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Physics
1. A car of mass 1000 kg moves on a circular track of radius 40 m. If the coefficient of friction is 
1.28. The maximum velocity with which the car can be moved, is
(a) 22.4 rn/s
(b) 112 m/s
(c) (0.64 * 40)/ (1000 * 100) m/s
(d) 1000 m/s
2. The escape velocity for the earth is 11.2 km/s. The mass of another planet 100 times mass of 
earth and its radius is 4 times radius of the earth. The escape velocity for the planet is
(a) 280 km/s
(b) 56.0 km/s
(c) 112 km/s
(d) 56 km/s
3. Light travels faster in air than that in glass. This is accordance with
(a) wave theory of light
(b) corpuscular theory of light
(c) neither (a) nor (b)
(d) Both (a) and (b)
4. The speed of air flow on the upper and lower surfaces of a wing of an aeroplane are v
1
 and v
2
 
respectively. If A is the cross section area of the wing and p is the density of air, then the upward 
life is
(a) 1/2 A(v ?
2
 —v
2
)
(b) 1/2 A(v ?
1
 + v
2
)
(c) 1/2 A(v ?
1
2
 — v
2
2
)
(d) 1/2 A(v ?
1
2
 + v
2
2
)
5. A body is thrown with a velocity of 9.8 m/s making an angle of 30° with the horizontal. It will 
hit the ground after a time
(a) 1.5s
(b) 1s
(c) 3s
(d) 2s
6. A radioactive element 
90
X
238
 decays into 
83
Y
222
The number of -particles emitted are ß
Page 2


Physics
1. A car of mass 1000 kg moves on a circular track of radius 40 m. If the coefficient of friction is 
1.28. The maximum velocity with which the car can be moved, is
(a) 22.4 rn/s
(b) 112 m/s
(c) (0.64 * 40)/ (1000 * 100) m/s
(d) 1000 m/s
2. The escape velocity for the earth is 11.2 km/s. The mass of another planet 100 times mass of 
earth and its radius is 4 times radius of the earth. The escape velocity for the planet is
(a) 280 km/s
(b) 56.0 km/s
(c) 112 km/s
(d) 56 km/s
3. Light travels faster in air than that in glass. This is accordance with
(a) wave theory of light
(b) corpuscular theory of light
(c) neither (a) nor (b)
(d) Both (a) and (b)
4. The speed of air flow on the upper and lower surfaces of a wing of an aeroplane are v
1
 and v
2
 
respectively. If A is the cross section area of the wing and p is the density of air, then the upward 
life is
(a) 1/2 A(v ?
2
 —v
2
)
(b) 1/2 A(v ?
1
 + v
2
)
(c) 1/2 A(v ?
1
2
 — v
2
2
)
(d) 1/2 A(v ?
1
2
 + v
2
2
)
5. A body is thrown with a velocity of 9.8 m/s making an angle of 30° with the horizontal. It will 
hit the ground after a time
(a) 1.5s
(b) 1s
(c) 3s
(d) 2s
6. A radioactive element 
90
X
238
 decays into 
83
Y
222
The number of -particles emitted are ß
(a) 1
(b) 2
(c) 4
(d) 6
7. Minimum excitation potential of Bohr’s first orbit in hydrogen atom is
(a) 3.6V
(b) 10.2 V
(c) 13.6 V
(d) 3.4V
8. A gas expands 0.25 m
3
 at constant pressure 10
3
 N/m
2
, the work done is
(a) 250 N
(b) 250W
(c) 250 J
(d) 2.5 erg
9. The work done in increasing the size of a soap film for 10 cm x 6m to 10 cm x 11cm is 3 x 10
-
4
 J. The surface tension of the film is
(a) 1.0 x 10
-2
 N/m
(b) 6.0 x 10
-2
 N/m
(c) 3.0 x 10
-2
 N/m
(d) 1.5 x 10
-2
 N/m
10. A parallel palte condenser is filled with two dielectrics as shown in figure. Area of each pate is 
A m
2
 and the separation is d metre.
The dielectric constants are K
1
 and K
2
 respectively. Its capacitance in farad will be
Page 3


Physics
1. A car of mass 1000 kg moves on a circular track of radius 40 m. If the coefficient of friction is 
1.28. The maximum velocity with which the car can be moved, is
(a) 22.4 rn/s
(b) 112 m/s
(c) (0.64 * 40)/ (1000 * 100) m/s
(d) 1000 m/s
2. The escape velocity for the earth is 11.2 km/s. The mass of another planet 100 times mass of 
earth and its radius is 4 times radius of the earth. The escape velocity for the planet is
(a) 280 km/s
(b) 56.0 km/s
(c) 112 km/s
(d) 56 km/s
3. Light travels faster in air than that in glass. This is accordance with
(a) wave theory of light
(b) corpuscular theory of light
(c) neither (a) nor (b)
(d) Both (a) and (b)
4. The speed of air flow on the upper and lower surfaces of a wing of an aeroplane are v
1
 and v
2
 
respectively. If A is the cross section area of the wing and p is the density of air, then the upward 
life is
(a) 1/2 A(v ?
2
 —v
2
)
(b) 1/2 A(v ?
1
 + v
2
)
(c) 1/2 A(v ?
1
2
 — v
2
2
)
(d) 1/2 A(v ?
1
2
 + v
2
2
)
5. A body is thrown with a velocity of 9.8 m/s making an angle of 30° with the horizontal. It will 
hit the ground after a time
(a) 1.5s
(b) 1s
(c) 3s
(d) 2s
6. A radioactive element 
90
X
238
 decays into 
83
Y
222
The number of -particles emitted are ß
(a) 1
(b) 2
(c) 4
(d) 6
7. Minimum excitation potential of Bohr’s first orbit in hydrogen atom is
(a) 3.6V
(b) 10.2 V
(c) 13.6 V
(d) 3.4V
8. A gas expands 0.25 m
3
 at constant pressure 10
3
 N/m
2
, the work done is
(a) 250 N
(b) 250W
(c) 250 J
(d) 2.5 erg
9. The work done in increasing the size of a soap film for 10 cm x 6m to 10 cm x 11cm is 3 x 10
-
4
 J. The surface tension of the film is
(a) 1.0 x 10
-2
 N/m
(b) 6.0 x 10
-2
 N/m
(c) 3.0 x 10
-2
 N/m
(d) 1.5 x 10
-2
 N/m
10. A parallel palte condenser is filled with two dielectrics as shown in figure. Area of each pate is 
A m
2
 and the separation is d metre.
The dielectric constants are K
1
 and K
2
 respectively. Its capacitance in farad will be
11. A luminous object is placed at a distance of 30 cm from the convex lens of focal length 20 cm. 
On the other side of the lens, at what distance from the lens a convex mirror of radius of 
curvature 10 cm be placed in order to have an upright image of the object coincident with it
(a) 30 cm
(b) 60 cm
(c) 50 cm
(d) 12 cm
12. A battery of emf 10 V and internal resistance of 0.5 ohm is connected across a variable 
resistance R. The maximum value of R is given by
(a) 0.5O
(b) 1.00O
(c) 2.0O
(d) 0.25O
13. For a R/C
v
 gas = 0.67. This gas is made up of cv molecules which are
(a) mono atomic
(b) poly atomic
(c) mixture of diatomic and poly atomic molecules
(d) diatomic
14. A point source of light is placed 4 m below the surface of water of refractive index 5/3.
The minimum diameter of a disc which should be placed over the source on the surface of water 
to cut-off all light coming out of water is
(a) 6 m
(b) 3 m
(c) 4 m
(d) 2 m
15. A moving body of mass m and velocity 3 km/h collides with a rest body of mass 2 m and stick 
to it. Now the combined mass starts to move. What will be the combined velocity?
(a) 4 km/h
(b) 1 km/h
Page 4


Physics
1. A car of mass 1000 kg moves on a circular track of radius 40 m. If the coefficient of friction is 
1.28. The maximum velocity with which the car can be moved, is
(a) 22.4 rn/s
(b) 112 m/s
(c) (0.64 * 40)/ (1000 * 100) m/s
(d) 1000 m/s
2. The escape velocity for the earth is 11.2 km/s. The mass of another planet 100 times mass of 
earth and its radius is 4 times radius of the earth. The escape velocity for the planet is
(a) 280 km/s
(b) 56.0 km/s
(c) 112 km/s
(d) 56 km/s
3. Light travels faster in air than that in glass. This is accordance with
(a) wave theory of light
(b) corpuscular theory of light
(c) neither (a) nor (b)
(d) Both (a) and (b)
4. The speed of air flow on the upper and lower surfaces of a wing of an aeroplane are v
1
 and v
2
 
respectively. If A is the cross section area of the wing and p is the density of air, then the upward 
life is
(a) 1/2 A(v ?
2
 —v
2
)
(b) 1/2 A(v ?
1
 + v
2
)
(c) 1/2 A(v ?
1
2
 — v
2
2
)
(d) 1/2 A(v ?
1
2
 + v
2
2
)
5. A body is thrown with a velocity of 9.8 m/s making an angle of 30° with the horizontal. It will 
hit the ground after a time
(a) 1.5s
(b) 1s
(c) 3s
(d) 2s
6. A radioactive element 
90
X
238
 decays into 
83
Y
222
The number of -particles emitted are ß
(a) 1
(b) 2
(c) 4
(d) 6
7. Minimum excitation potential of Bohr’s first orbit in hydrogen atom is
(a) 3.6V
(b) 10.2 V
(c) 13.6 V
(d) 3.4V
8. A gas expands 0.25 m
3
 at constant pressure 10
3
 N/m
2
, the work done is
(a) 250 N
(b) 250W
(c) 250 J
(d) 2.5 erg
9. The work done in increasing the size of a soap film for 10 cm x 6m to 10 cm x 11cm is 3 x 10
-
4
 J. The surface tension of the film is
(a) 1.0 x 10
-2
 N/m
(b) 6.0 x 10
-2
 N/m
(c) 3.0 x 10
-2
 N/m
(d) 1.5 x 10
-2
 N/m
10. A parallel palte condenser is filled with two dielectrics as shown in figure. Area of each pate is 
A m
2
 and the separation is d metre.
The dielectric constants are K
1
 and K
2
 respectively. Its capacitance in farad will be
11. A luminous object is placed at a distance of 30 cm from the convex lens of focal length 20 cm. 
On the other side of the lens, at what distance from the lens a convex mirror of radius of 
curvature 10 cm be placed in order to have an upright image of the object coincident with it
(a) 30 cm
(b) 60 cm
(c) 50 cm
(d) 12 cm
12. A battery of emf 10 V and internal resistance of 0.5 ohm is connected across a variable 
resistance R. The maximum value of R is given by
(a) 0.5O
(b) 1.00O
(c) 2.0O
(d) 0.25O
13. For a R/C
v
 gas = 0.67. This gas is made up of cv molecules which are
(a) mono atomic
(b) poly atomic
(c) mixture of diatomic and poly atomic molecules
(d) diatomic
14. A point source of light is placed 4 m below the surface of water of refractive index 5/3.
The minimum diameter of a disc which should be placed over the source on the surface of water 
to cut-off all light coming out of water is
(a) 6 m
(b) 3 m
(c) 4 m
(d) 2 m
15. A moving body of mass m and velocity 3 km/h collides with a rest body of mass 2 m and stick 
to it. Now the combined mass starts to move. What will be the combined velocity?
(a) 4 km/h
(b) 1 km/h
(c) 2 km/h
(d) 3 km/h
16. A transverse wave is represented by the equation
y = y
0
 sin (2 / ) – 27c (vt – k) p?
For what value of X is the particle velocity equal to two times the wave velocity
(a)  = y ? p
0
(b)  = ( y ? p
0
/2)
(c)  = ( y ? p
0
/3)
(d)  = 2 /y ? p
0
17. Ionisation potential of hydrogen atom is 13.6 eV. Hydrogen atom on the ground state rarely 
excited by monochromatic radiation of photon 12.1 eV. The special line emitted by a hydrogen 
atom according to Bohr’s theory will be
(a) one
(b) two
(c) three
(d) four
18. The internal resistance of a primary cell is 4 . It generates a current of 0.2 A in an external O
resistance of 21 The rate at which chemical energy to consumed in providing current is O
(a) 1 J/s
(b) 5 J/s
(c) 0.42 J/s
(d) 0.8 J/s
19. The binding energy per nucleon is maximum in the case
20. Two rigid bodies A and B rotate with rotational kinetic energies E
A
 and E
B
 respectively. The 
moments of inertia of A and B about the axis of rotation are I
A
 and I
B
 respectively.
If I
A
 = I
B
 and E
A
 = 100 = E
B
 the ratio of 4 angular momentum (L
A
) of A to the angular momentum 
(L
B
) of B is
(a) 25
(b) 5/4
(c) 5
(d) 1/4
Page 5


Physics
1. A car of mass 1000 kg moves on a circular track of radius 40 m. If the coefficient of friction is 
1.28. The maximum velocity with which the car can be moved, is
(a) 22.4 rn/s
(b) 112 m/s
(c) (0.64 * 40)/ (1000 * 100) m/s
(d) 1000 m/s
2. The escape velocity for the earth is 11.2 km/s. The mass of another planet 100 times mass of 
earth and its radius is 4 times radius of the earth. The escape velocity for the planet is
(a) 280 km/s
(b) 56.0 km/s
(c) 112 km/s
(d) 56 km/s
3. Light travels faster in air than that in glass. This is accordance with
(a) wave theory of light
(b) corpuscular theory of light
(c) neither (a) nor (b)
(d) Both (a) and (b)
4. The speed of air flow on the upper and lower surfaces of a wing of an aeroplane are v
1
 and v
2
 
respectively. If A is the cross section area of the wing and p is the density of air, then the upward 
life is
(a) 1/2 A(v ?
2
 —v
2
)
(b) 1/2 A(v ?
1
 + v
2
)
(c) 1/2 A(v ?
1
2
 — v
2
2
)
(d) 1/2 A(v ?
1
2
 + v
2
2
)
5. A body is thrown with a velocity of 9.8 m/s making an angle of 30° with the horizontal. It will 
hit the ground after a time
(a) 1.5s
(b) 1s
(c) 3s
(d) 2s
6. A radioactive element 
90
X
238
 decays into 
83
Y
222
The number of -particles emitted are ß
(a) 1
(b) 2
(c) 4
(d) 6
7. Minimum excitation potential of Bohr’s first orbit in hydrogen atom is
(a) 3.6V
(b) 10.2 V
(c) 13.6 V
(d) 3.4V
8. A gas expands 0.25 m
3
 at constant pressure 10
3
 N/m
2
, the work done is
(a) 250 N
(b) 250W
(c) 250 J
(d) 2.5 erg
9. The work done in increasing the size of a soap film for 10 cm x 6m to 10 cm x 11cm is 3 x 10
-
4
 J. The surface tension of the film is
(a) 1.0 x 10
-2
 N/m
(b) 6.0 x 10
-2
 N/m
(c) 3.0 x 10
-2
 N/m
(d) 1.5 x 10
-2
 N/m
10. A parallel palte condenser is filled with two dielectrics as shown in figure. Area of each pate is 
A m
2
 and the separation is d metre.
The dielectric constants are K
1
 and K
2
 respectively. Its capacitance in farad will be
11. A luminous object is placed at a distance of 30 cm from the convex lens of focal length 20 cm. 
On the other side of the lens, at what distance from the lens a convex mirror of radius of 
curvature 10 cm be placed in order to have an upright image of the object coincident with it
(a) 30 cm
(b) 60 cm
(c) 50 cm
(d) 12 cm
12. A battery of emf 10 V and internal resistance of 0.5 ohm is connected across a variable 
resistance R. The maximum value of R is given by
(a) 0.5O
(b) 1.00O
(c) 2.0O
(d) 0.25O
13. For a R/C
v
 gas = 0.67. This gas is made up of cv molecules which are
(a) mono atomic
(b) poly atomic
(c) mixture of diatomic and poly atomic molecules
(d) diatomic
14. A point source of light is placed 4 m below the surface of water of refractive index 5/3.
The minimum diameter of a disc which should be placed over the source on the surface of water 
to cut-off all light coming out of water is
(a) 6 m
(b) 3 m
(c) 4 m
(d) 2 m
15. A moving body of mass m and velocity 3 km/h collides with a rest body of mass 2 m and stick 
to it. Now the combined mass starts to move. What will be the combined velocity?
(a) 4 km/h
(b) 1 km/h
(c) 2 km/h
(d) 3 km/h
16. A transverse wave is represented by the equation
y = y
0
 sin (2 / ) – 27c (vt – k) p?
For what value of X is the particle velocity equal to two times the wave velocity
(a)  = y ? p
0
(b)  = ( y ? p
0
/2)
(c)  = ( y ? p
0
/3)
(d)  = 2 /y ? p
0
17. Ionisation potential of hydrogen atom is 13.6 eV. Hydrogen atom on the ground state rarely 
excited by monochromatic radiation of photon 12.1 eV. The special line emitted by a hydrogen 
atom according to Bohr’s theory will be
(a) one
(b) two
(c) three
(d) four
18. The internal resistance of a primary cell is 4 . It generates a current of 0.2 A in an external O
resistance of 21 The rate at which chemical energy to consumed in providing current is O
(a) 1 J/s
(b) 5 J/s
(c) 0.42 J/s
(d) 0.8 J/s
19. The binding energy per nucleon is maximum in the case
20. Two rigid bodies A and B rotate with rotational kinetic energies E
A
 and E
B
 respectively. The 
moments of inertia of A and B about the axis of rotation are I
A
 and I
B
 respectively.
If I
A
 = I
B
 and E
A
 = 100 = E
B
 the ratio of 4 angular momentum (L
A
) of A to the angular momentum 
(L
B
) of B is
(a) 25
(b) 5/4
(c) 5
(d) 1/4
21. The working principle of a ball point pen is
(a) Bernoulli’s theorem
(b) surface tension
(c) gravity
(d) viscosity
22. Progressive waves are represented by the equation
y
1
 = a sin ( t – x) ?
and y
2
 = b cos ( t — x) ?
The phase difference between waves is
(a) 0°
(b) 45°
(c) 90°
(d) 180°
23. Two simple pendulums of length 0.5 m and 20 m respectively are given small linear 
displacement in one direction at the same time. They will again be in the phase when the 
pendulum of shorter length has completed x oscillations, where k is
(a) 1
(b) 3
(c) 2
(d) 5
24. A balloon contains 500 m
3
 of helium at 27°C and 1 atmosphere pressure. The volume of the 
helium at —3° C temperature and 0.5 atmosphere pressure will be
(a) 1000 m
3
(b) 900 m
3
(c) 700 m
3
(d) 500 m
3
25. 220 V, 50 Hz, AC source is connected to an inductance of 0.2 H and a resistance of 20  in O
series. What is the current in the circuit?
(a) 3.33 A
(b) 33.3 A
(c) 5A
(d) 10 A
26. In 0.2 s, the current in a coil increases from 2.0 A to 3.0 A. If inductance of coil is 60 mH, then 
induced current in external resistance
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FAQs on JIPMER Entrance Exam Solved Paper - 2013 - JIPMER: Subject wise Tests & Practice Mock Tests 2024 - NEET

1. What is the JIPMER Entrance Exam?
Ans. The JIPMER Entrance Exam is an entrance examination conducted by the Jawaharlal Institute of Postgraduate Medical Education and Research (JIPMER) for admission to its undergraduate medical courses. It is a highly competitive exam for aspiring medical students.
2. How can I apply for the JIPMER Entrance Exam?
Ans. To apply for the JIPMER Entrance Exam, you need to visit the official website of JIPMER and fill out the online application form. The application process usually starts in the month of March/April, and the exam is conducted in June. Make sure to fulfill the eligibility criteria and submit all the required documents and fees before the deadline.
3. What is the syllabus for the JIPMER Entrance Exam?
Ans. The syllabus for the JIPMER Entrance Exam includes subjects such as Physics, Chemistry, Biology, English, and Logical Reasoning. It is based on the curriculum of Class 11 and Class 12 of the CBSE Board. The questions are usually multiple-choice and test the candidate's knowledge and understanding of these subjects.
4. How can I prepare for the JIPMER Entrance Exam?
Ans. To prepare for the JIPMER Entrance Exam, you should start by thoroughly studying the subjects mentioned in the syllabus. Make use of good reference books, study materials, and online resources. Practice solving previous years' question papers and take mock tests to improve your time management and problem-solving skills. It is also advisable to join a coaching institute or seek guidance from experienced mentors.
5. What is the exam pattern and duration of the JIPMER Entrance Exam?
Ans. The JIPMER Entrance Exam is a computer-based test (CBT) with a duration of 2 hours and 30 minutes. It consists of 200 multiple-choice questions, with 60 questions each from Physics, Chemistry, and Biology, and 10 questions each from English and Logical Reasoning. Each correct answer carries 4 marks, and 1 mark is deducted for each wrong answer.
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