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NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 PDF Download

The terms ‘work’, ‘energy’, and ‘power’ are frequently used in everyday language. In physics, however, the word ‘Work’ covers a definite and precise meaning. This chapter of NEET physics covers the fundamental concepts of energy, work, and power, and their applications to various physical systems. Let's have a look at the Previous Year's Questions of NEET Exam of this chapter.

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

2024

Q1: At any instant of time t, the displacement of any particle is given by 2t − 1 (SI unit) under the influence of force of  5N. The value of instantaneous power is (in SI unit):
(a) 10
(b) 5
(c) 7
(d) 6
Ans: 
(a)
To find the instantaneous power delivered by a force, we can use the formula:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
where P is the power, NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 is the force vector, and NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 is the velocity vector of the particle.
In this question, the force exerted is given as a constant 5N. Since no direction is specified, and the displacement is given in a scalar form, we assume the force acts along the direction of displacement. Therefore, we can treat the vectors as scalars for simplicity.
The displacement of the particle is given by:
x = 2t - 1
The velocity, NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11, is the derivative of displacement with respect to time. Deriving the displacement equation with respect to time t gives:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
The instantaneous power can now be calculated as:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11Watts
Thus, the instantaneous power delivered by the force at any time t is 10 WattsWatts.
The correct answer is Option A: 10.

Q2: Two bodies A and B of same mass undergo completely inelastic one dimensional collision. The body A moves with velocity v1 while body B is at rest before collision. The velocity of the system after collision is v2. The ratio v: v2 is:     [2024]
(a) 1 : 2
(b) 2 : 1
(c) 4 : 1
(d) 1 :  4
Ans:
(b)
In a completely inelastic collision, the two bodies stick together and move with a common final velocity. Here, before the collision, body A is moving with a velocity v1 and body B is at rest. The conservation of momentum must hold true because no external forces are acting on the system.
The momentum before the collision is only due to body A since body B is at rest. Therefore, the total initial momentum pinitial of the system is given by:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
where:

  • mA and mB are the masses of bodies A and B respectively,
  • m is the mass of each body,
  • v1 is the velocity of body A,

v0 = 0 is the velocity of body B because it is initially at rest.
Since they undergo a completely inelastic collision, bodies A and B stick together after the collision and hence move with a common velocity v2. The total mass of the combined system post-collision is NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11The momentum after the collision is given by:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
Applying the conservation of momentum (since no external force implies momentum is conserved), we equate pinitialinitial and pfinalfinal:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
Dividing through by m yields:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
Thus, solving for the ratio v1 / v2 gives:
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
Therefore, the ratio of v1 to v2 is :1, making the correct answer:
Option B: 2 : 1

2023

Q1: The potential energy of a long spring when stretched by 2 cm is U. If the spring is stretched by 8 cm, potential energy stored in it will be       [2023]
(a) 2 U
(b) 4 U
(c) 8 U
(d) 16 U
Ans: 
d

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: A particle moves with a velocity NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 horizontally under the action of constant force NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11. The instantaneous power supplied to the particle is :     [2023]
(a) 200 W
(b) Zero
(c) 100 W
(d) 140 W
Ans:
(d)

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

2022

Q1: The restoring force of a spring with a block attached to the free end of the spring is represented by             [2022]
(a) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(b) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(c) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(d) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
Ans: (a)

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Where F is restoring force
x is displacement of block from equilibrium position

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: An electric lift with a maximum load of 2000 kg (lift + passengers) is moving up with a constant speed of 1.5 ms–1 . The frictional force opposing the motion is 3000 N. The minimum power delivered by the motor to the lift in watts is : (g = 10 m s –2 )           [2022]
(a) 20000 
(b) 34500 
(c) 23500 
(d) 23000 
Ans: b

The power delivered by the motor to the lift can be calculated using the formula:

Power = Force x Velocity

In this case, the force is the sum of the weight of the lift and the passengers and the frictional force opposing the motion:

Force = (Weight of lift + passengers) + Frictional force

Weight of lift + passengers = Mass x gravity

= (2000 kg / 1000) x 10 m/s2

= 20,000 N

Therefore,

Force = (20,000 N) + (3000 N)

= 23,000 N

Now, using the formula for power, we get:

Power = Force x Velocity

= (23,000 N) x (1.5 m/s)

= 34,500 W

Therefore, the minimum power delivered by the motor to the lift in watts is 34,500 W.

Q3: The energy that will be ideally radiated by a 100 kW transmitter in 1 hour is            [2022]
(a) 36 × 107 J 
(b) 36 × 104 J 
(c) 36 × 105 J 
(d) × 105 J 
Ans: (a)
Energy = Power × tim
E = 100 ×x 103 ×x 3600
= 36 ×x 107 J

2021

Q1: A particle is released from height S from the surface of the earth. At a certain height, its kinetic energy is three times its potential energy. The height from the surface of the earth and the speed of the particle at that instant are respectively:          [2021]
(a) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(b) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
(c) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
(d) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Ans: B
U + KE = E
4U = E = mgS
4mgh = mgS
h = S/4
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: Water falls from a height of 60 m at the rate of 15 kg/s to operate a turbine. The losses due to frictional force are 10% of the input energy. How much power is generated by the turbine?(g = 10 m/s2)        [2021]
(a) 12.3 kW
(b) 7.0 kW
(c) 10.2 kW
(d) 8.1 kW
Ans: 
D

Mass of water falling/second = 15 kg/s h = 60 m, g = 10 m/s2, loss = 10 % i.e., 90% is used. Power generated = 15 x 10 x 60 x 0.9 = 8100 W = 8.1 kW.

2020

Q.6. The energy required to break one bond in DNA is 10–20J. This value in eV is nearly:        [2020]
(a) 0.06 
(b) 0.006 
(c) 6 
(d) 0.6
Ans: a

1.6 × 10–19 Joule = 1 eV
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

2019

Q1: A force F = 20 + 10 y acts on a particle in y direction where F is in newton and y in meter. Work done by this force to move the particle from y = 0 to y = 1 m is    [2019]
(a) 30 J
(b) 5 J
(c) 25 J
(d) 20 J
Ans
: c

Work done by variable force is
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: Body A of mass 4m moving with speed u collides with another body B of mass 2m, at rest. The collision is head on and elastic in nature. After the collision the fraction of energy lost by the colliding body A is:    [2019]
(a) 1/9
(b) 8/9
(c) 4/9
(d) 5/9
Ans:
b

Fractional loss of KE of colliding body
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q3: A disc of radius 2 m and mass 100 kg rolls on a horizontal floor. Its centre of mass has speed of 20 cm/s. How much work is needed to stop it?    [2019]
(a) 3 J
(b) 30 kJ
(c) 2 J
(d) 1 J
Ans:
a

Work required = change in kinetic energy Final KE = 0
Initial KE NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

|ΔKE| = 3 J

Q4: The work done to raise a mass m from the surface of the earth to a height h, which is equal to the radius of the earth, is:    [2019]
(a) mgR
(b) 2mgR
(c)NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(d)NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Ans: c

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Initial potential energy at earths surface isNEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Final potential energy at height h = RNEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

As work done = Change in PE∴ W = Uf – Ui
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

 (∵ GM = gR2)

2018

Q1: A body initially at rest and sliding along a frictionless track from a height h (as shown in the figure) just completes a vertical circle of diameter AB = D. The height h is equal to    [2018]
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11(a) 3/2 D
(b) D
(c) 7/5 D
(d) 5/4 D
Ans:
d

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: A moving block having mass m, collides with another stationary block having mass 4m. The lighter block comes to rest after collision. When the initial velocity of the lighter block is v, then the value of coefficient of restitution (e) will be :-    [2018]
(a) 0.5
(b) 0.25
(c) 0.8
(d) 0.4
Ans
: b

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q3: The kinetic energies of a planet in an elliptical orbit about the Sun, at positions A, B and C are KA, KB and KC respectively. AC is the major axis and SB is perpendicular to AC at the position of the Sun S as shown in the figure. Then    [2018]
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11(a) KA < KB < KC

(b) KA > KB > KC
(c) KB < KA < KC
(d) KB > KA > KC
Ans:
b

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

2017

Q1: Consider a drop of rain water having mass 1 g falling from a height of 1 km. It hits the ground with a speed of 50 m/s. Take 'g' constant with a value 10 m/s2. The work done by the    [2017]
(i) gravitational force and the
(ii) resistive force of air is :-
(a) (i) 1.25 J (ii) – 8.25 J
(b) (i) 100 J (ii) 8.75 J
(c) (i) 10 J (ii) – 8.75 J
(d) (i) – 10 J (ii) – 8.25 J
Ans:
c

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: A spring of force constant k is cut into lengths of ratio 1: 2 : 3. They are connected in series and the new force constant is k'. Then they are connected in parallel and force constant is k''. Then k' : k'' is    [2017]
(a) 1 : 6
(b) 1 : 9
(c) 1 : 11
(d) 1 : 14
Ans:
c

Force constant of spring
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
after cutting the spring in the ratio 1:2:3, the force constants will be in the ratio 6:3:2
Force constant in series K' is given by NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
Force constant in parallel K" : 6k+3k+2k = 11k;hence K'/K" = 1/11

2016

Q1: A particle moves from a point NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11  when a force of NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 N is applied. How much work has been done by the force ?      [2016]
(a) 8 J
(b) 11 J
(c) 5 J
(d) 2 J
Ans:
(c)

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: A body of mass 1 kg begins to move under the action of a time dependent force NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 , whenNEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11are unit vectors along x and y axis. What power will be developed by the force at the time t ?    [2016]
(a) (2t3+ 3t5)W
(b) (2t2 + 3t3)W
(c) (2t2 + 4t4)W
(d) (2t3 + 3t4)W
Ans:
a

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q3: A particle of mass 10 g moves along a circle of radius 6.4 cm with a constant tangential acceleration. What is the magnitude of this acceleration if the kinetic energy of the particle becomes equal to 8 × 10−4 J by the end of the second revoluation after the beginning of the motion ?    [2016]
(a) 0.18 m/s2
(b) 0.2 m/s2
(c) 0.1 m/s2
(d) 0.15 m/s2
Ans:
(c)

Given: Mass of particle, M = 10g =10/1000 Kg
radius of circle R = 6.4 cm
Kinetic energy E of particle = 8 × 10–4J
acceleration a= ? 

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Now, using

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q4: What is the minimum velocity with which a body of mass m must enter a vertical loop of radius R so that it can complete the loop?

(a) √3gR
(b) √5gR
(c) √gR
(d) √2gR    [2016]
Ans:
(b)
To complete the loop a body must enter a vertical loop of radius R with the minimum velocity v =√5gR

2015

Q1: Two particles A and B, move with constant velocities NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11. At the initial moment their position vectors are NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 respectively. The condition for particles A and B for their collision is     [2015]
(a) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(b) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(c) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(d) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11Ans: (c)

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q2: A ball is thrown vertically downwards from a height of 20 m with an initial velocity v0. It collides with the ground, losses 50 percent of its energy in collision and rebounds to the same height. The initial velocity v0 is (Take g = 10 m s−2)     [2015]
(a) 28 m s−1
(b) 10 m s−1
(c) 14 m s−1
(d) 20 m s−1
Ans:
(d)

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

When ball collides with the ground it loses its 50% of energy

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q3: The heart of a man pumps 5 litres of blood through the arteries per minute at a pressure of 150 mm of mercury. If the density of mercury be 13.6 × 103 kg/m3 and g = 10 m/s2 then the power (in watt) is      [2015]
(a) 3.0
(b) 1.50
(c) 1.70
(d) 2.35
Ans: 
(c)
Here, Volume of blood pumped by man’s heart,
V = 5 litres = 5 × 10–3 m3 ( 1 litre = 10–3 m3)
Time in which this volume of blood pumps, t = 1 min = 60 s
Pressure at which the blood pumps,
P = 150 mm of Hg = 0.15 m of Hg
= (0.15 m)(13.6 × 103 kg/m3)(10 m/s2)
= 20.4 × 103 N/m2
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q4: Two particles of masses m1, m2 move with initial velocities u1 and u2. On collision, one of the particles get excited to higher level, after absorbing energy ε. If final velocities of particles be v1 and v2 then we must have :    [2015]
(a) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(b)NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11
(c) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(d) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Ans: d

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q5: Two similar springs P and Q have spring constants KP and KQ, such that KP > KQ. They are stretched, first by the same amount (case a), then by the same force (case b). The work done by the springs WP and WQ are related as, in case (a) and case (b), respectively:    [2015]
A: WP < WQ; WQ < WP
B: WP = WQ; WP > WQ
C: WP = WQ; WP = WQ
D: WP > WQ; WQ > WP

Ans: d

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q6: A mass m moves in a circle on a smooth horizontal plane with velocity v0 at a radius R0. The mass is attached to a string which passes through a smooth hole in the plane as shown.

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

The tension in the string is increased gradually and finally m moves in a circle of radius R0/2. The final value of the kinetic energy is :    [2015]
(a)NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(b) NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(c)NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

(d)NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Ans: d

When a mass moves in a circle of radius R0 with velocity v0, its kinetic energy is given by

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11The tension in the string is gradually increased and the radius of the circle decreased to R0/2. When the radius of the circle is R  NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 the tension in the string is the same as the centripetal force.

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11where L = mRv is the angular momentum which is conserved.Work done in reducing the radius of the circle from R0 to R0/2 is

NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11

Q7: A block of mass 10 kg, moving in x direction with a constant speed of 10 ms-1, is subjected to a retarding force F = 0.1 x J/m during its travel from x = 20 m to 30 m. Its final KE will be :    [2015]
(a) 250 J
(b) 475 J
(c) 450 J
(d) 275 J
Ans: b
The block of mass M = 10 kg is moving in the x - direction with a speed v = 10 m/s. Its initial kinetic energy is
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11It is subjected to a retarding force F = 0.1 x J/m during its travel from x = 20 m to 30 m.Work done is given by
NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11Final kinetic energy is, KEf = KEi + W = 500 - 25 = 475

The document NEET Previous Year Questions (2014-2024): Work, Energy & Power | Physics Class 11 is a part of the NEET Course Physics Class 11.
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FAQs on NEET Previous Year Questions (2014-2024): Work, Energy & Power - Physics Class 11

1. What is work in the context of physics?
Ans. Work in physics is defined as the product of the force applied to an object and the distance over which the force is applied. It is calculated using the formula W = F * d, where W is work, F is the force, and d is the distance.
2. How is energy related to work?
Ans. Energy is closely related to work in physics, as work is the transfer of energy from one system to another. When work is done on an object, energy is transferred to that object, either increasing its kinetic energy, potential energy, or both.
3. What is power in the context of physics?
Ans. Power is the rate at which work is done or energy is transferred. It is calculated using the formula P = W/t, where P is power, W is work, and t is time. Power is measured in watts (W) or joules per second.
4. How can the concept of work, energy, and power be applied in real-life situations?
Ans. The concepts of work, energy, and power are used in various real-life scenarios, such as calculating the amount of energy consumed by household appliances, determining the power output of a car engine, or analyzing the work done by a person lifting weights at the gym.
5. How can one increase the power output in a mechanical system?
Ans. The power output in a mechanical system can be increased by either increasing the amount of work done in a given time period or by decreasing the time taken to do a certain amount of work. This can be achieved by increasing the force applied, increasing the distance over which the force is applied, or increasing the efficiency of the system.
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