1

Saransh Jain

Major 2
ENTRANCE EXAM - NEET-UG

Time Allowed : 120 mins Maximum Marks : 360

Section A a) 0.4 Hz, 0.4 s b) 0.4 Hz, 2.5 s

c) 2.5 Hz, 0.4 s d) 2.5 Hz, 2.5 s
1) A particle of mass 10 g is executing simple harmonic
9) If the metal bob of a simple pendulum is replaced by
motion with an amplitude of 0.5 m and a periodic time
wooden bob, then its time period will [4]
of π5 seconds. The maximum value of the force acting
on the particle is: [4] a) Decrease
a) - 5N b) - 0.5 N b) Remain the same
c) 5 N d) 0.5 N c) First increase then decrease
2) On a planet, a freely falling body takes 2 sec when it d) Increase
is dropped from a height of 8 m. The time period of a
simple pendulum of length 1 m on that planet is [4] 10) A particle is performing simple harmonic motion with an-
a) 3.14 sec b) 2.92 sec gular frequency 5000 radian/second and amplitude 2 cm
c) 1.42 sec d) 5.36 sec and mass of 1 kg. Find the total energy of oscillation.
[4]
3) A body performing simple harmonic motion is expressed a) 15 kJ b) 2 kJ
by the displacement equation y = 4sin2t. The magnitude c) 5 kJ d) 7 kJ
of the maximum acceleration of the body is [4]
11) A particle executes simple harmonic motion with a period
a) 8 b) 20
of 8 s and amplitude 4 cm. Its maximum speed (in cm/s)
c) 16 d) 12
is: [4]
4) A simple pendulum is suspended from the roof of a trolley a) π4 b) π3
which moves in a horizontal direction with an
√ acceleration c) π d) π2
a, then the time period is given by T =2π ( gl ) , where
12) A pendulum is hung from the roof of a sufficiently high
g is equal to: [4] building and is moving freely to and fro like a simple
a) G harmonic oscillator. The acceleration of the bob of the
√- a pendulum is 20 m/s2 at a distance of 5 m from the mean
b) (g 2 + a2 )
c) G + a position. The time period of oscillation is: [4]
d) G a) 1 s b) π sec
c) 2 s d) 2π sec
5) Two particles are oscillating along two close parallel
13) A particle is acted simultaneously by mutually perpendic-
straight lines side by side, with the same frequency and
ular simple hormonic motions x = a cosω t and y = a
amplitude. They pass each other, moving in opposite di-
sin ω t. The trajectory of motion of the particle will be:
rections when their displacement is half of the amplitude.
[4]
The mean positions of the two particles lie on a straight a) An ellipse b) A circle
line perpendicular to the paths of the two particles. The c) A parabola d) A straight line
phase difference is: [4]
a) π b) π6 14) A uniform rod of length 2.0 m is suspended through an
c) 0 d) 2π3
end and is set into oscillation with small amplitude under
gravity. The time period of oscillation is approximately:
6) A rubber ball with water, having a small hole in its
[4]
bottom is used as the bob of a simple pendulum. The a) 2.40 sec b) 1.80 sec
time period of such a pendulum: [4] c) 2.0 sec d) 1.60 sec
a) First increases and then decreases finally having the 15) If the length of a seconds pendulum is increased by 2%,
same value as at the beginning then in a day the pendulum: [4]
b) Is constant a) Gain 236 s b) Loses 964 s
c) Increases with time c) Loses 764 s d) Loses 864 s
d) Decreases with time
16) A simple pendulum hanging freely and at rest is vertical
7) A body is executing the S.H.M. with an angular frequency because in that position:
of 2 rad/sec. Velocity of the body at 20 m displacement, i. Kinetic energy is zero
when amplitude of motion is 60 m, is [4] ii. Kinetic energy is minimum
a) 113 m/s b) 90 m/s iii. Potential energy is zero
c) 118 m/s d) 131 m/s iv. Potential energy is minimum
[4]
8) A particle has displacement y given by
a) Only iv b) I and ii
y = 3 sin(5π t + 7π ),
c) Ii and iii d) Iii and iv
where y is in metre and t is in second.
What are frequency and period of motion? [4] 17) A simple pendulum suspended in a vehicle has a time
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period T when the vehicle travels along a frictionless 24) Two simple pendulums of lengths 1.96 m and 1 m start
road AB. What will be its time period when the vehicle swinging together. After how many vibrations will they
travels along the frictionless path BC? again start swinging together? [4]

a) 4 oscillations of bigger pendulum

b) 6 oscillations of bigger pendulum
[4] c) 5 oscillations of smaller pendulum
d) 7 oscillations of smaller pendulum
a) √T
cos θ
b) √T 25) What is the ratio of maximum acceleration to the maxi-
sec θ
mum velocity of a simple harmonic oscillator? [4]
c) √T
tan θ a) 2ω b) ω
d) √T
sin θ c) ω2 d) ω1
18) A pendulum of length l = 1 m is released fromθ 0 = 26) All oscillatory motions are necessarily periodic motions
60°. The rate of change of speed of the bob at θ = but: [4]
30° is: (g = 10 m/s2 ) [4]
a) 5√m/s2 b) 10 m/s2 a) All periodic motions are oscillatory
c) 5 3 m/s2 d) 2.5 m/s2 b) All periodic motions are non - harmonic
c) All periodic motions are not oscillatory
19) A body executes simple harmonic motion under the action d) All periodic motions are SHM
of a force F1 with a time period (4/5) sec. If the force
is changed to F2 it executes SHM with time period (3/5) 27) In an experiment for determining the gravitational accel-
sec. If both the forces F1 and F2 act simultaneously eration g of a place with the help of a simple pendulum,
in the same direction on the body, its time period (in the measured time period square is plotted against the
seconds) is: [4] string length of the pendulum in the figure.
a) 35/24 b) 12/25
c) 24/25 d) 25/12
20) The pendulum bob has a speed of 3 ms - 1 at its lowest
position. The pendulum is 0.5 m long. The speed of
the bob, when the length makes an angle of 60° to the
vertical, will be (g = 10ms - 2 ): [4]
a) 3 ms - 1 b) 12 ms - 1
c) 2 ms - 1
d) 13 ms - 1
21) A particle is executing a simple harmonic motion. Its
maximum acceleration isα and maximum velocity is β . What is the value of g at the place? [4]
Then, its time period of vibration will be: [4] a) 10.0 m/s2 b) 9.81 m/s2
c) 9.91 m/s 2
d) 9.87 m/s2
a) α
28) A simple pendulum is made of a body which is a hollow
β
b) β2
α sphere containing mercury suspended by means of a wire.
c) 2πβ
α If a little mercury is drained off, the period of pendulum
d) β2
α2
will: [4]
a) Become erratic b) Remain unchanged
22) A particle of mass 2 kg moves in S.H.M. Its potential c) Decrease d) Increase
energy U varies with position x as shown. The period
of oscillation of the particle is: 29) Match the following:
Column I Column II
(A) Motion of a (i) Damped
satellite oscillations

[4] (B) Motion of a (ii) Resonant

√ simple pendulum oscillations
a) 2π
√5
b) 2 2π (C) Oscillation of (iii) Periodic
stretched string in motion
5
c) 4π
air
5
d) 2π
(D) Flying off of a (iv) Simple
5

23) Local train when started from rest gains acceleration in paper rider placed harmonic motion
forward direction towards north. Due to the displacement on the stretched
of local train, the handles hinged at its roof get inclined string
at an angle of 60° with vertical. The acceleration of
handles will be: [4] [4]

a) 17.81 m/s2 towards the north a) A - (ii), B - (iii), C - (iv), D - (i)

b) 17.81 m/s2 towards south b) A - (iii), B - (ii), C - (iv), D - (i)
c) 16.97 m/s2 towards north c) A - (iii), B - (iv), C - (i), D - (ii)
d) 16.97 m/s2 towards south d) A - (i), B - (iii), C - (ii), D - (iv)
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30) The displacement of a particle of mass 3g executing sim- b) Coordination isomerism

ple harmonic motion is given by: y = 3 sin (0.2t) in SI c) Ionisation isomerism
units. The kinetic energy of the particle at a point which d) Linkage isomerism
is at a distance equal to ( 13 ) of its amplitude from its
41) How many geometrical isomers and stereoisomers
mean position is: [4]
are possible for [Pt(NO2 )(NH3 )(NH2 OH)(Py)]+ and
a) 25× 10 - 3 J b) 0.24× 10 - 3 J
[Pt(Br)(Cl)(I)(NO2 )(NH3 )(Py)]respectively? [4]
c) 12× 10 - 3
J d) 0.48× 10 - 3 J
a) 3 and 15 b) 4 and 15
c) 4 and 30 d) 3 and 30
Section B
42) Which one of the following is expected to exhibit optical
31) The correct IUPAC name of [Fe(C5 H5 )2 ]is: [4] isomerism? (en = ethylenediamine) [4]
a) Cis - [Pt(NH3 )2 Cl2 ] b) Trans - [Pt(NH3 )2 Cl2 ]
a) Bicyclopentadienyliron(II) c) Trans - [Co(en)2 Cl2 ]+ d) Cis - [Co(en)2 Cl2 ]+
b) Dicyclopentadienylferrate(II)
c) Cyclopentadienyliron(II) 43) Which of the following complexes show geometrical as
d) Bis(cyclopentadienyl)iron(II) well as optical isomerism?
i. [Cr(ox)3 ]3 -
32) Which of the following complex species involves d2 sp3 ii. [Rh(en)2 Cl2 ]+
hybridization? [4] iii. [Co(NH3 )2 (Cl)2 (en)]+
a) [Cr(NH3 )6 ]3+ b) [Fe(CN)6 ]3 - Select the correct answer using the codes given below:
c) [Co(NH3 )6 ] 3+
d) [CoF6 ]3 - [4]
33) Which of the following is true about crystal field theory? a) A and B only b) B and C only
[4] c) All of these d) A only

a) It is based on the concept of hybridisation of orbitals. 44) Total possible linkage isomers of K4 [Fe(CN)5 (NO2 )]is: [4]
b) It explains why anionic ligands are at the low end a) 12 b) 10
of the electrochemical series. c) 4 d) 6
c) It is an electrostatic model. 45) Which of the following complexes is not a chelate? [4]
d) It considers the covalent character of bonding be-
tween the ligand and the central metal. a) Potassium ethylenediaminetetrathiocyanatochro-
mate(III)
34) Which of the following is diamagnetic in nature? b) Trans - diglycinatoplatmum(II)
[Atomic number: Co = 27][4] c) Tetraamminediazidocobalt(III) nitrate
a) Co3+ , in a tetrahedral complex d) Bis(dimethylglyoximato)nickel(II)
b) Co3+ , octahedral complex with weak field ligand 46) The oxidation number of Co in the complex ion for
c) Co3+ , in a square planar complex
d) Co3+ , octahedral complex with strong field ligand
35) Which of the following is a homoleptic complex? [4] is: [4]
a) +3 b) +6
a) [Cr(NH3 )3 Cl3 ] b) [CoCl2 (en)2 ]+
c) +4 d) +2
c) [Co(NH3 )4 Cl2 ] +
d) [Cu(NH3 )4 ]+2
47) The complex ion which has no d electrons in the central
36) The formula of the complex Iron (III) hexacyanidoferrate
metal atom is:
(II) is: [4]
a) Fe2 [Fe(CN)6 ]3 b) Fe [Fe(CN)6 ] [Atomic number Cr = 24, Mn = 25, Fe = 26, Co =
c) Fe4 [Fe(CN)6 ]3 d) Fe3 [Fe(CN)6 ]2 27][4]
a) [Cr (H2 O)6 ]
3+
37) When 0.1 mol CoCl3 (NH3 )5 is treated with excess of
b)
3−
AgNO3 , 0.2 mol of AgCl are obtained. The conductivity [Fe(CN)6 ]
of solution will correspond to [4] c) [MnO4 ] -

d)
3+
a) 3 : 1 electrolyte b) 1:2 electrolyte [Co (NH3 )6 ]
c) 1 : 3 electrolyte d) 1 : 1 electrolyte 48) The type of isomerism shown by the complex
38) Blue solution of CuSO4 becomes darker when treated with [CoCl2 (en)2 ]is . [4]
ammonia because: [4] a) Linkage isomerism
b) Coordination isomerism
a) Ammonia is stronger ligand than water
c) Ionization isomerism
b) Ammonia is highly soluble in water
d) Geometrical isomerism
c) Ammonia is a Lewis acid
d) Ammonia molecule replaces water molecule in solu- 49) Which of the following statement is correct?
tion i. Tetrahedral complex does not show optical iso-
merism.
39) The coordination number ofCo in the complex [Co(en)3 ]3+
ii. Tetrahedral complex shows cis and trans isomers that
is: [4]
a) 6 b) 5 are optically active.
c) 4 d) 3 iii. Tetrahedral complex has 15 optically active isomers.
iv. Tetrahedral complex has two stereoisomers.
40) The compounds [Co(SO4 ) (NH3 )5 ]Br and [4]
[Co(Br)(NH3 )5 ]SO4 represent: [4] a) (B) only b) (A) only
c) (D) only d) (C) only
a) Optical isomerism
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50) Which of the following are ambidentate ligands? [4] 60) Select the correct IUPAC name of [Co(H2 NCH2 CH2 NH2 )3 ]2 (SO
is: [4]
a) N−
3 , CO3 , NO2
2− −

b) CN , NOS , P(C6 H5 )3
- - a) Tris (ethane - 1, 2 - diamine) cobaltate (II) sulphate
c) NO−2 , NOS , CNO
− − b) Tris (ethane - 2, 2 - diamine) cobalt (II) sulphate
d) H2 N − NH2 , S2 O2−
3 , CNO
− c) Tris (ethane - 1, 2 - diamine) cobaltate (III) sulphate
d) Tris (ethane - 1, 2 - diamine) cobalt (III) sulphate
51) The IUPAC name of [Co(H2 O)3 Cl3 ]is . [4]
Section C
a) Triaquatrichloridocobaltate(III)
b) Triaquacobalt(III) trichloride 61) Krebs cycle is both catabolic and anabolic as it provides
c) Triaquatrichloridocobalt(II) . [4]
d) Triaquatrichloridocobalt(III)
a) A number of final products
52) The EAN of Fe in [Fe(CN)6 ]3 - is . [4] b) A number of intermediates
a) 33 b) 35 c) ATP is released as well as utilised
c) 34 d) 36 d) Produce energy as well as use energy
53) Which of the following complex ions is expected to ab- 62) The net gain of ATP molecules per hexose during aerobic
sorb visible light? respiration is . [4]
[Atomic number of Zn = 30, Sc = 21, Ti = 22, Cr = a) 30 b) 18
24][4] c) 12 d) 36
a) [Cr(NH3 )6 ]3+ b) [Zn(NH3 )6 ]2+
63) Phosphorylation of glucose during glycolysis is catalyzed
c) [Ti(en)2 (NH3 )2 ] 4+
d) Sc(H2 O)3 (NH3 )3 ]3+
by: [4]
54) The values of the crystal field stabilization energies for a
a) Phosphorylase
high spin d6 metal ion in octahedral and tetrahedral fields,
b) Phosphoglucomutase
respectively, are: [4]
c) Phosphoglucoisomerase
a) - 1.6∆o and - 0.4 ∆t d) Hexokinase
b) - 0.4∆o and - 0.6 ∆t 64) Kreb’s cycle occurs inside . [4]
c) - 0.4∆o and - 0.27 ∆t a) Lysosomes b) Mitochondria
d) - 2.4∆o and - 0.6 ∆t c) Ribosome d) Food vacuoles
55) Which amongst the following has zero magnetic moment? 65) Respiratory quotient (R.Q) is less than unity in the case
[4]
of . [4]
a) CrCl3 (py)3 a) Protein b) Starch
b) K4 [Mn(CN)6 ] c) Glucose d) Organic acid
c) [Co (NH3 )5 Cl] Cl2 66) The ultimate electron acceptor of respiration in aerobic
d) K [Cr (H2 O)2 (C2 O4 )2 ] · 3H2 O organisms is: [4]
56) The complex [Fe(H2 O)5 NO]2+ is formed in the brown a) Hydrogen b) Oxygen
ring test for nitrates when freshly prepared FeSO4 solu- c) Glucose d) Cytochrome
tion is added to the aq solution of NO− 3 followed by 67) Before combining with oxaloacetate, pyruvate is changed
addition of cone. H2 SO4 . Select correct statement about into: [4]
this complex: [4] a) Acetyl Co A b) Succinic acid
a) It has a magnetic moment of 3.87 B.M. confirming c) Citric acid d) Malic acid
three unpaired electrons in Fe 68) Which of the following is a product of lactic acid fer-
b) It has iron in +1 oxidation state and nitrosyl as NO+ mentation? [4]
c) All of these a) Molasses b) Beer
d) Colour changes due to charge transfer c) Vinegar d) Cake
57) 100 mL of a hard water sample is titrated with 0.01 69) If both fatty acids and carbohydrates are available to
M EDTA. The endpoint for the total hardness is 37.50 muscles, which one is consumed first in respiration? [4]
mL and the endpoint for the calcium hardness is 29.20
mL. The concentrations of Ca2+ and Mg2 - are , a) Both Carbohydrates and Fatty acids
respectively. [4] b) Carbohydrates
a) 100, 15 b) 240, 40 c) Fatty acids
c) 12, 2 d) 120, 20 d) Minerals

58) The number of unpaired electrons present in complex ion 70) Two molecules of pyruvate are completely degraded in
[FeF6 ]3 - is: [4] the Krebs cycle to form: [4]
a) 4 b) 5 a) 2ATP, 6NADH2 and 2FADH2
c) 0 d) 6 b) 4ATP, 12NADH2 and 4FADH2
59) The hypothetical complex triamminediaquachlorido- c) 2ATP, 8NADH2 , 2FADH2
cobalt(III) chloride can be represented as: [4] d) 8ATP, 8NADH2 and 2FADH2
71) The net gain of energy from one gram molecule of glucose
a) [Co (NH3 )3 (H2 O) Cl3 ]
during aerobic respiration is: [4]
b) [CoCl (NH3 )3 (H2 O2 )]
a) 2 ATP b) 38 ATP
c) [Co (NH3 )3 (H2 O)2 Cl] Cl2
c) 36 ATP d) 15 ATP
d) [Co (NH3 )3 (H2 O)3 Cl3 ]
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72) The Krebs’ cycle begins with: [4] a) 40 ATP b) 8 ATP

a) Lysine b) Pyruvic acid c) 38 ATP d) 36 ATP
c) Hydrochloric acid d) Corticosteroids 82) In citric acid cycle, energy bond (GTP) is produced as a
73) In glycolysis, the end product is: [4] result of conversion of [4]
a) Glucose is converted into fructose a) Succinic acid to succinyl CoA.
b) Protein is converted into glucose b) Succinic acid to malic acid.
c) Starch is converted into glucose c) Succinyl CoA to succinic acid.
d) Glucose is converted into pyruvic acid d) Citric acid toα - keto glutaric acid.
74) Oxidative phosphorylation is: [4] 83) The formation of acetyl coenzyme A from pyruvic acid
is the result of its: [4]
a) Formation of ATP by transfer of phosphate group
from a substrate to ADP a) Oxidative decarboxylation
b) Addition of phosphate group to ATP b) Reduction
c) Oxidation of phosphate group in ATP c) Dehydration
d) Formation of ATP by energy released from electrons d) Dephosphorylation
removed during substrate oxidation 84) Which one of the following processes releases a carbon
75) How many ATP molecules should be produced from the dioxide molecule? [4]
complete oxidation of a mole of active acetate or acetyl a) Citric acid cycle
CoA? [4] b) Electron transport chain
a) 12 ATP b) 19 ATP
c) Hydrolysis of glycogen
c) 38 ATP d) 15 ATP
d) Alcohol fermentation
76) Which one is false?
85) Link between glycolysis, Krebs’ cycle andβ - oxidation
i. More than 7% of energy in glucose is released during
of fatty acid or carbohydrate and fat metabolism is: [4]
lactic or alcoholic fermentation
a) Oxaloacetic acid b) Acetyl CoA
ii. Fermentation is not observed in all cells
c) Citric acid d) Succinic acid
iii. O2 is an essential requirement for aerobic respiration
but it enters the respiratory process at the end 86) Fat has two components, glycerol and fatty acids. They
iv. In aerobic respiration, glucose is broken down into enter the common pathway of respiration as: [4]
CO2 + H2 O
a) Glyceric acid andα - ketoglutarate
[4]
b) DiHAP andα - ketoglutarate
a) A b) C
c) DiHAP and acetyl CoA
c) B d) D
d) Glyceric acid and acetyl CoA
77) Pyruvate dehydrogenase activity during aerobic respiration
87) How many ATP are used in glycolysis? [4]
requires [4]
a) 2 b) 6
a) Iron b) Calcium
c) 8 d) 4
c) Cobalt d) Magnesium
88) The intermediate compound common for aerobic and
78) The incomplete breakdown of sugars in anaerobic respi-
anaerobic respiration is: [4]
ration results in the formation of: [4]
a) Glucose and CO2 b) Alcohol and CO2 a) Succinic acid b) Citric acid
c) Water and CO2 d) Fructose and water c) Acetyl CoA d) Pyruvic acid

79) Which of the following is 5 - carbon compound of 89) In succulent plants like Opuntia, the RQ value will be:
[4]
Kreb’s cycle? [4]
a) Less than one b) Infinite
a) Fumaric acid c) Zero d) More than one
b) α - Ketoglutaric acid
90) Where NADH+ H+ is formed from NAD+ ? [4]
c) Oxalosuccinic acid
d) Citric acid a) Whenl,3 - phosphoglycerate(PGA) is converted to 3
- phosphoglycerate (PGA).
80) The number of molecules of pyruvic acid formed from
b) When 3 - phosphoglyceraldehyde (PGAL) is con-
one molecule of glucose at the end of glycolysis is: [4]
verted to 1, 3 - biphosphoglycerate (BPGA).
a) 2 b) 4
c) When fructose 6 - phosphate converted to fructose
c) 1 d) 3
1, 6 - diphosphate.
81) How many ATP will be produced by the HMP shunt? d) When fructose 6 - phosphate converted to fructose
[4] 1, 6 - diphosphate