1. No category

RESOMOST
SAMPLE TEST PAPER
TARGET : AIPMT 2016
FOR CLASS X TO XI MOVING STUDENTS
Duration : 3 Hours
Max. Marks : 600
INSTRUCTIONS
A. General :
1.
This Question Paper contains 150 (25 Physics, 25
v uq
ns'k
A. lkekU; :
1.
Chemistry, 50 Mathematics & 50 Biology)
25 Chemistry, 50 Mathematics & 50 Biology) iz
'u
questions.
2.
3.
gSaA
The question paper CODE is printed on the right hand
top corner on this sheet of this booklet.
2.
Rough work is to be done on the space provided for
this purpose in the Test Booklet only. This space is
3.
Blank paper, clipboard, log tables, slide rules,
calculators, cellular phones, pagers and electronic
iz'u i=k d k d ksM CODE izLrqr i`"B d sÅ ij nk,¡d ksusesa
Nik gSA
jQ d k;Zijh{kkiq
fLrd kes
ad soy fu/kkZ
fjr t xg ij ghd hft ,A
;g t xg iz
R;s
d i`
"B ij uhpsd h vks
j gS
A
given at the bottom of each page.
4.
;g iqfLrd k vkid k iz'u i=k gSA ft lesa150 (25 Physics,
4.
ijh{kk Hkou d svUnj d ksjsd kxt ] fDyi cksMZ] ykWx Vscy]
LykbM : y]d Sy d qy sVj]lsy qy j Q ksu]ist j vkSj bysDVªkfud
gadgets in any form are not allowed.
mid j.k fd lh Hkh : i esafuf"k) gSaA
mRrj i=k],d ;a
=kJs
.khd j.k;kXs; i=kObjective Response
The answer sheet, a machine-gradable Objective
Response Sheet (ORS), is provided separately.
5.
6.
Do not Tamper / mutilate the ORS or this booklet.
6.
iq
fLrd k vFkok ORS es
au rksgs
j Qs
j d js
au gh mlsfod r` d js
Aa
7.
Do not break the seals of the question-paper booklet
before instructed to do so by the invigilators.
7.
t c rd ifjos"kd funsZ'k ughansarc rd iz'u i=k d h lhy
5.
B. Question paper format and Marking scheme :
8.
The question paper consists of 4 Parts (Part-I
Sheet (ORS) gSt ksfd
vyx lsfn;st k;s
xs
a
A
a
d ksugha[kksay sA
B. iz
'ui=k xzUFkkd kj
8.
(Physics), PART-II (Chemistry), PART-III
v kSj v ad u v k;kst u :
iz'ui=k 4 Hkkxksad k gS(Hkkx-I (Physics), Hkkx-II (Chemistry),
Hkkx-III (Mathematics) rFkk Hkkx-C (Biology) gSA
(Mathematics) & PART-IV (Biology)).
9.
9.
[k.M –I d s izR;sd iz'u d s fy,] ;fn vkius flQ Z mfpr
For each question, you will be awarded 4 marks if
mRrjokyscqYysd ksgh d kyk fd ;k gSrksvkid ks4 v ad fn;s
you darken the bubble corresponding to the correct
answer and zero marks if no bubble is darkened. In
t k,axsA ;fn fd lh Hkh cqYysd ksd kyk ughafd ;k gSrks'kwU;
case of bubbling of incorrect answer, minus one (–1)
mark will be awarded.
v ad fn;k t k,xkA xyr mRrj d scqYysd ksd kyk d jusij
_ .kkRed ,d (–1) v ad fn;k t k,xkA
Straight Objective Type
l h/ksoLrqfu"B izd kj
This section contains 100 multiple choice
bl [k.M esa100 cgq-fod Yih iz'u gSA izR;sd iz'u d s
questions. Each question has 4 choices (1), (2),
4 fod Yi (1), (2), (3) rFkk(4) gS
, ft ues
alsflQ Z,d
(3) and (4) for its answer, out of which ONLY
lgh gSaA
ONE is correct.
PART - I (PHYSICS)
PART - I (PHYSICS)
1.
The phenomenon of electro-magnetic induction
is :
(A) The process of generating magnetic field
due to a current passing through a coil.
(B) Producing induced current in a coil due to
relative motion between the magnet and the coil.
(C) The process of rotating a coil.
(D) The process of charging a body.
1.
fo|qr pqEcd h; çsj.k d h ?kVuk gS&
(A) d q
.My h lsxqt jusoky h /kkjk d sd kj.k mRiUu
pqEcd h; {ks=k d kçØ e
(B) pq
Ecd rFkkd q
.My hd se/; lkis
f{kd xfr d sd kj.k
d q.My h esamRiUu çsfjr /kkjk
(C) ?kw
.kZu d jrh gqbZd q.My h d k çØ e
(D) vkos
f'kr oLrqd kçØ e
2.
The moon is at a distance of 4×108 m from the
earth. A radar signal is transmitted from the earth
will reach the moon in about :
(A) 2.6 s
(B) 1.3 s
(C) 5.2 s
(D) 6.5 s
2.
pUnz
eki`Fohls4×108 m nw
jhij gSA i`
FohlsHks
t kt kus
oky k jsM kj lad sr pUnzek ij y xHkx fd rusle; esa
igq¡p sxk :
3.
Magnetic field is a quantity that has both direction
and magnitude. Pick out the incorrect statement
:
(A) The magnetic field lines orginate from north
pole and end at the south pole out side the
magnet.
(B) Inside the magnet, the direction of field lines
is from its south pole to its north pole.
(C) Inside the magnet, the direction of field lines
is from its north pole to its south pole.
(D) No two field lines intersect each other and
the field is strongest where the field lines are
crowded.
3.
pq
Ecd h; {ks=kog jkf'kgSft les
afn'kkrFkkifjek.knksa
uks
lfEefy r gksrsgSA vlR; d Fkuksad k p;u d hft , &
(A) pq
Ecd h; cy js[kk,samÙkjh /kzqo lsfud y rh gSrFkk
nf{k.k /kzqo esaços'k d jrh gSA
(B) pq
Ecd d svUnj pqEcd h; cy js[kkvksad h fn'kk
nf{k.kh/kzqo lsmÙkjh/kzqo d hvksj gksrhgSA
(C) pq
Ecd d svUnj pq
Ecd h; cy js
[kkvks
ad hfn'kkmÙkjh
/kzqo lsnf{k.kh/kzqo d hvksj gksrhgSA
(D) d Hkh Hkh nkscy js
[kk,sa,d nwl jsd ksçfrPNsn ugha
d jrhgSrFkkt gk¡cy js
[kk,s
avf/kd re gks
rhgS
]ogk¡{ks
=k
çcy gksrk gSA
4.
A rectangular glass plate is placed on a piece of
paper which has a small dot of ink. When ink-dot
is seen from the upper side of the plate, then it
appears to be above 1 cm from the paper. If the
refractive index of glass is 1.5, then the thickness of the plate in cm will be :
(A) 1
(B) 1.5
(C) 2.5
(D) 3
4.
,d vk;rkd kj d k¡p d h ifêd k ,d d kxt d sVqd M+s
ft l ij L;kghd kNks
VkfcUnqgS
]ij j[khgS
A t c L;kgh
d sNksVsfcUnqd ksIysV d hÅ ijhlrg lsns[kkt krkgSA
rc ;g d kxt ls1cm Å ij fn[kkbZnsrkgSA ;fn d k¡p
d kviorZukad 1.5 gSrc Iy s
V d heksVkbZcm es
agks
xh&
Lenz’s law :
(A) is same as the right hand palm rule
(B) determines the magnitude of an induced
e.m.f.
(C) bears no relation to the law of conservation of
energy
(D) is useful in deciding about the direction of an
induced emf
5.
5.
RESONANCE
(A) 2.6 s
(C) 5.2 s
(A) 1
(C) 2.5
(B) 1.3 s
(D) 6.5 s
(B) 1.5
(D) 3
y sUt d k fu;e %
(A) nkfgusgkFk d h gFks
y h d sfu;e d sleku gSA
(B) çs
fjr fo|qr okgd cy d sifjek.kd hx.kukd jrk
gS
A
(C) Å t kZla
j{k.kd sfu;e lsbld kd kbsZlEcU/kughagS
A
(D) çs
fjr fo|qr okgd cy d h fn'kk d sfu/kkZj.k esa
mi;ksxhgSA
XI-XII ResoMost_STP 1
6.
Fossil fuels are considered to be non-renewable
sources of energy because :
(A) They are produced underground and become
costly to extract.
(B) They take millions of years to be produced
though used in a little time.
(C) They produce a lot of smoke.
(D) They are less efficient fuels.
6.
t hok'e bZa/ku d ksÅ t kZd svufofud `r L=kksr d s: i esa
eku ld rsgSA D;ksafd %
(A) ost ehu d svUnj mRiUu gks
rhgSrFkkbud sfu"d "k.Zk
d h y kxr mPp gksrh gSA
(B) bUgs
amRiUu d jusesafefy ;u o"kZy x t krsgSrFkk
;svYi le; esagh lekIr gkst krsgSA
(C) ;scgq
r vf/kd /kq¡v k mRiUu d jrsgSA
(D) ;sd e n{krk d sbZ
a/ku gSA
7.
Ten identical electric bulbs, each rated 220 V, 50
W are used in parallel on 220 V lines for 10 hours
per day in a month of 30 days. Then, the electrical
energy consumed in kilowatt-hour is
(A) 15
(B) 150
(C) 1500
(D) 15000
7.
nl ,d leku fo|qr cYc ft u ij Ø e'k%220 V, 50 W
va
fd r gS]220 V ykbZ
u ij]30 fnu d seghuses
a10 ?k.Vs
çfr fnu d sfy, ç;qDr fd ;st krsgSA rc O;f;r fo|qr
Å t kZfd y ksokWV&?k.Vsesgksxh &
Total number of resistors having resistances 88
, connected in parallel are required to carry 5A
on a 220V line are :
(A) 3
(B) 2
(C) 1
(D) 0
8.
Escape velocity from a planet of mass M and
9.
8.
9.
(A) 15
(C) 1500
ij 5A /kkjk esat kusd sfy , lekUrj
Ø e esat qM +s88  çfrjks/kksad h d qy la[;k gksxh &
(B) 2
(D) 0
M nz
O;eku
rFkk R f=kT;k d sxzg d sfy , iy k;u osx
gksxk &
(A)
2GM
R
(B) 2
2GM
R
(A)
2GM
R
(B) 2
2GM
R
(C)
2MR
G
(D) 2
R
GM
(C)
2MR
G
(D) 2
R
GM
A pendulum having a period of oscillation of 2
seconds is taken on a planet where g is four times
that on the earth. The period of the pendulum
would be :
(A) 2s
(B) 4s
(C) 2 2 s
11.
220V d h y kbZ
u
(A) 3
(C) 1
radius R will be :
10.
(B) 150
(D) 15000
(D) 1s
A hockey player pushes the ball on the ground.
It comes to rest after travelling certain distance
because:
(A) the opposing force acts on the ball
(B) no unbalanced force acts on the ball
(C) the player stops pushing the ball
(D) none of these
a
RESONANCE
10.
11.
,d yks
y d ft ld knksy ud ky 2 lSd .M gS],d xz
g ij
yst k;kt krkgS
A t gk¡xq
: Roh; Roj.ki`
Fohij xq
: Roh;
Roj.k d k pkj xquk gSA y ksy d d k vkorZd ky gksxk &
(A) 2s
(B) 4s
(C) 2 2 s
(D) 1s
,d gkWd hd kf[ky kM+hxs
an d kst ehu ij /kDd knsrkgSA
,d fuf'pr nwjh d si'pkr~;g fojke ij vk t krk gS
D;ksa
fd %
(A) xs
an ij fojks/kh cy d k;Zd jrk gSA
(B) xs
an ij d ksbZvlUrqfy r cy d k;Zughad jrk gSA
(C) f[ky kM+
h xsan d ks/kDd k nsuk jksd nsrk gSA
(D) bues
alsd ksbZugha
XI-XII ResoMost_STP 2
12.
A ray of light while travelling in a medium falls
normally on the surface of another medium. At
the point of incidence on the interface of the
media, it :
(A) bends towards the normal.
(B) bends away from the normal.
(C) does not enter the second medium at all.
(D) goes straight into the second medium without
bending.
12.
fd lhek/;e esla
pfjr çd k'kd hfd j.k]vU; ek/;e d h
lrg ij vfHky Ecor~fxjrh gSA ek/;e d h vUr%lrg
ij vkiru fcUnqij ;g &
(A) vfHky Ec d hvks
j eqM +t k;sxhA
(B) vfHky Ec lsnw
j eqM +t k,xhA
(C) d HkhHkhf}Ùkh;d ek/;e es
aços'kughad jsxhA
(D) f}rh;d ek/;e es
afcuk eqM +sljy js[kk esaxeu
d js
xhA
13.
A mass of 1 mg is equivalent to energy of :
(A) 9 × 1010 J
(B) 9 × 106 J
6
(C) 3 × 10 J
(D) 3 × 1010 J
13.
1mg nz
O;eku fd ruh Å t kZd slerqY; gS&
(A) 9 × 1010 J
(B) 9 × 106 J
6
(C) 3 × 10 J
(D) 3 × 1010 J
14.
Two plane mirrors are inclined at an angle of 60º.
If an object is placed in between, the number of
image seen is :
(A) 2
(B) 4
(C) 5
(D) 3
14.
nkslery niZ.k 60º d sd ks.k ij >qd sgSA ;fn oLrq
bud se/; j[kht krhgSrksns
[ksx;sçfrfcEcksad hla
[;k
gksxh &
A body freely falling from rest has a velocity V
after it falls through a height h. The distance it
has to fall further for its velocity to become double
is :
(A) 3 h
(B) 6 h
(C) 8 h
(D) 10 h
15.
A 150 m long train accelerates uniformly from
rest. If the front of the train passes a railway worker
50 m away from the station at a speed of 25 m/s,
what will be the speed of the back part of the
train as it passes the worker ?
(A) 100 m/s
(C) 20 m/s
(C) 50 m/s
(D) 12.5 m/s
16.
In a pond, ripples are sent and a floating object
goes up and down 6 times in 15 s. The wave
crests are 0.4 m apart. The speed of water waves
is
(A) 0.16 m/s.
(B) 0.26 m/s.
(C) 1.6 m/s.
(D) 11.6 m/s.
17.
15.
16.
17.
18.
 1
A car travels  
4
(B) 4
(D) 3
fojkekoLFkk lsLorU=krkiwoZd fxjrh gqbZoLrqd k h
Å¡
p kbZlsfxjusd si'pkr~osx V gkst krkgSA bld kosx
nqxquk gksusd sfy , bld s}kjk vkxsr; nwjh gksxh &
(A) 3 h
(C) 8 h
(B) 6 h
(D) 10 h
150 m y Ech ,d
jsy xkM+h fojke ls,d leku : i ls
Rofjr gSA ;fn jsy xkM+hd kvxy kHkkx LVs'ku ls50 m
nwj fLFkr ,d jsYosd eZp kjh ls25 m/s d h pky ls
xqt jrkgS
A js
y xkM+hd sfiNysfgLlsd hbl d eZp kjhd s
ikl lsxqt jrsle; pky D;k gksxh &
(A) 100 m/s
(C) 50 m/s
(C) 20 m/s
(D) 12.5 m/s
rky kc esamfeZd k Hkst h xbZgSrFkk rSjrh gqbZoLrq15 s
esa6 ckj Å ij uhpsxfr d jrhgSA rjax d h nksØ ekxr
J`a
xks
ad se/; nw
jh0.4 m gSA ikuhd hrja
xksd hpky D;k
gksxh &
(A) 0.16 m/s.
(C) 1.6 m/s.
(B) 0.26 m/s.
(D) 11.6 m/s.
th
of a circle having radius r.. The
ratio of the distance to its displacement is :
(A) 1 :
(A) 2
(C) 5

2 2
(C) 2 2 : 
RESONANCE
(B)

2 2
:1
(D) 2 2  : 1
18.
,d d kj r f=kT;k d so`Ùk d k ,d pkSFkkbZr; d jrh gSA
bld hnwjhrFkkfoLFkkiu d kvuqikr gksxk&
(A) 1 :

2 2
(C) 2 2 : 
(B)

2 2
:1
(D) 2 2  : 1
XI-XII ResoMost_STP 3
19.
20.
21.
Two masses of 1 gm and of 4 gm are moving with
equal linear momenta, the ratio of their kinetic
energies is :
(A) 4 : 1
(B)
(C) 1 : 2
(D) 1 : 16
20.
A chain of mass m and length l lies on a horizontal
table. The chain is allowed to slide down gently
from the side of the table. Find the speed of chain
at the instant when the last link of the chain slides
from the table. [Neglect friction].
21.
(C)
23.
24.
25.
2:1
When the momentum of a body increases by
100%, then its kinetic energy will increase by :
(A) 100%
(B) 20%
(C) 300%
(D) 50%
(A)
22.
19.
gl
gl
2
(B)
(D)
leku js[kh; laosx ls
xfr d j jgsgSA mud hxfrt Å t kZv ksad kvuqikr gksxk
&
(A) 4 : 1
(B)
(C) 1 : 2
(D) 1 : 16
2gl
A certain force acting on a body of mass 2 kg
increases its velocity from 6 m/s to 15 m/s in 2
s. The work done by the force during this interval
is :
(A) 27 J
(B) 3 J
(C) 94.5 J
(D) 189 J
23.
The weight of a block in air is 60 N. When it is
immersed in water completely its weight is 52 N.
Buoyant force on the block is (in Newtons) :
(A) 52
(B) 60
(C) 8
(D) 112
24.
A man is standing asymmetrically between two
parallel cliffs. He claps his hands and starts
hearing a series of echoes at intervals of 1
second. If the speed of sound in air is 340 m/s,
then the distance between the two parallel cliffs
is :
(A) 170 m.
(B) 340 m.
(C) 510 m.
(D) 680 m.
25.
(B) 20%
(D) 50%
m nz
O;eku
rFkk l y EckbZd h ,d t at hj {kSfrt est ij
j[khgSA t at hj est d s,d vksj /khjs& /khjsuhpsd hvksj
fQ ly usy xrh gSA t at hj d h ml {k.k pky D;k gksxh
t c t at hj d h vfUre d M+h est lsfQ ly rh gS¼?k"kZ.k
ux.; gS½ &
(A)
gl
(B)
2gl
(C)
gl
2
(D)
3gl
3gl
22.
2:1
t c oLrqd k laosx 100% lsc<+k;k t k;src bld h
xfrt Å t kZc<+sxh &
(A) 100%
(C) 300%
The weight of a body is 120 N on the earth. If it is
taken to the moon, its weight and mass will be
about (Take gearth = 10 m/s2) :
(A) 120 N, 120 kg
(B) 60 N, 12 kg
(C) 20 N, 12 kg
(D) 720 N, 120 kg
RESONANCE
1 gm rFkk 4 gm d snksnz
O;eku
i`Fohij oLrqd kHkkj 120 N gSA ;fn blspUnz
ekij ys
t k;kt krkgS
A rc bld kHkkj rFkknz
O;eku yxHkx gks
xk
2
& (gearth = 10 m/s y hft ,) :
(A) 120 N, 120 kg
(C) 20 N, 12 kg
(B) 60 N, 12 kg
(D) 720 N, 120 kg
nzO;eku d h oLrqij d k;Zjr ,d fuf'pr cy
bld sos
x d ks2s es6 m/s ls15 m/s rd c<+
krkgS
A bl
vUrjky d snkSjku cy }kjk fd ;k x;k d k;Zgksxk &
2 kg
(A) 27 J
(C) 94.5 J
(B) 3 J
(D) 189 J
ok;qesaCy kWd d kHkkj 60 N gSA t c blsiw.kZr;kikuhesa
Mqcks;k t k;srksbld k Hkkj 52 N gSA Cy kWd ij d k;Zjr
mRIy kou cy (U;wVu esa) gksxk :
(A) 52
(C) 8
(B) 60
(D) 112
,d O;fDr nkslekUrj pksfV;ksad se/; vlefer : i ls
[kM+k gSA og rky h ihVrk gSrFkk og 1 lSd .M d s
vUrjky ij çfr/ofu d kslquuk vkjEHk d jrk gSA ;fn
ok;qes
a/ofu d hpky 340 m/s gSrc nkslekUrj pkfsV;ks
a
d se/; nwjh gksxh&
(A) 170 m.
(C) 510 m.
(B) 340 m.
(D) 680 m.
XI-XII ResoMost_STP 4
PART - II (CHEMISTRY)
26.
Which of the following statements is/are correct
?
(A) A chemical equation tells us about the
substances involved in a reaction.
(B) A chemical equation informs us about the
symbols and formulae of the substances involved
in a reaction.
(C) A chemical equation tells us about the atoms
or molecules of the reactants and products
involved in a reaction.
(D) All are correct.
27.
Heat
In the reaction xPb (NO3)2 
 yPbO +
zNO2 + O2 x,y and z are (A) 1,1,2
(B) 2,2,4
(C) 1,2,4
(D) 4,2,2
28.
PART - II (CHEMISTRY)
26.
27.
fuEu esalsd kSulk@d kSulsd Fku lgh gS@ gSa?
(A) ,d jklk;fud lehd j.k,d vfHkfØ ;kes
alfEefyr
gq, inkFkZd sckjsesacrkrh gSA
(B) ,d jklk;fud lehd j.kges
a,d vfHkfØ ;kes
alfEefyr
inkFkksZad sfpUg o lw=k d h t kud kjhnsrk gSA
(C) ,d jklk;fud lehd j.kges
a,d vfHkfØ ;kes
alfEEfyr
vfHkd kjd ks
ao mRiknksad sijek.kqv ksavFkokv.kq
v ks
ad sckjs
esacrkrk gSA
(D) mijks
Dr lHkhlghgSA
Å "ek

 yPbO + zNO2 +
vfHkfØ ;k xPb (NO3)2 
O2
esa] x,y o z fuEu gSa-
(A) 1,1,2
(C) 1,2,4
(B) 2,2,4
(D) 4,2,2
Which of the following equations is not an
example of single displacement reaction ?
(A) 2Al + Fe2O3  Al2O3 + 2Fe
(B) Ca + Cl2  CaCl2
(C) 2KI + Cl2  2KCl + I2
(D) 2Na + 2H2O  2NaOH + H2
28.
The raw materials required for the manufacture
of NaHCO3 by Solvay process are (A) CaCl2, (NH4)2 CO3, NH3
(B) NH4Cl, NaCl, Ca(OH)2
(C) NaCl, (NH4)2CO3, NH3
(D) NaCl, NH3, CaCO3, H2O
29.
When SO2 is passed through lime water, it turns
milky. The milkiness is due to the formation of (A) CaSO2
(B) CaCO3
(C) H2O
(D) CO2
30.
31.
A solution has pH 9. On dilution the pH value
(A) decreases
(B) increases
(C) remain same
(D) none of these
31.
,d foy ;u d k pH 9 gSA ruqd jusij pH eku %
(A) es
ad eh vkrh gS
(B) es
ao`f) gksrh gSA
(C) leku jgrhgS
A
(D) bues
alsd ksbZugha
32.
What is the decreasing order of reactivity of the
following metals ?
Na, Al, K, Cu, Ag, Fe
(A) Na > K > Al > Cu > Ag > Fe
(B) K > Na > Al > Cu > Fe > Ag
(C) K > Na > Al > Fe > Cu > Ag
(D) K > Na > Al > Fe > Ag > Cu
32.
fuEu /kkrqv ksad hfØ ;k'khy rkd k vojksghØ e D;k gS\
29.
30.
RESONANCE
fuEu esalsd kSulhlehd j.k,d y foLFkkiu vfHkfØ ;k
d k ,d mnkgj.k ughagS\
(A) 2Al + Fe2O3  Al2O3 + 2Fe
(B) Ca + Cl2  CaCl2
(C) 2KI + Cl2  2KCl + I2
(D) 2Na + 2H2O  2NaOH + H2
lkWYosizØ e }kjkNaHCO3 d sfojpu d sfy , vko';d
d PpsinkFkZfuEu gSa&
(A) CaCl2, (NH4)2 CO3, NH3
(B) NH4Cl, NaCl, Ca(OH)2
(C) NaCl, (NH4)2CO3, NH3
(D) NaCl, NH3, CaCO3, H2O
t c SO2 d ksykbe okVj es
alsizokfgr fd ;kt krkgS
]rks
;g nwf/k;k gkst krk gSA fuEu d sfuekZ.k d sd kj.k
nwf/k;kiu gksrkgS&
(A) CaSO2
(C) H2O
(B) CaCO3
(D) CO2
Na, Al, K, Cu, Ag, Fe
(A) Na > K > Al > Cu > Ag > Fe
(B) K > Na > Al > Cu > Fe > Ag
(C) K > Na > Al > Fe > Cu > Ag
(D) K > Na > Al > Fe > Ag > Cu
XI-XII ResoMost_STP 5
33.
Ionic compounds have (A) low melting and high boiling points.
(B) high melting and low boiling points.
(C) low melting and low boiling points.
(D) high melting and high boiling points.
33.
vk;fud ;kSfxd j[krsgS&
(A) fuEu xy uka
d o mPp DoFkukad
(B) mPp xy uka
d o fuEu DoFkukad
(C) fuEu xy uka
d o fuEu DoFkukad
(D) mPp xy uka
d o mPp DoFkukad
34.
Match column A with column B and select the
correct option Column A
Column B
(Ore)
(Nature of ore)
(a) Copper glance
(i) Sulphate ore
(b) Calamine
(ii) Halide ore
(c) Rock salt
(iii) Sulphide ore
(d) Epsom salt
(iv) Carbonate ore
(A) a(i), b(ii), c(iii), d(iv)
(B) a(iv), b(ii), c(iii), d(i)
(C) a(iii), b(iv), c(ii), d(i)
(D) a(iv), b(i), c(ii), d(iii)
34.
LrEHkA d ksLrEHkB d slkFklqesfy r d hft , rFkklgh
fod Yi d k p;u d hft , %
LrEHkA
LrEHkB
(v;Ld )
(v;Ld d hiz
d `fÙk)
(a) d kW
ij XykUl
(i) lYQ s
V v;Ld
(b) d S
ys
ekbu
(ii) gS
y kbM v;Ld
(c) jkW
d lkWYV
(iii) lYQ kbM v;Ld
(d) ,IlkW
e y o.k
(iv) d kcks
us
Z
V v;Ld
Which of the following reducing agent is used in
chemical reduction ?
(A) C
(B) CO
(C) Al
(D) All of these
35.
36.
Which of the following methods is used for
obtaining metals of very high purity ?
(A) Distillation
(B) Zone refining
(C) Liquation
(D) Electrolytic refining
36.
cgq
r mPp 'kq
) rkd ksiz
kIr d jusd sfy, d kS
ulhfof/kd ks
iz;qDr fd ;k t krk gS\
(A) vklou
(B) {ks
=kifj'kks
/ku
(C) nz
ohd j.k
(D) oS
| qr vi?kV~
;hifj'kks
/ku
37.
German silver is an alloy of (A) Cu and Ni
(B) Cu, Sn and Ag
(C) Cu, Zn and Ni
(D) Cu, Ni, Fe and Mn
37.
t eZu flYoj fuEUk d k ,d feJ/kkrqgS%
(A) Cu rFkkNi
(B) Cu, Sn rFkkAg
(C) Cu, Zn rFkkNi
(D) Cu, Ni, Fe rFkk Mn
38.
Which of the following compound contain only
single covalent bond ?
(A) Oxygen
(B) Nitrogen
(C) Methane
(D) Carbon dioxide
38.
fuEu esalsfd l ;kSfxd esad soy ,d y lgla;kst h ca/k
ik;k t krk gS\
(A) vkW
Dlht u
(B) ukbVª
ks
tu
(C) es
Fks
u
(D) d kcZ
u MkbvkW
DlkbM
39.
Which of the following is not an open chain
compound ?
(A) methane
(B) ethene
(C) Toluene
(D) Butyne
39.
fuEu esalsd kSulh ,d [kqy h J`a[ky k ;kSfxd ughagS\
(A) es
Fksu
(B) ,Fkhu
(C) VkW
yw
bZ
u
(D) C;w
VkbZu
40.
Which of the following is an aromatic compound
?
(A) Cyclohexane
(B) Ethyne
(C) Phenol
(D) All of these
40.
fuEu esalsd kSulk ,d ,sjkseSfVd ;kSfxd gS\
(A) lkbDyks
gs
Dlsu
(B) ,FkkbZ
u
(C) fQ ukW
y
(D) bues
alslHkh
35.
RESONANCE
(A) a (i), b (ii), c (iii), d (iv)
(B) a (iv), b (ii), c (iii), d (i)
(C) a (iii), b (iv), c (ii), d (i)
(D) a (iv), b (i), c (ii), d (iii)
jklk;fud vip;u es
ad kuSlkvipk;d vfHkd eZ
d iz
;Dqr
gksrk gS\
(A) C
(B) CO
(C) Al
(D) mijks
Dr
lHkh
XI-XII ResoMost_STP 6
41.
42.
43
44.
45.
46.
47.
48.
49.
The mass of oxygen contained in 1 kg of
potassium nitrate (KNO3) will be (A) 478.5 g
(B) 485.5 g
(C) 475.2 g
(D) 488. 2 g
41.
The charge in coulombs of 1 g ion of N3– is (the
charge on an electron is 1.602 × 10–19 C) (A) 2.891 × 105 C
(B) 3.894 × 105 C
(C) 2.894 × 106 C
(D) None of the above
42.
The largest number of molecules among the
following is (A) 28 g of CO
(B) 46 g of C2H5OH
(C) 36 g of H2O
(D) 54 g of N2O5
43
What is the weight of solute present in 2 liters of
0.6 M Na2CO3 ?
(A) 127.2 g
(B) 106 g
(C) 212 g
(D) 53 g
44.
The number of carbon atoms in 25 g of CaCO3 is
- (Atomic weight = C = 12, O = 16, Ca = 40)
(A) 1.505 × 1023
(B) 7.22 × 1023
23
(C) 6.91 × 10
(D) 2.5 × 6.023 × 1023
45.
CaCO3 + 2HCl  CaCl2 + H2O + CO2
The mass of calcium chloride formed when 2.5g
of calcium carbonate are dissolved in excess of
hydrochloric acid is (A) 1.39 g
(B) 2.775 g
(C) 5.18 g
(D) 17.8 g
46.
The electronic configuration of Mn+2 is (A) [Ar] 3d4 4s1
(B) [Ar] 3d5 4s0
(C) [Kr] 4d5 5sº
(D) [Ar] 3d3 4s2
47.
Which of the following is the correct increasing
order of energy of orbitals ?
(A) 3s, 3p, 3d, 4s, 4p
(B) 3s, 3p, 4s, 4p, 3d
(C) 3s, 3p, 3d, 4p, 4s
(D) 3s, 3p, 4s, 3d, 4p
48.
Element ‘A’ with general outer shell configuration ns2np5 usually exist as (A) A and forms A¯ ion
(B) A and forms A+ ion
(C) A2 and forms A¯ ion
(D) A2 and forms A–2 ion
49.
RESONANCE
1 kg ikS
Vsf'k;e
ukbVªs
V (KNO3) easvkWDlht u d kfuEu
nzO;eku gksxk (A) 478.5 g
(C) 475.2 g
(B) 485.5 g
(D) 488. 2 g
N3– d s1 g
vk;u d k vkos'k ¼d wy kEc esa½ fuEu gS(,d
by sDVªku ij vkos'k 1.602 × 10–19 C gS) (A) 2.891 × 105 C
(B) 3.894 × 105 C
(C) 2.894 × 106 C
(D) mijks
Dr
esalsd ksbZugha
fuEu esav.kqv ksad h vf/kd re la[;k gS&
(A) 28 g CO
(C) 36 g H2O
(B) 46 g C2H5OH
(D) 54 g N2O5
0.6 g Na2CO3 d s2
y hVj esamifLFkr foy s; d k Hkkj
D;k gS\
(A) 127.2 g
(C) 212 g
25 g CaCO3
(B) 106 g
(D) 53 g
esad kcZu ijek.kqv ksad h la[;k fuEu gS
(ijek.kqHkkj = C = 12, O = 16, Ca = 40)
(A) 1.505 × 1023
(B) 7.22 × 1023
(C) 6.91 × 1023
(D) 2.5 × 6.023 × 1023
mRikfnr d SfY'k;e Dy ksjkbM d k nzO;eku fuEu gSt c
gkbMª
kDsyks
fjd vEy d svkf/kD; es
a2.5 d fSY'k;e d kckus
ZVs
?kks
y st krsgksaA
(A) 1.39 g
(C) 5.18 g
Mn+2 d k by s
DVªkWfud
4
(A) [Ar] 3d 4s1
(C) [Kr] 4d5 5sº
(B) 2.775 g
(D) 17.8 g
foU;kl fuEUk gS:
(B) [Ar] 3d5 4s0
(D) [Ar] 3d3 4s2
d {kd ksad h Å t kZd k lgh vkjksgh Ø e d kSulk gS\
(A) 3s, 3p, 3d, 4s, 4p
(B) 3s, 3p, 4s, 4p, 3d
(C) 3s, 3p, 3d, 4p, 4s
(D) 3s, 3p, 4s, 3d, 4p
lkekU; cká ; d ks'k foU;kl ns2np5 d slkFk rRo 'A'
fuEu izd kj lsvf/kd ka'kr %mifLFkr jgrk gS%
(A) A rFkk A¯ vk;u : i
(B) A rFkk A+ vk;u : i
(C) A2 rFkk A¯ vk;u : i
(D) A2 rFkkA–2 vk;u : i
XI-XII ResoMost_STP 7
50.
The maximum no. of electrons in a subshell with
= 2 and n = 3 is (A) 2
(B) 6
(C) 12
(D) 10
50.
52.
53.
(A) 2
(C) 12
51.
If the mean of the numbers 7, 3, 8, 4, x, 7, 9, 7
and 12 is 7, then the difference between the
median and the mode of the numbers 12, 10, 8,
10, x, 7, 6, 8 and 6 is :
(A) 0
(B) 1
(C) 2
(C) 3
52.
If the equation 9x2 + 6kx + 4 = 0 has equal roots,
then the roots are both equal to :
53.
2
3
(B) 
(C) 0
54.
ik¡p la[;kvksad kl-ek-27 gSA ;fn ,d la[;kd ksgVk
fn;k t k;srks'ks"k la[;kvksad k l-ek-25 gkst krk gSA
gVk;h x;h la[;k gS&
(A) 27
(C) 30
;fn la[;kvksa7, 3, 8, 4, x, 7, 9, 7 rFkk 12 d k l-ek7 gSrksla
[;kvksa12, 10, 8, 10, x, 7, 6, 8 rFkk 6 d h
ekf/;d k ,oacgqy d esavUrj gksxk&
;fn lehd j.k 9x2 + 6kx + 4 = 0 d sewy leku gS]rks
;snksuksaewy cjkcj gksaxs&
54.
1
&

x
(C) px2 – 1 = 0
55.
(A) 275
(C) 280
1
x2
+
55.
2
n is :
3
ds
1
1
&


+
1
= 0 ds
p
gksaxs&
(B) px2 + 1 = 0 d s
(D)
1
x
2
+
;fn fd lh Js<+h d k n ok¡in an = 3 +
1
= 0 ds
p
2
n gS
]rks
3
bl Js<+h d s24 inksad k ;ksx gksxk&
(A) 275
(C) 280
(B) 272
(D) 270
Find the sum of all natural numbers not exceeding
1000, which are divisible by 4 but not by 8.
(A) 62500
(B) 62800
(C) 64000
(D) 65600
RESONANCE
x
2
1
=0
p
56.
56.
1
(C) px2 – 1 = 0 d s
(D)
3
ds
2
(D) 3
(B) px2 + 1 = 0
The sum of first 24 terms of the sequence whose
nth term is an = 3 +
(B) 
la[;k gSrksfd l lehd j.k d sewy
(A)
1
=0
p
ds
;fn x2 + p = 0 d sewy  ,  gSt gk¡p ,d vHkkT;
1
?

+
2
3
(C) 0 d s
prime, then which equation has the roots
2
(B) 1
(C) 3
(A) 
(D) 3
1
(B) 25
(D) 35
(A) 0
(C) 2
3
2
If  and  are the roots of x2 + p = 0 where p is a
(A)
(B) 6
(D) 10
PART - III (MATHEMATICS)
The arithmetic mean of 5 numbers is 27.Ifone of
the number is excluded the mean of the remaining
number is 25. Find the excluded number.
(A) 27
(B) 25
(C) 30
(D) 35
(A) 
mid ks
'kes
aby s
DVª
kWuksad hvf/
kd re la[;k fuEu gS-
PART - III (MATHEMATICS)
51.
= 2 o n = 3 d slkFk,d
(B) 272
(D) 270
1000 lsNkV
shmu iz
kd r` la
[;kvks
ad k;kxs t ks4 lsHkkT;
gSy sfd u 8 lsugha]gksxk&
(A) 62500
(C) 64000
(B) 62800
(D) 65600
XI-XII ResoMost_STP 8
57.
58.
59.
60.
61.
Number of common tangents that can be drawn
to two concentric circles is :
(A) 0
(B) 1
(C) 3
(D) 4
57.
How many cones of radius 10 cm and height 8
cm can be cutted from a right circular cylender
of a radius of 50 cm and height 488 cm ?
(A) 4875
(B) 4755
(C) 4575
(D) 4685
58.
5
cm

and height 12 cm. If A and B are diametrically
opposite points lying on the top and bottom
rims, the shortest distance between A and B is
:
A cylinder open at both ends has radius
(B) 17 cm
10
(C) 12
cm

 10 
(D) 12    cm
  
(B) 1
(D) 4
50 ls
eh-f=kT;k,oa448 ls
eh-Å ¡p kbZokys,d
leo`
Ùkh;
cs
y u es
als10 ls
eh-f=kT;k,oa8 ls
eh-Å ¡
pkbZokysfd rus
'kad qd kVst k ld rsgS&
(A) 4875
(C) 4575
59.
5

(B) 4755
(D) 4685
lseh-f=kT;k ,oa12 lseh-Å ¡p kbZoky k ,d csy u
nksuksafljksij ls[kqy k gSA ;fn A ,oaB fje d s'kh"kZ
,oaxrZij fLFkr fcUnqgSrFkk ,d O;kl d sfljsgS
rksA ,oaB d se/; U;wure nwjh gS&
2
(C) 12
2
When two dice are thrown simultaneously, what
is the probability that there is exactly one 5?
60.
(B) 17 cm
2
2  10 
(D) 12    cm
  
10
cm

nksiklksad ks,d lkFkmNky usij]Bhd ikls,d ij 5
vkusd hizkf;d rkgS&
(A)
4
36
(B)
5
18
(A)
4
36
(B)
5
18
(C)
6
23
(D)
7
24
(C)
6
23
(D)
7
24
Which of the following numbers are rational :
19
(C) 17
(B)
61.
Choose the rational number which does not lie
fuEufy f[kr esalsd kSulh la[;k ifjes; gS&
(A)
16
(D) 18
between rational numbers –
63.
(A) 0
(C) 3
(A) 13 cm
(A) 13 cm
(A)
62.
nksla
d Usnz
h; o`
Ùkksd sfy;s[kha
pht kld usokyhmHk;fu"B
Li'kZjs[kkvksad h la[;k gS&
(C) 17
62.
2
1
and –
5
5
og ifjes
; la
[;kt ks–
3
(B) –
10
(A) –
3
(C)
10
7
(D) 
20
(C)
(A) 7
(C) 141
RESONANCE
(B) 29
(D) 349
16
(D) 18
2
5
rFkk –
1
5
d se/; fLFkr ugha
gS&
1
(A) –
4
The number 2.525252........ can be written as a
fraction, when reduced to the lowest term, the
sum of the numerator and denominator is:-
(B)
19
63.
1
4
3
10
(B) –
3
10
(D) 
7
20
la
[;k2.525252........ d ksfHkUu : i es
afy[kd j ljyhd r`
: i esafy [kusij va'k ,oagj d k ;ksx gksxk&
(A) 7
(C) 141
(B) 29
(D) 349
XI-XII ResoMost_STP 9
64.
If
2 4  4  16 2
8 2  2n
= 1, find the value of n.
(A) 8
(C) 1
65.
66.
67.
(B) 7
(D) 6
Find the value of x, if 84x – 3 =
(A) 8
(C) 1
1
32
65.
x2
1
;fn 84x – 3 =
32 x  2
gks]rksx d k eku gksxk&
(A)
1
17
(B)
1
17
(C)
3
17
(D)
3
17
(C)
3
17
(D)
3
17
If x 
1
2 3
, find the value of x3 – 2x2 – 7x + 5.
66.
;fn x 
1
2 3
,
rks x3 – 2x2 – 7x + 5 d k eku
(A) 1
(B) 0
gkxsk&
(C) 2 + 3
(D) 3
(A) 1
(B) 0
(C) 2 + 3
(D) 3
A number is selected from numbers 1 to 27. The
probability that it is prime is :
1
6
2
(D)
9
 7 , then the value of x 3  1 is :
x
x3
(A) ± 12
(B) ± 18
(C) ± 19
(D) none of these
68.
2
3)
4
3
9
x
2
?
RESONANCE
2
;fn x 
1
x2
7
69.
(A) (15 +3 3 )
(D) None of these
(C) (27 +
70.
(B) 2
(D)
9
x2
d k eku gksxk&
(B) (18 + 3 3 )
(D) bues
alsd ksbZugha
ft ld sfy ;sx + k, O;at d x3 + kx2 – 2x
+ k + 4 d k ,d xq
.ku[k.M gS] gksxk&
(C) –
71.
3)
x
(B) ± 18
(D) bues
alsd ksbZugha
k d kog eku
(A) – 5
6
7
(B) x – 6
(D) x – 8
gks] rksx 3  13 d k eku gksxk&
;fn x = 3 + 3 rksx2 +
(B) (18 + 3 3 )
The volume of a box is given by V = x3 – 2x2 –
24x. If the depth be the smallest of the dimensions, it is :
(A) x – 3
(C) x – 4
1
6
2
(D)
9
(B)
(A) ± 12
(C) ± 19
The value of k for which x + k is a factor of x3 +
kx2 – 2x + k + 4 is :
(A) – 5
d hla
[;kvks
aes
als,d la
[;kpq
uht krhgS
A
bl la[;k d svHkkT; la[;k gksusd h izkf;d rk gksxh&
(A)
1
If x = 3 + 3 , then what is the value is x2 +
1 ls27 rd
2
3
1
(C)
3
(B)
2
If x 
(C) –
67.
gksxk&
(B) 7
(D) 6
1
17
(C) (27 +
71.
= 1, rksn d k eku
(B)
(A) (15 +3 3 )
70.
8 2  2n
1
17
2
3
1
(C)
3
69.
2 4  4  16 2
;fn
(A)
(A)
68.
64.
4
3
(B) 2
(D)
6
7
fd lh lUnwd d k vk;ru V = x3 – 2x2 – 24x gSA ;fn
bld hxgjkbZbld hfoekvksaesalsU;wure d scjkcj gS]
rksbl xgjkbZd k eku gS&
(A) x – 3
(C) x – 4
(B) x – 6
(D) x – 8
XI-XII ResoMost_STP 10
72.
If quotient = 3x2 – 2x + 1, remainder = 2x – 5 and
divisor = x + 2, then the dividend is :
(A) 3x3 – 4x2 + x – 3
(C) 3x3 + 4x2 – x + 3
73.
72.
(B) 3x3 – 4x2 – x + 3
(D) 3x3 + 4x2 – x – 3
HCF and LCM of two expressions are (x – 6) and
(x + 6)(x – 1)(x – 6) respectively. If one of the
expressions is x 2 – 7x + 6, then the other
expression is :
(A) 3x3 – 4x2 + x – 3
(C) 3x3 + 4x2 – x + 3
73.
(C) (x + 6)(x – 6)
(C) (x + 6)(x – 6)
(D) (x2 – 7x + 6)(x – 1)
(D) (x2 – 7x + 6)(x – 1)
75.
The co-ordinate of a point situated on y-axis at a
distance of 3 units from x-axis is :
z but x + y + z = 0. Value of
(C)
76.
3
5
3
5
77.
2
2
2
2
z x
z y
75.
z2  x 2
y sfd u x + y + z = 0 rks z 2  y 2 d k eku gS&
4
5
(A) –
(D)
5
3
(C)
(C) 1320
(D) 150º
3
5
3
5
4
76.
3
1
5
(B)
4
5
(D)
5
3
7
12
;fn y  x  xy rFkk y  x  xy , rksx + y d k
eku gksxk&
(B) 1
(D) – 1
(B) 720
(B) (0, 3)
(D) (– 3, 3)
rhu la[;k,¡x, y rFkk z bl izd kj gSfd x = y  z
(B)
(A) 1200
fLFkr fcUnqd s
funs
Z'kkad gks
axs&
is :
In the adjoining figure, it is given that AB || CD.
BAO = 1080 and OCD = 1200 then AOC =
——.
RESONANCE
x-v{k ls3 bd kbZnw
jh ij] y-v{k ij
(A) (3, 0)
(C) (3, 3)
4 3
1
5 7 12
If y  x  xy and y  x  xy , find x + y
(A) 2
(C) 0
74.
(B) (0, 3)
(D) (– 3, 3)
Three numbers x, y and z are such that x = y 
(A) –
nksO;a
t d ksd ke-l-i-,oay-l-i-Ø e'k%(x – 6) rFkk(x
+ 6)(x – 1)(x – 6) gS
A ;fn ,d O;at d x2 – 7x + 6 gks]
rksnwl jk O;at d gksxk&
(B) (x + 6)(x – 1)
(B) (x + 6)(x – 1)
(A) (3, 0)
(C) (3, 3)
(B) 3x3 – 4x2 – x + 3
(D) 3x3 + 4x2 – x – 3
(A) (x – 6)(x – 1)
(A) (x – 6)(x – 1)
74.
;fn HkkxQ y = 3x2 – 2x + 1, 'ks"kQ y = 2x – 5 rFkk
HkkT; = x + 2 gks]rksHkkt d gksxk&
(A) 2
(C) 0
77.
(B) 1
(D) – 1
fn;sx;sfp=kes
aAB || CD. BAO = 1080 rFkkOCD
= 1200 gS
] rksAOC = ——.
(A) 1200
(B) 720
(C) 1320
(D) 150º
XI-XII ResoMost_STP 11
78.
79.
In Figure m || n and angles 1 and 2 are in the
ratio 3 : 2. Determine  8.
fn;sx;sfp=k esam || n rFkk d ks.k 1 rFkk 2 d k vuqikr
3 : 2 gS
] rks 8 d k eku gksxk&
(A) 36º
(C) 72º
(A) 36º
(C) 72º
(B) 108º
(D) 60º
Two angles whose measures are a & b are such
that 2a – 3b = 600, If they form a linear pair then
find
80.
79.
8
5
2
(D)
3
In the given figure, AB is a mirror, PO is the incident
ray and OR, the reflected ray. If POR = 1120
then POA is.
If HCF of 65 and 117 is expressed in the form of
65m + 117n, then the value of m and n respectively
is
(C)
80.
(C)
11
7000
343
3
2  53  73
RESONANCE
81.
8
5
2
(D)
3
(B)
1
2
fn;sx;sfp=kesaAB ,d niZ.kgS
]PO vkifrZ
r fd j.kgS
rFkk OR ijkofrZr fd j.k gSA ;fn POR = 1120 rc
POA gkx
sk&
(B)
91
21000
(D) None of these
;fn 65 ,oa117 d k e-l-i- 65m + 117n d s: i esa
O;Dr fd ;k t k, rksm rFkk n d seku Ø e'k%gksaxs&
(A) 3, 2
(C) 2, – 1
(B) 3, – 1
(D) 2, – 3
Which of the following rational numbers have
terminating decimal expansion ?
(A)
5b
(A) 34º
(B) 36º
(C) 56º
(D) 68º
(A) 3, 2
(C) 2, – 1
82.
osjs[kh; ;qXe cukrsgS]rks 4a d k eku
(A) 0
(A) 34º
(B) 36º
(C) 56º
(D) 68º
81.
nksd ks.kft ud seku a rFkkb gS]bl izd kj gSfd 2a –
gkxsk&
(B)
1
2
(B) 108º
(D) 60º
3b = 600 ;fn
4a
.
5b
(A) 0
(C)
78.
82.
(B) 3, – 1
(D) 2, – 3
fuEufyf[kr es
alsd kuSlhifjes
; la
[;k,aifjfer n'keyo
d ksiznf'kZr d jrh gS&
(A)
(C)
11
7000
343
3
2  53  73
(B)
91
21000
(D) bues
alsd ksbZugha
XI-XII ResoMost_STP 12
83.
If ,  and  are so the zeroes of the cubic
polynomial 3x3 – 5x2 – 11x – 3, then the value of
 +  +  is:
5
11
(A)
(B)
3
3
(C) 1
84.
85.
86.
(D)
83.
Find the value of 'a' and 'b', so that following system
of linear equations have infinite number of
solutions.
2x + 3y = 7 ; (a + b + 1) x + (a + 2b + 2) y = 4(a
+ b) + 1.
(A) a = – 3, b = 2
(B) a = 3, b = – 2
(C) a = – 3, b = – 2
(D) a = 3, b = 2
If 2a = b, the pair of equations ax + by = 2a2 – 3b2,
x + 2y = 2a – 6b possess :
(A) no solution
84.
85.
86.
(D) an infinite number of solutions
87.
(C) 1
(D)
5
3
;fn 2 rFkk 3 cgqin 3x2 – 2kx + 2m d s'kwU; gS]rksk
rFkk m d k eku gS&
'a' rFkk 'b' d seku ft ud sfy ;slehd j.k fud k;
2x + 3y = 7 ; (a + b + 1) x + (a + 2b + 2) y = 4(a
+ b) + 1 d svuUr gy fo|eku gS
] gksaxs&
(B) a = 3, b = – 2
(D) a = 3, b = 2
;fn 2a = b rkslehd j.k ;qXe ax + by = 2a2 – 3b2, x
+ 2y = 2a – 6b j[krh gS
&
(A) d ks
bZgy ugha
(B) d s
oy ,d gy
(C) d s
oy nksgy
(D) vuUr gy
5
2
15
7
x  y – x  y = – 1 rFkk x  y – x  y = 10
(A) x =
19
46
;y=
351
351
(A) x =
19
46
;y=
351
351
(B) x =
19
46
;y=
351
351
(B) x =
19
46
;y=
351
351
(C) x =
46
19
;y=
351
351
(C) x =
46
19
;y=
351
351
(D) x =
45
19
;y=
35
355
(D) x =
(B) k = 7.5, m = 4.5
(D) k = 15, m = 4.5
d ksgy d jusij izkIr gksxk&
7
x  y = 10, we get
88.
11
3
(A) a = – 3, b = 2
(C) a = – 3, b = – 2
(C) only two solutions
87.
(B)
(A) k = 4.5, m = 15
(C) k = 7.5, m = 9
(B) only one solution
15
5
2
By solving
–
= – 1 and x  y –
xy
xy
5
3
(A)
5
3
If 2 and 3 are the zeros of the polynomial 3x2 –
2kx + 2m, then the values of k and m are :
(A) k = 4.5, m = 15
(B) k = 7.5, m = 4.5
(C) k = 7.5, m = 9
(D) k = 15, m = 4.5
;fn ,  rFkk  f=k?kkrh; cgqin 3x3 – 5x2 – 11x – 3
d s'kwU; gS] rks +  +  d k eku gksxk&
87.
x
45
19
;y=
35
355
(A
ABC, DEF are similar triangle. If AB = 11 cm,
BC = 10 cm, DE = 5.5 cm, then EF is :
88.
ABC, DEF ijLij le: i
f=kHkqt gSA ;fn AB =
11 ls
eh, BC = 10 lseh ,oaDE = 5.5 lsehgks] rksEF
(A) 4.5 cm
(B) 5 cm
d k eku gksxk&
(C) 10.5 cm
(D) 5.5 cm
(A) 4.5 cm
(C) 10.5 cm
RESONANCE
B
(B) 5 cm
(D) 5.5 cm
XI-XII ResoMost_STP 13
(C
89.
In the given figure, ACB = 90º and CD  AB.
Then
BC2
AC
2
89.
fn;sx;sfp=k esasACB = 90º rFkk CD  AB rks
BC2
=?
AC2
=?
C
A
(A)
C
B
D
BD
CD
(C) BD
AD
(B)
A
CD
AD
(A)
(D) BC
CD
B
D
BD
CD
(C) BD
AD
(B)
CD
AD
(D) BC
CD
90.
The points (– a, – b), (0, 0), (a, b) and (a2, ab)
are :
(A) Collinear
(B) Vertices of a parallelogram
(C) Vertices of a rectangle
(D) None of these.
90.
fcUnq(– a, – b), (0, 0), (a, b) rFkk (a2, ab) gS&
(A) la
js
[kh;
(B) lekUrj prq
Hkqt Zd s'kh"kZ
(C) vk;r d s'kh"kZ
(D) bues
alsd ksbZugha
91.
A square and a rectangle have same area. If the
91.
,d oxZ,oa,d vk;r leku {ks=kQ y oky sgSA ;fn
vk;r d hyEckbZoxZd h,d Hkq
t kls25% vf/kd gS
]rks
vk;r d h pkSM +kbZ] oxZd h Hkqt k lsfd rusizfr'kr d e
gkxsh&
length of the rectangle is 25% more than the side
of the square, then the breadth of the rectangle is
less than the side of the square by :
(A) 20%
(C) 33
92.
1
%
3
(B) 25%
(A) 20%
1
(C) 33 %
3
(D) 50%
(B) 25%
(D) 50%
;fn (3, – 4) rFkk (– 6, 5) ,d lekUrj prqHkqZt d s
fod .kZd sfljsgSrFkk(– 2, 1) bld krhljk'kh"kZgS]rks
bld kpkS
Fkk'kh"kZgksxk&
If (3, – 4) and (– 6, 5) are the extremities of the
diagonal of a parallelogram and (– 2, 1) is its
third vertex, then its fourth vertex is :
(A) (– 1, 0)
(B) (0, – 1)
(C) (– 1, 1)
(D) None of these.
92.
93.
A rectangular plot of dimensions 13 m × 17 m is
surrounded by a garden of width 5m, then area
of garden (in sq.m) is :
(A) 400 sq. m
(B) 425 sq.m
(C) 450 sq.m
(D) 460 sq.m
93.
13 eh-× 17 eh-vkd kj d k ,d
94.
Diameter of a tyre is 1.26 m. How much distance will it cover in 500 revolutions.
(A) 2530 m
(B) 1980 m
(C) 1492 m
(D) 2880 m
94.
fd lhVk;j d kO;kl 1.26 eh-gS
]rks500 ?kw
.kZ
u es
abld s
}kjk r; d h xbZnwjh gksxh&
(A) 2530 eh(B) 1980 eh(C) 1492 eh(D) 2880 eh-
RESONANCE
(A) (– 1, 0)
(B) (0, – 1)
(C) (– 1, 1)
(D) bues
alsd ksbZugha
vk;rkd kj eSnku 5 ehpkSM +
kbZoky scxhpslsf?kjkgqv kgS
]rkscxhpsd k{ks=kQ y
(oxZeh-es
a) gksxk&
(A) 400 oxZeh(B) 425 oxZeh(C) 450 oxZeh(D) 460 oxZeh-
XI-XII ResoMost_STP 14
95.
96.
A bag contains 4 red and 6 black balls. A ball is
taken out of the bag at random. Then the
probability of getting a black ball is :
1
2
(A)
(B)
6
3
3
1
(C)
(D)
5
10
95.
In the given figure, if AB || CD, then  FXE is
equal to :
(A) 30º
96.
,d FkSy sesa4 y ky rFkk 6 d ky h xsansgSA ,d FkSy sesals
;kn`PN : i ls,d xsan fud ky h t krh gSA bl xsan d s
d ky h xsan gksusd hizkf;d rk gksxh&
1
6
3
(C)
5
2
3
1
(D)
10
(A)
(B)
fn;sx;sfp=k esa;fn AB || CD, rks  FXE d k eku
gkxsk&
(A) 30º
(B) 50º
(B) 50º
(C) 70º
(C) 70º
(D) 80º
(D) 80º
97.
98.
99.
Two opposite angles of a parallelogram are
(3x – 2)º and (50 – x)º then the value of x will be
:
(A) 17º
(B) 16º
(C) 15º
(D) 13º
1
If x  2  3 then x 2  2 =
x
(A) 14 2
(B) 12 2
(C) 12
(D) 14
In triangle if each side of triangle is halfed then
what is the % change in its area.
(A) 75% increase
(C) 25% increase
100.
97.
fd lhlekUrj prq
HkZ
tq d snksfoijhr d ks
.k(3x – 2)º rFkk
(50 – x)º gS
] rksx d k eku gS&
(A) 17º
(C) 15º
98.
;fn x  2  3 rc x 2  12 =
(A) 14 2
(C) 12
99.
(B) 75% decrease
(D) 25% decrease
(A) 75% c<+t k;s
xk
(C) 25% c<+t k;s
xk
100.
(–12)
–1
1
2
the quotient may be   :
3
1
(A) 
9
(B) 18
1
(C) 
18
1
(D)
18
RESONANCE
x
(B) 12 2
(D) 14
fd lhf=kHktq d hiz
R;s
d Hktq kd hyEckbZvk/khd j nht k;s
rksbld s{ks=kQ y esafd ruk izfr'kr ifjorZu gksxk&
–1
By what number should (–12) be divided so that
(B) 16º
(D) 13º
(B) 75% ?kV
(D) 25% ?kV
t k;sxk
t k;sxk
2
1
esafd ld kHkkx y xkusij HkkxQ y  3  iz
kIr
 
gkxsk&
(A) 
1
9
(B) 18
(C) 
1
18
(D)
1
18
XI-XII ResoMost_STP 15
PART - IV (BIOLOGY)
101.
Cell theory states that :
(A) all cells are living
PART - IV (BIOLOGY)
101.
d ksf'kd kfl) kUr d svuql kj :
(A) lHkhd ks
f'kd k;s
at hfor gS
a
(B) lHkhd ks
f'kd kvksaesad sUnzd gksrkgS
(C) d ks
f'kd klt hoksad hfØ ;kRed o la
jpukRed bd kbZ
gS
A
(D) d ks
f'kd k,s
av) Zl w
=kho lelw=k}kjkiq
u%mRiUu gksrh
gS
A
102.
ekuo 'kjhj d hlclscM+hd ksf'kd kgS(A) ,fPNd is
'kh; rUrqd ksf'kd k
(B) ra
f=kd kd ks
f'kd k
(C) LVª
sVsM is'kh; rUrqd ksf'kd k
(D) ân;his
'kh; rUrqd ksf'kd k
103.
lsfUVª;ksy fd llslacaf/kr gS(A) DNA la
'ys"k.k
(B) iz
t uu
(B) all cells have nucleus
(C) cells are fundamental and structural units of
living organisms
(D) cells reproduce by mitosis and meiosis
102.
Largest cell of the human body is
(A) voluntary muscle fibre cell
(B) nerve cell
(C) striated muscle fibre cell
(D) cardiac muscle fibre cell.
103.
Centriole is associated with
(A) DNA synthesis
(B) reproduction
(C) spindle formation
104.
Energy is stored in the liver and muscles as
(A) glycogen
(B) starch
(C) fat
105.
107.
(C) Nitrogen
108.
RESONANCE
105.
ekuo ikpu ra=kd keq[; vax t ksikpu o vo'kks"k.kd s
fy ;smÙkjnk;h gSa(A) ;Ñ r
(B) o`
gn vkar
(C) vek'k;
(D) Nks
Vhvka
r
106.
NksVh vkar esaik;st kusoky soy u t ksvo'kks"k.k {ks=k esa
o`f) d jrsgSa]D;k d gy krsgSa
(A) fØ LVh
(B) foYy h
(C) i{ekHk
(D) d 'kkHk
107.
fuEufyf[kr esalsok;qd kog d kSulkvo;o gS]ft ld h
ek=kk 'olu izØ e esacny rh ughagS\ (A) vkW
Dlht u
(B) d kcZ
u MkbZ& vkW
DlkbM
(C) ukbVª
ks
tu
(D) t y ok"i
108.
;fn vR;f/kd /kzweiku d sd kj.k Q sQ M+ksaesaxSl ksad s
vknu&iznku d klrgh{ks=k?kV t k, rksbl fLFkfr d ks
D;k d gsaxs\
(A) ,EQ kbls
ek
(B) V~
;wcjd w
y ks
fll
(C) vLFkek
(D) U;w
eksfu;k
(D) Water Vapour
If the surface area for gaseous exchange in lungs
is reduced due to excessive smoking, the
condition is called as
(A) emphysema
(B) tuberculosis
(C) asthma
;Ñ r o is'kh;ksaesaÅ t kZd klap ; fd l : i esagksrkgS\
(A) Xykbd ks
tu
(B) e.M
(C) olk
(D) d ks
ys
LVª
kW
y
(D) Flagella
Amount of which of the following components' in
air does not change in process of respiration (A) Oxygen
(B) Carbon di-oxide
(D) pneumonia
(D) respiration
104.
(D) Small intestine
The folds present in small intestine which
increase the area of absorption are called as (A) Cristae
(B) Villi
(C) Cilia
(C) spindle formation
(D) cholesterol
Main organ of human digestive system
responsible for digestion and absorption is (A) Liver
(B) Large intestine
(C) Stomach
106.
(D) respiration
XI-XII ResoMost_STP 16
109.
Anaerobic respiration is likely to occur in
(A) Ants
(B) Earthworms
(C) Echinoderms
110.
109.
vok;oh; 'olu laHkor% ik;k t krk gS(A) pha
Vh;ksaesa
(B) d s
ap q,saesa
(C) bd kbuks
M eZ~
l es
a
(D) Q hrkÑ fe;ks
aesa
110.
RBC d k lew
gu
111.
isl esd j d k d k;ZgS(A) ân; Lia
nu esao`f) d juk
(B) ân; Lia
nu d ks?kVkuk
(C) ân; Lia
nu d ksizkjEHk d juk
(D) ân; es
a: f/kj d h vkiwfrZd k fu;a=k.k d juk
112.
,d xMZy o`{k d qN le; d sfy , t hfor jgrk gS]
ijUrqvUr esaej t krk gS]D;ksafd (A) t y Å ij d h vks
j ughap<+ikrk
(B) t y uhpsd h vks
j ughavk ikrk
(C) 'kd Z
jk o vU; d kcZfud inkFkZÅ ij d h vksj xfr
ughad j ikrs
(D) 'kd Z
jk o vU; d kcZfud inkFkZuhpsd h vksj xfr
ughad j ikrs
113.
: f/kj d k fuL;Unu d gk¡gksrk gS(A) cks
eUl d s
Ilwy
(B) gs
uy sy wi
(C) us
Ý ksu d hxzhok
(D) jhuy is
ihy h
114.
t y h; t ho vf/kd ka'kr%veksuksVsfy d gksrsgSa]D;ksafd (A) veks
fu;k t y esavklkuh lsfolfjr gkst krh gS
(B) veks
fu;kd smRlt Z
u gs
rqt y d hvf/kd vko';d rk
gksrh gS]t ksfd bu t Urqv ksaesamiy C/k gksrh gS
(C) t y es
aukbVªkst u d h ek=kk d e gksrh gS
(D) bUgs
ad e izd k'k fey rk gS
115.
Tokykd kfs'kd k;s
a¼iz
kVskusfsÝ fM;k½fd ld hmRlt uZ la
jpuk
gS\
(A) Iy s
usjh;Ul
(B) ¶y w
Dl
(C) Q hrkÑ fe
(D) lHkh
116.
ekuo eknk esa;kSoud ky fd l mezesavkrk gS
(A) 8 – 10 o"kZ
(B) 11 – 14 o"kZ
(C) 15 – 17 o"kZ
(D) 18 – 20 o"kZ
(D) Tapeworms
Clumping of RBC may occur when blood of one
person is mixed with serum or blood of another
person. This is due to
(A) antigen – antibody reaction
(B) antitoxin – antibody reaction
(C) antigen – antigen reaction
(D) antibody – antibody reaction
111.
Role of pacemaker is
(A) to increase heartbeat
(B) to decrease heartbeat
(C) to initiate heartbeat
(D) to control blood supply to heart
112.
A girdled tree (upto) may survive for some time
but it will eventually die, because
(A) water will not move upwards
(B) water will not move downwards
(C) sugars and other organic materials will not
move upwards
(D) sugars and other organic materials will not
move downwards
113.
Filtration of blood occurs in
(A) Bowman’s capsule (B) loop of Henle
(C) neck of nephrons
114.
(D) renal papillae
Aquatic animals are mostly ammonotelic,
because
(A) ammonia easily diffuse in water
(B) excretion of ammonia requires large amount
of water which is available to these animals.
(C) water contains less nitrogen
(D) these get less light
115.
Flame cells (protonephridia) are excretory
structures of:
(A) Planarians
(B) Flukes
(C) Tapeworms
116.
(D) All of these
Puberty occurs in females at the age of
(B) 11 – 14 years
(A) 8 – 10 years
(C) 15 – 17 years
(D) 18 – 20 years
RESONANCE
rc gksrk gS]t c ,d O;fDr d s: f/kj
d klhje nwl jsO;fDr d s: f/kj d slhje es
afefJr fd ;k
t krk gSA ;g fd l d kj.k gksrk gS\
(A) ,a
Vht u – ,aVhckW
M hvfHkfØ ;k
(B) ,a
VhVksfDlu – ,a
VhckW
M hvfHkfØ ;k
(C) ,a
Vht u – ,a
Vht u vfHkfØ ;k
(D) ,a
VhckW
Mh– ,a
VhckW
MhvfHkfØ ;k
XI-XII ResoMost_STP 17
117.
Testosterone is secreted by
(A) Leydig cells
(B) Sertoli cells
117.
VsLVksfLVjksu d k ò ko.k fd ld s}kjk gksrk gS&
(A) fyfMa
x d ksf'kd kvks
a
(B) ljVks
y hd ks
f'kd kvks
a
(C) ih;w
"kd ks
f'kd kvks
a
(D) o`
"k.k
118.
(D) having one or more of the advantage
d kf;d t uu ,d ikni d h fd l o`f) esalgk;d gS\
(A) vkuq
oka'kd h; : i lsleku t ud ikni d sleku
o`f) esa
(B) ikniks
ad s'kh?kzt uu esa
(C) nksikniks
ad sla
;ks
x ls,s
fPNd xq
.kks
ad ksiz
kIr d juses
a
(D) d having one or more of the advantage
mentioned above
mentioned above
(C) Pituitary cells
118.
119.
(D) Testis
Vegetative propagation helps a plant grower in
(A) growing a plant similar to the parent plant
genetically
(B) quick propagation of plants
(C) combination of desirable traits of two plants
Which of the following disease is caused by bacteria ?
(A) Small pox
(B) Polio
(C) AIDS
119.
fuEu esalsd kSulkjksx t hok.kqv ksa}kjk gksrkgS\
(A) Nks
Vhekrk
(B) iks
fy;ks
(C) ,M~
l
(D) gS
tk
(D) Cholera
120.
Deficiency diseases are
(A) communicable diseases
(B) non Communicable diseases
(C) allergies
(D) none of these
120.
U;wurk jksx gS(A) la
Ø e.kjksx
(B) vla
Ø ked jksx
(C) ,yt hZ
(D) bues
alsd ksbZugha
121.
Sleeping sickness is caused by a protozoan
Trypanosoma. This protozoan is present in the
salivary gland of a blood sucking insect.
The name of that insect is :
(A) Culex mosquito
(B) Anopheles mosquito
(C) Fruit fly
(D) Tsetse fly
121.
funzkjksx fVªisuksl ksekuked izksVkst ksv k lsgksrk gSA ;g
iz
ksVks
t ks
v k,d : f/kj pw
l usokysd hV d hykj xz
fUFk;ks
aes
a
ik;k t krk gSA bl d hV d k uke crkb;s(A) D;w
y sDl ePNj
(B) ,uks
fQ y ht ePNj
(C) Q y eD[kh
(D) LVlheD[kh
122.
An antiviral protein which might help in curing
viral disease in future is
(A) antibody
(B) histone
(C) nucleoprotein
(D) interferon
122.
,d iz
frfo"kk.kq
d iz
ks
Vhu t ksfo"kk.kqt fur jksxks
ad sHkfo";
esaby kt d sfy ;slgk;rk iznku d jrk gS]og gS(A) ,a
VhckW
Mh
(B) ghLVks
u
(C) U;w
fDy;ks
iz
ks
Vhu
(D) bUVjQ s
jks
u
123.
In human body which is the master gland ?
(A) Adrenal
(B) Pancreas
(C) Pituitary
(D) None of the above
123.
ekuo 'kjhj esad kSulh xzfUFk ekLVj xzfUFk d gy krh gS\
(A) ,Mª
huy
(B) vXuk'k;
(C) ih;w
"k
(D) bues
alsd ksbZugha
124.
Hypersecretion of growth hormone in a period of
growth leads to
(A) Midget
(B) Anemia
(C) Acromegaly
(D) Cushing syndrome
124.
o`
f) d ky es
ao`
f) gkWeks
u d svfrlz
Z
ko ls______ jks
x gks
t krk gS\
(A) ckS
ukiku
(B) ,fufe;k
(C) ,Ø ks
es
xyh
(D) d q
f'ka
x flUMª
ks
e
125.
Hormone Involved in inhibition of growth is
(A) ABA
(B) Auxin
(C) None of the above
(D) Both A and B
125.
og d kSulkgkWeks
Zu gSt kso`f) d ksvo: ) d jusd kd k;Z
d jrk gS\
(A) ABA
(B) vkW
fDlu
(C) bues
alsd ksbZugha
(D) A rFkk B nks
uksa
RESONANCE
XI-XII ResoMost_STP 18
126.
Basic unit of classification is (A) species
(B) genus
(C) family
(D) phylum
126.
oxhZd j.k d h vk/kkjh; bd kbZgS(A) t kfr
(B) oa
'k
(C) d q
y
(D) la
?k
127.
What differentiates leaves of dicot from monocots ?
(A) Parallel venation
(B) Reticulate venation
(C) Stomata only on upper side
(D) Stomata both on upper and lower sides
127.
f}cht i=kho ,d cht i=khi.kkZsd ksfoHkfsnr fd ;kt krkgS
(A) lekUrj f'kjkfoU;kl }kjk
(B) t kfyd kor~f'kjkfoU;kl
(C) ja
/kzd soy Å ij d h vksj gksrsgSa
(D) ja
/kzÅ ij o uhpsnksuksavksj gksrsgSa
128.
A true fish is
(A) star fish
(C) silver fish
128.
,d okLrfod eNy h gS(A) rkjkeNy h
(C) flYoj eNy h
(B) jelly fish
(D) dog fish
(B) t S
y h eNy h
(D) MkW
x eNy h
129.
The animals with bilateral symmetry in young
stage, and radial pentamerous symmetry in the
adult stage, belong to the phylum
(A) Cnidaria
(B) Echinodermata
(C) Annelida
(D) Mollusca
129.
ost Urqft ud sf'k'kqv ksaesaf}ik'oZlefefr ikbZt krhgS]
t cfd o;Ld ks
aes
avjh; ia
p d ks
f.k; lefefr ik;ht krhgS
]
osfd l la?k lslcaf/kr gS
(A) uhMs
fj;k
(B) bd kbuks
MesZ
Vk
(C) ,us
fyMk
(D) eks
y Ld k
130.
Primary source of energy in an ecosystem is
(A) sugar stored in plants
(B) heat liberated during respiration
(C) solar energy
(D) heat liberated by fuel burning
130.
,d ikfjfLFkfrd hra=kesaÅ t kZd kizkFkfed lzksr gS(A) ikniks
aesalafpr 'kd Zjk
(B) 'olu d snkS
jku mRiUu Å "ek
(C) lkS
j Å t kZ
(D) b±
/ku d st y uslsmRiUu Å "ek
131.
Eutrophication leads to death of fish due to –
(A) increased O2 content
(B) increased algal content
(C) decreased algal content
(D) decreased O2 content
131.
;w
Vª
ks
fQ d s
'ku eNfy;ks
ad he`
R;qd kd kj.kgks
rhgS
]D;ks
fd
a
132.
The pyramid of energy is always
(A) upright
(B) inverted
(C) horizontal
(D) negative
132.
Å t kZd kfijkfeM lnSo d Sl k gksrkgS(A) lh/kk
(B) Å YVk
(C) {kS
frt
(D) _ .kkRed
133.
Apiculture is (A) honey bee culture
(C) rearing of cattle
133.
,sihd Ypj D;k gS\
(A) e/kq
eD[kh iky u
(C) i'kq
ikyu
–
(A) O2 la
rqf"V
esao`f)
(B) 'kS
oky lUrqf"V esao`f)
(C) 'kS
oky larqf"V esad eh
(D) O2 la
rqf"V esad eh
(B) fish culture
(D) poultry breeding
(B) eNy h iky u
(D)
eqxhZiky u
134.
The principal cereal crop of India is
(A) wheat
(B) rice
(C) maize
(D) sorghum
134.
Hkkjr esavUu d h Q ly esaiz/kku Q ly fd ld h gS\
(A) xs
gw¡
(B) pkoy
(C) eDd k
(D) lks
jxe
135.
Livestock is
135.
y kbo LVkWd D;k gS(A) lHkhekuo t kfr
(B) lHkh oU; o iky rwt Urq
(C) lHkhiky rwmi;ks
xht Urq
(D) lHkhikni o t Urq
(A) all human beings
(B) all wild and domestic animals
(C) all domestic useful animals
(D) all the plants and animals
RESONANCE
XI-XII ResoMost_STP 19
136.
After mutation in a gene locus, a character of an
organism changes due to change in
(A) Protein structure
(B) DNA replication
(C) Protein synthesis pattern
(D) RNA transcription pattern
136.
t hu y ksd l esamRifjorZu d s i'pkr~,d t ho d s
y {k.k esacny ko fuEu esalsfd lesaifjorZu d sd kj.k
gksrk gS\
(A) iz
ksVhu lajpuk
(B) DNA js
fIy d s'ku
(C) iz
ksVhu la'y s"k.k isVuZ
(D) RNA Vª
kaUlfDi'ku isVuZ
137.
A cross between hybrid and a recessive parent
(t × tt) gives a ratio of
(A) 1 : 1
(B) 2 : 1
(C) 3 : 1
(D) 1 : 2 : 1
137.
lad j o vizHkkoh t ud ksad se/; Ø kWl lst ksvuqikr
izkIr gksxk og gS-
138.
Oparin’s theory about ‘ Origin of life” is based
upon
(A) Chemical Evolution
(B) Organic Evolution
(C) Cosmic Evolution
(D) Artificial Synthesis
138.
^t hou d h mRifÙk* d slanHkZesavkWisfju d k fl) kUr
fd l ij vk/kkfjr gS\
(A) jklk;fud fod kl
(B) d kcZ
fud fod kl
(C) d kW
fLed fod kl
(D) Ñ f=ke la
'y s"k.k
139.
Evolution is defined as
(A) history of race
(B) development of race
(C) history and development of race with variations
(D) progressive history of race
139.
fod kl d ksifjHkkf"kr fd ;k t k ld rk gS(A) uLy ks
ad sbfrgkl d s: i esa
(B) uLy ks
ad sfod kl d s: i esa
(C) uLy ks
ad sfHkUurkvksao fod kl d s: i esa
(D) uLy ks
ad sfod kl'khy bfrgkl d s: i esa
140.
Fluid part of blood after removal of corpuscles is
(A) plasma
(B) lymph
(C) serum
(D) vaccine
140.
: f/kj d k rjy Hkkx t ksd kiZYl ¼d f.kd kvksa½ d sgVus
d si'pkr~cpk jg t krk gS] og gS(A) Iy kTek
(B) fy EQ
(C) lhje
(D) os
flu
141.
The junction at which two nerve cells combine
are called as
(A) dendron
(B) synaps
(C) neuroplasm
(D) sarcomere
141.
og LFkku t gk¡nksraf=kd k d ksf'kd k;savkd j fey rh gSa]
d gy krk gS(A) Ms
UMªksu
(B) lhus
Il
(C) U;w
jksIy kT+ek
(D) lkd ks
Zeh;j
142.
Adipose tissues stores
(A) protein
(B) carbohydrates
(C) fat droplets
(D) All of the above
142.
,Mhiksl Å Ùkd fd ld k lap ; d jrsgSa(A) iz
ksVhu
(B) d kcks
ZgkbMªsV~l
(C) olk Mª
ksIy sV~l
(D) mijks
Dr lHkh
143.
Cork cells are
143.
d kWd Zd ksf'kd k;sagksrh gSa
(A) iz
d k'kla'y s"kh
(B) y Ech o xeu es
aHkkx y srh gS
(C) es
jhLVesfVd
(D) e`
r
144.
t Urqd ksf'kd k esamifLFkr d ksf'kd kax gS(A) Dy ks
jksIy kLV] ekbVksd kWfUMª;k] d sUnzd ] fjfDrd k
(B) ekbVks
d kWf.Mª;k] d sUnzd ] lsUVªh;ksy ] d ksf'kd k fHkfÙk
(C) ekbVks
d kWf.Mª;k] d sUnzd ] lsUVªh;ksy ] fjfDrd k
(D) ekbVks
d kWf.Mª;k] d ksf'kd k fHkfÙk] d sUnzd ] fjfDrd k
(A) photosynthetic
(A) 1 : 1
(C) 3 : 1
(B) elongated and participate in movement
(C) meristematic
(D) dead
144.
Organelles present in animal cell are
(A) chloroplast, mitochondria, nucleus, vacuoles
(B) mitochondria, nucleus, centriole, cell wall
(C) mitochondria, nucleus, centriole, vacuoles
(D) mitochondria, cell wall, nucleus, vacuoles
RESONANCE
(B) 2 : 1
(D) 1 : 2 : 1
XI-XII ResoMost_STP 20
145.
The striking difference between animal and plant
cell is of –
(A) cell membrane
(B) cell wall
(C) mitochondria
(D) nucleus
145.
t Urq o ikni d ksf'kd k esa ik;k t kus oky k fof'k"V
vUrj D;k gS\
(A) d ks
f'kd k f>Yy h
(B) d ks
f'kd k fHkfÙk
(C) ekbVks
d kW
fUMª
;k
(D) d U
snz
d
146.
In which part of chloroplast light reaction of
photosynthesis occurs ?
(A) Grana
(B) Stroma
(C) Matrix
(D) all of the above
146.
Dykjsks
IykLV d sfd l Hkkx es
aiz
d k'kla
'ys
"k.kd hiz
d kf'kd
vfHkfØ ;klaiUu gksrhgS\
(A) xz
suk
(B) LVª
ks
ek
(C) es
fVªDl
(D) lHkh
147.
The phenomena which converts light energy to
chemical energy is
(A) respiration
(B) photosynthesis
(C) transpiration
(D) none of these
147.
iz
d k'kÅ t kZd kjklk;fud Å t kZes
a: ikUrj.kd hifj?kVuk
D;k d gy krh gS\
(A) 'olu
(B) iz
d k'kla
'ys
"k.k
(C) Vª
ka
l ikbjs
'ku
(D) bues
alsd ksbZugha
148.
Which of the following is a characteristic of
respiratory organ ?
(A) Thin walled
(B) Vascular
(C) Moist
(D) All of the above
148.
fuEu esals'olu vax d k vfHky {k.k d kSulk gS\
(A) iry hf>Yy h
(B) la
ogu
(C) vknz
rk
(D) lHkh
149.
The sphere of living matter together with water,
air and soil on the surface of earth is
(A) Biosphere
(B) Lithosphere
(C) Hydrosphere
(D) Atmosphere
149.
og e.My t gk¡lt ho inkFkZt y ]ok;qo e`nki`
Fohij
fey rsgSa] D;k d gy krk gS\
(A) t S
oe.My
(B) yhFkks
LQ s
;j
(C) gkbMª
kLsQ ;sj
(D) ok;q
e.My
150.
Biogeochemical cycling means cycling of
(A) water
(B) energy in an ecosystem
(C) nutrients in an ecosystem
(D) gases between plants and atmosphere
150.
t So Hkwjklk;fud pØ d k vFkZfd ld spØ lsgS
(A) t y
(B) ikfjfLFkfrd hra
=kesaÅ t kZ
(C) ikfjfLFkfrd hra
=kes
aiks
"k.k
(D) ikniks
ao ok;qe.My d se/; xSl
RESONANCE
XI-XII ResoMost_STP 21
ANSWER KEY
Ques
Ans.
Ques
Ans.
Ques
Ans.
Ques
Ans.
Ques
Ans.
Ques
Ans.
Ques
Ans.
Ques
Ans.
Ques
Ans.
Ques
Ans.
1
B
16
C
31
B
2
B
17
A
32
C
3
C
18
B
33
D
4
D
19
A
34
C
5
D
20
C
35
D
46
B
47
B
48
D
49
C
50
D
13
A
28
B
43
C
14
C
29
D
44
A
15
A
30
A
45
A
51
52
53
54
55
56
57
58
D
C
A
C
B
A
A
C
61
62
63
64
65
66
67
68
69
70
71
72
73
B
C
D
A
B
D
C
B
D
C
B
D
C
76
77
78
79
80
81
82
83
84
85
86
87
88
C
C
C
B
A
C
C
A
C
D
D
C
B
91
92
93
94
95
96
97
98
99 100 101 102 103
C
B
C
A
A
A
B
C
D
D
D
B
C
106 107 108 109 110 111 112 113 114 115 116 117 118
B
C
A
D
A
C
D
A
B
D
B
A
A
59
A
74
B
89
C
104
A
60
B
75
C
90
A
105
D
119
D
120
B
121 122 123 124 125 126 127 128 129 130 131 132 133
D
D
C
C
A
A
B
D
B
C
D
A
A
134
B
135
C
136 137 138 139 140 141 142 143 144 145 146 147 148
A
A
A
C
C
B
C
D
C
B
A
B
D
149
A
150
C
RESONANCE
6
B
21
A
36
B
7
A
22
C
37
C
8
B
23
D
38
C
9
A
24
C
39
C
10
D
25
C
40
C
11
A
26
D
41
C
12
D
27
B
42
A
XI-XII ResoMost_STP 22