55-1-1 Physics 2024 PYP.pdf

Full Transcript

Set-1
Series RPQS1/1
àíZ-nÌ H$moS>
Q.P. Code
55/1/1
amob Z§. narjmWu àíZ-nÌ H$moS> >H$mo CÎma-nwpñVH$m Ho$
Roll No. _wI-n¥ð >na Adí` {bIo§ &
Candidates must write the Q.P. Code
on the title page of the answer-book.

^m¡{VH$ {dkmZ (g¡ÕmpÝVH$)
PHYSICS (Theory)

:3 : 70
Time allowed : 3 hours Maximum Marks : 70

ZmoQ> NOTE
(I) H¥$n`m Om±M H$a b| {H$ Bg àíZ-nÌ _o§ _w{ÐV (I) Please check that this question paper
contains 27 printed pages.
n¥ð> 27 h¢ &
(II) H¥$n`m Om±M H$a b| {H$ Bg àíZ-nÌ _| (II) Please check that this question paper
contains 33 questions.
>33 àíZ h¢ &
(III) àíZ-nÌ _| Xm{hZo hmW H$s Amoa {XE JE (III) Q.P. Code given on the right hand side of
the question paper should be written on
àíZ-nÌ H$moS >H$mo narjmWu CÎma-nwpñVH$m Ho$ the title page of the answer-book by the
_wI-n¥ð> na {bI| & candidate.
(IV) H¥$n`m àíZ H$m CÎma {bIZm ewê$ H$aZo go (IV) Please write down the serial number of
the question in the answer-book before
nhbo, CÎma-nwpñVH$m _| àíZ H$m H«$_m§H$ attempting it.
Adí` {bI| &
(V) Bg àíZ-nÌ 15 {_ZQ (V) 15 minute time has been allotted to read
this question paper. The question paper
>H$m g_` {X`m J`m h¡ & àíZ-nÌ H$m will be distributed at 10.15 a.m. From
10.15 ~Oo {H$`m OmEJm & 10.15 a.m. to 10.30 a.m., the students will
10.15 ~Oo go 10.30 ~Oo VH$ N>mÌ Ho$db read the question paper only and will not
àíZ- write any answer on the answer-book
during this period.
do CÎma-nwpñVH$m na H$moB© CÎma Zht {bI|Jo &

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 :

:
(i) 33
(ii)
(iii) 1 16 1

(iv) 17 21 2

(v) 22 28 3

(vi) 29 30 4

(vii) 31 33 5

(viii)

(ix)
(x)
:
c=3 108 m/s
h = 6.63 10 34 Js
e = 1.6 10 19 C
0 =4 10 7 T m A 1

0 = 8.854 10 12 C2 N 1 m 2
1
=9 109 N m2 C 2
4
0
(me) = 9.1 10 31 kg
Ý`yQ´>m°Z H$m Ðì`_mZ = 1.675 10 27 kg
àmoQ>m°Z H$m Ðì`_mZ = 1.673 10 27 kg
AmdmoJmÐmo g§»`m = 6.023 1023 à{V J«m_ _mob
~moëQ²>µO_mZ {Z`Vm§H$ = 1.38 10 23 JK 1
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General Instructions :
Read the following instructions carefully and follow them :
(i) This question paper contains 33 questions. All questions are compulsory.
(ii) This question paper is divided into five sections Sections A, B, C, D and E.
(iii) In Section A Questions no. 1 to 16 are Multiple Choice type questions. Each
question carries 1 mark.
(iv) In Section B Questions no. 17 to 21 are Very Short Answer type questions.
Each question carries 2 marks.
(v) In Section C Questions no. 22 to 28 are Short Answer type questions. Each
question carries 3 marks.
(vi) In Section D Questions no. 29 and 30 are case study-based questions. Each
question carries 4 marks.
(vii) In Section E Questions no. 31 to 33 are Long Answer type questions. Each
question carries 5 marks.
(viii) There is no overall choice given in the question paper. However, an internal
choice has been provided in few questions in all the Sections except Section A.
(ix) Kindly note that there is a separate question paper for Visually Impaired
candidates.
(x) Use of calculators is not allowed.
You may use the following values of physical constants wherever necessary :
c=3 108 m/s
h = 6.63 10 34 Js
e = 1.6 10 19 C

0 =4 10 7 T m A 1

0 = 8.854 10 12 C2 N 1 m 2
1
=9 109 N m2 C 2
4
0

Mass of electron (me) = 9.1 10 31 kg

Mass of neutron = 1.675 10 27 kg
Mass of proton = 1.673 10 27 kg
6.023 1023 per gram mole
Boltzmann constant = 1.38 10 23 JK 1

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 IÊS> H$
1. R Ho$ d¥ÎmmH$ma db` Ho$ ê$n
Bgo Amdoe KZËd -joÌ H$m

(A) (B) eyÝ` (C) (D)
2 0R 4 R 4 0R
0

2. Xg g§Ym[aÌ, 1 F h¡, H$mo 100 V Ho$ òmoV
{H$`m J`m h¡
(A) 10 2 J (B) 10 3 J
(C) 0·5 10 3 J (D) 5·0 10 2 J

3. JE n[anW na {dMma H$s{OE & BgHo$ {~ÝXþ A Am¡a B Ho$ ~rM {d^dmÝVa h¡ :

(A) 6V (B) 8V (C) 9 V (D) 12 V

4. H$moB© nme, {Oggo Ymam I X{jUmdV© àdm{hV hmo ahr h¡, x y , z-Aj Ho$ AZw{Xe
Bg nme H$s àd¥{Îm hmoJr :
(A) x-Aj Ho$ AZw{Xe J{V H$aZo H$s (B) y-Aj Ho$ AZw{Xe J{V H$aZo H$s
(C) {gHw$ Zo H$s (D)

5. H$moB© 10 cm bå~m Vma y-Aj Ho$ AZw{Xe aIm h¡ & Bggo YZmË_H$ y-{Xem _| 1.0 A H$s
^
Ymam àdm{hV hmo ahr h¡ & Bg joÌ _| H$moB© Mwå~H$s` joÌ B = (5 mT) j (8 mT) k^
{dÚ_mZ h¡ & Bg Vma na ~b h¡ :
^ ^
(A) (0·8 mN) i (B) (0·8 mN) i
^ ^
(C) (80 mN) i (D) (80 mN) i

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 SECTION A

1. A thin plastic rod is bent into a circular ring of radius R. It is uniformly
charged with charge density. The magnitude of the electric field at its
centre is :

(A) (B) Zero (C) (D)
2 0R 4 R 4 0R
0

2. Ten capacitors, each of capacitance 1 µF, are connected in parallel to a
source of 100 V. The total energy stored in the system is equal to :
(A) 10 2 J (B) 10 3 J
(C) 0·5 10 3 J (D) 5·0 10 2 J

3. Consider the circuit shown in the figure. The potential difference between
points A and B is :

(A) 6V (B) 8V (C) 9 V (D) 12 V

4. A loop carrying a current I clockwise is placed in x y plane, in a uniform
magnetic field directed along z-axis. The tendency of the loop will be to :
(A) move along x-axis (B) move along y-axis
(C) shrink (D) expand

5. A 10 cm long wire lies along y-axis. It carries a current of 1.0 A in
^ ^
positive y-direction. A magnetic field B = (5 mT) j (8 mT) k exists in
the region. The force on the wire is :
^ ^
(A) (0·8 mN) i (B) (0·8 mN) i
^ ^
(C) (80 mN) i (D) (80 mN) i

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6. à{VamoY G Ho$ {H$gr J¡ëdoZmo_rQ>a H$mo 0 go I A n[aga Ho$ Eo_rQ>a _| n[ad{V©V {H$`m J`m
h¡ & `{X Bg J¡ëdoZmo_rQ>a _| àdm{hV Ymam I A H$s 0·1% h¡, Vmo Eo_rQ>a H$m à{VamoY h¡ :
G G G G
(A) (B) (C) (D)
999 1000 1001 100·1

7. Amd¥{Îm Ho$ {H$gr ac òmoV go g§`mo{OV Ym[aVm C Ho$ {H$gr g§Ym[aÌ H$s à{VKmV X h¡ &
`{X g§Ym[aÌ H$s Ym[aVm H$mo Xmo JwZm Am¡a òmoV H$s Amd¥{Îm H$mo VrZ JwZm H$a {X`m OmE, Vmo
à{VKmV hmo OmEJr :
X 2 3
(A) (B) 6X (C) X (D) X
6 3 2

8. Mma joÌ I, II, III VWm IV _| {dÚwV-joÌ {ZåZ{b{IV ê$n _| d{U©V h¢ :
joÌ I : Ex = E0 sin (kz t)
joÌ II : Ex = E0
joÌ III : Ex = E0 sin kz
joÌ IV : Ex = E0 cos kz
{H$g joÌ _| {dñWmnZ Ymam hmoJr ?
(A) I (B) IV (C) II (D) III

9. _| ~m_a loUr H$s Xÿgar
, g§JV hmoVm h¡ :
(A) nf = 2 VWm ni = 3 (B) nf = 3 VWm ni = 4
(C) nf = 2 VWm ni = 4 (D) nf = 2 VWm ni =

10. Ge H$m _mXZ As Ho$ gmW {H$`m J`m h¡ & BgHo$ H$maU :
(A) Ge Ho$ OmbH$ H$s g§aMZm {dH¥$V hmo OmVr h¡ &
(B) MmbZ Bbo Vr h¡ &
(C) hmobm| H$s g§»`m _| d¥{Õ hmoVr h¡ &
(D) MmbZ Bbo m h¡ &
11. Xmo nw§O, A Am¡a B {OZHo$ µ\$moQ>m°Zm| H$s D$Om© H«$_e: 3·3 eV Am¡a 11·3 eV h¢, H«$_dma {H$gr
YmpËdH$ n¥îR> (H$m`©-\$bZ 2·3 eV) H$mo àXrßV H$aVo h¢ & nw§O A Ho$ H$maU CËg{O©V
H$m nw§O B H$s A{YH$V_ Mmb
go AZwnmV h¡ :
1 1
(A) 3 (B) 9 (C) (D)
3 9
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6. A galvanometer of resistance G is converted into an ammeter of range
0 to I A. If the current through the galvanometer is 0.1% of I A, the
resistance of the ammeter is :
G G G G
(A) (B) (C) (D)
999 1000 1001 100·1
7. The reactance of a capacitor of capacitance C connected to an ac source of
frequency nce of the capacitor is doubled and the
frequency of the source is tripled, the reactance will become :
X 2 3
(A) (B) 6X (C) X (D) X
6 3 2
8. In the four regions, I, II, III and IV, the electric fields are described as :
Region I : Ex = E0 sin (kz t)
Region II : Ex = E0
Region III : Ex = E0 sin kz
Region IV : Ex = E0 cos kz
The displacement current will exist in the region :
(A) I (B) IV (C) II (D) III
9. The transition of electron that gives rise to the formation of the second
spectral line of the Balmer series in the spectrum of hydrogen atom
corresponds to :
(A) nf = 2 and ni = 3 (B) nf = 3 and ni = 4
(C) nf = 2 and ni = 4 (D) nf = 2 and ni =

10. Ge is doped with As. Due to doping,
(A) the structure of Ge lattice is distorted.
(B) the number of conduction electrons increases.
(C) the number of holes increases.
(D) the number of conduction electrons decreases.
11. Two beams, A and B whose photon energies are 3·3 eV and 11·3 eV
respectively, illuminate a metallic surface (work function 2·3 eV)
successively. The ratio of maximum speed of electrons emitted due to
beam A to that due to beam B is :
1 1
(A) 3 (B) 9 (C) (D)
3 9

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12. >m°Z Am¡a {H$gr J{V_mZ àmoQ>m°Z go gå~Õ Va§Jm| H$m Va§JX¡¿`© g_mZ
h¡ & BgH$m `h A{^àm` h¡ {H$ BZH$m/BZH$s g_mZ h¡ :
(A) g§doJ (B) H$moUr` g§doJ
(C) Mmb (D) D$Om©

13 16 (A) (R)
(A) (R)
(A), (B), (C) (D)
(A) A{^H$WZ (A) Am¡a H$maU (R) XmoZm| ghr h¢ Am¡a H$maU (R), A{^H$WZ (A) H$s
ghr ì¶m»¶m H$aVm h¡ &
(B) A{^H$WZ (A) Am¡a H$maU (R) XmoZm| ghr h¢, naÝVw H$maU (R), A{^H$WZ (A) H$s
ghr ì¶m»¶m H$aVm h¡ &
(C) A{^H$WZ (A) ghr h¡, naÝVw H$maU (R) µJbV h¡ &
(D) A{^H$WZ (A) µJbV h¡ VWm H$maU (R) ^r µJbV h¡ &
13. (A) : àH$me-{dÚwV à^md _|, CËg{O©V \$moQ>m-o
Amn{VV àH$me H$s Vrd«Vm _| d¥{Õ Ho$ gmW d¥{Õ hmoVr h¡ &
(R) : àH$me-{dÚwV Ymam Amn{VV àH$me H$s Va§JX¡¿`© na {Z^©a H$aVr h¡ &
14. (A) : O~ Xmo Hw$ÊS>{b`m| H$mo EH$-Xÿgao Ho$ D$na bnoQ>m OmVm h¡, Vmo CZHo$ ~rM
AÝ`moÝ` àoaH$Ëd A{YH$V_ hmoVm h¡ &
(R) : O~ Xmo Hw$ÊS>{b`m± EH$-
g§~ÕVm A{YH$V_ hmoVr h¡ &
15. (A) : {H$gr ~¡Q>ar go loUr _| g§`mo{OV Am¡a ñdV§ÌVmnyd©H$ {Zb§{~V Xmo b§~o
g_mÝVa Vma EH$-Xÿgao go Xÿa hQ>Vo h¢ &
(R) : {dnarV {XemAm| _| àdm{hV Ymamdmhr Xmo Vma EH$-Xÿgao H$mo à{VH${f©V
H$aVo h¢ &
16. (A) : g_Vb Xn©U Am¡a CÎmb Xn©U {H$gr ^r n[apñW{V _| dmñV{dH$ à{V{~å~
Zht ~Zm gH$Vo h¢ &
(R) : H$moB© Am^mgr à{V{~å~ dmñV{dH$ à{V{~å~ ~ZmZo Ho$ {bE {~å~ H$s
^m±{V H$m`© Zht H$a gH$Vm h¡ &
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12. The waves associated with a moving electron and a moving proton have
the same wavelength. It implies that they have the same :
(A) momentum (B) angular momentum
(C) speed (D) energy

Questions number 13 to 16 are Assertion (A) and Reason (R) type questions. Two
statements are given one labelled Assertion (A) and the other labelled Reason
(R). Select the correct answer from the codes (A), (B), (C) and (D) as given below.
(A) Both Assertion (A) and Reason (R) are true and Reason (R) is the
correct explanation of the Assertion (A).
(B) Both Assertion (A) and Reason (R) are true, but Reason (R) is not
the correct explanation of the Assertion (A).
(C) Assertion (A) is true, but Reason (R) is false.
(D) Assertion (A) is false and Reason (R) is also false.

13. Assertion (A) : In photoelectric effect, the kinetic energy of the emitted
photoelectrons increases with increase in the intensity of
the incident light.
Reason (R) : Photoelectric current depends on the wavelength of the
incident light.

14. Assertion (A) : The mutual inductance between two coils is maximum
when the coils are wound on each other.
Reason (R) : The flux linkage between two coils is maximum when
they are wound on each other.

15. Assertion (A) : Two long parallel wires, freely suspended and connected
in series to a battery, move apart.
Reason (R) : Two wires carrying current in opposite directions repel
each other.

16. Assertion (A) : Plane and convex mirrors cannot produce real images
under any circumstance.
Reason (R) : A virtual image cannot serve as an object to produce a
real image.

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 IÊS> I

17. dh Vmn kmV H$s{OE {Og na {H$gr {gëda go ~Zo Vma H$m à{VamoY CgHo$ 20 C na à{VamoY
H$m Xmo JwZm hmoJm & 20 C H$mo g§X^© Vmn _mZ br{OE Am¡a 20 C na {gëda H$m à{VamoY
H$m Vmn JwUm§H$ = 4·0 10 3 K 1 br{OE & 2

18. (H$) Amd¥{Îm 5·0 1014 Hz H$m EH$dUu àH$me dm`w go AndV©Zm§H$ 1·5 dmbo _mÜ`_
_| J_Z H$aVm h¡ & XmoZm| _mÜ`_m| Ho$ AÝVamn¥îR> na (i) namd{V©V àH$me, VWm
(ii) And{V©V àH$me H$s Va§JX¡¿`© kmV H$s{OE & 2

AWdm

(I) 16 cm \$moH$g Xÿar H$m H$moB© g_VbmoÎmb b|g AndV©Zm§H$ 1·4 Ho$ nXmW© H$m ~Zm
h¡ & b|g Ho$ d{H«$V n¥îR> H$s {ÌÁ`m n[aH${bV H$s{OE & 2

19. H$moB© {~å~ 40 cm dH«$Vm {ÌÁ`m Ho$ {H$gr AdVb Xn©U Ho$ gm_Zo 30 cm Xÿar na pñWV h¡ &
(i) ~Zo à{V{~å~ H$s pñW{V VWm (ii) à{V{~å~ H$m AmdY©Z kmV H$s{OE & 2

20. J{VO D$Om© E Ho$ {H$gr Ý`yQ´>m°Z (Ðì`_mZ m) VWm g_mZ D$Om© Ho$ {H$gr µ\$moQ>m°Z na {dMma
H$s{OE & _mZ br{OE Ý`yQ´>m°Z H$s Xo ~«m°½br Va§JX¡¿`© n VWm µ\$moQ>m°Z H$s Va§JX¡¿`© p h¡ &
n Ho$ {bE ì`§OH$ àmßV H$s{OE & 2
p

21. nXmW© GaAs Ho$ {bE dmoëQ>Vm Ho$ gmW Ymam Ho$ {dMaU H$mo Xem©Zo dmbm J«m\$ Amao{IV
H$s{OE & Bg J«m\$ na dh joÌ A§{H$V H$s{OE Ohm± : 2

(H$) à{VamoY G$UmË_H$ h¡, VWm
(I) Amo_ Ho$ {Z`_ H$m nmbZ hmoVm h¡ &

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 SECTION B

17. Find the temperature at which the resistance of a wire made of
silver will be twice its resistance at 20 C. Take 20 C as the
reference temperature and temperature coefficient of resistance of silver
at 20 C = 4·0 10 3 K 1. 2

14
18. (a) Monochromatic light of frequency 5·0 10 Hz passes from air
into a medium of refractive index 1·5. Find the wavelength of the
light (i) reflected, and (ii) refracted at the interface of the two
media. 2
OR

(b) A plano-convex lens of focal length 16 cm is made of a material of
refractive index 1.4. Calculate the radius of the curved surface of
the lens. 2

19. An object is placed 30 cm in front of a concave mirror of radius of
curvature 40 cm. Find the (i) position of the image formed and
(ii) magnification of the image. 2

20. Consider a neutron (mass m) of kinetic energy E and a photon of the
same energy. Let n and p be the de Broglie wavelength of neutron and

the wavelength of photon respectively. Obtain an expression for n. 2
p

21. Plot a graph showing the variation of current with voltage for the
material GaAs. On the graph, mark the region where : 2

(a) resistance is negative, and

(b)
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 IÊS> J
22. 0·1 m ^wOm H$m H$moB© KZ AmaoI _| Xem©E AZwgma Cg àXoe _| pñWV h¡ Ohm± {dÚwV-joÌ
^
E = 500 x i {dÚ_mZ h¡ & `hm± x _rQ>a _| VWm E, NC 1 _| h¡ & n[aH${bV H$s{OE : 3
(H$)
(I) KZ Ho$ ^rVa Amdoe &

23. (H$) Ymam KZËd H$mo n[a^m{fV H$s{OE & `h A{Xe h¡ `m g{Xe ? {H$gr YmVw Ho$
MmbH$ _| H$moB© {dÚwV-joÌ E ~ZmE aIm J`m h¡ & `{X Bg MmbH$ Ho$ à{V EH$m§H$
Am`VZ _| Bbo m, Amdoe e) H$s g§»`m n h¡ VWm

BgH$m {dlmpÝV H$mb h¡, Vmo `h Xem©BE {H$ Ymam KZËd j = E h¡, Ohm±
ne2
= h¡ & 3
m

AWdm
(I) ìhrQ>ñQ>moZ goVw {H$go H$hVo h¢ ? ìhrQ>ñQ>moZ goVw Ho$ g§VwbZ Ho$ {bE Amdí`H$ eV]
àmßV H$s{OE & 3

24. 1·3384 10 14 J J{VO D$Om© H$m H$moB© àmoQ>m°Z, nyd© {Xem Ho$ AZw{Xe {X{eH$ 2·0 mT Ho$
{H$gr EH$g_mZ Mwå~H$s` joÌ B _|, CÎma go X{jÊm H$s Amoa j¡{VOV: J{V_mZ hmoVo hþE
àdoe H$aVm h¡ & n[aH${bV H$s{OE : 3
(H$) àmoQ>m°Z H$s Mmb
(I) àmoQ>m°Z _| CËnÞ ËdaU H$m n[a_mU
(J) àmoQ>m°Z Ho$ J_Z nW H$s {ÌÁ`m
[àmoQ>m°Z Ho$ {bE (q /m) = 1·0 108 C/kg br{OE]

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 SECTION C

22. A cube of side 0·1 m is placed, as shown in the figure, in a region where
^
electric field E = 500 x i exists. Here x is in meters and E in NC 1.
Calculate : 3
(a) the flux passing through the cube, and
(b) the charge within the cube.

23. (a) Define current density. Is it a scalar or a vector ? An electric field
E is maintained in a metallic conductor. If n be the number of
electrons (mass m, charge e) per unit volume in the conductor
and its relaxation time, show that the current density j = E,
ne 2
where =. 3
m

OR

(b) What is a Wheatstone bridge ? Obtain the necessary conditions
under which the Wheatstone bridge is balanced. 3

24. A proton with kinetic energy 1·3384 10 14 J moving horizontally from
north to south, enters a uniform magnetic field B of 2·0 mT directed
eastward. Calculate : 3
(a) the speed of the proton
(b) the magnitude of acceleration of the proton
(c) the radius of the path traced by the proton
[Take (q /m) for proton = 1·0 108 C/kg]
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25. H$moB© àoaH$, H$moB© g§Ym[aÌ Am¡a H$moB© à{VamoYH$ {H$gr ac òmoV v = vm sin t go loUr _|
g§`mo{OV h¢ & n[anW _| j{`V Am¡gV e{º$ Ho$ {bE ì`§OH$ ì`wËnÞ H$s{OE & n[anW H$s
AZwZmX Amd¥{Îm Ho$ {bE ^r ì`§OH$ àmßV H$s{OE & 3

26. (H$) {dÚwV-Mwå~H$s` Va§J H$s Va§JX¡¿`© H$mo àm`: {d{H$aU CËnÞ H$aZo dmbo {ZH$m` Ho$
A{^bmj{UH$ gmBµO go g§~§{YV {H$`m OmVm h¡ & Bg H$WZ H$s nwpîQ> Ho$ {bE Xmo
CXmhaU Xr{OE &
(I) (i) bå~r Xÿ[a`m| Ho$ ao{S>`mo àgmaU Ho$ {bE bKw-Va§J ~¡ÊS> H$m Cn`moJ {H$`m
OmVm h¡ & ?

(ii) àH$m{eH$ Am¡a ao{S>`mo Xÿa~rZ (XÿaXe©H$) YaVr na ñWm{nV H$s OmVr h¢,
naÝVw X-{H$aU IJmo{bH$s Ho$db n¥Ïdr H$s H$jm _| n[aH«$_m H$aZo dmbo
? 3

27. aXa\$moS>© Ho$ na_mUw _m°S>b H$s H${_`m± {b{IE & ~moa Zo CÝh| {H$g àH$ma Xÿa {H$`m ? `h
Xem©BE {H$ ~moa na_mUw H$s {d{^Þ H$jmAm| Ho$ ~rM H$s Xÿ[a`m± g_mZ Zht hmoVr h¢ & 3

28. (H$) Zm{^H$ Ho$ {H$Ýht Xmo JwUm| H$mo {b{IE &
(I) ?

(J) `h Xem©BE {H$ g^r Zm{^H$m| Ho$ {bE Zm{^H$s` Ðì` H$m KZËd g_mZ hmoVm h¡ & 3

IÊS> K
29 30

29. H$moB© b|g Xmo n¥îR>m| go {Kam H$moB© nmaXeu _mÜ`_ hmoVm h¡ {OgH$m EH$ AWdm XmoZm| n¥îR>
Jmobr` hmoVo h¢ & {H$gr b|g H$s \$moH$g Xÿar CgHo$ XmoZm| n¥îR>m| H$s dH«$Vm {ÌÁ`mAm| Am¡a b|g
Ho$ nXmW© Ho$, Cg nXmW© Ho$ gmnoj {Oggo b|g {Kam h¡, AndV©Zm§H$ Ûmam {ZYm©[aV H$s OmVr
h¡ & {H$gr b|g H$s j_Vm CgH$s \$moH$g Xÿar H$s ì`wËH«$_ hmoVr h¡ & `{X H$B© b|gm| H$mo
gånH©$ _| aIm OmVm h¡, Vmo g§`moOZ H$s j_Vm CZ b|gm| H$s AnZr-AnZr j_VmAm| H$m
~rOJ{UVr` `moJ hmoVm h¡ &
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25. An inductor, a capacitor and a resistor are connected in series with an
ac source v = vm sin t. Derive an expression for the average power
dissipated in the circuit. Also obtain the expression for the resonant
frequency of the circuit. 3

26. (a)

examples to justify this statement.

(b) (i) Long distance radio broadcasts use short-wave bands. Why ?
(ii) Optical and radio telescopes are built on the ground, but
X-ray astronomy is possible only from satellites orbiting the
Earth. Why ? 3

27. Write the drawbacks of Rutherfor
them 3

28. (a) State any two properties of a nucleus.
(b) Why is the density of a nucleus much more than that of an atom ?
(c) Show that the density of the nuclear matter is the same for all
nuclei. 3

SECTION D

Questions number 29 and 30 are case study-based questions. Read the following
paragraphs and answer the questions that follow.

29. A lens is a transparent medium bounded by two surfaces, with one or
both surfaces being spherical. The focal length of a lens is determined by
the radii of curvature of its two surfaces and the refractive index of its
medium with respect to that of the surrounding medium. The power of a
lens is reciprocal of its focal length. If a number of lenses are kept in
contact, the power of the combination is the algebraic sum of the powers
of the individual lenses.

11-55/1/1 15 P.T.O.

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 (i) {H$gr H$m±M Ho$ ~Zo C^`moÎmb b|g Ho$ XmoZm| \$bH$m| H$s dH«$Vm {ÌÁ`m R g_mZ h¡
VWm H$m±M H$m AndV©Zm§H$ n h¡ & Bg b|g H$s j_Vm h¡ : 1
2 (n 1) (2n 1)
(A) (B)
R R
(n 1) (2n 1)
(C) (D)
2R 2R

(ii) j_Vm P Ho$ {H$gr C^`moÎmb b|g, {OgHo$ XmoZm| \$bH$m| H$s dH«$Vm {ÌÁ`m g_mZ h¡,
H$mo CgHo$ _w»` Aj Ho bå~dV² Xmo g_mZ ^mJm| _| H$mQ>m J`m h¡ & b|g Ho$ EH$ ^mJ
H$s j_Vm hmoJr : 1
P
(A) 2P (B) P (C) 4P (D)
2
(iii) Cn`w©º$ b|g Ho$ XmoZm| ^mJm| H$mo AmaoI _| Xem©E AZwgma EH$-Xÿgao Ho$ gånH©$ _| aIm
J`m h¡ & Bg g§`moOZ H$s j_Vm hmoJr : 1

P P
(A) (B) P (C) 2P (D)
2 4
(iv) (H$) j_Vm P Ho$ {H$gr C^`moÎmb b|g, {OgHo$ XmoZm| \$bH$m| H$s dH«$Vm {ÌÁ`m
g_mZ h¡, H$mo CgHo$ _w»` Aj Ho$ AZw{Xe Xmo ^mJm| _| H$mQ>H$a XmoZm| ^mJm|
H$mo AmaoI _| Xem©E AZwgma ì`dpñWV {H$`m J`m h¡ & Bg g§`moOZ H$s j_Vm
hmoJr : 1

(A) eyÝ` (B) P
P
(C) 2P (D)
2
AWdm
(I) 60 cm Am¡a 20 cm \$moH$g Xÿar Ho$ Xmo CÎmb b|gm| H$mo EH$-Xÿgao Ho$ gånH©$
_| g_mjV: aIm J`m h¡ & Bg g§`moOZ H$s j_Vm h¡ : 1
(A) 6·6 D (B) 15 D
1 1
(C) D (D) D
15 80
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 (i) A double-convex lens, with each face having same radius of
curvature R, is made of glass of refractive index n. Its power is : 1
2 (n 1) (2n 1)
(A) (B)
R R
(n 1) (2n 1)
(C) (D)
2R 2R

(ii) A double-convex lens of power P, with each face having same
radius of curvature, is cut into two equal parts perpendicular to its
principal axis. The power of one part of the lens will be : 1
P
(A) 2P (B) P (C) 4P (D)
2

(iii) The above two parts are kept in contact with each other as shown
in the figure. The power of the combination will be : 1

P P
(A) (B) P (C) 2P (D)
2 4

(iv) (a) A double-convex lens of power P, with each face having same
radius of curvature, is cut along its principal axis. The two
parts are arranged as shown in the figure. The power of the
combination will be : 1

(A) Zero (B) P
P
(C) 2P (D)
2
OR
(b) Two convex lenses of focal lengths 60 cm and 20 cm are held
coaxially in contact with each other. The power of the
combination is : 1
(A) 6·6 D (B) 15 D
1 1
(C) D (D) D
15 80
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30. g§{Y S>m`moS> {XîQ>H$mar Ho$ ê$n _| :
ac dmoëQ>Vm H$mo {XîQ>H$mar (dc) dmoëQ>Vm _| n[ad{V©V H$aZo H$s à{H«$`m H$mo {XîQ>H$aU H$hVo h¢
Am¡a Bg n[adV©Z H$mo gånÞ H$aZo dmbr `w{º$ H$mo {XîQ>H$mar H$hVo h¢ & {H$gr p-n g§{Y
S>m`moS> Ho$ A{^bmj{UH$ go `h kmV hmoVm h¡ {H$ O~ p-n g§{Y S>m`moS> AJ«{X{eH$ ~m`{gV
hmoVm h¡, Vmo CgH$m à{VamoY {ZåZ hmoVm h¡ VWm O~ níM{X{eH$ ~m`{gV hmoVm h¡, Vmo CgH$m
p-n g§{Y S>m`moS> Ho$db AJ«{X{eH$ ~m`g
hmoZo na hr MmbZ H$aVm h¡ & p-n g§{Y S>m`moS> H$m `hr JwU {XîQ>H$mar Ho$ ê$n _| BgHo$
Cn`moJ Ho$ {bE Bgo Cn`wº$ ~ZmVm h¡ &
Bg àH$ma, O~ {H$gr ac dmoëQ>Vm H$mo {H$gr p-n g§{Y Ho$ {gam| na AZwà`wº$ {H$`m OmVm h¡,
Vmo `h Ho$db CÝht àË`mdVu AY©-MH«$m| _| MmbZ H$aVr h¡ O~ `h AJ«{X{eH$ ~m`g hmoVr
h¡ & dh {XîQ>H$mar Omo {H$gr ac dmoëQ>Vm Ho$ AY©-MH«$ H$m {XîQ>H$aU H$aVm h¡, Cgo AY©-Va§J
{XîQ>H$mar H$hVo h¢ Am¡a Omo XmoZm| AY©-MH«$m| H$m {XîQ>H$aU H$aVm h¡, Cgo nyU©-Va§J {XîQ>H$mar
H$hVo h¢ &
(i) {H$gr nyU©-Va§J {XîQ>H$mar na AZwà`wº$ {H$gr àË`mdVu dmoëQ>Vm H$m dJ© _mÜ` _yb
V0
_mZ h¡ & Vmo {XîQ>rH¥$V {ZJ©V dmoëQ>Vm H$m dJ© _mÜ` _yb _mZ h¡ : 1
2

V0 V02
(A) (B)
2 2
2 V0 V0
(C) (D)
2 2 2

(ii) {H$gr nyU©-Va§J {XîQ>H$mar _| àË`oH$ S>m`moS> go Ymam àdm{hV hmoVr h¡ : 1
(A) {Zdoe {g½Zb Ho$ nyU© MH«$ Ho$ {bE
(B) {Zdoe {g½Zb Ho$ AY©-MH«$ Ho$ {bE
(C) {Zdoe {g½Zb Ho$ AY©-MH«$ go H$_ Ho$ {bE
(D) {Zdoe {g½Zb Ho$ Ho$db YZmË_H$ AY©-MH«$ Ho$ {bE
(iii) {H$gr nyU©-Va§J {XîQ>H$mar _| : 1
(A) {H$gr {ZpíMV g_` na XmoZm| S>m`moS> AJ«{X{eH$ ~m`{gV hmoVo h¢ &
(B) {H$gr {ZpíMV g_` na XmoZm| S>m`moS> níM{X{eH$ ~m`{gV hmoVo h¢ &
(C) {H$gr {ZpíMV g_` na EH$ AJ«{X{eH$ ~m`{gV VWm Xÿgam níM{X{eH$
~m`{gV hmoVm h¡ &
(D) àW_ AY©-MH«$ _| XmoZm| AJ«{X{eH$ ~m`{gV hmoVo h¢ VWm {ÛVr` AY©-MH«$ _|
níM{X{eH$ ~m`{gV hmoVo h¢ &
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30. Junction Diode as a Rectifier :
The process of conversion of an ac voltage into a dc voltage is called
rectification and the device which performs this conversion is called a
rectifier. The characteristics of a p-n junction diode reveal that when a
p-n junction diode is forward biased, it offers a low resistance and when it
is reverse biased, it offers a high resistance. Hence, a p-n junction diode
conducts only when it is forward biased. This property of a p-n junction
diode makes it suitable for its use as a rectifier.
Thus, when an ac voltage is applied across a p-n junction, it conducts
only during those alternate half cycles for which it is forward biased. A
rectifier which rectifies only half cycle of an ac voltage is called a
half-wave rectifier and one that rectifies both the half cycles is known as
a full-wave rectifier.

(i) The root mean square value of an alternating voltage applied to a
V
full-wave rectifier is 0. Then the root mean square value of the
2
rectified output voltage is : 1
V0 V02
(A) (B)
2 2
2 V0 V0
(C) (D)
2 2 2

(ii) In a full-wave rectifier, the current in each of the diodes flows for : 1
(A) Complete cycle of the input signal
(B) Half cycle of the input signal
(C) Less than half cycle of the input signal
(D) Only for the positive half cycle of the input signal
(iii) In a full-wave rectifier : 1
(A) Both diodes are forward biased at the same time.
(B) Both diodes are reverse biased at the same time.
(C) One is forward biased and the other is reverse biased at the
same time.
(D) Both are forward biased in the first half of the cycle and
reverse biased in the second half of the cycle.
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 (iv) (H$) {H$gr AY©-Va§J {XîQ>H$mar na 50 Hz Amd¥{Îm H$s H$moB© àË`mdVu dmoëQ>Vm
AZwà`wº$ H$s JB© h¡ & Vmo {ZJ©V H$s C{_©H$m Amd¥{Îm hmoJr : 1

(A) 100 Hz (B) 50 Hz
(C) 25 Hz (D) 150 Hz

AWdm
(I) AmaoI _| Xem©E AZwgma H$moB© {g½Zb {H$gr p-n g§{Y S>m`moS> na AZwà`wº$
{H$`m J`m h¡ & à{VamoY RL Ho$ {gam| na {ZJ©V H$s nhMmZ H$s{OE : 1

(A)

(B)

(C)

(D)

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 (iv) (a) An alternating voltage of frequency of 50 Hz is applied to a
half-wave rectifier. Then the ripple frequency of the output
will be : 1
(A) 100 Hz (B) 50 Hz
(C) 25 Hz (D) 150 Hz

OR

(b) A signal, as shown in the figure, is applied to a p-n junction
diode. Identify the output across resistance R L : 1

(A)

(B)

(C)

(D)

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 IÊS> L>

31. (H$) (i) {H$gr ~mø EH$g_mZ {dÚwV-joÌ E _| {H$gr {dÚwV {ÛY«wd p H$s
pñW{VO D$Om© Ho$ {bE H$moB© ì`§OH$ ì`wËnÞ H$s{OE & Bg {ÛY«wd H$s
pñW{VO D$Om© H$~ (1) A{YH$V_, Am¡a (2) {ZåZV_ hmoVr h¡ ?
(ii) H$moB© {dÚwV {ÛY«wd {~ÝXþ Amdoe 1·0 pC Am¡a + 1·0 pC Omo x y Vb _|
H«$_e: (0, 0) Am¡a (3 mm, 4 mm) na pñWV h¢, go {_bH$a ~Zm h¡ & Bg
1000 V ^
àXoe _| {H$gr {dÚwV-joÌ E = i H$mo bJm`m J`m h¡ & {ÛY«wd
m
na H$m`©aV ~b-AmKyU© kmV H$s{OE & 5

AWdm
(I) (i) 2a Xÿar Ho$ n¥WH$Z Am¡a q Am¡a q Amdoem| go ~Zm, H$moB© {dÚwV {ÛYw«d
({ÛYw«d AmKyU© p = p ^i ) x-Aj Ho$ AZw{Xe AnZo Ho$ÝÐ H$mo _yb-{~ÝXþ na
aIVo hþE pñWV h¡ & `h Xem©BE {H$ Bg {ÛY«wd Ho$ H$maU {H$gr {~ÝXþ
^
1 p. i
x, (x >> a) na {d^d V,. h¡ &
4 0 x2

(ii) H«$_e: {ÌÁ`m 1 cm Am¡a 3 cm Ho$ Xmo {d`wº$ YmpËdH$ Jmobm| S1 VWm S2
H$mo Bg àH$ma Amdo{eV {H$`m J`m h¡ {H$ CZHo$ Amdoe KZËd g_mZ
2
10 9 C / m2 h¢ & BZ XmoZm| Jmobm| H$mo EH$-Xÿgao go AË`{YH$ Xÿar
na aIH$a {H$gr nVbo Vma go g§`mo{OV {H$`m J`m h¡ & Jmobo S1 na Z`m
Amdoe n[aH${bV H$s{OE & 5

32. (H$) (i) {H$gr ac òmoV v = vm sin t go {H$gr à{VamoYH$ Am¡a {H$gr g§Ym[aÌ H$mo
loUr _| g§`mo{OV {H$`m J`m h¡ & n[anW H$s à{V~mYm Ho$ {bE ì`§OH$
ì`wËnÞ H$s{OE &
(ii) H$moB© àoaH$ {H$gr n[anW _| MmbH$ Ho$ ê$n _| H$~ H$m`© H$aVm h¡ ? BgHo$
{bE H$maU Xr{OE &
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 SECTION E

31. (a) (i) Derive an expression for potential energy of an electric
dipole p in an external uniform electric field E. When is
the potential energy of the dipole (1) maximum, and
(2) minimum ?

(ii) An electric dipole consists of point charges 1·0 pC and
+ 1·0 pC located at (0, 0) and (3 mm, 4 mm) respectively in
1000 V ^
x y plane. An electric field E = i is switched on
m
in the region. Find the torque acting on the dipole. 5

OR

^
(b) (i) An electric dipole (dipole moment p = p i ), consisting of

charges q and q, separated by distance 2a, is placed along
the x-axis, with its centre at the origin. Show that the
potential V, due to this dipole, at a point x, (x >> a) is equal
^
1 p. i
to..
4 2
0 x

(ii) Two isolated metallic spheres S 1 and S2 of radii 1 cm and
3 cm respectively are charged such that both have the same
2
charge density 10 9 C / m2. They are placed far away

from each other and connected by a thin wire. Calculate the
new charge on sphere S1. 5

32. (a) (i) A resistor and a capacitor are connected in series to an ac
source v = vm sin t. Derive an expression for the impedance
of the circuit.

(ii) When does an inductor act as a conductor in a circuit ? Give
reason for it.

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 (iii) {H$gr {dÚwV b¡ån H$s A{^H$ënZm 110 V dc Am¡a 11 A {dÚwV Ymam na
àMmbZ Ho$ {bE H$s JB© h¡ & `{X Bg b¡ån H$mo 220 V, 50 Hz Ho$ ac òmoV
na loUr _§o {H$gr Hw$ÊS>br Ho$ gmW àMm{bV {H$`m OmVm h¡, Vmo Hw$ÊS>br H$m
àoaH$Ëd kmV H$s{OE & 5

AWdm

(I) (i) {H$gr Q´>mÝg\$m°_©a H$m Zm_m§{H$V AmaoI ItMH$a CgHo$ H$m`©H$mar
{gÕmÝV H$m dU©Z H$s{OE & {H$gr dmñV{dH$ Q´>mÝg\$m°_©a _| hmoZo dmbo D$Om©
õmg Ho$ {H$Ýht VrZ H$maUm| H$s ì`m»`m H$s{OE &
(ii) H$moB© Q´>mÝg\ Vm _| n[ad{V©V
H$aVm h¡ §KZ H$aVm h¡ ? ì`m»`m
H$s{OE &
(iii) {H$gr Q´>mÝg\$m°_©a H$s àmW{_H$ Am¡a {ÛVr`H$ Hw$ÊS>{b`m| _| \o$am| H$s
g§»`m H«$_e: 200 Am¡a 3000 h¡ & àmW{_H$ Hw$ÊS>br H$mo Xr JB© {Zdoe
dmoëQ>Vm 90 V h¡ & n[aH${bV H$s{OE :
(1) {ÛVr`H$ Hw$ÊS>br Ho$ {gam| na {ZJ©V dmoëQ>Vm
(2) `{X {ÛVr`H$ Hw$ÊS>br _| Ymam 2·0 A h¡, Vmo àmW{_H$ Hw$ÊS>br _|
Ymam 5

33. (H$) (i) H$moB© àH$me {H$aU {H$gr {Ì^wOmH$ma {àµÁ_ go JwµOaVr h¡ & AmnVZ H$moU Ho$
gmW {dMbZ H$moU {H$g àH$ma {dMaU H$aVm h¡ ? J«m\$ Ûmam Xem©BE & AV:
Ý`yZV_ {dMbZ H$moU n[a^m{fV H$s{OE &

(ii) H$moB© àH$me {H$aU {àµÁ_ H$moU A Ho$ {H$gr {àµÁ_ Ho$ EH$ AndV©H$ \$bH$
na A{^bå~dV² AmnVZ H$aHo$ H$moU na {dM{bV hmoVr h¡ & {gÕ H$s{OE
sin ( A )
{H$ {àµÁ_ Ho$ nXmW© H$m AndV©Zm§H$ n h¡ &
sin A

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 (iii) An electric lamp is designed to operate at 110 V dc and
11 A current. If the lamp is operated on 220 V, 50 Hz
ac source with a coil in series, then find the inductance of
the coil. 5

OR

(b) (i) Draw a labelled diagram of a step-up transformer and
describe its working principle. Explain any three causes for
energy losses in a real transformer.

(ii) A step-up transformer converts a low voltage into high
voltage. Does it violate the principle of conservation of
energy ? Explain.

(iii) A step-up transformer has 200 and 3000 turns in its
primary and secondary coils respectively. The input voltage
given to the primary coil is 90 V. Calculate :

(1) The output voltage across the secondary coil

(2) The current in the primary coil if the current in the
secondary coil is 2·0 A. 5

33. (a) (i) A ray of light passes through a triangular prism. Show
graphically, how the angle of deviation varies with the angle
of incidence ? Hence define the angle of minimum deviation.

(ii) A ray of light is incident normally on a refracting face of a
prism of prism angle A and suffers a deviation of angle.
Prove that the refractive index n of the material of the prism
sin ( A )
is given by n.
sin A

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 (iii) {H$gr {àµÁ_ Ho$ nXmW© H$m AndV©Zm§H$ 2 h¡ & `{X {àµÁ_ H$m AndV©H$
H$moU 60 h¡, Vmo kmV H$s{OE :
(1) Ý`yZV_ {dMbZ H$moU, VWm
(2) AmnVZ H$moU & 5

AWdm

(I) (i) hmBJoÝg H$m {gÕmÝV {b{IE & H$moB© g_Vb Va§J {H$gr namdVu n¥îR> na
H$moU i na AmnVZ H$aVr h¡ & VXZwê$nr namd{V©V Va§JmJ« H$s aMZm H$s{OE &
Bg AmaoI H$m Cn`moJ H$aHo$, {gÕ H$s{OE {H$ namdV©Z H$moU AmnVZ H$moU
Ho$ ~am~a hmoVm h¡ &
(ii) àH$me Ho$ H$bm- ?
H$bm-g§~Õ òmoV Ho$ ê$n _| H$m`© H$a gH$Vo h¢ ? ì`m»`m H$s{OE &
(iii) `§J Ho$ {Û{Par à`moJ _| {H$gr àH$me nw§O Ûmam, {Og_| Xmo Va§JX¡¿`©, EH$
kmV Va§JX¡¿`© 520 nm H$s VWm Xÿgar AkmV Va§JX¡¿`© H$s h¡, Xmo Eogo
ì`{VH$aU n¡Q>Z© CËnÞ H$aVo h¢, {OZ_| AkmV Va§JX¡¿`© H$s MVwW© XrßV q\«$O
kmV Va§JX¡¿`© H$s n§M_ XrßV q\«$O Ho$ g§nmVr h¡ & H$m _mZ kmV H$s{OE & 5

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 (iii) The refractive index of the material of a prism is 2. If the
refracting angle of the prism is 60 , find the

(1) Angle of minimum deviation, and

(2) Angle of incidence. 5

OR

(b) (i) State Huygens principle. A plane wave is incident at an
angle i on a reflecting surface. Construct the corresponding
reflected wavefront. Using this diagram, prove that the
angle of reflection is equal to the angle of incidence.

(ii) What are the coherent sources of light ? Can two
independent sodium lamps act like coherent sources ?
Explain.

(iii) A beam of light consisting of a known wavelength 520 nm
and an unknown wavelength
experiment produces two interference patterns such that the
fourth bright fringe of unknown wavelength coincides with
the fifth bright fringe of known wavelength. Find the value
of. 5

11-55/1/1 27 P.T.O.

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