
;fn laxzkgd&mRltZd ds fljks ij foHko 12V rFkk
/kkjkykHk 100 ,oa vk/kkj /kkjk 0.04 mA gks rks laxzkgd
izfrjks/k RC dk eku Kkr djksA
(1) 1200 (2) 200
(3) 400 (4) 2000
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18. In the circuit, if the forward voltage drop for the
diode is 0.5V, the current in the circuit will be
(approximately) �
0.5 V
2.2 k 8V
(1) 3.4 mA (2) 2 mA
(3) 2.5mA (4) 3 mA
19. n1 = n3 = 3/2 and n2 = 4/3. The lenses are thin and
the whole arrangement is placed in air. The focal
length of the system is __________.
(1) � 45 cm (2) + 72 cm
(3) � 72 cm (4) + 45 cm
20. In the figure shown a converging lens and a
diverging lens of focal lengths 20 cm and �5 cm
respectively are separated by a distance such
that a parallel beam of light of intensity
100 watt/m2 incident on the converging lens
comes out as parallel beam from the diverging
lens. Find the intensity of the outgoing beam in
watt/m2.
(1) 100 (2) 200
(3) 400 (4) 1600
21. The angular momentum of an electron in first
orbit of Li++ ion is :
(1) 3h2
(2) 9h
2
(3) h2
(4) h6
18. ifjiFk esa] ;fn Mk;ksM ds fy, vxz foHko iru 0.5V gS,
rc ifjiFk esa /kkjk yxHkx gksxhA
0.5 V
2.2 k 8V
(1) 3.4 mA (2) 2 mA
(3) 2.5mA (4) 3 mA
19. n1 = n3 = 3/2 rFkk n2 = 4/3, ySal irys gS rFkk iwjk ra=k
gok esa fLFkr gS ra=k dh Qksdl nwjh ------------ gksxh\
(1) � 45 cm (2) + 72 cm
(3) � 72 cm (4) + 45 cm
20. n'kkZ;s x;s fp=k esa Øe'k% 20 cm o �5 cm Qksdl nwjh
ds ,d vfHklkjh ySUl o ,d vilkjh ySUl dqN nwjh
ij bl çdkj j[ks gS fd 100 watt/m2 rhozrk dk
lekUrj çdk'k iqat vfHklkjh ySUl ij vkifrr gksrk gS
vkSj vilkjh ySUl ls lekUrj çdk'k iqUt ds :i esa
ckgj fudyrk gSA fuxZr iqUt dh rhozrk watt/m2 esa
Kkr djksA
(1) 100 (2) 200
(3) 400 (4) 1600
21. Li+ + vk;u ds igys d{k esa bysDVªkWu dk dks.kh; laosx
gksrk gS
(1) 3h2
(2) 9h
2
(3) h2
(4) h6
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22. An electron of mass ' m ', when accelerated
through a potential V has deBroglie wavelength
. The deBroglie wavelength associated with a
proton of mass M accelerated through the same
potential difference will be:
(1) Mm
(2) mM
(3) Mm
(4) mM
23. If the frequency of k x-ray emitted from the
element with atomic number 31is f, then the
frequency of k x-ray emitted from the element
with atomic number 51 would be: (assume that
screening constant for K is 1)
(1) 53
f (2) 5131
f
(3) 925
f (4) 259
f
24. Figure is the plot of the stopping potential versus
the frequency of the light used in an experiment
on photoelectric effect. Find the work function.
(1) 0.3 eV (2) 0.5 eV
(3) 0.8 eV (4) 14 eV
25. A ball impinges directly on a similar ball at rest.
The first ball is brought to rest by the impact. If
half the kinetic energy is lost by impact, what is
the value of the coefficient of restitution?
(1) 1
2 2 (2)
1
3
(3) 1
2 (4)
32
22. ,d bysDVªkWu ftldk nzO;eku ' m ' gS dks V foHko ls
Rofjr fd;k tkrk gSA ;fn bysDVªkWu dk Mh czksxyh
rjaxnS/;Z gS rks çksVkWu ls lEc} Mh czksxyh rjaxnS/;Z
fdruk gksxkA ;fn çksVkWu dk nzO;eku M rFkk çksVkWu dh
leku foHko V ls Rofjr djs:
(1) Mm
(2) mM
(3) Mm
(4) mM
23. ;fn 31 ijek.kq Øekad okys rRo ls mRlftZr k
x-fdj.k dh vko`fr f gS rks 51 ijek.kq Øekad okys rRo
ls mRlftZr k x-fdj.k dh vko`fr gksxh& (K Js.kh ds
fy, ifjj{k.k fu;rkad 1 gS)
(1) 53
f (2) 5131
f
(3) 925
f (4) 259
f
24. fojks/kh foHko o çdk'k fo|qr çHkko esa mi;ksx çdk'k
rjax dh vko`fÙk ds chp xzkQ fp=kkuqlkj gSA Kkr djks
& dk;Z Qyu
(1) 0.3 eV (2) 0.5 eV
(3) 0.8 eV (4) 14 eV
25. ,d xsan fojkekoLFkk esa fLFkr vU; ,dleku xsan ls
Vdjkrh gSA VDdj ds i'pkr~ igyh xsan fojkekoLFkk ij
vk tkrh gSA ;fn VDdj ds nkSjku xfrt ÅtkZ ds vk/ks
Hkkx dh gkfu gksrh gS rks izR;koLFkku xq.kkad dk eku
D;k gksxk ?
(1) 1
2 2 (2)
1
3
(3) 1
2 (4)
32
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26. During the head on collision of two masses
1 kg and 2 kg the maximum energy of
deformation is 100
3J. If before collision the
masses are moving in the same direction, then
their velocity of approach before the collision is :
(1) 10 m/sec. (2) 5 m/sec.
(3) 20 m/sec. (4) 10 2 m/sec.
27. Two objects of same mass and with same initial
speed, moving in a smooth horizontal plane,
collide and move away together at half their
initial speed after the collision. The angle
between the initial velocities of the objects is
(1) 120° (2) 90°
(3) 60° (4) 30°
28. A plate of mass M is moved with constant
velocity v against dust particles moving with
velocity u in opposite direction as shown. The
density of the dust is and plate area is A. Find
the force F required to keep the plate moving
uniformly. Assuming dust particles stick to the
plate. ( in kg /m3)
(1) A(u + 2v)2 (2) A(u � v)
(3) A(2u + v) (4) A(u + v)2
29. The temperature co-efficient of resistance is
positive for:
(1) carbon (2) copper
(3) Si (4) Ge
26. nks nzO;ekuksa 1kg. rFkk 2kg dh ‘'kh"kkZfHkeq[k VDdj ds
nkSjku laihMu dh egRre ÅtkZ 100
3twy gSA ;fn
VDdj ds igys nzO;eku leku fn'kk esa xfreku gSa] rc
mudk VDdj ls igys lkehI; osx gS &
(1) 10 m/sec. (2) 5 m/sec.
(3) 20 m/sec. (4) 10 2 m/sec.
27. leku nzO;eku o leku izkjfEHkd pky dh nks oLrq
{kSfrt ry ls xfr'khy gS] Vdjkrh gS ,oa VDdj ds ckn
mudh izkjfEHkd pky dh vk/kh pky ls pyrh gSA
oLrqvksa ds izkjfEHkd osxksa ds e/; dks.k gS -
(1) 120° (2) 90°
(3) 60° (4) 30°
28. ,d M nzO;eku dh IysV /kwy ds d.kksa (tks fd u osx ls
foijhr fn'kk esa xfr dj jgs gS) ds fo:) fu;r osx v
ls xfr djrh gSA /kwy dk ?kuRo rFkk IysV dk
{ks=kQy A gSA IysV dk ,dleku xfr esa j[kus ds fy,
vko';d chy F dk eku gksxkA ;g ekurs gq;s fd /kwy
d.k IysV ls fpid tkrs gSA ( in kg /m3)A
(1) A(u + 2v)2 (2) A(u � v)
(3) A(2u + v) (4) A(u + v)2
29. fdlds izfrjks/k ds fy;s rkih; xq.kkad /kukRed gS&
(1) dkcZu (2) rkcka
(3) Si (4) Ge
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30. Find equivalent resistance between terminals
A and B.
(1) 2.5 (2) 5
(3) 10 (4) 15
31. An ammeter and a voltmeter are initially
connected in series to a battery of zero internal
resistance. When switch S1 is closed the reading
of the voltmeter becomes half of the initial,
whereas the reading of the ammeter becomes
double. If now switch S2 is also closed, then
reading of ammeter becomes:
(1) 3/2 times the initial value
(2) 3/2 times the value after closing S1
(3) 3/4 times the value after closing S1
(4) 3/4 times the initial value
32. In the circuit shown, cells are of equal emf E but
of different internal resistances r1 = 6 and
r2 = 4 . Reading of the ideal voltmeter
connected across cell 1 is zero. Value of the
external resistance R in ohm is equal to -
Cell1
E E
Cell2
r1
R
r2
V
(1) 2 (2) 2.4
(3) 10 (4) 24
30. VfeZuy A rFkk B ds chp rqY; izfrjks/k Kkr dhft;s &
(1) 2.5 (2) 5
(3) 10 (4) 15
31. ,d vehVj rFkk ,d oksYV ehVj izkjEHk esa ,d 'kwU;
vkUrfjd izfrjks/k dh CkSVjh ls tksM+s tkrs gSA tc daqth
S1 dks can fd;k tkrk gS] rks oksYVehVj dk ikB~;kad
izkjfEaHkd eku dk vk/kk gks tkrk gS ] tcfd vehVj dk
ikB~;kad nqxquk gks tkrk gSA vxj vc daqth S2 dks Hkh
can dj fn;k tk, rks vehVj dk ikB~;kad gksxk &
(1) izkjfEHkd eku dk 3 / 2 xquk gks tk;sxk A
(2) S1 dks can djus ds ckn ds eku ls 3 / 2 xquk gks
tk,xk A
(3) S1 dksa can djus ds ckn ds eku ls 3 / 4 xquk gks
tk,xk A
(4) izkjfEHkd eku dk 3 / 4 xquk gks tk,xk A
32. iznf'kZr ifjiFk esa lsyksa dk leku fo|qr okgd cy
E ijUrq fHkUu&fHkUu vkUrfjd izfrjks/k Øe'k% r1 = 6
rFkk r2 = 4 gSA lsy 1 ls tqM+s gq, vkn'kZ oksYVehVj
dk ikB~;kad 'kwU; gSA cká izfrjks/k R dk eku vkse esa
gksxk -
Cell1
E E
Cell2
r1
R
r2
V
(1) 2 (2) 2.4
(3) 10 (4) 24
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33. In the circuit shown the speed of the rod is v,
magnitude of magnetic field is B and rate of
increase of B with respect to time is K at the
moment. At this moment magnitude of the
induced emf in the circuit is :
(1) |Kx � Bv| (2) |Bv|
(3) |Kx| (4) |Kx + Bv|
34. Consider a long cylindrical solenoid having n
turns per unit length. Current in the solenoid is .
Magnetic field at a point lying on axis of
solenoid. Just inside the solenoid will be :
(1) 0n
4
(2) 0n
3
(3) 0n
2
(4) 0n
35. An infinite straight wire of radius 'R' is carrying a
constant current �i� flowing uniformly in it's cross-
section along it's length then magnetic energy
stored per unit length of this wire is [inside the
wire].
(1) 2
0i
2
(2)
20i
16
(3) 2
0i
8
(4)
20
2
i
2
36. A coil has an inductance of 0.03 H. Rate at
which energy is being stored in the coil when
current is 10A and rate of change of current is
100 A/s is :
(1) 10 W (2) 300 W
(3) 3 W (4) 30 W
33. n'kkZ, ifjiFk eas NM+ dh pky v gS] pqEcdh; {ks=k dk
ifjek.k B o le; ds lkis{k B dh rkR{kf.kd o`f} nj K
gSA ifjiFk dk rkR{kf.kd izsfjr fc/kqr okgd cy dk
ifjek.k gksxk
(1) |Kx � Bv| (2) |Bv|
(3) |Kx| (4) |Kx + Bv|
34. ,d yEch ifjukfydk tks çfr ,dkad yEckbZ esa n ?ksjs
j[krh gSA ifjukfydk esa /kkjk gSA ifjukfydk ds Bhd
vUnj bldh v{k ij fLFkr ,d fcUnq ij pqEcdh; {ks=k
gksxkA
(1) 0n
4
(2) 0n
3
(3) 0n
2
(4) 0n
35. 'R' f=kT;k ds ,d vuUr yEckbZ ds lh/ks rkj esa �i� /kkjk
blds vuqizLFk dkV {ks=kQy esa bldh yEckbZ ds vuqfn'k
,d leku :i ls izokfgr gS] rc bl rkj dh izfr
,dkad yEckbZ esa lafpr pqEcdh; ÅtkZ gksxh [rkj ds
vUnj].
(1) 2
0i
2
(2)
20i
16
(3) 2
0i
8
(4)
20
2
i
2
36. ,d dq.Myh dk çsjdRo 0.03 H gSA dq.Myh esa ÅtkZ
lap; fdl nj ls gksxh tc dq.Myh esa /kkjk 10A rFkk
/kkjk esa ifjorZu dh nj 100 A/s gS :
(1) 10 W (2) 300 W
(3) 3 W (4) 30 W
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37. Consider a L-R circuit shown in the figure. It was
found that current through the inductor became
constant after a long time. Then the power
supplied by battery to R after long time will be
(1) 9 W (2) 10 W
(3) 11.1 W (4) 15 W
38. An isolated triple star system consists of two
identical stars, each of mass m and a fixed star
of mass M. They revolve around the central star
in the same circular orbit of radius r. The two
orbiting stars are always at opposite ends of a
diameter of the orbit. The time period of
revolution of each star around the fixed star is
equal to :
r M m
m
(1) 3 / 24 r
G(4M m)
(2)
3 / 22 r
GM
(3) 3 / 22 r
G(M m)
(4)
3 / 24 r
G(M m)
39. Altitude at which acceleration due to gravity
decreases by 0.1% approximately: (Radius of
earth = 6400 km)
(1) 3.2 km (2) 6.4 km
(3) 2.4 km (4) 1.6 km
40. The value of current in two series L C R circuits
at resonance is same when connected across a
sinusoidal voltage source. Then:
(1) both circuits must be having same value of
capacitance and inductor
(2) in both circuits ratio of L and C will be same
(3) for both the circuits XL/XC must be same at
that frequency
(4) both circuits must have same impedance at
all frequencies.
37. fp=k esa n'kkZ, L-R ifjiFk ds fy, ik;k x;k fd dkQh
yEcs le; i'pkr~ izsj.k dq.Myh ls izokfgr /kkjk fu;r
gks x;h gSA rks dkQh T;knk le; i'pkr~ csVªh }kjk
R dks nh xbZ 'kfDr gksxhA
(1) 9 W (2) 10 W
(3) 11.1 W (4) 15 W
38. ,d foyfxr f=krkjd (triple star) fudk; nks ,d leku
rkjs] izR;sd dk nzO;eku m rFkk ,d fLFkj M nzO;eku ds
rkjs ls cuh gSA ;s dsUnz ij fLFkr rkjs (M) ds lkis{k
r f=kT;k ds o`Ùkh; d{k esa o`Ùkh; xfr dj jgs gSA nksuksa
d{kh; rkjs o`Ùk ds O;kl ds vfUre fljksa ij gSA fLFkj
rkjs ds lkis{k izR;sd rkjs dk le;kUrjky Kkr djksA
r M m
m
(1) 3 / 24 r
G(4M m)
(2)
3 / 22 r
GM
(3) 3 / 22 r
G(M m)
(4)
3 / 24 r
G(M m)
39. Å¡pkbZ tgka xq:Roh; Roj.k yxHkx 0.1% ?kV tk,xk]
gksxk (i`Foh dh f=kT;k = 6400 km)
(1) 3.2 km (2) 6.4 km
(3) 2.4 km (4) 1.6 km
40. nks L � C � R Js.kh ifjiFk tks fd vuqukn ij gaS] tc os
,d T;k oØh; foHko L=kksr ls tqM+s gSaA rFkk muesa /kkjk
dk eku leku gS] rks &
(1) nksuksa ifjiFkksa esa /kkfjrk rFkk izsjdRo dk eku
leku gksxkA
(2) nksuksa ifjiFkksa esa L rFkk C dk vuqikr leku gksxk
(3) vuqukn vkofÙk ij nksuksa ifjiFkksa esa XL/XC dk eku
leku gksxkA
(4) nksuksa ifjiFkksa dh izfrok/kk lHkh vko`fÙk;ksa ij leku
gksxhA
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SECTION - II
Reasoning Type
This section contains 20 reasoning type
questions. Each question has 4 choices (1), (2),
(3) and (4), out of which ONLY ONE is correct.
The following questions consist of two
statements one labelled ASSERTION (A) and
the another labelled REASON (R). Select the
correct answers to these questions from the
codes given below :
(1) Both A and R are true and R is the correct
explanation of A.
(2) Both A and R are true but R is not correct
explanation of A
(3) A is true but R is false
(4) A and R are false
41. Assertion : Imagine holding two identical bricks
under water. Brick A is completely submerged
just below the surface of water, while Brick B is
at a greater depth. The magnitude of force
exerted by the person (on the brick) to hold brick
B in place is the same as magnitude of force
exerted by the person (on the brick) to hold brick
A in place.
Reason : The magnitude of buoyant force on a
brick completely submerged in water is equal to
magnitude of weight of water it displaces and
does not depend on depth of brick in water .
(1) (2)
(3) (4)
[k.M- II
dkj.k çdkj
bl [k.M esa 20 dkj.k çdkj ds ç'u gSA çR;sd ç'u ds
4 fodYi (1), (2), (3) rFkk (4) gS, ftuesa ls flQZ ,d
lgh gSA
fuEu iz'uksa esa ls izR;sd esa nks okD; gS] ,d dFku (A)
rFkk nwljk dkj.k (R) uhps fn;s x;s funsZ'kksa ds vk/kkj
ij lgh mÙkj dks igpkfu;sA
(1) A o R nksuksa lR; gS rFkk R A dk lgh
Li"Vhdj.k gSA
(2) A o R nksuksa lR; gsa fdarq R, A dk lgh
Li"Vhdj.k ugha gSaA
(3) A lR; gS fdarq R vlR; gSaA
(4) A o R nksuksa vlR; gSA
41. dFku : ;g ekuk fd nks ,dleku bZaVs ikuh ds vUnj
bl rjg ls idM+h gS fd bZaV A ikuh dh lrg ds Bhd
uhps iwjh rjg ls Mwch gS tcfd bZaV B vf/kd xgjkbZ ij
gSA rks bu fn;s x;s lEcfU/kr LFkkuksa ij bZaV B dks idM+s
j[kus ds fy, O;fDr }kjk bZaV B ij vkjksfir cy mruk
gh ifjek.k dk cy pkfg;s fd ftruk bZaV A dks idM+s
j[kus ds fy, O;fä }kjk bZaV A ij vkjksfir cy
pkfg;sA
dkj.k : ikuh esa iwjh rjg Mwch gqbZ izR;sd bZaV ij
mRIykou cy dk ifjek.k blds }kjk gVk;s x;s ikuh ds
Hkkj ds cjkcj gS rFkk ;g bZaV dh xgjkbZ ij fuHkZj ugha
djrk gSA
(1) (2)
(3) (4)
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42. Assertion : The time period of the SHM of a
system consisting of a mass attached to a spring
does not depend on whether it is hanging
vertically from a fixed support or lying on a
horizontal table with other end of spring fixed.
Reason : In spring block system gravity affects
only the mean position. The time period depends
only on mass & spring constant.
(1) (2)
(3) (4)
43. Assertion : A beam of white light enters the
curved surface of a semicircular piece of glass
along the normal. The incoming beam is moved
clockwise (so that the angle q increases), such
that the beam always enters along the normal to
the curved side. Just before the refracted beam
disappears, it becomes predominantly red.
Reason : The index of refraction for light at the
red end of the visible spectrum is more than at
the violet end.
(1) (2)
(3) (4)
44. Assertion : A white parallel beam of light is
incident on a plane glass- vacuum interface as
shown. The beam may not undergo dispersion
after suffering deviation at the interface (The
beam is not incident normally on the interface.)
Reason : Vaccum has same refractive index for
all colours of white light.
(1) (2)
(3) (4)
42. dFku : nzO;eku fLçax fudk; ds SHM dk vkorZdky
bl ckr ij fuHkZj ugha djrk gS fd ;g n`<+ vkyEcu ls
Å/oZ :i ls yVd jgh gS vFkok {kSfrt est ij ,d
fljs ls n`<+or~ ;qfZXer gSA
dkj.k % fLçax CykWd fudk; esa xq:Ro dsoy lkE; fLFkfr
dks çHkkfor djrh gSA vkorZdky dsoy nzO;eku o fLçax
fu;rkad ij fuHkZj djrk gSA
(1) (2)
(3) (4)
43. dFku : 'osr izdk'k dk iqat v)Zo`Ùkkdkj dkap ds VqdM+s
dh oØ lrg ds vfHkyEc ds vuqfn'k vkifrr gksrk gSA
vkifrr iqat nf{k.kkorZ bl izdkj ?kwerk gS fd (bl
izdkj dks.k q c<+rk gS) iqat ges'kk oØ lrg ds vfHkyEc
ds vuqfn'k izos'k djrh gSA viofrZr iqat ds vn`'; gksus
ds rqjar igys ;g eq[;r% yky jax dh izrhr gksrh gSA
dkj.k % n`'; LisDVªe esa izdk'k ds fy, yky fljs dk
viorZukad cSaxuh fljs ls vf/kd gksrk gSA
(1) (2)
(3) (4)
44. dFku : izdk'k dk ,d lekUrj 'osr iqat fp=kkuqlkj ,d
lery dk¡p&fuokZr ds vUrjki`"B (interface) ij
vkifrr gksrk gSA izdk'k iq¡t dk vUrjki`"B ij fopyu
(deviation) gksus ds ckn fo{ksi.k (disperson) ugh gks
Hkh ldrk gSA (izdk'k iqat vUrjki`"V ij vfHkyEc
vkifrr ugh gksrk gS)
dkj.k % 'osr izdk'k ds lHkh jaxksa ds fy, fuokZr dk
viorZukad leku gksrk gSA
(1) (2) (3) (4)
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45. Assertion : AZ X undergoes 2 decays, 2
decays (negative ) and 2 decays. As a result
the daughter product is A 8Z 2 Y
.
Reason : In decay the mass number
decreases by 4 unit and atomic number
decreases by 2 unit. In decay (negative ) the
mass number remains unchanged and atomic
number increases by 1 unit. In decay, mass
number and atomic number remains unchanged.
(1) (2)
(3) (4)
46. Assertion : No external force acts on system of
two spheres which undergo a perfectly elastic
head on collision. The minimum kinetic energy of
this system is zero if the net momentum of this
system is zero.
Reason : In any two body system undergoing
perfectly elastic head on collision, at the instant
of maximum deformation, the complete kinetic
energy of the system is converted to deformation
potential energy of the system.
(1) (2)
(3) (4)
47. Assertion : In a perfectly inelastic collision
between two spheres, velocity of both spheres
just after the collision are not always equal.
Reason : For two spheres undergoing collision,
component of velocities of both spheres along
line of impact just after the collision will be equal
if the collision is perfectly inelastic. The
component of velocity of each sphere
perpendicular to line of impact remains
unchanged due to the impact.
(1) (2)
(3) (4)
45. dFku : AZ X , 2 , 2 (_.kkRed ) o 2 {k; djrk
gSA ftlls ifj.kkeh iq=kh mRikn A 8
Z 2 Y
gSA
dkj.k % {k; esa nzO;eku la[;k 4 bdkbZ ls rFkk
ijek.kq la[;k 2 bdkbZ ls de gksrh gSA {k; esa
( _.kkRed) nzO;eku la[;k vifjofrZr jgrh gS o
ijek.kq la[;k 1 bdkbZ ls c<+rh gSA {k; esa nzO;eku
la[;k rFkk ijek.kq la[;k vifjofrZr jgrh gSA
(1) (2)
(3) (4)
46. dFku : nks xksys tks ,d iw.kZ izR;kLFk lh/kh VDdj djrs
gS] muds fudk; ij dksbZ ckº; cy dk;Z ugh djrk gSA
bl fudk; dh U;wure xfrt ÅtkZ 'kwU; gksxh ;fn bl
fudk; dk usV laosx 'kwU; gSA
dkj.k % fdlh nks fi.M fudk; esa ftlesa iw.kZ izR;kLFk
lh/kh VDdj gksrh gS] vf/kdre fodfr ds {k.k ij
fudk; dh iw.kZ xfrt ÅtkZ fudk; dh fod`fr fLFkfrt
ÅtkZ esa ifjofrZr gks tkrh gSA
(1) (2)
(3) (4)
47. dFku : nks xksykasa ds chp ,d iw.kZ vizR;kLFk VDdj ds
fy,] VDdj ds rqjUr ckn nksuksa xksysa ds osx ges'kk
cjkcj ugh gksaxsA
dkj.k % VDdj djrs gq;s nks xksysa ds fy,] VDdj ds
rqjUr ckn VDdj dh js[kk ds vuqfn'k nksuksa xksyksa ds
osxksa ds ?kVd cjkcj gksaxs ;fn VDdj iw.kZr;k vizR;kLFk
gSA VDdj dh js[kk ds yEcor~ izR;sd xksys ds osx dk
?kVd VDdj ds dkj.k vifjofrZr jgrk gSA
(1) (2)
(3) (4)
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48. Assertion : In the circuit shown both cells are
ideal and of fixed emf, the resistor of resistance
R1 has fixed resistance and the resistance of
resistor R2 can be varied (but the value of R2 is
not zero). Then the electric power delivered to
resistor of resistance R1 is independent of value
of resistance R2.
Reason : If potential difference across a fixed
resistance is unchanged, the power delivered to
the resistor remains constant.
(1) (2)
(3) (4)
49. Assertion : When an external resistor of
resistance R (connected across a cell of internal
resistance r) is varied, power consumed by
resistance R is maximum when R = r.
Reason : Power consumed by a resistor of
constant resistance R is maximum when current
through it is maximum.
(1) (2)
(3) (4)
50. Assertion : A current carrying closed loop
remains in equilibrium in a uniform and constant
magnetic field parallel to its axis.Consider forces
only due to this magnetic field .
Reason : Torque on a current carrying closed
loop due to a magnetic field is maximum when
the plane of the coil is parallel to the direction of
the magnetic field.
(1) (2)
(3) (4)
48. dFku : fn[kk;s x;s ifjiFk esa nksuksa lsy vkn'kZ gS rFkk
mudk fo-ok-cy (emf) fu;r (fixed) gSA R1 dk izfrjks/k
fu;r gSA izfrjks/k R2 ds eku dks ifjofrZr fd;k tk
ldrk gS (but the value of R2 is not zero)A izfrjks/k
R1 dks iznku dh xbZ fo|qr 'kfä] izfrjks/k R2 ds eku ls
LorU=k gSA
dkj.k % ;fn fu;r (fixed) izfrjks/k ds fljksa ij
foHkokUrj vifjofrZr jgrk gS rks izfrjks/k dks iznku dh
xbZ 'kfä fu;r jgrh gSA
(1) (2)
(3) (4)
49. dFku : ,d ckº; izfrjks/k ftldk izfrjks/k R gS bldks
,d lsy ftldk vkUrfjd izfrjks/k r gS ds fljks ij
yxk;k tkrk gS tc ckº; izfrjks/k R dks ifjofrZr fd;k
tkrk gS rks izfrjks/k R }kjk yh ¼O;f;r dh½ xbZ 'kfä
vf/kdre rc gksxh tc R = r gksxkA
dkj.k % ,d fu;r izfrjks/k R }kjk yh xbZ 'kfä
vf/kdre gksrh gS tc blesa ls izokfgr /kkjk vf/kdre
gksxhA
(1) (2)
(3) (4)
50. dFku : ,d /kkjkokgh cUn ywi] ,d leku fu;r
pqEcdh; {ks=k esa lkE;oLFkk esa jgrk gSA ;gk¡ pqEcdh;
{ks=k ywi ds v{k ds lekUrj gSA dsoy pqEcdh; {ks=k ds
dkj.k cyksa dks gh fyft,A
dkj.k % ,d /kkjkokgh cUn ywi ¼dq.Myh½ ij pqEcdh;
{ks=k ds dkj.k cyk?kw.kZ vf/kdre gksxk ;fn ywi dk ry
pqEcdh; {ks=k dh fn'kk ds lekUrj gSA
(1) (2)
(3) (4)
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51. Assertion : Two uniform proton beams going in
the same direction repel each other.
Reason : Magnitude of electric force between
two protons is always higher than magnetic force
between them.
(1) (2)
(3) (4)
52. Assertion : Two coaxial conducting rings of
different radii are placed in space. The mutual
inductance of both the rings is maximum if the
rings are also coplanar.
Reason : For two coaxial conducting rings of
different radii, the magnitude of magnetic flux in
one ring due to current in other ring is maximum
when both rings are coplanar.
(1) (2)
(3) (4)
53. Assertion : A neutral conducting wire carrying
no current, when placed in uniform magnetic
field, experiences zero net force.
Reason : An electron in a conducting wire,
carrying no current, doesn�t experience any
magnetic force, when placed in uniform
magnetic field.
(1) (2)
(3) (4)
54. Assertion : Areal velocity of earth about centre
of sun remains constant (areal velocity is defined
as area swept per unit time by line joining the
centre of earth and centre of sun).
Reason : Torque on earth due to gravitational
force of sun about centre of sun remains
constant.
(1) (2)
(3) (4)
51. dFku : nks le izksVkWu fdj.k iqat leku fn'kk esa pyrs
gq, ,d nwljs ls izfrdf"kZr gksrs gSA
dkj.k % nks izksVkWuksa ds e/; fo|qr cy dk ifjek.k buds
e/; pqEcdh; cy ds ifjek.k ls lnSo vf/kd gksrk gSA
(1) (2)
(3) (4)
52. dFku : fHkUu&fHkUu f=kT;kvksa dh nks lek{kh; pkyd
oy; ,d LFkku esa fLFkr gSaA nksuksa oy;ksa dk vU;ksU;
izsjdRo vf/kdre gksxk ;fn oy; leryh; Hkh gSaA
dkj.k % fHkUu f=kT;kvksa dh nks lek{kh; pkyd oy;ksa ds
fy,] ,d oy; esa] nwljh oy; dh /kkjk ds dkj.k
pqEcdh; ¶yDl dk ifjek.k vf/kdre gksrk gS tc nksuksa
oy; leryh; gksaA
(1) (2)
(3) (4)
53. dFku : ,d mnklhu pkyd rkj ftlesa dksbZ /kkjk
çokfgr ugha gS] tc le:i pqEcdh; {ks=k esa j[kk tkrk
gS] 'kwU; ifj.kkeh cy vuqHko djrk gSA
dkj.k % ,d pkyd rkj ftlesa dksbZ /kkjk çokfgr ugha
gS] blesa ,d bysDVªkWu dksbZ pqEcdh; cy vuqHko ugha
djrk gS tc ;g rkj le:i pqEcdh; {ks=k esa j[kk gSA
(1) (2)
(3) (4)
54. dFku : lw;Z ds dsUnz ds ifjr% i`Foh dk {ks=kQyh; osx
fu;r jgrk gSA ¼lw;Z vkSj i`Foh ds dsUnz dks feykus
okyh js[kk }kjk ,dkad le; esa r; fd;k x;k {ks=kQy]
{ks=kQyh; osx dgykrk gS½
dkj.k % lw;Z ds dsUnz ds ifjr% lw;Z ds xq:Rokd"kZ.k cy
ds dkj.k iFoh ij dk;Zjr cyk?kw.kZ fu;r jgrk gSA
(1) (2)
(3) (4)
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55. Assertion : Acceleration due to gravity (g) at 64
km above surface of earth is less then 64 km
below the surface of earth.
Reason : The magnitude of rate of change of
gravitational field (acceleration due to gravity g)
is more at 64 km above the surface of earth then
64 km below the surface of earth.
(1) (2)
(3) (4)
56. Assertion : Three projectiles are moving in
different paths in the air. Vertical component of
relative velocity between any of the pair does not
change with time as long as they are in air.
Neglect the effect of air friction.
Reason : Relative acceleration between any of
the pair of projectiles is zero.
(1) (2)
(3) (4)
57. Assertion : If acceleration of a particle is
decreasing then it is possible that velocity is
increasing with time.
Reason : Acceleration is rate of change of
velocity.
(1) (2)
(3) (4)
58. Assertion : A man projects a stone with speed u
at some angle. He again projects a stone with
same speed such that time of flight now is
different. The horizontal ranges in both the cases
may be same.
Reason : The horizontal range is same for two
projectiles if one is projected at an angle with
the horizontal and other is projected at an angle
90o � with the horizontal.
(1) (2)
(3) (4)
55. dFku : iFoh lrg ls 64 km Åij xq:Roh; Roj.k dk
eku] i`Foh lrg ls 64 km xgjkbZ ij xq:Roh; Roj.k ds
eku ls de gksrk gSA
dkj.k % iFoh lrg ls 64 km Åij xq:Roh; {kS=k ds
ifjorZu dh nj dk ifjek.k] i`FOkh lrg ls 64 km
xgjkbZ dh rqyuk esa T;knk gSA
(1) (2)
(3) (4)
56. dFku : rhu iz{ksI; gok esa vyx&vyx iFkks esa xfr dj
jgs gSaA fdUgh nks iz{ksI;ksa ds chp lkisf{kd osx dk
Å/okZèkj ?kVd le; ds lkFk ugh cnyrk gS] tc rd os
gok esa gSA gok ds ?k"kZ.k ds izHkko dks ux.; ekfu;sA
dkj.k % fdUgh nks iz{ksI;ksa ds chp lkisf{kd Roj.k 'kwU;
gSA
(1) (2)
(3) (4)
57. dFku % ;fn fdlh d.k dk Roj.k ?kV jgk gS rks ;g
lEHko gS fd osx c<+ jgk gksA
dkj.k % Roj.k ] osx esa ifjorZu dh nj gSA
(1) (2)
(3) (4)
58. dFku % ,d vkneh ,d iRFkj dks u pky ls fdlh dks.k
ij iz{ksfir djrk gSA og iqu% ,d iRFkj dks mlh pky
ls bl izdkj iz{ksfir djrk gS fd vc mM~M;u dky
fHkUu gSA nksuksa fLFkfr;ksa esa {kSfrt ijkls leku gks ldrh
gSaA
dkj.k % nks iz{ksI;ksa ds fy, {kSfrt ijkl leku gksrh gS
;fn ,d dks {kSfrt ls dks.k ij iz{ksfir fd;k tkrk gS
rFkk nwljs dks {kSfrt ls 90o � ds dks.k ij iz{ksfir
fd;k tkrk gSA
(1) (2)
(3) (4)
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59. Assertion : At both ends of massless spring
force will be same in magnitude always.
Reason : On every massless object force at
every point is same.
(1) (2)
(3) (4)
60. Assertion : In the given situation, tension in the
string increases if m is replaced by a heavier
block.
Reason : When m is replaced by a heavier block
acceleration of system reduces.
(1) (2)
(3) (4)
59. dFku % nzO;ekughu fLizax ds nksuksa fljks ij fLizax cy
lnSo ifjek.k esa leku gksxkA
dkj.k % izR;sd nzO;ekughu oLrq ds fy, izR;sd fcUnq ij
cy leku gksxkA
(1) (2)
(3) (4)
60. dFku % nh xbZ fLFkfr esa ;fn nzO;eku m dks Hkkjh CykWd
ls izfrLFkkfir dj fn;k tk;s rks Mksjh esa ruko c<+rk
gSA
dkj.k % tc nzO;eku m dks Hkkjh CykWd ls izfrLFkkfir
fd;k tkrk gS rks fudk; dk Roj.k ?kVrk gSA
(1) (2)
(3) (4)
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PART�B Atomic masses : [H = 1, D = 2, Li = 7, C = 12, N = 14, O = 16, F = 19, Na = 23, Mg = 24, Al = 27, Si = 28,
P = 31, S = 32, Cl = 35.5, K = 39, Ca = 40, Cr = 52, Mn = 55, Fe = 56, Cu = 63.5, Zn = 65, As=75, Br=80,
Ag = 108, I = 127, Ba = 137, Hg = 200, Pb = 207]
SECTION - I
Straight Objective Type
This section contains 40 multiple choice
questions. Each question has 4 choices (1), (2),
(3) and (4) out of which ONLY ONE is correct.
61. The observed molar mass of mixture is 50.
A3(g) 3A(g)
If the molar mass of A is 25,
Find the % dissociation of A3.
(1) 50% (2) 25%
(3) 33.33% (4) 66.66 %
62. Which of the following graphs represent relation
between initial concentration of reactants and
half-life for third order reaction ?
(1) (2)
(3) (4)
63. Equal masses of methane and oxygen are mixed
in an empty container at 25oC . What is the
fraction of the total pressure exerted by oxygen :
(1) 23
(2) 1 2733 298
(3) 13
(4) 12
[k.M- I
lh/ks oLrqfu"B izdkj
bl [k.M esa 40 cgq&fodYih iz'u gSA izR;sd iz'u ds
4 fodYi (1), (2), (3) rFkk (4) gSa, ftuesa ls flQZ ,d
lgh gSA
61. feJ.k dk izsf{kr eksyj nzO;eku 50 gS
A3(g) 3A(g)
;fn A dk eksyj nzO;eku 25 gS rc A3 dk izfr'kr
fo;kstu Kkr dhft,
(1) 50% (2) 25%
(3) 33.33% (4) 66.66 %
62. fuEu esa ls dkSulk vkjs[k vfHkdkjd dh izkjfEHkd
lkUnzrk o r`rh; dksfV vfHkfØ;k ds fy, v)Zvk;q ds
e/; lEcU/k n'kkZrk gS \
(1) (2)
(3) (4)
63. 25oC ij ,d fjDr ik=k esa esFksu vkSj vkWDlhtu ds
leku Hkkj feyk;s x;sA vkWDlhtu }kjk yxk;k x;k nkc
dqy nkc dk fdruk izHkkt gS %&
(1) 23
(2) 1 2733 298
(3) 13
(4) 12
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64. If electronic configuration of B is written as 1s3
2s2. Which principles are violated during filling
electrons?
(1) Aufbau principle
(2) Hund's maximum multiplicity rule
(3) Pauli's exclusion principle
(4) Hund's maximum multiplicity rule and
Pauli's exclusion principle
65. Wax is an example of -
(1) lonic crystal
(2) Covalent crystal
(3) Molecular crystal
(4) Metallic crystal
66. Calculate the molar solubility of zinc
tetrathiocyanato�N�mercurate () if its
KSP = 2.2 × 10�7.
(1) 0.00380 (2) 0.000469
(3) 0.0095 (4) 0.0183
67. A metal having negative reduction potential
when dipped in the solution of its own ions, has
a tendency:
(1) to pass into the solution
(2) to be deposited from the solution
(3) to become electrically positive
(4) to remain neutral
68. Among the following, the coloured compound is :
(1) CuCl
(2) K3 [Cu(CN)4]
(3) CuF2
(4) [Cu(CH3CN)4]BF4
69. In a simple cubic lattice of anions, the side
length of the unit cell is 2.88 Å. The diameter of
the cation in the body centre is :
(1) 1.934 Å (2) 0.461 Å
(3) 2.108 Å (4) 4.988 Å
64. ;fn B dk bySDVªkWfud foU;kl 1s3 2s2 fy[kk tk;s rks
fuEu esa ls dkSuls fl)kUr dk mYya?ku gqvk gS ?
(1) vkWQckÅ fl)kUr
(2) gq.M dh vf/kdre cgqydrk dk fu;e
(3) ikÅyh dk viorZu fu;e
(4) gq.M dh vf/kdre cgqydrk dk fu;e vkSj
ikÅyh dk viorZu fu;e
65. ekse fuEu dk ,d mnkgj.k gS -
(1) vk;fud fØLVy
(2) lgla;ksth fØLVy
(3) vkf.od fØLVy
(4) /kkfRod fØLVy
66. ftad VªsVkFkk;kslk;usVks�N�eD;wZjsV () dh eksyj
foys;rk dh x.kuk djks ;fn KSP = 2.2 × 10�7 gS \
(1) 0.00380 (2) 0.000469
(3) 0.0095 (4) 0.0183
67. _.kkRed vip;u foHko okys ,d /kkrq dks tc blds
Lo;a ds vk;uksa ds foy;u eas Mqcksrs gS rks bldh
(1) foy;u esa tkus dh izo`fÙk gksrh gSA
(2) foy;u ls fu{ksfir gksus dh izo`fÙk gksrh gSA
(3) oS|qrh; :i ls /kukRed gksus dh izofÙk gksrh gSA
(4) mnklhu gksus dh izo`fÙk gksrh gSA
68. fuEufyf[kr ;kSfxdksa esa jaxhu ;kSfxd gS %
(1) CuCl
(2) K3 [Cu(CN)4]
(3) CuF2
(4) [Cu(CH3CN)4]BF4
69. _.kk;u ds ljy?kuh; tkyd esa ,dd dksf"Bdk dh
vksj yEckbZ 2.88 Å gSA ,dd dksf"Bdk ds dsUnz ij
mifLFkr /kuk;u dk O;kl crkb;s &
(1) 1.934 Å (2) 0.461 Å (3) 2.108 Å (4) 4.988 Å
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70. The correct order of 2M / M
E values with negative
sign for the four successive elements Cr, Mn, Fe
and Co is
(1) Mn > Cr > Fe > Co
(2) Cr > Fe > Mn > Co
(3) Fe > Mn > Cr > Co
(4) Cr > Mn > Fe > Co
71. Nitrogen is obtained by the thermal
decomposition of :
(1) NH4Cl (2) NH4NO3
(3) AgNO3 (4) NH4NO2
72. Heavy water is used in nuclear reactors as :
(1) source of a particles.
(2) slowing down the speed of high energy
neutrons.
(3) transporting heat of the reactor.
(4) heating purposes.
73. The electrons identified by qunatum numbers n
and :
(a) n = 4, = 1
(b) n = 4, = 0
(c) n = 3, = 2
(d) n = 3, = 1
can be placed in the order of increasing energy
as :
(1) c > d < b < a
(2) d < b < c < a
(3) b < d < a c
(4) a < c b < d
74. Which among the following has the maximum
value of dipole moment ?
(1) SO3 (2) NF3
(3) NH3 (4) N(SiH3)3
70. pkj mÙkjksÙkj rRoksa Cr, Mn, Fe vkSj Co ds fy,
2M / ME
eku _.kkRed fpUgksa ds lkFk fdl lgh Øe esa
gksrs gSa \
(1) Mn > Cr > Fe > Co
(2) Cr > Fe > Mn > Co
(3) Fe > Mn > Cr > Co
(4) Cr > Mn > Fe > Co
71. fdlds rkih; fo;kstu ls ukbVªkstu izkIr gksrh gSA
(1) NH4Cl (2) NH4NO3
(3) AgNO3 (4) NH4NO2
72. ukfHkfd; la;a=k esa Hkkjh ty iz;qDr gksrk gS :
(1) d.kksa ds L=kksr ds :i esa
(2) mPp ÅtkZ okys U;wVªkWuksa dh xfr eUn djus ds fy,
(3) la;a=k esa Å"ek ifjogu dkjd ds :i esa
(4) xeZ djus ds m)s'; ds fy,
73. DokaVe la[;kvksa n rFkk ds }kjk bysDVªksuksa dh igpku
dh xbZ gS &
(a) n = 4, = 1
(b) n = 4, = 0
(c) n = 3, = 2
(d) n = 3, = 1
ÅtkZ ds c<+rs gq, Øe esa O;ofLFkr djks\
(1) c > d < b < a
(2) d < b < c < a
(3) b < d < a c
(4) a < c b < d
74. fuEu esa ls fdlds f}èkzqo vk?kw.kZ dk eku mPpre gS \
(1) SO3 (2) NF3
(3) NH3 (4) N(SiH3)3
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75. Calculate the enthalpy change when 50 mL of
0.01 M Ca(OH)2 reacts with 25 mL of 0.01 M
HCl. Given that
neutH of a strong acid and
strong base is 14 kcal/equivalent:
(1) 14.0 cal (2) 35 cal
(3) 10.0 cal (4) 7.5 cal
76. To which of the following gaseous mixtures is
Dalton�s law not applicable?
(1) Ne + He + SO2
(2) NH3 + HCl + HBr
(3) O2 + N2 + CI2
(4) N2 + H2 + O2
77. What is the potential of the cell containing two
hydrogen electrodes as represented below
Pt : H2(g) / H+(10�8) M | | H+ (0.001 M) / 12
H2(g). Pt ;
(1) � 0.295 V (2) � 0.0591 V
(3) 0.295 V (4) 0.0591 V
78. Ionisation energy of Xe is comparable to the
ionisation energy of ?
(1) F2 (2) O2
(3) O (4) F
79. Which of the following species does not have -
bonds in its structure ?
(1) (SO3)3 (2) (HPO3)3
(3) SiO2 (4) C3O2
75. tc 0.01 M Ca(OH)2 ds 50 mL dh vfHkfØ;k 0.01 M
HCl ds 25 mL ds lkFk djkbZ tkrh gS rks ,sFksYih
ifjorZu dh x.kuk dhft,A izcy vEy rFkk izcy {kkj
dk H mnklhu 14 kcal/rqY;kad fn;k x;k gS &
(1) 14.0 cal (2) 35 cal
(3) 10.0 cal (4) 7.5 cal
76. fuEu esa ls dkSuls xSlh; feJ.kksa ij MkWYVu fu;e ykxw
ugha gksrk gS \
(1) Ne + He + SO2
(2) NH3 + HCl + HBr
(3) O2 + N2 + CI2
(4) N2 + H2 + O2
77. uhps iznf'kZr fd;s x;s nks gkbMªkstu bySDVªkWM ;qDr lsy
dk foHko D;k gSA
Pt : H2(g) / H+(10�8) M | | H+ (0.001 M) / 12
H2(g). Pt ;
(1) � 0.295 V (2) � 0.0591 V
(3) 0.295 V (4) 0.0591 V
78. Xe dh vk;uu ÅtkZ fuEu dh vk;uu ÅtkZ ds lerqY;
gS
(1) F2 (2) O2
(3) O (4) F
79. fuEu esa ls dkSulh iztkfr dh lajpuk esa -ca/k mifLFkr
ugha gS \
(1) (SO3)3 (2) (HPO3)3
(3) SiO2 (4) C3O2
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80. Find out standard enthalpy of formation of
CH3OH(l) from following data.
CH3OH() + 32
O2(g) CO2(g) + 2H2O().
Hº = � 726 kJ/mole
C(Graphite) + O2 CO2(g) Hº = � 393 kJ/mole
H2(g) + 12
+ O2(g)H2O() Hº = � 286 kJ/mole
(1) � 239 kJ/mole (2) 239 kJ/mole
(3) 47 kJ/mole (4) � 47 kJ/mole
81. X + H2O � Y + CH4
In the above reaction a unknown component X
on hydrolysis gives Y and methane(g) identify X
and Y.
(1) CaC2 , Al)OH)3
(2) Al4C3, Al(OH)3
(3) MgC2, Mg(OH)3
(4) None of the above
82. A quantity of hydrogen gas occupies a volume of
30.0 mL at a certain temperature and pressure.
What volume would half this absolute
temperature if the pressure were one ninth that
of the original gas ?
(1) 270 mL (2) 90 mL
(3) 405 mL (4) 135 mL
83. Choose the incorrect statement among the
following �
(1) The chemistry of different lanthanoids is
very similar
(2) 4 f and 5 f-orbitals are equally shielded so
have similar size
(3) d-block element show irregular and erratic
chemical properties among themselves
(4) La and Lu have partially filled d-orbitals and
no other partially filled orbitals
80. fuEu vk¡dM+ksa ls CH3OH(l) ds lEHkou dh ekud
,UFksYih Kkr dhft;s
CH3OH() + 32
O2(g) CO2(g) + 2H2O().
Hº = � 726 kJ/mole
C(xszQkbV) + O2 CO2(g) Hº = � 393 kJ/mole
H2(g)+12
+O2(g)H2O () Hº = � 286 kJ/mole
(1) � 239 kJ/mole (2) 239 kJ/mole
(3) 47 kJ/mole (4) � 47 kJ/mole
81. X + H2O � Y + CH4
mijksDr vfHkfØ;k esa vKkr va'k X dk tyvi?kVu ij
Y rFkk feFksu (g) nsrk gSA X rFkk Y dks igpkfu, &
(1) CaC2 , Al)OH)3
(2) Al4C3, Al(OH)3
(3) MgC2, Mg(OH)3
(4) buesa ls dksbZ ugha
82. ,d fuf'pr rki rFkk nkc ij 30.0 mL ds vk;ru dks
gkbMªkstu xSl dh ek=kk }kjk ?ksjk tkrk gSA ;fn nkc
izkjafHkd xSl dk 1/9 rFkk blds ije rki dks izkjEHk dk
vk/kk dj fn;k tk, rks vk;ru gksxk &
(1) 270 mL (2) 90 mL
(3) 405 mL (4) 135 mL
83. fuEu esa ls xyr dFku dks NkafV, &
(1) fofHkUu ySUFksukbM dh jlk;u cgqr dqN leku gSA
(2) 4 f rFkk 5 f- d{kdksa dk ifjj{k.k leku gksrk gSA
vr% leku vkdkj gksrk gSA
(3) d-CykWd rRo vius vki ds jklk;fud xq.kksa esa
vlk/kkj.kr;k rFkk vfu;ferrk fn[kkrs gSaA
(4) La rFkk Lu vkaf'kd Hkjk d-d{kd j[krs gSa rFkk
nwljs vkaf'kd Hkjs d{kd ugha j[krs gSaA
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84. The zone refining process of metals is based on
the principle of
(1) excess noble character of the liquid metal
than that of impurity.
(2) lower melting point of the impurity than that
of pure metal
(3) greater solubility of impure metal than that
of impurity
(4) greater solubility of the impurities in the
molten state than in the solid.
85. Mixture X = 0.02 mole of [Co(NH3)5SO4]Br and
0.02 mole of [Co(NH3)5Br]SO4 was prepared in
2L of solution
1 L of mixture X + excess AgNO3 Y
1 L of mixture X + excess BaCl2 Z
Number of moles Y and Z are
(1) 0.03, 0.02 (2) 0.01, 0.02
(3) 0.02, 0.01 (4) 0.02, 0.02
86. For nth order reaction
dxdt
= Rate = n0k[A]
Graph between log (rate) against log [A0] is of
the type
log [A0]
log [rate]0
P
Q
R
S
Lines P, Q, R, S are for the order
P Q R S
(1) 0 1 2 3
(2) 3 2 1 0
(3) 1 2 3 0
(4) 0 3 2 1
84. /kkrqvksa dk tksu ifjj{k.k izØe fdl fl)kUr ij
vk/kkfjr gS &
(1) nzo /kkrqvksa ds vfØ; y{k.k v'kq)rk dh rqyuk esa
vf/kd gksrs gSaA
(2) v'kq)rk dk xyukad 'kq) /kkrq dh rqyuk esa de
gksrk gSA
(3) v'kq) /kkrq dh foys;rk v'kq)rk dh rqyuk esa
vf/kd gksrh gSA
(4) v'kq)rkvksa dh foys;rk Bksl dh rqyuk esa fi?kyh
voLFkk esa T;knk gksrk gSA
85. feJ.k X = [Co(NH3)5SO4] Br ds 0.02 eksy rFkk
[Co(NH3)5Br]SO4 ds 0.02 eksy 2L ds foy;u esa
rS;kj fd;k x;k Fkk
feJ.k X dk 1 L + AgNO3 dk vkf/kD; Y
feJ.k X dk 1 L + BaCl2 dk vkf/kD; Z
Y rFkk Z ds eksyksa dh la[;k gS &
(1) 0.03, 0.02 (2) 0.01, 0.02 (3) 0.02, 0.01 (4) 0.02, 0.02
86. nth dksfV vfHkfØ;k ds fy,
dxdt
= Rate = n0k[A]
log (nj) rFkk log [A0] ds e/; xzkQ fn;k x;k gS
log [A0]
log [rate]0
P
Q
R
S
js[kk P, Q, R, S fdl dksfV ds fy, gS
P Q R S
(1) 0 1 2 3
(2) 3 2 1 0
(3) 1 2 3 0
(4) 0 3 2 1
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87. When two ice cubes are pressed over each
other, they unite to form one cube. Which of the
following forces is responsible to hold them
together ?
(1) vander Waal's forces
(2) Hydrogen bond formation
(3) Covalent attraction
(4) ionic interaction
88. Which of the following compounds has the
highest boiling point ?
(1) CH3CH2CH2Cl
(2) CH3CH2CH2CH2Cl
(3) CH3CH(CH3)CH2Cl
(4) (CH3)3CCl
89. Total No. of isomeric structure for aromatic
compound C7H6O2 ?
(1) 4 (2) 5
(3) 3 (4) 5
90. Streptomycin is an :
(1) antiseptic
(2) Antifertility drug
(3) tranquilizer
(4) Antibiotic
91. Which of the following will give a yellow
precipitate with iodine and alkali ?
(1) Methyl propanoate
(2) Formamide
(3) Butan-2-ol
(4) Benzophenone
92. Terylene is a condensation polymer of
(1) Ethylene glycol & Benzoic acid
(2) Benzoic acid & Terephthalic acid
(3) Ethylene glycol & Terephthalic acid
(4) Ethylene glycol & salicylic acid
87. tc nks cQZ ds ?ku ,d nwljs ds Åij j[krs gSa rks ;s
la;qDr gksdj ,d ?ku cukrs gSaA fuEu esa ls dkSulk cy
budks vkil esa lkFk tksM+us ds fy, mRrjnk;h gS &
(1) ok.Mjoky cy
(2) gkbMªkstu cU/k fuekZ.k
(3) lgla;kstu vkd"kZ.k
(4) vk;fud vkd"kZ.k
88. fuEu esa ls dkSuls ;kSfxd dk DoFkukad vf/kdre gS \
(1) CH3CH2CH2Cl
(2) CH3CH2CH2CH2Cl
(3) CH3CH(CH3)CH2Cl
(4) (CH3)3CCl
89. ,jksesfVd ;kSfxd] C7H6O2 ds fy, leko;oh lajpukvksa
dh dqy la[;k gS ?
(1) 4 (2) 5
(3) 3 (4) 5
90. LVªsIVksekblhu gS %
(1) iwfrjks/kh
(2) izfrtuu {kerk vks"k/k
(3) iz'kkUrd
(4) izfrtSfod
91. fuEu esa ls dkSu vk;ksMhu rFkk {kkj ds lkFk ihyk
vo{ksi nsxk ?
(1) esfFky izksisuks,V
(2) QkWesZekbM
(3) C;wVsu-2-vkWy
(4) csUtksfQuksu
92. Vsfjyhu fdldk la?kuu cgqyd gS %
(1) ,fFkyhu XykbZdkWy rFkk csUtksbd vEy
(2) csUtkWbd vEy rFkk VjFkSfyd vEy
(3) ,fFkyhu XykbZdkWy rFkk VjFkSfyd vEy
(4) ,fFkyhu XykbZdkWy rFkk lsfyflfyd vEy
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93. Which polysaccharide has -glycoside linkage ?
(1) Amylose (2) Amylopectin
(3) Cellulose (4) All of these
94. 2 4
4
(i) KCN / H SO
(ii) LiAlH Product is
(1)
OH|
NHCHCHCHCH 2223
(2) CH3 � CH2 � � CH2 � NH � CH3
(3)
OH|
CNCHCHCH 23
(4)
OH|
NH�CHCHCHCH 2223
95. The correct IUPAC name of (C2H5)4C is :
(1) Tetraethyl methane
(2) 2-Ethylpentane
(3) 3,3-Diethylpentane
(4) None of these
96. Which one of the following will not contain
nitrogen when heated with NaNO2 & HCl ?
(1) NH2
(2)
N
CH3
(3)
NH2
(4)
N
H
97. C=O
group is reduced to �CH2 group by
using %
(1) Zn-Hg/HCl (2) H2N�NH2/KOH
(3) HI/P/ (4) All of these
93. fuEu esa ls dkSulk ikWfylsdsjkbM - XykbdkslkbM
fyadst j[krk gS \ (1) ,ekbyksl (2) ,ekbyksisfDVu
(3) lsyqyksl (4) mijksDr lHkh
94. 2 4
4
(i) KCN / H SO
(ii) LiAlH mRikn gS :
(1)
OH|
NHCHCHCHCH 2223
(2) CH3 � CH2 � � CH2 � NH � CH3
(3)
OH|
CNCHCHCH 23
(4)
OH|
NH�CHCHCHCH 2223
95. (C2H5)4C dk lgh IUPAC uke gS %
(1) VsVªk,fFky esFksu
(2) 2-,fFkyisUVsu
(3) 3,3-MkbZ,fFkyisUVsu
(4) buesa ls dksbZ ugha
96. fuEu esa ls dkSulk ;kSfxd NaNO2 o HCl ds lkFk xeZ
djus ij ukbVªkstu ;qDr ugha gksxk ?
(1) NH2
(2)
N
CH3
(3)
NH2
(4)
N
H
97. fuEu esa ls fdlds iz;ksx ij C=O
lewg] �CH2
lewg esa vipf;r gks tkrk gS %
(1) Zn-Hg/HCl (2) H2N�NH2/KOH
(3) HI/P/ (4) mijksDr lHkh
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98. Glucose on oxidation with nitric acid gives
(1) Gluconic acid
(2) Glucaric acid
(3) trihydroxy glutaric acid
(4) glycolic acid and tartaric acid
99. Total cyclic structures of C4H6 will be ?
(1) 3 (2) 5
(3) 2 (4) 6
100. The absolute configuration of the following
compounds is
(1) 2S, 3R (2) 2S, 3S
(3) 2R, 3S (4) 2R, 3R
SECTION - II
Reasoning Type
This section contains 20 reasoning type
questions. Each question has 4 choices (1), (2),
(3) and (4), out of which ONLY ONE is correct.
The following questions consist of two
statements one labelled ASSERTION (A) and
the another labelled REASON (R). Select the
correct answers to these questions from the
codes given below :
(1) Both A and R are true and R is the correct
explanation of A.
(2) Both A and R are true but R is not correct
explanation of A
(3) A is true but R is false
(4) A and R are false
101. Assersion : H2 gas is liberated at anode in
electrolysis of molten NaH
Reason: Sodium hydride contains H� ion.
(1) (2)
(3) (4)
98. Xywdksl] ukbfVªd vEy ds lkFk vkWDlhdj.k ij nsrk gS
(1) Xywdksfud vEy
(2) Xywdsfjd vEy
(3) VªkbgkbMªkWfDlXywVsfjd vEy
(4) XykbdkWfyd vEy rFkk VkVZfjd vEy
99. C4H6 dh dqy pfØ; lajpuk,a gksaxh ?
(1) 3 (2) 5
(3) 2 (4) 6
100. fuEu ;kSfxd dk lgh foU;kl gS %
(1) 2S, 3R (2) 2S, 3S
(3) 2R, 3S (4) 2R, 3R
[k.M- II
dkj.k çdkj
bl [k.M esa 20 dkj.k çdkj ds ç'u gSA çR;sd ç'u
ds 4 fodYi (1), (2), (3) rFkk (4) gS, ftuesa ls flQZ
,d lgh gSA
fuEu iz'uksa esa ls izR;sd esa nks okD; gS] ,d dFku (A)
rFkk nwljk dkj.k (R) uhps fn;s x;s funsZ'kksa ds vk/kkj
ij lgh mÙkj dks igpkfu;sA
(1) A o R nksuksa lR; gS rFkk R A dk lgh
Li"Vhdj.k gSA
(2) A o R nksuksa lR; gsa fdarq R, A dk lgh
Li"Vhdj.k ugha gSaA
(3) A lR; gS fdarq R vlR; gSaA
(4) A o R nksuksa vlR; gSA
101. dFku : xfyr NaH dk fo+|qr vi?kVu djus ij H2
xSl ,uksM ij eqDr gksrh gS
dkj.k : lksfM;e gkbMªkbM] H� vk;u j[krk gSA
(1) (2)
(3) (4)
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102. Assersion : The enthalpy of formation of
gaseous oxygen molecules at 298 K and under
any pressure is zero.
Reason: The entropy of formation of gaseous
oxygen atom under the standard conditions is
zero.
(1) (2)
(3) (4)
103. Asserion : The products of hydrolysis of XeF6
are XeOF4 and XeO3 where the oxidation states
of all the elements remain the same as it was in
the reacting state.
Reason : Hydrolysis of XeF4 represents a redox
reaction.
(1) (2)
(3) (4)
104. Assertion : The elementary reaction is single
step reaction and does not possess mechanism.
Reason : For elementary reaction, order of
reaction and molecularity are same.
(1) (2)
(3) (4)
105. Assertion : Pure phosphine is non inflammable .
Reason : Impure phosphine is inflammable
owing to the presence of P2H4 or P4 vapours.
(1) (2)
(3) (4)
106. Assersion : The free gaseous chromium atom
has six unpaired electrons
Reason: Half filled orbital has greater stability
than fully filled
(1) (2)
(3) (4)
102. dFku : fdlh Hkh nkc rFkk 298 K ij xSlh; vkWDlhtu
v.kqvksa ds lEHkou dh ,UFkSYih 'kwU; gksrh gSA
dkj.k : ekud ifjfLFkfr;ksa ds vUrxZr xSlh; vkWDlhtu
ijek.kq ds lEHkou dh ,UVªkWih 'kwU; gksrh gSA
(1) (2)
(3) (4)
103. dFku : XeF6 ds ty vi?kVu ij mRikn XeOF4 rFkk
XeO3 curs gS] ;gk¡ lHkh rRoksa dh vkWDlhdj.k voLFkk
leku gS vkSj lHkh fØ;kdkjh voLFkk esa gSA
dkj.k : XeF4 dk ty vi?kVu jsMkWDl vfHkfØ;k
n'kkZrk gSA
(1) (2)
(3) (4)
104. dFku : izk:fid vfHkfØ;k,a ,dy pj.k dh vfHkfØ;k gS
rFkk fØ;kfof/k ugha crkrh gSA
dkj.k : izk:fid vfHkfØ;k dh dksfV o vkf.odrk
leku j[krh gSA
(1) (2)
(3) (4)
105. dFku : 'kq) QkWLQhu vToyu'khy gksrh gSA
dkj.k : v'kq) QkWLQhu P2H4 ;k P4 ok"i dh mifLFkfr
ds dkj.k Toyu'khy gksrh gSA
(1) (2)
(3) (4)
106. dFku : eqDr xSlh; Øksfe;e ijek.kq esa 6 v;qfXer
bysDVªkWu gksrs gSA
dkj.k : v)Z Hkjs d{kd dk LFkkf;Ro] iw.kZ Hkjs d{kd dh
rqyuk esa vf/kd gksrk gSA
(1) (2)
(3) (4)
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107. Assertion : For the reaction,
A(s) + B(g) C(g) + D(g)
at the given temperature, there will be no effect
of addition of inert gas at constant pressure or at
constant volume.
Reason : For the reaction where n = 0, there is
no effect of inert gas either at constant volume or
at constant pressure.
(1) (2)
(3) (4)
108. Assertion : One faraday of electric charge
deposits weight equal to the electrochemical
equivalents.
Reason : One faraday deposits one equivalent
of the substance.
(1) (2)
(3) (4)
109. Assertion : CFSE of K3[Fe(CN)6] is more than
K4[Fe(CN)6].
Reason : CFSE also depends upon the
oxidation state of metal.
(1) (2)
(3) (4)
110. Assertion : [Ti(H2O)6]3+ is coloured while
[Sc(H2O)6]3+ is colourless.
Reason : d�d transition is not possible in
[Sc(H2O)6]3+ because no d-electron is present
(1) (2)
(3) (4)
107. dFku % vfHkfØ;k] A(s) + B(g) C(g) + D(g) ds
fy, fn;s x;s rki ij] vfØ; xSl dk fu;r nkc ;k
fu;r vk;ru ij dksbZ izHkko ugha gksrk gSA
dkj.k % tc vfHkfØ;k ds fy, n = 0 gS rks] vfØ; xSl
dk fu;r nkc ;k fu;r vk;ru ij dksbZ izHkko ugha
gksrk gSA
(1) (2)
(3) (4)
108. dFku % ,d QSjkMs fo|qr vkos'k izokg djus ij fu{ksfir
Hkkj fo|qr jklk;fud rqY;kad ds cjkcj gksxkA
dkj.k % ,d QSjkMs vkos'k ,d rqY;kad inkFkZ dks
fu{ksfir dj ldrk gSA
(1) (2)
(3) (4)
109. dFku % K3[Fe(CN)6] dk CFSE K4[Fe(CN)6] ls
vf/kd gSA
dkj.k % CFSE /kkrq dh vkWDlhdj.k voLFkk ij Hkh
fuHkZj djrk gSA
(1) (2)
(3) (4)
110. dFku % [Ti(H2O)6]3+ jaxhu gksrk gS tcfd
[Sc(H2O)6]3+
jaxghu gksrk gSA
dkj.k % [Sc(H2O)6]3+ esa d�d laØe.k laHko ugha gksrk
D;ksafd d-bysDVªkWu gh vuqifLFkr gksrk gSA
(1) (2)
(3) (4)
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111. Assertion : Benzaldehyde is more reactive than
ethanol towards nuclephilic attack.
Reason : The overall effect of �I and + R effect
of phenyl group decreases the electron density
on the carbon atom of C=O group .
(1) (2)
(3) (4)
112. Assertion : Critical temperature of CO2 is 304 K,
it cannot be liquiefied above 304 K.
Reason : At a certain temperature for a fix
amount of idea gas, volume 1
pressure
(1) (2)
(3) (4)
113. Assertion : At the end of electrolysis using
platinum electrodes, an aqueous solution of
CuSO4 turns colourless.
Reason : During the electrolysis CuSO4
changes to Cu(OH)2 .
(1) (2)
(3) (4)
114. Assertion : Salicylic acid may be prepared from
sodium phenoxide by Kolbe-Schmidt reaction
using carbon dioxide.
Reason : Kolbe-Schmidt reaction is a
nucleophilic substitution reaction.
(1) (2)
(3) (4)
115. Assertion : Generally ketones do not give
Tollen's test but fructose gives positive Tollen's
test.
Reason : Fructose is an aldohexose and has
aldehydic group.
(1) (2)
(3) (4)
111. dFku % csUtsfYMgkbM] ,FksukWy dh rqyuk esa ukfHkdLusgh
vkØe.k ds fy, vf/kd fØ;k'khy gksrk gSA
dkj.k % csUtsfYMgkbM esa
C=O lewg ds dkcZu
ijek.kq ij bysDVªkWu ?kuRo Qsfuy lewg ds �I rFkk + R
izHkko ds dkj.k de gks tkrk gSA
(1) (2)
(3) (4)
112. dFku % CO2 dk Økafrd rki 304 K gS] ;s 304 K ls
Åij nzohd`r ugha gks ldrh gSA
dkj.k % ,d fuf'pr rki ij fu;r ek=kk dh vkn'kZ xSl
dk vk;ru 1
nkc
(1) (2)
(3) (4)
113. dFku % CuSO4 dk tyh; foy;u IysfVue bysDVªksM
dk mi;ksx djds fo|qr vi?kVu djus ij vUr esa
jaxghu gks tkrk gSA
dkj.k % fo|qr vi?kVu ds nkSjku CuSO4 , Cu(OH)2
esa cny tkrk gSA
(1) (2)
(3) (4)
114. dFku : lsfyflfyd vEy dks dksYcsfLeV vfHkfØ;k }kjk
dkcZuMkbvkWDlkbM ds mi;ksx ls lksfM;e fQukWDlkbM
}kjk cuk;k tk ldrk gSA
dkj.k : dksYcsfLeV vfHkfØ;k ,d ukfHkdLusgh izfrLFkkiu
vfHkfØ;k gSA
(1) (2)
(3) (4)
115. dFku : lkekU;r% dhVksu VkWysu ijh{k.k ugha nsrs ysfdu
ÝDVksl VkWyu ds lkFk /kukRed ijh{k.k nsrk gSA
dkj.k : ÝDVksl ,d ,YMksgsDlksl gS ,oa ,fYMgkbM
lewg mifLFkr gksrk gSA
(1) (2)
(3) (4)
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116. Assertion : Halogens are deactivating but o/p-
directing in electrophilic aromatic substitution.
Reason : �I effect of halogens deactivate the
benzene ring while +M effect decides the
orientation of incoming electrophile.
(1) (2)
(3) (4)
117. Assertion : Artificial sweeteners are added to
the food to control the intake of calories.
Reason : Most of the artificial sweeteners are
inert and do not metabolise in the body.
(1) (2)
(3) (4)
118. Assertion : Aldehydes readily forms acetal
when treated with glycol in presence of dry HCl.
Reason : Acetals are stable towards
Nucleophiles and base hence used to protect �
CHO group.
(1) (2)
(3) (4)
119. Assertion : Chlorobenzene does not reacts with
dil. NaOH even on heating.
Reason : C�Cl bond in chlorobenzene is
stronger because of partial double bond
character and hybridisation of carbon atom is
sp2.
(1) (2)
(3) (4)
120. Assertion : 2-butenal lacks enolisable H-atom,
to carbonyl group, still it has sufficient acidic
character.
Reason : The conjugate base of 2-butenal is
stabilised by resonance.
(1) (2)
(3) (4)
116. dFku : gsykstu folfØ;dkjh gksrs gq, Hkh ,sjksesfVd
bysDVªkWuLusgh izfrLFkkiu esa o/p-funsZ'kh gksrs gSa
dkj.k : gSykstu dk �I izHkko csUthu oy; dh lfØ;rk
de djrk gS tcfd +M izHkko vkus okys bysDVªkWuLusgh
dh fLFkfr lqfuf'pr djrk gSA
(1) (2)
(3) (4)
117. dFku : dSyksjh ds fu;a=k.k ds fy, [kk| inkFkks± esa
Ñf=ke e/kqjd feyk, tkrs gSaA
dkj.k : vf/kdrj e/kqjd ‘kjhj esa mikipf;r ugha gksrsA
(1) (2)
(3) (4)
118. dFku : 'kq"d HCI dh mifLFkfr esa ,fYMgkbM] Xykbdksy
ds lkFk vfHkfØ;k dj 'kh?kzrk ls ,lhVsy cukrs gSA
dkj.k : ,lhVsy ukfHkdLusgh rFkk {kkj ds izfr LFkk;h gksrs gSaa
vr% �CHO lewg ds laj{k.k ds fy, iz;qDr gksrs gSA
(1) (2)
(3) (4)
119. dFku : Dyksjkscsathu] xeZ djus ij Hkh ruq NaOH ds
lkFk vfHkfØ;k ugha djrk gSA
dkj.k : Dyksjkscsathu esa C�Cl ca/k izcy ca/k gksrk gS
D;ksafd blesa vkaf'kd f}ca/k ds xq.k gksrs gS] rFkk dkcZu
ijek.kq sp2 ladfjr gksrk gSaA
(1) (2)
(3) (4)
120. dFku % 2-C;wVhusy esa bZukWyhdj.k ;ksX; H-ijek.kq ugha
gksrk tks dkcksZfuy lewg ls fLFkfr ij gS] fQj Hkh ;g
i;kZIr vEyh; y{k.k j[krk gSA
dkj.k % 2-C;wVhusy dk la;qXeh {kkj vuqukn }kjk LFkk;h
gksrk gSA
(1) (2)
(3) (4)
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SECTION-I
Straight Objective Type
This section contains 40 multiple choice
questions. Each question has 4 choices (1), (2),
(3) and (4) for its answer, out of which ONLY
ONE is correct.
121. With respect to following taxonomic aids, how
many are associated with preservation of plants
[A] and animals [B]?
(i) Zoological parks, (ii) Museum, (iii) Botanical
gardens, (iv) Manuals, (v) Herbaria, (vi) Flora
(1) A - (ii), (iii), (v); B - (i), (ii)
(2) A - (ii); (v); B - (ii), (iv)
(3) A - (ii), (v); B - (ii)
(4) A - (v); B - (i), (ii)
122. "Slime Moulds A
[Bl C
Fruiting
bodies".
In the above mentioned incomplete statement,
labelling represents
(1) A- Aggregation, B-Plasmodium,
C- Suitable conditions
(2) A- Suitable conditions, B-Plasmodium,
C- Aggregation
(3) A- Aggregation, B- Plasmodium,
C- Differentiation
(4) A- Suitable conditions,
B- Pseudoplasmodium, C-Aggregation
123. The unique kingdom of heterotrophic organisms
with loose tissue level organisation shows
(i) Diversity in habitat
(ii) Diversity in morphology of mycelium
(ii) NAG polymer in cell wall
(iv) Degeneration of sex organs from lower to
higher group
(v) Optimum growth in cool and humid places.
(1) All are correct
(2) (i), (ii), (iii) & (v) are correct
(3) (iii) & (v) are incorrect
(4) Only (v) is incorrect
[k.M-I
lh/ks oLrqfu"B izdkj
bl [k.M esa 40 cgq&fodYih iz'u gSaA izR;sd iz'u ds
4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d
lgh gSA
121. fuEufyf[kr ofxZdh; lkefxz;kas esa ls ikniksa [A] vkSj
tarqvks [B] ds ifjj{k.k ls lEcaf/kr fdruh gS?
(i) tarq miou, (ii) laxzgky;, (iii) okuLifrd m|ku,
(iv) esuqvYl, (v) ikniky;, (vi) iknitkr
(1) A - (ii), (iii), (v); B - (i), (ii)
(2) A - (ii); (v); B - (ii), (iv)
(3) A - (ii), (v); B - (ii)
(4) A - (v); B - (i), (ii)
122. "voiad dod A
[Bl C
Qyu dk;".
Åij fn;s x;s viw.kZ dFku esa ukekadu iznf'kZr djrs
gSA
(1) A-lewgu, B-IykTeksfM;e,
C-mi;qDr ifjfLFkfr;k¡
(2) A-mi;qDr ifjfLFkfr;k¡, B-IykTeksfM;e,
C-lewgu
(3) A-lewgu, B-L;wM+ksykTeksfM;e, C-foHksnu
(4) A-mi;qDr ifjfLFkfr;k¡, B-L;wMksIykTeksfM;e,
C-lewgu
123. f'kfFky Ård Lrjh; laxBu ;qDr fo"keiks"kh thoksa dk
fof'k"V txr n'kkZrk gSA
(i) vkokl esa fofo/krk
(ii) dod tky dh vkdkfjdh esa fofo/krk
(ii) dksf'kdk fHkfÙk esa NAG cgqyd
(iv) fuEurj ls mPprj lewg rd ySafxd vaxks dk
viâkl
(v) B.Ms vkSj ue LFkkuksa ij b"Vre o`f)
(1) lHkh lgh gSA
(2) (i), (ii), (iii) & (v) lgh gSA
(3) (iii) & (v) xyr gSA
(4) dsoy (v) xyr gSA
PART- C
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124. Find out the correct sequence (w.r.t. size of
male gametophyte in decreasing manner)
(1) Zea mays, Eucalyptus, Pteris
(2) Selaginella; Pinus, Mangifera
(3) Marchantia, Triticum, Spirogyra
(4) Dryopteris, Sphagnum, Ulothrix
125. In which of the following set of plants
development of 7 celled and 8 nucleated
gametophyte is preceded
by reduction division as well as mitosis?
(1) Pteris, Adiantum
(2) Pisum, Eucalyptus
(3) Chlamydomonas, Dryopteris
(4) Azolla, Ficus
126. Branch of taxonomy in which DNA sequences,
alkaloids, crystals may help in knowing
relationships among organisms, is
(1) Karyotaxonomy
(2) Chemotaxonomy
(3) Cytotaxonomy
(4) Morphotaxonomy
127. Mark the odd one (w.r.t. ploidy level in Zea
mays seed)
(1) Radicle, Tigellum
(2) Scutellum, Coleorhiza
(3) Coleoptile, Plumule
(4) Aleurone layer, Endosperm
128. The correct floral formula of Brassica
campestris is
(1) +O K2+2 CX4 A2+4 G(2)
(2) +O KX4 C2+2 A2+4 G(2)
(3) +O K2+2 CX4 A2+2 G(2)
(4) +O K2+2 CX4 A2+4 2�G
124. lgh Øe dk p;u dhft;s (uj ;qXedksn~fHkn ds vkdkj
ds ?kVrs gq, Øe ds lanHkZ esa)
(1) ftvk est, ;wdsfyIVl, Vsfjl
(2) flySftusyk; ikbul, eSathQsjk
(3) ekdsZfU'k;k, fVªfVde, Likbjksxkbjk
(4) Mªk;ksIVsfjl, LQsXul, ;wyksfFkzDl
125. ikniksa ds fuEu eas ls dkSuls leqPp; esa 7 dksf'kdh;
rFkk 8 dsUædh; ;qXedksn~fHkn ds ifjo/kZu dk izkjEHk
U;wudkjh foHkktu ds lkFk�lkFk lelw=kh foHkktu ls
gksrk gS?
(1) Vsfjl, ,fM,UVe
(2) ikble, ;wdsfyIVl
(3) DysekbMkseksukl, Mªk;ksIVsfjl
(4) ,tksyk, Qkbdl
126. ofxZdh dh og 'kk[kk ftlesa DNA vuqØe, ,YdsyksbM~l
o fØLVy thoksa ds chp laca/kksa dks tkuus esa lgk;d
gks ldrs gSa] dkSulh gSA
(1) dsUædofxZdh
(2) jlk;u-ofxZdh
(3) dksf'kdkofxZdh
(4) vkdkj-ofxZdh
127. fo"ke fodYi dk p;u dhft;s (ftvk estk ds cht esa
lw=kxqf.krk Lrj ds lanHkZ esa)
(1) ewykadqj, y?kqLraHk
(2) LdqVsye, ewykaadqjpksy
(3) izkadqjpksy, izkadqj
(4) ,Y;wjksu ijr, Hkzw.kiks"k
128. czsfldk dEisfLVªl dk lgh iq"i lw=k gSA
(1) +O K2+2 CX4 A2+4 G(2)
(2) +O KX4 C2+2 A2+4 G(2)
(3) +O K2+2 CX4 A2+2 G(2)
(4) +O K2+2 CX4 A2+4 2�G
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129. How many of the following plants have
adhesion and cohesion of stamens
respectively?
Pisum sativum, Mustard, China rose, Brinjal,
Citrus, Sunflower
(1) Four, Three
(2) Four, Two
(3) Two, Three
(4) Three, Four
130. The correct sequence of events in cell cycle is.
(a) DNA replication
(b) Tubulin protein synthesis
(c) Duplication of most of the cell organelles
(d) Division of chromosome
(e) Division of cytoplasm
(1) (b) (a) (c) (e) (d)
(2) (c) (b) (a) (d) (e)
(3) (a) (c) (b) (d) (e)
(4) (c) (a) (b) (d) (e)
131. Non-membranous smallest cell organelle
(1) Can be observed by light microscope under
low magnification
(2) Made up of more than three subunits
(3) Double stranded circular DNA
(4) Single stranded RNA and proteins
132. Identify the correct match w.r,t. wood characters
Wood Feature
(1) Heart wood Peripheral non-
functional wood
(2) Sap wood Light coloured wood
involved in conduction of
water and minerals
(3) Early wood Small sized vessels
in xlyem elements
(4) Auturmn
wood
Cambium is more active
129. fuEu eas ls fdrus ikni iqadsljksa Øe'k% vklatu o
lalatu ;qDr gksrs gS?
ikble lVkboe, ljlksau, xqMgy, cSaxu, flVªl, lw;Zeq[kh
(1) pkj, rhu
(2) pkj, nks
(3) nks, rhu
(4) rhu, pkj
130. dksf'kdk pØ esa gksus okyh ?kVukvksa dk lgh Øe gSA
(a) DNA izfrÑfrdj.k
(b) V~;wcqfyu izksVhu la'ys"k.k
(c) vf/kdka'k dksf'kdkaxksa dk f}xq.ku
(d) xq.klw=k dk foHkktu
(e) dksf'kdkæO; dk foHkktu
(1) (b) (a) (c) (e) (d)
(2) (c) (b) (a) (d) (e)
(3) (a) (c) (b) (d) (e)
(4) (c) (a) (b) (d) (e)
131. f>Yyh foghu lw{ere dksf'kdkax
(1) fuEu vko/kZu ds varxZr izdk'k lw{en'khZ ds }kjk
voyksfdr fd;k tk ldrk gSA
(2) rhu ls vf/kd mibdkbZ;ksa ls feydj cuk gksrk gSA
(3) f}jTtqdh o`Ùkkdkj DNA ;qDr gksrk gSA
(4) ,djTtqdh RNA izksVhuksa ;qDr gksrk gS
132. dk"B ds y{k.kksa ds lanHkZ eas lgh feyku dk p;u
dhft;sa
dk"B fo'ks"krk
(1) vUr% dk"B ifj/kh; vfØ;kRed dk"B
(2) jl dk"B ty o [kfutksa ds laogu esa
Hkkx ysus okyh gYds jax dh
dk"B
(3) vxz dk"B tkbye rRoksa es NksVs
vkdkj dh okfgdk,¡
(4) 'kjn dk"B ,/kk vf/kd lfØ; gksrh gSA
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133. Which of the following statements w.r.t.
photosynthesis is are correct?
(a) RUBP is primary CO2 acceptor in C4 plants
(b) Three carbons are present in the primary
CO2 acceptor in C3 plants
(e) Temperature optimum for C3 plants is 20 -
25°C
(1) (a) & (b) (2) (b) & (c)
(3) Only (c) (4) Only (b)
134. During fermentation
(1) The oxidation of NADH to NAD+ is faster
(2) Glucose is completely degraded to CO2
and H2O
(3) Pyruvic acid is converted to CO2 and
ethanol by yeast
(4) The net gain of eight molecules of ATP for
each molecule of fructose
135. Choose the Incorrect match w.r.t. activator
element.
(1) Fe - Catalase
(2) MO - Nitrogenase
(3) Zn2+ - Pyruvate decarboxylase
(4) Mg2+ - RUBP carboxylase
136. The outbreeding device which prevents both
autogamy and geitonogamy is
(1) Dioecy (2) Monoecy
(3) Herkogamy (4) Heterostyly
137. In flowering plants, after fertilistion
(1) The ovarywall develops into pericarp and
the ovules turn into seeds
(2) The spals remain attached to the fruit in
only few genera of solanaceae
(3) Only petals and stamens wither and fall
(4) The pistil does not remain attached to the
plant
133. izdk'kla'ys"k.k ds lanHkZ esa fuEu esa ls dkSulk / dkSuls
dFku lgh gS / gSaA
(a) C4 ikniksa esa RUBP izkFkfed CO2 xzkgh gksrk gSA
(b) C3 ikniksa eas izkFkfed CO2 xzkgh esa rhu dkcZu
mifLFkr gksrs gSA
(e) C3 ikniksa ds fy, vuqdwyre rkieku 20 - 25°C
gksrk gS
(1) (a) o (b) (2) (b) o (c)
(3) dsoy (c) (4) dsoy (b)
134. fd.Oku ds nkSjku
(1) NADH dk NAD+ esa vkWDlhdj.k rhozrk ls gksrk gS
(2) Xywdkst iw.kZ :i ls CO2 o H2O esa vi?kfVr gks
tkrk gS
(3) ik;:fod vEy ;hLV ds }kjk CO2 o ,Fksyksu es
:ikarfjr gks tkrk gSA
(4) ÝDVkst ds izR;sd v.kq ds fy, ATP ds vkB
v.kqvksa dh 'kq) izkfIr gksrh gSA
135. lfØ;d rRo d lanHkZ eas xyr feyku dk p;u
dhft;s
(1) Fe - dsVkyst
(2) MO - ukbVªksftust
(3) Zn2+ - ik:osV MhdkcksZfDlyst
(4) Mg2+ - RUBP dkcksZfDlyst
136. og ckg~;iztuu ;qfDr tks Lofu"kspu rFkk ltkriq"ih
ijkx.k nksuksa dks jksdrh gS] dkSulh gSA
(1) i`Fkdfyafxrk (2) mHk;fyafxrk
(3) Lovkfu"ksP; mHk;fyafxrk (4) fo"ke ofrZdkRo
137. iq"ih; ikniksa esa fu"kspu ds i'pkr~
(1) v.Mk'k; fHkfÙk QyfHkfÙk esa ifjof/kZr gks tkrh gS
rFkk chtk.M chtksa esa ifjofrZr gks tkrs gSA
(2) ckg~;ny dsoy lksysuslh ds dqN oa'kksa esa gh Qy
ls layXu cus jgrs gSA
(3) dsoy ny rFkk iaqdslj eq>kZrs gSa rFkk fxj tkrs gS
(4) L=khdslj ikni ls layXu cuk ugha jgrk gSA
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138. Water hyacinth is called terror of Bengal
because
(1) It drains oxygen flrom water and causes
death of fishes
(2) It grows at a phenomenal rate in running
water reservoirs
(3) It is an exotic weed
(4) Introduced in Bengal for its beautiful
flowers and shape of leaves
139. Wobble hypothesis explains
(1) Degeneracy of genetic code
(2) Transcription
(3) Gene regulation in eukaryotes
(4) Reverse transcription
140. Match the columns
Column-l Column-ll
a. Bioinformatics (i) DNA polymorphism
b. BAC (ii) Coding and non
coding DNA
c. Satellite DNA (iii) Data storage,
retrieval and analysis
d. Sequence Annotation (iv) Vectors of HGP
(1) a(iv), b(iii), c(ii), d(i)
(2) a(iii), b(iv), c(i), d(ii)
(3) a(ii), b(iii), c(iv), d(i)
(4) a(i), b(ii), c(iii), d(iv)
141. Which of the following is respiratory organ of
scorpion?
(1) Gills (2) Lungs
(3) Ctenidia (4) Book lungs
142. Camouflage of Chameleon is associated with
(1) Chromoplast
(2) Chromosome
(3) Chromatophore
(4) Chromomere
138. ty gk;flUFk caxky dh foHkhf"kdk dgykrk gS] D;ksafd
(1) ;g ty ls vkWDlhtu dks vo'kksf"kr dj ysrk gS]
ftlls eNfy;k¡ ej tkrh gSA
(2) ;g cgrs gq, tyk'k;kas eas ,d vlk/kkj.k nj ls
o`f) djrk gS
(3) ;g ,d fo'ks"kr [kjirokj gSA
(4) bls blds lqUnj iq"iksa rFkk ifÙk;ksa rFkk ifÙk;ksa ds
vkdkj ds fy, caxky esa yk;k x;k Fkk
139. okWcy vo/kkj.kk O;k[;k djrh gSA
(1) vkuqoaf'kd dwV dh viâkflrk dh
(2) vuqys[ku dh
(3) ;wdsfj;ksV~l essa thu fu;eu dh
(4) O;qRØe vuqys[ku dh
140. dkWyeksa dk feyku dhft;s
dkWye-l dkWye-ll
a. tSolwpukfoKku (i) DNA cgq:irk
b. BAC (ii) dkWfMax rFkk ukWu-
dkWfMax DNA
c. vuq"kaxh DNA (iii) vk¡dM+ksa dk laxzg.k,
lq/kkj rFkk fo'ys"k.k
d. vuqØe vadu (iv) HGP ds okgd
(1) a(iv), b(iii), c(ii), d(i)
(2) a(iii), b(iv), c(i), d(ii)
(3) a(ii), b(iii), c(iv), d(i)
(4) a(i), b(ii), c(iii), d(iv)
141. fuEufyf[kr es ls dkSu lk fcPNw dk 'oLku vax gS?
(1) Dykse (2) QqQq¶l (QsQM+k)
(3) VhfufM;k (4) iqLrd QqQqil
142. dSfefyvkWu dk Nn~ekoj.k lEko) gSA
(1) ØkseksIykLV ls
(2) Øksekstkse (xq.klw=k) ls
(3) ØkseSVksQksj ls
(4) Økseksfe;lZ ls
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143. Hydra recognises its prey by
(1) Chemical stimulus of prey
(2) Nematocyst
(3) Mechanical stimulus of prey
(4) Some special organs
144. Which one of the following pairs of the kind of
cells and their secretion is correctly matched?
(1) Oxyntic cells, a secretion with pH between
2.0 and 3.0
(2) Alpha cells of islets of Langerhans,
secretion that decreases blood sugar level
(3) Kupffer cells; a digestive enzyme that
hydrolyses nucleic acids
(4) Sebaceous glands; a secretion that
evaporates for cooling
145. Continued consumption of a diet rich in butter,
red meat and eggs for a long period may lead to
(1) Vitamin toxicity
(2) Kidney stones
(3) Hypercholesterolemia
(4) Urine laden with ketone bodies
146. Which one of the following is a matching pair?
(1) Lubb-sharp closure of AV valves at the
beginning of ventricular systole
(2) Dup-sudden opening of semilunar valves at
the beginning of ventricular diastole
(3) Pulsation of the radial artery - valves in the
blood vessels
(4) Initiation of the heart beat - Purkinje fibres
147. During muscular contraction which of the
following events occur?
i. H-zone eliminated
ii. A band widens
iii. I band reduces in width
iv. Width of A band is unaffected
v. M-line & Z-line come closer
(1) i, iii, iv and v (2) Only i, ii and v
(3) Only ii, iv and v (4) Only i, ii and iii
143. gkbMªk vius Hkkstu (f'kdkj) dh igpku djrk gSA
(1) f'kdkj ds jlk;fud m|hiu }kjk
(2) fuesVksflLV }kjk
(3) f'kdkj ds ;kaf=kd m|hiu }kjk
(4) dqN fof'k"V vaxks }kjk
144. fuEufyf[kr esa ls dksf'kdkvksa dh izdkj ,oa muds lzko
dk dkSu lk lqesfyr tksM+k lgh gS?
(1) vkWfDlfUVd dksf'kdk,a 2.0 ls 3.0 pH ds chp dk
lzko gksrk gSA
(2) ySaxjgSal }hi dh vYQk dksf'kdk,a ,d inkFkZ dk lzko
djrh gS ftlls :f/kj 'kdZjk dk Lrj de gksrk gSA
(3) dqIQj dksf'kdk,a ,d ikpd ,Utkbe dk lzko djrh
gS ftlls U;wfDyd vEy dk ty vi?kVu gksrk gSA
(4) flosfl;l xzfUFk ,d inkFkZ dk lzko djrh gS tks
'khryu ds fy, ok"ihÑr gksrh gSA
145. vkgkj esa eD[ku dh izpwjrk, yky xksLr ,oa v.Ms dk
fujUrj miHkksx yEcs le; rd djus ls fdldh
lEHkkouk,a c<+ tkrh gSA
(1) foVkfeu fo"kkDrrk
(2) o`Dd iFkjh
(3) gkbij dksysLVªksfyfe;k
(4) ew=k es dhVksudk; dh mifLFkfr
146. fuEufyf[kr eas ls dkSulk tksM+k lgh lqesfyr gS?
(1) yc�fuy;h izdqapu ds izkjEHk gksus ij AV dikV
dk rsth ls cUn gksuk
(2) Mc�fuy;h Mk;LVksy ds izkjEHk gksus ij
v/kZpUækdkj dikV dk vpkud [kqyuk
(3) vjh; /keuh ds iYlslu-:f/kj okfgfu;ksa esa dikV gksuk
(4) ân Lianu dk vkjEHk�iqjfdats js'ks
147. is'kh; ladqpu ds nkSjku fuEufyf[kr esa ls dkSu lh
?kVuk,a ik;h tkrh gS
i. H-{ks=k dk vn`'; gks tkuk
ii. A cS.M dh pkSM+kbZ esa o`f) gksuk
iii. I cS.M dh pkSM+kbZ esa deh gksuk
iv. A cS.M dh pkSM+kbZ vizHkkfor jguk
v. M- js[kk rFkk Z- js[kk dk lfUudV gksuk
(1) i, iii, iv rFkk v (2) dsoy i, ii rFkk v
(3) dsoy ii, iv rFkk v (4) dsoy i, ii rFkk iii
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148. Identify the correct statement
(1) In amniotes last nerve is spinal accessory
(2) In non-amniotes last nerve is vagus
(3) Optic is shortest nerve
(4) Olfactory nerves has mixed fibres
149. Treatment with 'Alloxan' destroys
(1) STH cells
(2) -cells of islets of Langerhans
(3) Cells of Sertoli
(4) Cells of Leydig
150. Both corpus luteum and macula lutea are
(1) Found in human ovaries
(2) A source of hormones
(3) Characterized by a yellow colour
(4) Contributory in maintaining pregnancy
151. Mark the sexually transmitted diseases caused
by virus
(1) Genital warts (2) Genital herpes
(3) Syphillis (4) Both (1) and (2)
152. Genetic drift operates most effectively in
(1) Island population (2) Smaller population
(3) Larger population (4) Mendelian population
153. The early stage human embryo distinctly
posesses
(1) Gills
(2) Gill slits
(3) External ear (pinna)
(4) Eye brows
154. Severe Acute Respiratory Syndrome (SARS)
(1) Is caused by a variant of Pneumococcus I
pneumoniae
(2) Is caused by a variant of the common cold
virus (corona virus)
(3) Is an acute form of asthma
(4) Affects non-vegetarians much faster than
the vegetarins
148. lgh dFku dks igpkfu,
(1) ,fEu;ksV esa ik;h tkus okyh vfUre raf=kdk
es:n.M dh lgk;d raf=kdk gksrh gSA
(2) xSj -,fEu;ksV esa ik;h tkus okyh vafre raf=kdk
csxl gksrh gSA
(3) n`d raf=kdk lcls NksVh raf=kdk gksrh gSA
(4) ?kzk.k raf=kdkvksa es fefJr js'ks gkssrs gS
149. ',ykstSu' 'Alloxan' ls mipkj djus ij Uk"V gksrh gS
(1) STH dksf'kdk
(2) ySxaj gSl }hi dh -chVk dksf'kdk,a
(3) lVksZyh dh dksf'kdk,a
(4) fyfMx dksf'kdk
150. nksuksa ihr-fi.M rFkk eSD;wyk yqfV;k gksrs gS
(1) ekuo v.Mk'k; esa ik;s tkrs gSA
(2) gkeksZu ds L=kksr gSA
(3) ihr-jax ls fo'ksf"kr gS
(4) lxHkZrk dks cuk;s j[kus esa lagk;d gksrs gSA
151. fo"kk.kq }kjk gksus okys ;kSu-lapkfjr jksx dks fpfUgr
djs
(1) ySafxd eLls (2) tufud ifjliZ
(3) flQkfyl (4) nksuksa (1) o (2)
152. vuqokaf'kd fopyu lcls vf/kd izHkkoh :Ik ls ykxw
gksrk gS dsoy
(1) }hi dh lef"V esa (2) NksVh lef"V esa
(3) cM+h lef"V esa (4) es.My dh lef"V esa
153. ekuo-Hkzw.k dh izkjfEHkd voLFkk esa Li"V ls :i
fn[kyk;h iM+us okyk izØe gSA
(1) Dykse
(2) Dykse njkj
(3) ckâ; d.kZ (fiUuk)
(4) HkkSag
154. lsfo;j ,D;wV fjfLisjVjh flMªkse
(1) ,d U;qeksdksdl U;qeksuh ds ,d foHksn ds dkj.k
gksrk gSA
(2) ,d oSdfYid lkekU; tqdke fo"kk.kq (dksjksuk
okbjl) ds }kjk gksrk gSA
(3) nek dk ,d Hk;adj :i gksrk gSA
(4) ;g 'kkdkgkfj;ksa dh vis{kk eka'kkgkfj;ksa es acgqr
rst xfr ls izHkko Mkyrk gSA
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155. Each restriction endonuclease functions by
inspecting the length of a DNA sequence. It
cleaves
(1) Only the master strand to produce sticky
end
(2) Sense strand of DNA to produce sticky
ends
(3) Each of the two strands of the double helix
at specific points in their sugar phosphate
backbones
(4) Messenger RNA to remove exons
156. Cultivation of Bt cotton has been much in the
news. The prefix Bt means
(1) "Barium-treated" cotton seeds
(2) "Biggerthread" variety of cotton with better
tensile strength
(3) Produced by "biotechnology" using
restriction enzymes and ligases
(4) Carrying an endotoxin gene from Bacillus
thuringiensis
157. Given below is a table comparing the effects of
sympathetic and parasympathetic nervous
system for four feature (1-4). Which one feature
is correctly described?
Feature Sympathetic
nervous
system
Parasympathatic
nervous system
(1) Salivary
gland
Stimulates
secretoin
Inhibits
secretion
(2) Pupil
of the eye
Dilate Constricts
(3) Heart rate Decreases Increases
(4) Intestinal
peristalsis
Stimulates Inhibits
155. izR;sd izfrca/ku ,sMksU;wfDy,st DNA vuqØe dh yEckbZ
ds fujh{k.k ds ckn dk;Z djrk gSA
(1) dsoy fpifpik flajk mRiUu djus okys ekLVj
yfM+;ksa dks dkVrk gSA
(2) fpifpik fljk mRiUu djus okyh DNA dh izR;sd
yM+h dks dkVrk gSA
(3) f}dqMfyuh dh nksuksa yfM+;ksa dks 'kdZjk ÝkWLQsV
vk/kkj LRkEHkksa es fof'k"V dsUækas ij dkVrk gSA
(4) ,DlkWu dks vyx djus okys nwr RNA dks dkVrk gS
156. Bt dikl dh [ksrh cgqr pfpZr gks x;h gSA Bt dk
izeq[k lk/ku gSA
(1) "csfj;e ls mipkfjr " dikl dk cht
(2) "vPNh rU;rk okyh etcwr cMs /kkxs iznku djus
okyh dikl dh fdLesa
(3) izfrca/ku ,Utkbe rFkk ykbsxt dk iz;ksx djds
tSo izkS|ksfxdh }kjk mRiUu lk/ku
(4) cSlhyl Fkqjhuft,afll esa ,MksVkWfDlu thu feyuk
157. vuqdaEih rFkk ijkuqdaEih raf=kdk ds rqyukRed izHkko
dh fo'ks"krk (1-4) rd fuEufyf[kr lkj.kh esa nh x;h
gSA dkSu lh fo'ks"krk lgh :i ls of.kZr gS\
vkÑfr vuqdaEihraf=kdk
ra=k
ijkuqdaEih
raf=kdk ra=k
(1) ykj xzfUFk
lzko dks
m|hfir
djuk
lzko dks
fujksf/kr
(lanfer)
djuk
(2) us=k dh
iqryh
QSykuk
fldqM+uk
(3) ân nj ?kVuk c<+uk
(4) vka=kh;
Øekuqdapu
m|hfir djuk fujksf/kr
djuk
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158. Conn's disease is caused by the over-secretion of
(1) Aldosterone (2) ADH
(3) ACTH (4) None of these
159. A baby has been born with a small tail. It is a
case exhibiting
(1) Retrogressive evolution
(2) Mutation
(3) Atavism
(4) Metamorphosis
160. At a particular locus, frequency of allele is 0.6
and that of 'a' is 0.4. What would be the
frequency of heterozygotes in a randomly
mating population of equilibrium?
(1) 0.16 (2) 0.36
(3) 0.48 (4) 0.24
SECTION-II
Straight Objective Type
This section contains 20 multiple choice
questions. Each question has 4 choices (1), (2),
(3) and (4) for its answer, out of which ONLY
ONE is correct.
The following questions consist of two
statements one labelled ASSERTION (A) and
the another labelled REASON (R). Select the
correct answers to these questions from the
codes given below :
(1) Both A and R are true and R is the
correct explanation of A.
(2) Both A and R are true but R is not
correct explanation of A
(3) A is true but R is false
(4) A and R are false
161. Assertion : Double fertilization is unique event
occurs in angiosperms.
Reason : Zygote in them develops into embryo
and PEN develops into endosperm which
provides nourishment to the developing embryo.
(1) (2)
(3) (4)
158. fdlds vfrlzko gksus ls dksal jksx gksrk gSA
(1) ,YMksLVhjksu (2) ADH
(3) ACTH (4) buesa ls dksbZ ugha
159. ,d cPpk ,d NksVh iw¡N ds lkFk iSnk gqvk gSA ;g ,d
?kVuk dk izn'kZu gSA
(1) fjVªksxzsflo fodkl
(2) mRifjoZru
(3) iwoZtkuq:irk
(4) dk;kUrj.k
160. ,d fo'ks"k LFky tgk¡ A dh vko`fRo 0.6 vkSj 'a' dh
vkofRr 0.4. gSA lkE;rk dh ;kn~fPNd :i ls laxe
djus okyh ,d lef"V esa fo"ke ;qXeutu dh vkofRr
D;k gksxh
(1) 0.16 (2) 0.36 (3) 0.48 (4) 0.24
[k.M-II
lh/ks oLrqfu"B izdkj
bl [k.M esa 20 cgq&fodYih iz'u gSaA izR;sd iz'u ds
4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d
lgh gSA
fuEu iz'uksa esa ls izR;sd esa nks okD; gS] ,d dFku (A)
rFkk nwljk dkj.k (R) uhps fn;s x;s funsZ'kksa ds vk/kkj
ij lgh mÙkj dks igpkfu;sA
(1) A o R nksuksa lR; gS rFkk R, A dk lgh
Li"Vhdj.k gSA
(2) A o R nksuksa lR; gsa fdarq R, A dk lgh
Li"Vhdj.k ugha gSaA
(3) A lR; gS fdarq R vlR; gSaA
(4) A o R nksuksa vlR; gSA
161. dFku : f}fu"kspu ,aft;ksLieZ eas ik;k tkus okyk
vf}rh; y{k.k gSA
dkj.k : buesa tkbxksV Hkwz.k esa fodflr gks tkrk gS
rFkk PEN ¼izk-Hkwz-ds-½ Hkzw.kiks"k esa fodflr gks tkrk gS
tks fodkl'khy Hkwz.k dks iks"k.k iznku djrk gSA
(1) (2) (3) (4)
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162. Assertion : Mass or bulk flow system is differ
from diffusion.
Reason : In mass or bulk flow, different
substances move independently depending on
their concentration gradients.
(1) (2)
(3) (4)
163. Assertion : Biodiversity conservation may be
insitu as well as exsitu.
Reason : In insitu and exsitu conservation, the
endangered species are protected in their
natural habitat.
(1) (2)
(3) (4)
164. Assertion : Eutrophication is the natural aging
of a lake by nutrient enrichment of its water.
Reason : During eutrophication nutrients such
as nitrogen and phosphorus increased in lake.
(1) (2)
(3) (4)
165. Assertion : Dominance is not an autonomous
feature of a gene or its product.
Reason : It depends on gene product or on the
particular phenotype that we choose to examine
when more than one phenotype is influenced by
the same gene.
(1) (2)
(3) (4)
166. Assertion : In photosynthesis there is a
difference in number of ATP and NADPH used
in dark reaction.
Reason : Cyclic photophosphorylation may take
place in photosynthesis.
(1) (2)
(3) (4)
162. dFku : lagfr ;k Fkksd izokg ra=k] folj.k ls fHkUu gSA
dkj.k : lagfr ;k Fkksd izokg esa fofHkUu inkFkZ mudh
lkUnzrk izo.krk ds vuqlkj Lora=k :i ls xfr djrs
gSA
(1) (2)
(3) (4)
163. dFku : tSo fofo/krk laj{k.k LoLFkkus rFkk cfg%LFkkus
nksuksa gks ldrs gS
dkj.k : LoLFkkus rFkk cfg% LFkkus laj{k.k esa ladVxzLr
tkfr;ksa dks muds izkÑfrd vkokl esa lqjf{kr j[kk
tkrk gSA
(1) (2)
(3) (4)
164. dFku : lqiks"k.khdj.k] >hy dk izkÑfrd dky Hkou gS]
tks blds ty dh iks"kd le`f) ds dkj.k gksrk gSA
dkj.k : lqiks"k.khdj.k ds nkSjku >hy esa iks"kd tSls fd
ukbVªkstu rFkk QksLQksjl c< tkrs gSA
(1) (2)
(3) (4)
165. dFku : izHkkfork fdlh thu vFkok mlds mRikn dk
Lok;Ùk y{k.k ugha gSA
dkj.k : ;g thu mRikn vFkok ml fof'k"V y{k.k
izk:i ij fuHkZj djrk gS] ftls ge v/;;u ds fy,
p;u djrs gS] tc ,d thu }kjk ,d ls vf/kd y{k.k
izk:i fufeZr fd;s tkrs gSA
(1) (2)
(3) (4)
166. dFku : izdk'k la'ys"k.k esa vizdkf'kd vfHkfØ;k esa
mi;ksx gksus okys ATP ,oa NADPH dh la[;k esa
vUrj gksrk gSA
dkj.k : izdk'k la'ys"k.k esa pØh; izdk'k
QkWLQksfjyhdj.k gks ldrk gSA
(1) (2)
(3) (4)
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167. Assertion : Growth of plants is considered as
open form of growth.
Reason : In plants, cells/tissues arising out the
same meristem have different structures at
maturity
(1) (2)
(3) (4)
168. Assertion : The complete disintegration of the
nuclear envelope mark the start of metaphase.
Reason : Chromosomes are distinct with two
chromatids at this stage
(1) (2)
(3) (4)
169. Assertion : Lysosqmes help in digestion of
foreign particles in the animal cells
Reason : They have respiratory enzymes.
(1) (2)
(3) (4)
170. Assertion : The untranslated regions (UTRs) of
mRNA is located before the start codon and
after the stop codon.
Reason : UTRs are not translated but are
required for efficient translation
(1) (2)
(3) (4)
171. Assertion : Medulla is considered as a
respiratory centre in animals.
Reason : Rate of breathing is regulated by
medulla because of the changes in O2 content
of blood.
(1) (2)
(3) (4)
172. Assertion: Nutrients like glucose and amino
acids are absorbed actively from the intestine
Reason : Glucose and amino acid are
absorbed in blood
(1) (2)
(3) (4)
167. dFku : ikniksa dh o`f) dks of) dk [kqyk Lo:i ekuk
tkrk gSA
dkj.k : ikniksa esa leku foHkT;ksÙkd ls mRiUu gksus okyh
dksf'kdk,a@Ård ifjiDo gksus ij fHkUu lajpuk,sa j[krs gSA
(1) (2)
(3) (4)
168. dFku : dsUæd vkoj.k dk iw.kZ fo?kVu, e/;koLFkk ds
izkjEHk gksus dks n'kkZrk gS
dkj.k : bl voLFkk esa xq.klw=k] nks ØksesfVM~l lfgr
Li"V gksrs gSA
(1) (2)
(3) (4)
169. dFku : tarq dksf'kdkvksa esa ykblkslkse ckgjh d.kksa ds
ikpu esa lgk;rk djrs gSA
dkj.k : bueas 'oluh; ,atkbe gksrs gSA
(1) (2)
(3) (4)
170. dFku : mRNA ds vvuqokfnr {ks=k (UTRs) vkjEHku izdwV
ds igys rFkk lekiu izdwV ds ckn esa fLFkr gksrs gSA
dkj.k : UTRs vuqokfnr ugh gksrs gS ijarq n{krkiw.kZ
vuqoknu ds fy, vko';d gkssrs gSA
(1) (2)
(3) (4)
171. dFku : tUrqvksa eas esMwyk dks 'olu dsUæ ds :i es
tkuk tkrk gSA
dFku : :f/kj eas vkWDlhtu dh ek=kk esa ifjorZu gksus
ds dkj.k esMwyk }kjk 'olu�nj fu;af=kr gksrh gSA
(1) (2)
(3) (4)
172. dFku : Xywdkstu rFkk vehuks vEy tSls iks"kd rRo
lksfM;e ;qXe Na+ ds }kjk vkWRk ls lfØ; :i ls
vo'kksf"kr gksrs gSA dkj.k : Xywdkst rFkk vehuksa vEy jDr esa vo'ksf"kr
gksrs gSA (1) (2) (3) (4)
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173. Assertion : Amphibian heart consist of two
auricles and one ventricle.
Reason : The deoxygenated blood is returned
to heart through sinus venosus.
(1) (2)
(3) (4)
174. Assertion : Darwin's finches show a variety of
beaks suited for eating large seeds, flying
insects and cactus seeds
Reason : Ancestral seed-eating stock of
darvin's finches radiated out from south
american main land to dffierent geographical
areas of the Galapagos Island, where they
found competitor-free new habitats.
(1) (2)
(3) (4)
175. Assertion : The eartliest organisms that
appaeared on the earth were non-green and
presumably anaerobes.
Reason : The autotrophic organisms were the
chemoautorophs that never released oxygen
(1) (2)
(3) (4)
176. Assertion : Generally, a woman does not
conceive during the lactation period.
Reason : The hormone 'prolactin' initiates and
maintains lactation in a postparturition woman.
(1) (2)
(3) (4)
177. Assertion : 'Saheli' the new oral contraceptive
pill for females contains a non-hormonal and
nonsteroidal preparation.
Reason : The pill contains a synthetic
compound centchroman which suppresses
functioning of corpus luteum.
(1) (2)
(3) (4)
173. dFku : mHk;pj ds ân; dh jpuk nks vkfyUn rFkk
,d fuy; ls gqbZ gSA
dkj.k : f'kjk dksVj ls gksrs gq, fovkWDlhtfur :f/kj
okfil ân; esa vkrk gSA
(1) (2)
(3) (4)
174. dFku : MkfoZu dh fQaps dbZ izdkj dh pksap n'kkZrh gS]
tks cMs+ mMrs gq, dhVksa vkSj dsDVl ds chtksa dks [kkus
ds fy, mi;qDr gksrh gSA
dkj.k : MkfoZu dh fQpksa ds iwoZth cht Hk{kh lewg
nf{k.kh vesfjdk dh eq[; Hkwfe ls xsykisxksl }hi ds
fofHké Hkksxksfyd {ks=kksa es fofdfjr gks x;s] tgk¡ mUgs
Li/kkZ eqDr u;s vkokl feys Fks
(1) (2)
(3) (4)
175. dFku : i`Foh ij lcls igys izdV gksus okys tho xSj
gfjr rFkk lEHkor% vok;qthoh FksA
dkj.k : Loiks"kh tho jlksLoiks"kh Fks ftlls fdlh Hkh
n'kk es vkWDlthu eqDr ugha gksrh FkhA
(1) (2)
(3) (4)
176. dFku: vkeRkkSj ij, ,d efgyk eas Lru iku vof/k ds
nkSjku xHkZ/kkj.k ugha gksrk gSA
dkj.k : efgykvksa esa izloksRrj izksySfDVu gkeksZu dk lzko
Lru iku dks 'kq: djrk gS vkSj mls cuk;s j[krk gSA
(1) (2)
(3) (4)
177. dFku : 'lgsyh' efgykvksa ds fy, rS;kj fd;k x;k xSj-
gkeksZu ,oa xSj-LVsjk;My eq[kh; xHkZfujks/kd xksyh gSA
dkj.k : xksyh esa ik;k tkus okyk Ñf=ke ;kSfxd
lsUVØkseku tks ihr-fi.M ds dk;Z dks de dj nsrk gSA
(1) (2)
(3) (4)
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178. Assertion : Myocardial infarction often results
form a sudden decrease in coronary blood
supply resulting in decreased oxygen supply
Reason : The portion of myocardium without
oxygen supply dies within few minutes and then
refered to as an infarct or myocardial infarction
(1) (2)
(3) (4)
179. Assertion : If a person stands immobile for a
long time, it leads to an accumulation of fluid in
his leg
tissues and swelling of his feet.
Reason : Contraction of muscles compresses
the veins to move the blood inside them.
(1) (2)
(3) (4)
180. Assertion : After hearing a sound, nerve
impulse passes from neurons to the brain.
Reason : The neurons which passes nerve
impulse from body organ to brain is called
afferent neuron.
(1) (2)
(3) (4)
PART-D
GENERAL KNOWLEGDE, APTITUDE & LOGICAL
THINKING
Straight Objective Type
This section contains 20 multiple choice
questions. Each question has 4 choices (1), (2),
(3) and (4) for its answer, out of which ONLY
ONE is correct.
181. International Youth Day is observed on
(1) 10th August (2) 9th August
(3) 8th August (4) 12th August
178. dFku : dksjksujh :f/kj vkiwfrZ esa deh gksus ij vDlj
ek;ksdkfMZ;y buQkjDlu gksrk gSA
dFku : ek;kskdkfMZ;e ds Hkkx esa vkWDlhtu dh vkiwfrZ
ugh gksus ij dqN le; ds vUnj mldh eR;q gks tkrh
gS] og ;g buQkjDV vFkok ek;ksdkfMZ;y buQkjDLku
ds :i es lanfHkZr gksrk gSa
(1) (2)
(3) (4)
179. dFku : ;fn dksbZ O;fDr yEcs le; rd fLFkj jgrk gS
rkss mlds iSj ds Årdkas es rjy inkFkZ dk lap; gks
tkrk gS vkSj mlds iSjks esa lwtu vk tkrh gSA
dkj.k : eka'kisf'k;ksa dk ladqpu f'kjkvksa ds vUnj :f/kj
dks izokfgr djus ds fy, lafifMr / ncko Mkyrk gSA
(1) (2)
(3) (4)
180. dFku : /ofu lquus ds i'pkr~ raf=kdk vkosx raf=kdkvksa
ls gks dj efLr"d rd igq¡prs gS
dkj.k : raf=kdk,a tks 'kjhj ds vax ls efLr"d rd
raf=kdk vkosx dks Hkstrs gS] vfHkokgh raf=kdk r=k
dgykrs gS
(1) (2)
(3) (4)
PART-D
GENERAL KNOWLEGDE, APTITUDE & LOGICAL
THINKING
lh/ks oLrqfu"B izdkj
bl [k.M esa 20 cgq&fodYih iz'u gSaA izR;sd iz'u ds
4 fodYi (1), (2), (3) rFkk (4) gSa] ftuesa ls flQZ ,d
lgh gSA
181. vUrjkZ"Vªh; ;qok fnol dc ekuk;k tkrk gSA
(1) 10th vxLr (2) 9th vxLr
(3) 8th vxLr (4) 12th vxLr
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182. Which of the following is the longest National'
Hiqhway-of India?
(1) NH-7 (2) NH-5
(3) NH-8 (4) NH-4
183. The constitution of India was adopted on
(1) 26th January 1950
(2) 15th August 1950
(3) 26th November 1949
(4) 26th December 1946
184. In Jute production India stands in the world at
(1) Frist (2) Second
(3) Third (4) Fourth
185. What is the Tagline of State Bank of India?
(1) For all your needs
(2) Together we can
(3) With you all the way
(4) Trusted family bank
186. Which of the following is the capital of
Seychelles?
(1) Port Louis (2) Victoria
(3) Suva (4) Ottawa
187. Who among the following is known as the father
operation food?
(1) Dr. Normal Borlaug
(2) Dr. M.S. Swaminathan
(3) Dr. Verghese Kurien
(4) Dr. William Gande
188. What is the currency of 'Myanmar'?
(1) Kyat (2) Lira
(3) Euro (4) Won
189. Which of the following ocean is the smallest?
(1) Atlantic ocean (2) Arctic ocean
(3) Pacific ocean (4) Indian ocean
182. fuEu esa ls Hkkjr dk lcls yEck jk"Vªh; jktekxZ dkSu
lk gSA
(1) NH-7 (2) NH-5
(3) NH-8 (4) NH-4
183. Hkkjr dk laof/kku vaxhÑr fd;k x;k
(1) 26th tuojh 1950
(2) 15th vxLr 1950
(3) 26th uoEcj 1949
(4) 26th fnlEcj 1946
184. twV mRiknu es fo'o esa Hkkjr dk dkSulk LFkku vkrk gSA
(1) izFke (2) f}rh;d
(3) r`rh; (4) prqFkZ
185. LVsV cSad vkWQ bf.M;k dk VSxykbu D;k gS?
(1) vkidh lHkh vko';drkvksa ds fy,
(2) ge ,dlkFk dj ldrs gSaA
(3) iwjh rjg vkids lkFk
(4) fo'oLr ikfjokfjd CkSad
186. fuEu es ls ls'ksYl dh jkt/kkuh dkSu lh gS?
(1) iksVZ YkqbZl (2) foDVksfj;k
(3) lwok (4) vksVkok
187. fuEu esa ls fdls vkijs'ku ¶yM dk tud dgk tkrk
gS\
(1) MkW. ukWjesu cksjykWx
(2) MkW. M.S. LokehukFku
(3) MkW. oxhZt dqfj;u
(4) MkW. fofy;e xS.Ms
188. 'E;kWekj' dh eqæk D;k gS?
(1) D;kr (2) yhjk
(3) ;wjks (4) okWu
189. lcls NksVk egklkxj dkSulk gS?
(1) vVykfUVd egklkxj (2) vkdZfVd egklkxj
(3) iz'kkUr egklkxj (4) fgUn egklkj
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190. Which of the following sectors of Indian
economy is assocaited with agrcultura\
(1) Primary Sector (2) Secondary sector
(3) Tertiary sector (4) All of these
Directions : (191 to 191) In the following
questions, three out of the four alternatives
are same in a certain way and so form a
group. Find the odd one that does not
belong to the group.
191. (1) 2 - 4 (2) 4 - 8
(3) 6 -18 (4) 8 -32
192. How many pair of letters are there in the word
REPURCUSSION which have as many letters
between them in the word as in the alphabet.
(1) Three (2) One
(3) Two (4) More than three
Directions : Find the missing numbers :
193. 7, 13, 25, 49, _
(1) 97 (2) 96
(3) 95 (4) 94
Directions (194 to 194) : In each of the following
questions, a number series is given. After the
series, below it in the next line, a number is
given followed by (A), (B), (C), (D) and (E). You
have to complete the series starting with the
number given following the sequence of the
given series. Then answer the question given
below it.
194. 11 15 38 126
7 (A) (B) (C) (D) (E)
Which number will come in place of (C) ?
(1) 102 (2) 30
(3) 2140 (4) 80
195. I am facing South. I turn right and walk 20 m.
Then I turn right again and walk 10 m. Then I
turn left and walk 10 m and then turning right
walk 20 m. Then I turn right again and walk 60
m. In which direction am I from the starting
point?
(1) North (2) North-west
(3) East (4) North-east
190. fuEu esa ls Hkkjrh; vFkZO;oLFkk dk dkSu lk {ks=k Ñf"k
ls lEcfU/kr gS\
(1) izkFkfed {ks=k (2) f}rh;d {ks=k
(3) r`rh;d {ks=k (4) buesa ls lHkh
funsZ'k : (191 ls 191) fuEufyf[kr iz'uksa esa, pkj fodYiksa esa
ls rhu fdlh u fdlh :i esa leku gS tks ,d lewg
cukrs gSA fo"ke in dks crkb, tks lewg ls lEcaf/kr
ugh gSA
191. (1) 2 - 4 (2) 4 - 8
(3) 6 -18 (4) 8 -32
192. 'kCn REPURCUSSION eas fdrus v{kj ;Xe gSA
ftlesa o.kZekyk ds :Ik esa 'kCn esa muds chp vusd
v{kj gSA
(1) rhu (2) ,d
(3) nks (4) rhu ls vf/kd
funsZ'k : YkqIr la[;k dks crkb,
193. 7, 13, 25, 49, _
(1) 97 (2) 96
(3) 95 (4) 94
funsZ'k (194 ls 194) : uhps fn;s x;s iz'uksa esa izR;sd es ,d
la[;k Js.kh ds ckn blds fups vxyh iafDr esa
la[;kvksa dks Øe'k% (A), (B), (C), (D) rFkk (E). ls
iznf'kZr fd;k x;k gSA vki dks Js.kh esa nh x;h
fuEufyf[kr la[;k Js.kh d vuqØe ds izkjEHku ls
rqyuk djrs gq, Jsz.kh dks iwjk djuk gSA
194. 11 15 38 126
7 (A) (B) (C) (D) (E)
(C) ds LFkku ij dkSu lh la[;k vk;sxh?
(1) 102 (2) 30
(3) 2140 (4) 80
195. eS nf{k.k dh vksj eq¡g djds [kM+k gw¡ nka, eM+dj 20
eh0 pyk I rc fQj eSus nk;sa eqM+k vkSj 10 eho pyk I
fQj okW;s eqMdj 10 eh0 pyk iqu nk;s eqMdj 20 eh0
pkyk rc eSa nkW;s eqM+k vkSj iqu% 60 eh0 pyk I bl
le; izkjfEHkd LFky ls dkSu ls fn'kk es g¡w
(1) mRrj (2) mRrj-if'pe
(3) iwoZ (4) mRrj-iwoZ
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196. Pointing towards a man in the photograph, lady
said �the father of his brother is the only son of
my mother" How is the man related to lady?
(1) Brother (2) Son
(3) Cousin (4) Nephew
197. If P $ Q means P is the father of Q, P # Q
means P is mother of Q, & P Q means P is
the sister of Q. Then how is Q related to N if N #
L $ P Q
(1) grandson (2) granddaughter
(3) nephew (4) data inadequate
198. A dice has been thrown four times and
produces following results.
Which number will appear opposite to the
number 3 ?
(1) 4 (2) 5
(3) 6 (4) 1
Directions : (199 to 199) Following questions are based on
dice test. Numbers from 1 to 6 are marked on
different faces of the "Dice".
199. The number opposite to 4 is :
21 5
54 6 2
65
(1) 1 (2) 2
(3) 5 (4) 6
Directions : (200 to 200) A sheet has been folded
in the manner as shown in X, Y and Z
respectively and punched. You have to
choose from the alternatives how it will look
when unfolded.
200. X Y Z
(A) (B) (C) (D)
(1) (2) (3) (4)
196. rLohj esa vkneh dh vksj b'kkjk djrs gq, �efgyk us
dgk¡" fd blds HkkbZ dk firk esjh ek¡ dk bdykSrk csVk
gS efgyk ls ml O;fDr dk lEcU/k D;k gS?
(1) HkkbZ (2) iq=k (3) ppsjk HkkbZ (4) Hkkatk Hkrhtk
197. ;fn P $ Q dk rkRi;Z gS fd Q dk firk P gSA P #
Q dk rkRi;Z gS fd Q, dh ekrk P gSA PQ dk
rkRi;Z gS fd Q dh cgu P gSA ;fn N # L $ P Q
lEcU/k bl izdkj gS rc N ls Q dk lEcU/k D;k gSA
(1) ikS=k (2) iks=kh
(3) Hkrhtk (4) vkWdsMs vuqmiyC/k gSa
198. ,d ikWls dks pkj ckj Qsadus ij fuEufuf[kr ifj.kke
izkIr gksrs gSA
(3) ds lkeus dkSu lh la[;k fn[kkyk;h iMs+xh?
(1) 4 (2) 5
(3) 6 (4) 1
funsZ'k : (199 ls 199) fuEufyf[kr iz'u ikWls dh ij[k ij
vk/kkfjr gSA ikWls ds fofHkUu ryksa ij 1 ls 6 rd dh
la[;k fpfUgr dh x;h gSA
199. 4 ds lkeus okyh la[;k gSA
21 5
54 6 2
65
(1) 1 (2) 2 (3) 5 (4) 6
funsZ'k: (200 ls 200) Øe'k% fp=k esa n'kkZ;s x;s X, Y rFkk Z
dh rjg ,d 'khV dks eksM+dj iap fd;k x;k gSA vki
dks fodYiksa esa ls ,sls fodYi dks NkWVuk tks tks 'khV
[kksys tkus ij fn[kyk;xh iM+rk gSA
200. X Y Z
(A) (B) (C) (D)
(1) (2) (3) (4)