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This mock test of JIPMER Physics Mock Test - 1 for NEET helps you for every NEET entrance exam.
This contains 60 Multiple Choice Questions for NEET JIPMER Physics Mock Test - 1 (mcq) to study with solutions a complete question bank.
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QUESTION: 1

An alternating e.m.f. of angular frequency ω is applied across an inductance. The instantaneous power developed in the circuit has an angular frequency

Solution:

QUESTION: 2

Which of the following is discovered from the discharge tube experiment?

Solution:

A crooks tube is an early experimental electrical discharge tube with partial vaccum,invented by English physicist William crooks. it only describes the motion of electron because it contains a non-equilibrium plasma of positively charged ions, electrons and neutral atoms which are constantly interacting.

QUESTION: 3

An air capacitor of capacity C = 10 μF is connected to a constant voltage battery of 12 volt. Now the space between the plates is filled with a liquid of dielectric constant 5. The charge that flows now from battery to the capacitor is

Solution:

C = 10 μF

Charge in capacitor q = CV

= 10 x 12

= 120 μC

On keeping liquid of dielectric constant5, capacity will becomes of 5 time.

∴ Charge q = 5 x 120

= 600 μC

QUESTION: 4

A string can withstand a tension of 50 Newtons. The greatest speed at which a body of mass 250 gm can be whirled in a circle using 50 cm length of string is—

Solution:

F = mv^{2}/R

50 = 0.25 × V^{2}/ 0.50

V^{2}= 100

V = 10m/s

QUESTION: 5

The number of dry cells, each of e.m.f. 1.5 volt and internal resistance 0.5 ohm that must be joined in series with a resistance of 20 ohm so as to send a current of 0.6 ampere through the circuit is

Solution:

QUESTION: 6

In L-C-R series A.C. circuit, the phase angle between current and voltage is

Solution:

QUESTION: 7

'*n*' conducting wires of same dimensions but having resistivities 1, 2, 3, .....*n* are connected in series. The equivalent resistivity of the combination is

Solution:

QUESTION: 8

Two coils have a mutual inductance 0.005 H. The current cahnges in the first coil according to equation I=I₀ sin ωt where I₀ = 10 A and ω = 100 π rad/sec. The maximum value of e.m.f. in second coil is

Solution:

QUESTION: 9

The electrostatic energy stored in a capacitor is

Solution:

QUESTION: 10

Which of the following have minimum wavelength?

Solution:

Cosmic rays have high frequency. So minimum wavelength.

QUESTION: 11

An electric dipole placed in a non-uniform electric field experiences

Solution:

QUESTION: 12

Radius of the earth is 6400 km. The radius of the orbit of a stationary satellite is about

Solution:

QUESTION: 13

The force of gravitation is

Solution:

QUESTION: 14

Cosnider the following statements

Assertion (A) : The radiation from the sun's surface varies as the fourth power of its absolute temperature

Reason (R) : Sun is not a black body

Of these statements

Solution:

The assertion is true but the reasoning is false

The sun is not a black body

QUESTION: 15

The interference occurs in which of the following waves?

Solution:

QUESTION: 16

An ideal gas has a volume of V at 2 atm pressure. Keeping the temprature of gas constant, its pressure is doubled. The volume of gas will become

Solution:

QUESTION: 17

A body takes 1 1/3 times as much time to slide down a rough inclined plane as it takes to slide down an identical but smooth inclined plane. If the angle of inclination of the inclined plane is 45^{o}, the coefficient of friction is

Solution:

Consider l be the length of both the inclined planes and θ be the inclination. Then the times taken by a body sliding the smooth and rough inclined planes are

QUESTION: 18

A current of 2 ampere flows in a long, straight wire of radius 2mm. The intensity of magnetic field at the axis of the wire is

Solution:

QUESTION: 19

A proton and an α-particle, moving with the same velocity enter into uniform magnetic field, acting normal to the plane of their motion. The ratio of the radii of the circular paths described by the proton and α-particle is

Solution:

QUESTION: 20

A cyclotron can not accelerate

Solution:

Cyclotron is device used to accelerate charged particles. Cyclotron works on the principle that a charged particle moving normal to a magnetic field experiences magnetic lorentz force due to which the particle moves in a circular path and hence accelerates it.

Since a Neutron is neutral by charge. So, a cyclotron cannot accelerate it.

Plus, due to net zero charge on a neutron, it cannot be so easily accelerated by any method.

QUESTION: 21

Magnetic moment of a magnet is M. Maximum value of torque acting on this magnet when suspended in a uniform magnetic field of intensity B is

Solution:

QUESTION: 22

A bar magnet of magnetic moment 100 units is cut into two halves of equal length, each half will have a magnetic moment of

Solution:

Mag. moment = m×l since length is halved magneti... morec moment is also halved so it becomes 50units.

QUESTION: 23

The magnetic susceptibility does not depend upon the temperature in

Solution:

QUESTION: 24

If the radius of a soap bubble is four times that of another, then the ratio of their pressures will be

Solution:

QUESTION: 25

Which of the following affets the elasticity of a substance?

Solution:

All the factors change in temperature, hammering and annealing and impurity in substance affect the elasticity of a substance.

QUESTION: 26

A column of water 60cm high supports a column of an unknown liquid of density 1500 kg m^{-3}. The height of liquid column is (Density of water = 1000 kg m^{-3})

Solution:

We equate pot. energy as itll be same for both the columns h1× density1 × g = h2 × dens. 2 × g 60 = 1.5 × h h = 40cm.

QUESTION: 27

The moment of inertia of a meter scale of mass 0.6kg about an axis perpendicular to the scale and located at the 20cm position on the scale in kg m^{2} is (Breadth of the scale is negligible)

Solution:

QUESTION: 28

A rocket is fired upward from the earth's surface such that it creates an acceleration of 19.6 m/sec^{2}. If after 5 sec its engine is switched off, the maximum height of the rocket from the earth's surface would be

Solution:

Given a = 19.6 m/s^{2 }= 2g

Resultant velocity of the rocket after 5 sec , v = 2g×5 = 10g m/s

Height achieved after 5 sec, h_{1 }

On switching off the engine it goes up to height h_{2 }where its velocity becomes zero.

∴ Total height of rocket = 245 + 490 = 735 m

QUESTION: 29

If a bullet of mass 5gm moving with velocity 100 m/sec, penetrates the wooden block upto 6cm. Then the average force imposed by the bullet on the block is

Solution:

Equation of motion

v^{2} = u^{2 }+ 2as

2as = v^{2} - u^{2}

2 x a x (6/100) = 0 - (100)^{2}

12a / 100 = - 10000

a = -1000000 / 12 m/s^{2}

This is the average retardation of the bullet

Avg force F = ma

= (5/1000) x 1000000 / 12 = 416.66 N

approx 417 newton

QUESTION: 30

α - particle is equivalent to

Solution:

It consists of two neutrons and two protons, and is thus identical to the nucleus of a helium atom. The rest mass of the **alpha particle** amounts to 6.64424.

QUESTION: 31

If M(A;Z), Mp and Mn denote the masses of the nucleus ^{A}_{Z}X , proton and neutron respectively in units of u (1u=931.5 MeV/C^{2}) and BE represents its bonding energy in MeV, then

Solution:

QUESTION: 32

Photons of energy of 6 eV are incident on a metal surface whose work function is 4 eV. The minimum kinetic energy of the emitted photoelectrons will be

Solution:

Minimum kinetic energy is always zero.

QUESTION: 33

The image formed by an objective lens of a compound microscope is

Solution:

The image formed by objective lens of compound microscope is real and enlarged, while final image formed by compound microscope is inverted, virtual, enlarged and at a distance D to infinite or from an eye, on same side of eye piece.

QUESTION: 34

Two identical pendulums are oscillating with amplitudes 2cm and 6cm. The ratio of their energies of oscillation will be

Solution:

QUESTION: 35

The work function of a metal is 4.2 eV. its threshold wavelength will be

Solution:

QUESTION: 36

An aeroplane is flying at a constant horizontal velocity of 600 km/hr at an elevation of 6 km towards a point directly above the target on the earth's surface. At an appropriate time, the pilot releases a ball so that it strikes the target at the earth. The ball will appear to be falling

Solution:

The pilot will see the ball falling in straight line because the reference frame is moving with the same horizontal velocity but the observer at rest will see the ball falling in parabolic path.

QUESTION: 37

The refracting angle of a prism A is small. The correct statement for the dispersive power of a prism is that dispersive power

Solution:

QUESTION: 38

A beam of white light passing through a prism is split up into its constituent colours. The light which undergoes least deviation is

Solution:

QUESTION: 39

A fish is swimming at a depth 2 m inside a lake of saline water. If refractive index of water is 1.25, then the radius of the circular aperture through which the fish sees the outside world, is

Solution:

QUESTION: 40

Which of the following forms a perfect image free from all aberrations?

Solution:

Aberrations is a fact, an action or a way of behaving that is not typical, and that may be unacceptable. So present in spherical lens, cylendrical lens and spherical mirror. But plane mirror is free to aberration because it's have infinite focus length.

QUESTION: 41

A thin uniform circular ring is rolling down an inclined plane of inclination 30^{0} without slipping. Its linear acceleration along the inclined plane will be

Solution:

Acceleration on an inclined plane

a= g sinθ/ (1 + I/MR^{2})

for circular rings: I= MR^{2}

so by putting the value in above equation we get

a = g sinθ/ 2

a = g sin30/2

a = g/4

QUESTION: 42

Indium impurity in germanium makes

Solution:

Indium is trivalent, hence on doping with it, the intrinsic semiconductor becomes P-type semiconductor.

QUESTION: 43

The general equation of S.H.M. is

Solution:

QUESTION: 44

A simple pendulum consisting of a ball of mass m tied to a spring of length l is made to swing on a circular arc of angle θ in a vertical plane. At the end of this arc, another ball of mass m is placed at rest. The momentum transferred to this ball at rest by the swinging ball is

Solution:

No momentum will be transferred because, at extreme position the velocity of bob is zero.

QUESTION: 45

N-type semiconductor is prepared by doping silicon semiconductor by a

Solution:

QUESTION: 46

The velocity of sound in air depends on

Solution:

The speed varies depending on atmospheric conditions; the most important factor is the temperature.

QUESTION: 47

Soap helps in cleaning clothes, because

Solution:

Due to surface tension, liquids tend to minimize their surface area. Soap helps to lower the surface tension of solution, thus soap get stick to the dust particles and grease and these are removed by action of water.

QUESTION: 48

The resistance of a heater coil is 110 ohm. A resistance R is connected in parallel with it and the combination is joined in series with a resistance of 11 ohm to a 220 volt main line. The heater operates with a power of 110 watt. The value of R in ohm is

Solution:

Power consumed by heater is 110 W so by using P=

Also from figure

So i_{2 }= 10 − 1 = 9A

Applying Ohms law for resistance R, V = iR

⇒ 110 = 9 × RÞ

⇒ R=12.22Ω

QUESTION: 49

If two bulbs of wattage 25 and 30, each rated at 220 volts, are connected in series with a 440 volt supply, which bulb will fuse

Solution:

Safe current through 25W bulb =

Safe current through 30W bulb =

Now R_{1} = V^{2}/P_{1 }=

R_{2} = = 1613.3Ω

0.124

This is greater than the safe current for 25W bulb so, it well fuse

QUESTION: 50

Two wire with resistances R and 2R are connected in parallel, the ratio of heat generated in 2R and R is

Solution:

In a series circuit, the current is same across each resistor.

So, energy developed in resistors is : I^{2}Rt

thus the ratio is : R1/R2 = 1/2

QUESTION: 51

A 2m long Aluminium pipe at 27^{o}C is heated until it is 2.0024m at 77^{o}C. The coefficient of linear expansion of aluminium is

Solution:

∆l= L c ∆T (here c is coefficient of linear expansion, ∆l is change in length, L is previous length and ∆T is change in temperature ) 0.0024 = 2 × c × 50c = 24× 10^{–6} °C

So (a) should be answer.

QUESTION: 52

A reversible engine converts one-sixth of the heat into work. When temperature of sink is reduced by 62^{o}C, the efficiency of the engine is doubled. The temperature of source and sink are

Solution:

Maximum efficiency of an engine working between temperatures T_{2} and T_{1} is given by the fraction of the heat absorbed by an engine which can be converted into work is known as efficiency of the heat engine.

Mathematically,

6T_{2} - 6T_{1} = T_{2}

Therefore, T_{2} = 1.2 T_{1} .....(1)

Where T_{2} is the source temperature and T_{1} is the sink temperature.

If the sink temperature (T_{1}) is reduced by 62^{o}C, the efficiency gets doubled i.e.

6T_{2} – 6T_{1} + 372 = 2T_{2}

6T_{2} – 2T_{2} – 6T_{1} + 372 = 0

4T_{2} – 6T_{1} + 372 = 0

Substituting the value of T_{2} from equation (1), we will get,

4(1.2 T_{1}) – 6T_{1} + 372 = 0

4.8 T_{1} – 6T_{1} + 372 = 0

372 = 1.2 T_{1}

T_{1} = 310 K = 37^{o}C

Therefore, T_{2} = 1.2 x 310 = 372 K = 99^{o}C

Hence, temperature of the source and the sink is 99^{o}C and 37^{o}Crespectively.

QUESTION: 53

Which type of thermodynamic process is heating of water at atmospheric pressure?

Solution:

QUESTION: 54

Light year is a unit of

Solution:

A light-year is a unit of distance. It is the distance that light can travel in one year. Light moves at a velocity of about 300,000 kilometers (km) each second. So in one year, it can travel about 10 trillion km.

QUESTION: 55

The unit of reactance is

Solution:

**Reactance** is mathematically symbolized by the letter “X” and is measured in **the unit** of ohms (Ω).

QUESTION: 56

The penetration of light into the region of geometrical shadow is called

Solution:

QUESTION: 57

Which of the following property of light waves is not observed in sound waves?

Solution:

QUESTION: 58

Two adjacent piano keys are struck simultaneously. The notes emitted by them have frequencies n₁ and n₂. The number of beats heard per second is

Solution:

QUESTION: 59

The path difference between two waves γ₁ = a₁ sin (ωt - 2πx/λ) and γ₂ = a₂ cos (ωt - 2πx/λ + φ) is

Solution:

QUESTION: 60

The power of a pump, which can pump 200 kg of water to a height of 200 m in 10s is (Take g=10 ms^{-2})

Solution:

Mass of water : m=200 kg

Height upto which the water is raised : h=200 m

Work done : W=mgh=200×10×200=400000 J

Power of the pump :

=40000 W

=40 kW

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