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Page 1
2024
Q1 - 2024 (01 Feb Shift 1)
Two identical charged spheres are suspended by strings of equal lengths. The strings
make an angle ?? with each other. When suspended in water the angle remains the
same. If density of the material of the sphere is 1.5g/cc, the dielectric constant of water
will be
(Take density of water = 1g/cc)
Q2 - 2024 (01 Feb Shift 2)
C
1
andC
2
are two hollow concentric cubes enclosing charges 2Q and 3Q respectively as
shown in figure. The ratio of electric flux passing through ?? 1
and?? 2
is:
(1) 2: 5
(2) 5: 2
(3) 2: 3
(4) 3: 2
Q3 - 2024 (01 Feb Shift 2)
Suppose a uniformly charged wall provides a uniform electric field of 2 × 10
4
N/C
normally. A charged particle of mass 2g being suspended through a silk thread of length
Page 2
2024
Q1 - 2024 (01 Feb Shift 1)
Two identical charged spheres are suspended by strings of equal lengths. The strings
make an angle ?? with each other. When suspended in water the angle remains the
same. If density of the material of the sphere is 1.5g/cc, the dielectric constant of water
will be
(Take density of water = 1g/cc)
Q2 - 2024 (01 Feb Shift 2)
C
1
andC
2
are two hollow concentric cubes enclosing charges 2Q and 3Q respectively as
shown in figure. The ratio of electric flux passing through ?? 1
and?? 2
is:
(1) 2: 5
(2) 5: 2
(3) 2: 3
(4) 3: 2
Q3 - 2024 (01 Feb Shift 2)
Suppose a uniformly charged wall provides a uniform electric field of 2 × 10
4
N/C
normally. A charged particle of mass 2g being suspended through a silk thread of length
20cm and remain stayed at a distance of 10cm from the wall. Then the charge on the
particle will be
1
?? ?? C where x = [use g = 10m/s
2
]
Q4 - 2024 (27 Jan Shift 1)
An electric charge 10
-6
?? C is placed at origin (0,0)m of X - Y co-ordinate system. Two
points P and Q are situated at ( 3, 3)m and ( 6, 0)m respectively. The potential
difference between the points ?? and ?? will be :
(1) 3V
(2) 6V
(3) 0V
(4) 3V
Q5 - 2024 (27 Jan Shift 1)
A thin metallic wire having cross sectional area of 10
-4
m
2
is used to make a ring of
radius 30cm. A positive charge of 2?? C is uniformly distributed over the ring, while
another positive charge of 30pC is kept at the centre of the ring. The tension in the ring is
__ N; provided that the ring does not get deformed (neglect the influence of gravity).
(given,
1
4?? ?? 0
= 9 × 10
9
SI units)
Q6 - 2024 (27 Jan Shift 2)
Given below are two statements : one is labelled as
Assertion (A) and the other is labeled as Reason (R)
Assertion (A): Work done by electric field on moving a positive charge on an
equipotential surface is always zero.
Reason (R): Electric lines of forces are always perpendicular to equipotential surfaces.
In the light of the above statements, choose the most appropriate answer from the
options given below :
(1) Both (A) and (R) are correct but (R) is not the correct explanation of (A)
(2) ((?? ) is correct but (?? ) is not correct
(3) (A) is not correct but (R) is correct
(4) Both (A) and (R) are correct and (R) is the correct explanation of (A)
Q7 - 2024 (27 Jan Shift 2)
Two charges of -4?? C and +4?? C are placed at the points ?? (1,0,4)m and ?? (2,-1,5)m
located in an electric field E
= 0.20i V/cm. The magnitude of the torque acting on the
dipole is 8 ?? × 10
-5
Nm, Where ?? =
Q8 - 2024 (27 Jan Shift 2)
Page 3
2024
Q1 - 2024 (01 Feb Shift 1)
Two identical charged spheres are suspended by strings of equal lengths. The strings
make an angle ?? with each other. When suspended in water the angle remains the
same. If density of the material of the sphere is 1.5g/cc, the dielectric constant of water
will be
(Take density of water = 1g/cc)
Q2 - 2024 (01 Feb Shift 2)
C
1
andC
2
are two hollow concentric cubes enclosing charges 2Q and 3Q respectively as
shown in figure. The ratio of electric flux passing through ?? 1
and?? 2
is:
(1) 2: 5
(2) 5: 2
(3) 2: 3
(4) 3: 2
Q3 - 2024 (01 Feb Shift 2)
Suppose a uniformly charged wall provides a uniform electric field of 2 × 10
4
N/C
normally. A charged particle of mass 2g being suspended through a silk thread of length
20cm and remain stayed at a distance of 10cm from the wall. Then the charge on the
particle will be
1
?? ?? C where x = [use g = 10m/s
2
]
Q4 - 2024 (27 Jan Shift 1)
An electric charge 10
-6
?? C is placed at origin (0,0)m of X - Y co-ordinate system. Two
points P and Q are situated at ( 3, 3)m and ( 6, 0)m respectively. The potential
difference between the points ?? and ?? will be :
(1) 3V
(2) 6V
(3) 0V
(4) 3V
Q5 - 2024 (27 Jan Shift 1)
A thin metallic wire having cross sectional area of 10
-4
m
2
is used to make a ring of
radius 30cm. A positive charge of 2?? C is uniformly distributed over the ring, while
another positive charge of 30pC is kept at the centre of the ring. The tension in the ring is
__ N; provided that the ring does not get deformed (neglect the influence of gravity).
(given,
1
4?? ?? 0
= 9 × 10
9
SI units)
Q6 - 2024 (27 Jan Shift 2)
Given below are two statements : one is labelled as
Assertion (A) and the other is labeled as Reason (R)
Assertion (A): Work done by electric field on moving a positive charge on an
equipotential surface is always zero.
Reason (R): Electric lines of forces are always perpendicular to equipotential surfaces.
In the light of the above statements, choose the most appropriate answer from the
options given below :
(1) Both (A) and (R) are correct but (R) is not the correct explanation of (A)
(2) ((?? ) is correct but (?? ) is not correct
(3) (A) is not correct but (R) is correct
(4) Both (A) and (R) are correct and (R) is the correct explanation of (A)
Q7 - 2024 (27 Jan Shift 2)
Two charges of -4?? C and +4?? C are placed at the points ?? (1,0,4)m and ?? (2,-1,5)m
located in an electric field E
= 0.20i V/cm. The magnitude of the torque acting on the
dipole is 8 ?? × 10
-5
Nm, Where ?? =
Q8 - 2024 (27 Jan Shift 2)
The electric potential at the surface of an atomic nucleus (z = 50) of radius 9 × 10
-13
cm
is______ × 10
6
V
Q9 - 2024 (29 Jan Shift 1)
Two charges of 5Q and -2Q are situated at the points (3?? , 0) and (-5?? , 0) respectively.
The electric flux through a sphere of radius ' 4a ' having center at origin is :
(1)
2?? ?? 0
(2)
5?? ?? 0
(3)
7Q
?? 0
(4)
3?? ?? 0
Q10 - 2024 (29 Jan Shift 1)
Match List I with List II
List I List II
A.
? B
· dl
= ?? 0
i
c
+ ?? 0
?? 0
d?? E
dt
I.
Gauss'
law for
electricity
B. hath ? E
· di =
d?? B
dt
II.
Gauss'
law for
magnetism
C. ? E
· dA
=
Q
?? 0
III.
Faraday
law
Page 4
2024
Q1 - 2024 (01 Feb Shift 1)
Two identical charged spheres are suspended by strings of equal lengths. The strings
make an angle ?? with each other. When suspended in water the angle remains the
same. If density of the material of the sphere is 1.5g/cc, the dielectric constant of water
will be
(Take density of water = 1g/cc)
Q2 - 2024 (01 Feb Shift 2)
C
1
andC
2
are two hollow concentric cubes enclosing charges 2Q and 3Q respectively as
shown in figure. The ratio of electric flux passing through ?? 1
and?? 2
is:
(1) 2: 5
(2) 5: 2
(3) 2: 3
(4) 3: 2
Q3 - 2024 (01 Feb Shift 2)
Suppose a uniformly charged wall provides a uniform electric field of 2 × 10
4
N/C
normally. A charged particle of mass 2g being suspended through a silk thread of length
20cm and remain stayed at a distance of 10cm from the wall. Then the charge on the
particle will be
1
?? ?? C where x = [use g = 10m/s
2
]
Q4 - 2024 (27 Jan Shift 1)
An electric charge 10
-6
?? C is placed at origin (0,0)m of X - Y co-ordinate system. Two
points P and Q are situated at ( 3, 3)m and ( 6, 0)m respectively. The potential
difference between the points ?? and ?? will be :
(1) 3V
(2) 6V
(3) 0V
(4) 3V
Q5 - 2024 (27 Jan Shift 1)
A thin metallic wire having cross sectional area of 10
-4
m
2
is used to make a ring of
radius 30cm. A positive charge of 2?? C is uniformly distributed over the ring, while
another positive charge of 30pC is kept at the centre of the ring. The tension in the ring is
__ N; provided that the ring does not get deformed (neglect the influence of gravity).
(given,
1
4?? ?? 0
= 9 × 10
9
SI units)
Q6 - 2024 (27 Jan Shift 2)
Given below are two statements : one is labelled as
Assertion (A) and the other is labeled as Reason (R)
Assertion (A): Work done by electric field on moving a positive charge on an
equipotential surface is always zero.
Reason (R): Electric lines of forces are always perpendicular to equipotential surfaces.
In the light of the above statements, choose the most appropriate answer from the
options given below :
(1) Both (A) and (R) are correct but (R) is not the correct explanation of (A)
(2) ((?? ) is correct but (?? ) is not correct
(3) (A) is not correct but (R) is correct
(4) Both (A) and (R) are correct and (R) is the correct explanation of (A)
Q7 - 2024 (27 Jan Shift 2)
Two charges of -4?? C and +4?? C are placed at the points ?? (1,0,4)m and ?? (2,-1,5)m
located in an electric field E
= 0.20i V/cm. The magnitude of the torque acting on the
dipole is 8 ?? × 10
-5
Nm, Where ?? =
Q8 - 2024 (27 Jan Shift 2)
The electric potential at the surface of an atomic nucleus (z = 50) of radius 9 × 10
-13
cm
is______ × 10
6
V
Q9 - 2024 (29 Jan Shift 1)
Two charges of 5Q and -2Q are situated at the points (3?? , 0) and (-5?? , 0) respectively.
The electric flux through a sphere of radius ' 4a ' having center at origin is :
(1)
2?? ?? 0
(2)
5?? ?? 0
(3)
7Q
?? 0
(4)
3?? ?? 0
Q10 - 2024 (29 Jan Shift 1)
Match List I with List II
List I List II
A.
? B
· dl
= ?? 0
i
c
+ ?? 0
?? 0
d?? E
dt
I.
Gauss'
law for
electricity
B. hath ? E
· di =
d?? B
dt
II.
Gauss'
law for
magnetism
C. ? E
· dA
=
Q
?? 0
III.
Faraday
law
D.
? ??
· ?? ??
= 0
IV.
Ampere -
Maxwell
law
Chose the correct answer from the options given below
(1) A-IV, B-I, C-III, D-II
(2) A-II, B-III, C-I, D-IV
(3) A-IV, B-III, C-I, D-II
(4) A-I, B-II, C-III, D-IV
Q11 - 2024 (29 Jan Shift 1)
An electron is moving under the influence of the electric field of a uniformly charged
infinite plane sheet ?? having surface charge density +?? . The electron at ?? = 0 is at a
distance of 1m from S and has a speed of 1m/s. The maximum value of ?? if the electron
strikes S at t = 1s is ??
m?? 0
e
C
m
2
the value of ?? is
Q12 - 2024 (29 Jan Shift 2)
An electric field is given by (6?? + 5?? + 3??
)?? /?? . The electric flux through a surface area
30i m
2
lying in YZplane (in SI unit) is :
(1) 90
(2) 150
(3) 180
(4) 60
Q13 - 2024 (30 Jan Shift 1)
The electrostatic potential due to an electric dipole at a distance ' ?? ' varies as:
(1) r
(2)
1
?? 2
(3)
1
?? 3
(4)
1
??
Q14 - 2024 (30 Jan Shift 2)
A particle of charge ' -?? ' and mass ' ?? ' moves in a circle of radius ' ?? ' around an
infinitely long line charge of linear density ' +?? '. Then time period will be given as:
Page 5
2024
Q1 - 2024 (01 Feb Shift 1)
Two identical charged spheres are suspended by strings of equal lengths. The strings
make an angle ?? with each other. When suspended in water the angle remains the
same. If density of the material of the sphere is 1.5g/cc, the dielectric constant of water
will be
(Take density of water = 1g/cc)
Q2 - 2024 (01 Feb Shift 2)
C
1
andC
2
are two hollow concentric cubes enclosing charges 2Q and 3Q respectively as
shown in figure. The ratio of electric flux passing through ?? 1
and?? 2
is:
(1) 2: 5
(2) 5: 2
(3) 2: 3
(4) 3: 2
Q3 - 2024 (01 Feb Shift 2)
Suppose a uniformly charged wall provides a uniform electric field of 2 × 10
4
N/C
normally. A charged particle of mass 2g being suspended through a silk thread of length
20cm and remain stayed at a distance of 10cm from the wall. Then the charge on the
particle will be
1
?? ?? C where x = [use g = 10m/s
2
]
Q4 - 2024 (27 Jan Shift 1)
An electric charge 10
-6
?? C is placed at origin (0,0)m of X - Y co-ordinate system. Two
points P and Q are situated at ( 3, 3)m and ( 6, 0)m respectively. The potential
difference between the points ?? and ?? will be :
(1) 3V
(2) 6V
(3) 0V
(4) 3V
Q5 - 2024 (27 Jan Shift 1)
A thin metallic wire having cross sectional area of 10
-4
m
2
is used to make a ring of
radius 30cm. A positive charge of 2?? C is uniformly distributed over the ring, while
another positive charge of 30pC is kept at the centre of the ring. The tension in the ring is
__ N; provided that the ring does not get deformed (neglect the influence of gravity).
(given,
1
4?? ?? 0
= 9 × 10
9
SI units)
Q6 - 2024 (27 Jan Shift 2)
Given below are two statements : one is labelled as
Assertion (A) and the other is labeled as Reason (R)
Assertion (A): Work done by electric field on moving a positive charge on an
equipotential surface is always zero.
Reason (R): Electric lines of forces are always perpendicular to equipotential surfaces.
In the light of the above statements, choose the most appropriate answer from the
options given below :
(1) Both (A) and (R) are correct but (R) is not the correct explanation of (A)
(2) ((?? ) is correct but (?? ) is not correct
(3) (A) is not correct but (R) is correct
(4) Both (A) and (R) are correct and (R) is the correct explanation of (A)
Q7 - 2024 (27 Jan Shift 2)
Two charges of -4?? C and +4?? C are placed at the points ?? (1,0,4)m and ?? (2,-1,5)m
located in an electric field E
= 0.20i V/cm. The magnitude of the torque acting on the
dipole is 8 ?? × 10
-5
Nm, Where ?? =
Q8 - 2024 (27 Jan Shift 2)
The electric potential at the surface of an atomic nucleus (z = 50) of radius 9 × 10
-13
cm
is______ × 10
6
V
Q9 - 2024 (29 Jan Shift 1)
Two charges of 5Q and -2Q are situated at the points (3?? , 0) and (-5?? , 0) respectively.
The electric flux through a sphere of radius ' 4a ' having center at origin is :
(1)
2?? ?? 0
(2)
5?? ?? 0
(3)
7Q
?? 0
(4)
3?? ?? 0
Q10 - 2024 (29 Jan Shift 1)
Match List I with List II
List I List II
A.
? B
· dl
= ?? 0
i
c
+ ?? 0
?? 0
d?? E
dt
I.
Gauss'
law for
electricity
B. hath ? E
· di =
d?? B
dt
II.
Gauss'
law for
magnetism
C. ? E
· dA
=
Q
?? 0
III.
Faraday
law
D.
? ??
· ?? ??
= 0
IV.
Ampere -
Maxwell
law
Chose the correct answer from the options given below
(1) A-IV, B-I, C-III, D-II
(2) A-II, B-III, C-I, D-IV
(3) A-IV, B-III, C-I, D-II
(4) A-I, B-II, C-III, D-IV
Q11 - 2024 (29 Jan Shift 1)
An electron is moving under the influence of the electric field of a uniformly charged
infinite plane sheet ?? having surface charge density +?? . The electron at ?? = 0 is at a
distance of 1m from S and has a speed of 1m/s. The maximum value of ?? if the electron
strikes S at t = 1s is ??
m?? 0
e
C
m
2
the value of ?? is
Q12 - 2024 (29 Jan Shift 2)
An electric field is given by (6?? + 5?? + 3??
)?? /?? . The electric flux through a surface area
30i m
2
lying in YZplane (in SI unit) is :
(1) 90
(2) 150
(3) 180
(4) 60
Q13 - 2024 (30 Jan Shift 1)
The electrostatic potential due to an electric dipole at a distance ' ?? ' varies as:
(1) r
(2)
1
?? 2
(3)
1
?? 3
(4)
1
??
Q14 - 2024 (30 Jan Shift 2)
A particle of charge ' -?? ' and mass ' ?? ' moves in a circle of radius ' ?? ' around an
infinitely long line charge of linear density ' +?? '. Then time period will be given as:
(Consider k as Coulomb's constant)
(1) T
2
=
4?? 2
m
2k?? q
r
3
(2) ?? = 2?? ??
?? 2?? ?? ??
(3) T =
1
2?? r
m
2k?? q
(4) T =
1
2??
2k?? q
m
Q15 - 2024 (30 Jan Shift 2)
Two identical charged spheres are suspended by string of equal lengths. The string
make an angle of 37
°
with each other. When suspended in a liquid of density 0.7g/cm
3
,
the angle remains same. If density of material of the sphere is 1.4g/cm
3
, the dielectric
constant of the liquid is tan? 37
°
=
3
4
.
Q16 - 2024 (31 Jan Shift 1)
Two charges ?? and 3?? are separated by a distance ' ?? ' in air. At a distance ?? from
charge ?? , the resultant electric field is zero. The value of ?? is :
(1)
(1+ 3)
r
(2)
?? 3(1+ 3)
(3)
?? (1+ 3)
(4) r(1 + 3)
Q17 - 2024 (31 Jan Shift 2)
Force between two point charges q
1
and q
2
placed in vacuum at ' ?? '
cm apart is F. Force
between them when placed in a medium having dielectric K = 5 at ' r/5
'
cm apart will be:
(1) F/25
(2) 5F
(3) F/5
(4) 25F
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FAQs on Electrostatic Potential and Capacitance: JEE Mains Previous Year Questions (2021-2024) - Physics for JEE Main & Advanced
| 1. What is the formula for calculating the electrostatic potential due to a point charge? |  |
Ans. The formula for calculating the electrostatic potential due to a point charge is V = kq/r, where V is the electrostatic potential, k is the electrostatic constant, q is the charge, and r is the distance from the point charge.
| 2. How can we determine the electric potential energy stored in a capacitor? | |
Ans. The electric potential energy stored in a capacitor can be determined using the formula U = 1/2 * Q^2 / C, where U is the electric potential energy, Q is the charge on the capacitor, and C is the capacitance of the capacitor.
| 3. What is the relationship between electric potential and electric field strength? | |
Ans. The relationship between electric potential and electric field strength is given by the formula E = -dV/dr, where E is the electric field strength, V is the electric potential, and r is the distance from the source of the electric field.
| 4. How does the capacitance of a parallel plate capacitor change when the distance between the plates is increased? | |
Ans. The capacitance of a parallel plate capacitor increases when the distance between the plates is increased. This is because capacitance is directly proportional to the area of the plates and inversely proportional to the distance between the plates.
| 5. Can the electrostatic potential at a point be negative? | |
Ans. Yes, the electrostatic potential at a point can be negative. This indicates that work must be done by an external force to bring a positive test charge from infinity to that point, against the electric field.
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The guide includes previous years' question papers for students to familiarize themselves with the exam's format and difficulty level.
Additionally, it offers subject-specific question banks, allowing students to focus on weak areas and improve their performance.
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The content of Electrostatic Potential and Capacitance: JEE Mains Previous Year Questions (2021-2024) is prepared as per the latest JEE syllabus.
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