(C) 106 (B) 10
(A) 10
1. 1 Newton is equivalent to -
(A) 104 dyne (B) 105 dyne(C) 106 dyne (D) 107 dyne .
Following questions are multiple choice. Mark the correct choice.
Each question have same marks (2 marks) Total number of questions = 35
Total marks (35 x 2)=70
PPR !R<bcM t| ^t ^^cbcM ^R ft^TFT ePTT^ I
^PIPT 3^^^> ^ f (2 3fcf>)
^>\ ^l=35
(35 x 2)=70
70 10 04 04 10 06 06 06 10 10 04
Marks
(1x2)
35 05 02 02 05 03 03 03 05 05 02
No. of question
I
iss - XI) Set-
Phvsics(Cl
Total Oscillations & Waves
Behaviour of perfect Gas & Kinetic Theory of Gases Thermodynamics
Properties of Bulk Metter Gravitation
Motion of system of Particles & Rigid Body Work, Energy and Power
Laws of Motion
^inematics
Physical World & Measurement
Title
Unit - X Unit - IX Unit - VIII
Unit-VII Unit - VI
Unit - V Unit - IV Unit - III Unit - II
Unit -1
Unit
Maximum marks - 70 Model question
CLASS-XI Subject - Physics Total no. of questions - 35
Tv 'T2i
(T) ^^ 3n^frl (u) ^ ^FRI t -
11t>
8. Newton's first law of motion define -
(A) Energy (B) Work(C) Inertia(D) Moment of inertia WT ^T ^RW WW W^cll t -
(B)wrf
(A) M~lL2r2 (B) Mf3r2 (C) MU2T2 3.What does the speedometer of a vehicle read/measure?
(A) Average Speed (B) Average velocity
(C) Instantaneous speed (D) Instantaneous velocity .
ft>^ W^^T M ^Mkl^ilo< ^W WW t?
(A) ^f^^f^ ^lcl (B) ^f^^RT cpT (C) clR^f^^lW Wei (D) 'ctR^Tf^TW M I
4.Which of the following is a vector quantity -
(A) Time(B) Distance (C) Displacement(D) Speed
(A) WT (B)^ff (C)ft^FT (D) Wei I
5.Relation between linear velocity (v) and Angular velocity (co) - (A)v=rco (B) co = rv (C)r = vco (D) v = -|.
V /V /
= rco (B) 6^ = rv (C)^ = v<y (D) v = —.
r
6.Rate of change of angular velocity is called -
(A) Angular momentum (B) Angular displacement (C) Frequency(D) Angular acceleration .
(A) cfM^^ ^fcpr (B) cf^k fctWFT (C) ^TT^frJ (D) Wf%T
7.Relation between time period (T) and frequency (u) 2. Dimensional formula for frequency -
(A) M~lL3r2 (B)MZT3r2 (C)ML~2T2(D) M^T1.
(A)l:2(B)2:l(C) 1:^2(D) 1 :4.
15. In perfectly elastic collision- (A)Only momentum is conserved
(B)Momentum and kinetic energy both are conserved (C)Neither momentum nor kinetic energy is conserve^ • (D)Only kinetic energy is conserved .
14. Two bodies of masses lkg and 2kg have equal momentum. Then the ratio of their kinetic energies is -
(A) 1:2(B)2:l(C) 1:V2(D) 1 :4.
ftftT cflftt ft cR^ftf ft j^oiiHH ?^^T: Ug ftk 2^ 11 ^iftt ftrRT \3vftftf c^[
(A) cR^J ftt ^TfcT ft ^^lT ft cRcfft(B) cR^ ftt ^^cl ft fen ftt (C) cR^ ftt ^^rl ft f^TT ft fftlftrl(D) ^ftf ft ftft ^ I
13. Out of the following, which is not the unit of energy -
(A) Joule(B) Kilo-Watt(C) Calorie(D) Electron-Volt.
ft ft^^ ^nft cf)T ^T^ ^ftt t -
(B) ^bcftclie(C)ftfttft
12. The direction of force of friction -
(A)Perpendicular to the direction of motion of object (B)Along the direction of motion of object
(C)Opposite to the direction of motion of object (D)None of these .
^cl ftt
11. A constant retarding force of 50 N is applied to a body of mass 10kg moving initially with a speed of 10 ms"1. The body comes to rest after -
(A) 2 second (B) 4 second (C) 6 second (D) 8 second .
50N ^\ f^^^^ ft^cfy 6feTf 1oft^^?/ftcF^ ftt t^ ft ^lftftcfJ ^ ft ft^^ cfR ^ft 10 fft¥T ftj*iM ft T^ cftT^lT vjTKTT 11 fe^^^ft ^^^l ^ cf^ fft^g
9.An object of mass 2kg is moving with acceleration of 50 cm/s2. Then force acting on it
(A) IN(B)10N(C)100N(D) 25 N.
2 Rbciliim ^^oti^M ftt cR^ 50 ftftto/fto2 ^^ ?cR^ ft ftftlFT 11 ^fl T? cElft cfTeTT TeT (A) l^T(B) 10 ^T (C) 100 ^ (D) 25 ^11
10.In case of uniform motion acceleration is
(A) Zero(B) Positive (C) Negative (D) None of these .
^ TRFT ftrT ftt 3RR^IT ft ^^^ftclT t I
(A) ^(B) tHIcH^(C) ^^WTcf)(D) ^^ft ft ftft
rer ^fefe ^ei fen 1
^ife^t ^ fen t fen ^ ^ fen-^n ^^m ^tnfe^ eier ^> fe^ ^ fet t ?
(A) 4j^>Mifeui ^ei n^fe^^ n^^m ^? fe^^ n^^ t (B) (C) 4|>^ifeui ^ei fen-fefen ^^i t(D) (C) fedT fed cj> efT^^ fed fen t(D) fed c
19.Kepler's second law is a consequence of-
(A) Conservation of energy(B) Conservation of linear momentum (C) Consevation of angular momentum (D) Conservation of mass
fevR cjn fefm fed m mRuih t -
(A) dM M^d (B) Mm fed M^d (C) fefed fern M^d (D) ^^^dm m
20.Which of the following statements is correct regarding the gravitational force ? (A)The gravitational force is dependent on the intervening medium
(B)The gravitational force is a non-conservative force (C)The gravitational force forms action-reaction pair (D)The gravitational force is a non-central force .
in ^^ fe^ ^t ^rn^n fet wi
(A) Kgm
dTd^-d^j^f ^I S.I. dTW t -
(A) ffelT-fefe (B) fedT ^^^"1 (C) fedT
17.A couple produces- (A) Only linear motion
(C) Linear and ratational motion both
(A) feel Mm dfrl^(B) feel (C) Mm fe ^fe dfct feff(D) c^^
18.The centre of mass of a body-
(A) Lies always at the geometrical centre (B) Lies always inside the body (C) Lies always outside the body(D) May lie within or outside the I
(A) fedT ^fefe fe^ d^ fed fen t(B) fedT fed d> dF^^ fed fen t
(B) Only ratational motion (D) No motion.
(D)ffen
(C) Kgm
1 (D) Kgm2(B) fed fe dfed ^M feff feftd Ml 11 feife ^T 11 (D) feel dfed dM feffe
16. S.I. unit of moment of Inertia is
(A) feel fed feffe ^T 1
(C) d eft fed 3j^^ d ^1 dfen
(A) 31 HRch ^ft(B) ^rf ^Tft(C) ^f(D)
(A) :^eFT(B) to^T(C) fcrf^^T(D) A af^^ B
27. The zeroth law of thermodynamics leads to the concept of-
(A) Internal energy (B) Heat content(C) Pressure(D) Temperature
^f^R ^ e^^ toeM^II 3^^R ^^ft 11
25.Hydraulic brakes are based on which law?
(A) Pascal's law (B) Torricelli's law (C) Newton's law (D) Boyle's law.
"^^ xfifef^ ^^ fto ^ ^p^ cf^?TT t?
(A) Wf>ef c^T ftol (B) dlR^c^l c^ ftol (C) ^^T c^ ftol (D) toel ^
26.Out of the folio wing, which is the fastest mode of transfer of heat?
(A) Conduction(B) Convenction(C) Radiation(D) A and B
tor ^ f^^r ^trt ^^tt ^] ^imh^i ^t to ^^n t ?
(D) N m2 .
N-m
I
^^
s ratio.
> modul
(C)
O
Pascal (Pa)
(D) Mto^ 3 (B)^^T W^R
[^TMt-
(D) Poisson' (B) Young's
(A) Dyne (B)
24. Unit of Pressure -
(C)^cTT ^to
(A) ^^cFT ^^^^TC^RTT ^TO
^rw^r ^to eft ^n? ft w (C) Modulus of rigidity
(A) Bulk modulus 21.S.I. unit of ~Gi is -
(A) N rn2 Kg~2 (B) N m Kg~2 (C) N m Kg~l (D) N m2 Kg~2.
~G' cffl" S.I. ^nW -
(A)Nm-2Kg-2 (B)NmKg~2 (C) NmKg~l (D)Nm2Kg~2.
22.Solids which break above the elastic limit are called -
(A) Brittle(B) Ductile(C) Malleable(D) Elastic.
ct to vift w^rn to ^ ^ vsn^ t, ^en^ t -
(A)^^(B)cHT(C) 3TM^ cl^^r (D)
23.The shear modulus is also known as -
•7
34. A progressive wave is represented by y = 5sm{}^nt-2nx)^ where ^and y in meter and t in second. Then maximum particle velocity -
(A) 100;r m/s(B) 200;r m/s (C)400^r m/s (D) 500;r m/s . 33. Which of the following expressions does not represent simple harmonic motion?
(A) ^ = ^4cos^yt+Bsin6>^(B) x = Acos(a>t+a) (C) x = Bs\n(cot + j3)(D) x = A sin co t cos2 co X.
f^R ^ ^ cft^-^fT c^ftfcf) ^RcT ^tlcfef ^fct eft e^^f) ^ft cfRdT t?
(A) ^ = ^cos^yt+Bsin<^^(B) jc = (C) x = Bs\n(cot +p)(D) ^ =
(C) 0.25 Hz (D) 2 Hz (C) 0.25 Hz (D) 2 Hz
(A) 0.5Hz
(B) 1 Hz
32. Frequency of second pendulum.
(A) 0.5Hz(B) 1 Hz eftelcf) eft ^neffer ^^ft t
(D)r=-
1 /
cftoTcf) cJTT (A)r = 2* p-
~v~
29.Value of universal gas constant (R)
(A) 8.31 JmoVK'1 (B) ^^JmoVK'1 (C) 6.67JmoVK'1(D) 3A5JmoVK~x
(A) 8.31 ^mor1^-1 (B) 8.QJmorlK~l (C) 6.67JmoVR-1(D) 3A5JmoVK~^
30.If the pressure and the volume of certain quantity of ideal gas are doubled, then its temperature
(A) Become doubled(B) Become one-fourth (C) Remains constant(D) Become four times.
(A)^^T(B)^-^f^T^(C)^^?T(D)
31.Time period of simple pendulum
(C) PV" = Constant (D) PV = Constant.
t-
(D)
^?FT (Adiabatic process) ^, 3T^RH (v) ^TSTT ^f (p) cf>
p/-^
(A) PV = Constant (B) - = Constant
28. In Adiabatic process, relation between volume (v) and pressure (p)
(D) 500^
^ |
r\ M>^T rl^1!
of these waves only
(B)c^^R
(D) None
(B) Light
^ITm k/cj ^^cpi^i c^l^l ^^^11 ^p t^^
cpcfcT ^c|M cR^TT ^P tc^
R ^M oTFJ ^lcTT t -
Both Sound and Light waves Sound waves only
(Q (A)
^^
(C) (A)
f^^^^ vjTRTT t, ^F xtjcf cf^T cj^t ^ = 5sin(100^-2^-Jc)^RT
1 cf^T cJJT cpT
(A) IOOtt^o/^o(B)
35. The Doppler effect is applicable for -
C D D A A D A D D C A B C A D C C D
35 34 33 32 31 30 29 28 27 26 25 24 23 22
21