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Page 1
1
FINAL JEE –MAIN EXAMINATION – JULY, 2022
(Held On Friday 29
th
July, 2022) TIME : 9 : 00 AM to 12 : 00 NOON
PHYSICS TEST PAPER WITH SOLUTION
SECTION-A
1. Given below are two statements : One is labelled
as Assertion (A) and other is labelled as
Reason (R).
Assertion (A) : Time period of oscillation of a
liquid drop depends on surface tension (S), if
density of the liquid is p and radius of the drop is r,
then T =
3
2
3
pr
k
s
is dimensionally correct,
where K is dimensionless.
Reason (R) : Using dimensional analysis we get
R.H.S. having different dimension than that of time
period.
In the light of above statements, choose the correct
answer from the options given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is false but (R) is true
Official Ans. by NTA (D)
Sol.
3
3
2
r
Tk
s
?
?
Dimensions of RHS =
33 1
2 2 2
13
0
8 2
3
2 4
M L L
M L T
MT
?
?
? ? ? ?
? ? ? ?
? ? ? ?
?
??
??
Dimensions of L.H.S ? Dimensions of R.H.S
? option (D)
2. A ball is thrown up vertically with a certain
velocity so that, it reaches a maximum height h.
Find the ratio of the times in which it is at height
h
3
while going up and coming down respectively.
(A)
21
21
?
?
(B)
32
32
?
?
(C)
31
31
?
?
(D)
1
3
Official Ans. by NTA (B)
Sol.
Max. Height = h =
2
u
2g
u 2gh ??
S = ut +
2
1
at
2
2
h1
2ght ( g)t
32
? ? ?
2
gt h
2ght 0
23
? ? ? (Roots are t
1
& t
2
)
2
1
g h 4gh
2gh 2gh 4 2gh
t 32
2 3 3
t g h 4gh 3 2
2gh 2gh 4 2gh
2 3 3
? ? ? ? ?
?
? ? ?
?
? ? ? ? ?
Page 2
1
FINAL JEE –MAIN EXAMINATION – JULY, 2022
(Held On Friday 29
th
July, 2022) TIME : 9 : 00 AM to 12 : 00 NOON
PHYSICS TEST PAPER WITH SOLUTION
SECTION-A
1. Given below are two statements : One is labelled
as Assertion (A) and other is labelled as
Reason (R).
Assertion (A) : Time period of oscillation of a
liquid drop depends on surface tension (S), if
density of the liquid is p and radius of the drop is r,
then T =
3
2
3
pr
k
s
is dimensionally correct,
where K is dimensionless.
Reason (R) : Using dimensional analysis we get
R.H.S. having different dimension than that of time
period.
In the light of above statements, choose the correct
answer from the options given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is false but (R) is true
Official Ans. by NTA (D)
Sol.
3
3
2
r
Tk
s
?
?
Dimensions of RHS =
33 1
2 2 2
13
0
8 2
3
2 4
M L L
M L T
MT
?
?
? ? ? ?
? ? ? ?
? ? ? ?
?
??
??
Dimensions of L.H.S ? Dimensions of R.H.S
? option (D)
2. A ball is thrown up vertically with a certain
velocity so that, it reaches a maximum height h.
Find the ratio of the times in which it is at height
h
3
while going up and coming down respectively.
(A)
21
21
?
?
(B)
32
32
?
?
(C)
31
31
?
?
(D)
1
3
Official Ans. by NTA (B)
Sol.
Max. Height = h =
2
u
2g
u 2gh ??
S = ut +
2
1
at
2
2
h1
2ght ( g)t
32
? ? ?
2
gt h
2ght 0
23
? ? ? (Roots are t
1
& t
2
)
2
1
g h 4gh
2gh 2gh 4 2gh
t 32
2 3 3
t g h 4gh 3 2
2gh 2gh 4 2gh
2 3 3
? ? ? ? ?
?
? ? ?
?
? ? ? ? ?
2
3.
t4
dx
If t x 4,then is:
dt
?
??
??
??
??
(A) 4 (B) Zero
(C) 8 (D) 16
Official Ans. by NTA (B)
Sol. t x 4 ??
? x = (t – 4)
2
= t
2
– 8t + 16
dx
dt
? = 2t – 8
t4
dx
2 4 8 0
dt
?
? ? ? ? ?
4. A smooth circular groove has a smooth vertical
wall as shown in figure. A block of mass m moves
against the wall with a speed v. Which of the
following curve represents the correct relation
between the normal reaction on the block by the
wall (N) and speed of the block (v) ?
V
(A)
N
v
(B)
N
v
(C)
N
v
(D)
N
v
Official Ans. by NTA (A)
Sol.
2
mv
N
r
?
Curve is parabola
Y = kx
2
5. A ball is projected with kinetic energy E, at an
angle of 60
0
to the horizontal. The kinetic energy
of this ball at the highest point of its flight will
become :
(A) Zero (B)
E
2
(C)
E
4
(D) E
Official Ans. by NTA (C)
Sol.
60
o
ucos60
o
u
2
1
E mu
2
?
At Highest point, Velocity V = u cos60
o
=
u
2
? K.E at topmost point =
2
1 u E
m
2 2 4
??
?
??
??
6. Two bodies of mass 1 kg and 3 kg have position
vectors
ˆ ˆ ˆ
i 2j k ?? and
ˆ ˆ ˆ
3i 2j k ? ? ? respectively.
The magnitude of position vector of centre of mass
of this system will be similar to the magnitude of
vector :
(A)
ˆ ˆ ˆ
i 2j k ?? (B)
ˆ ˆ ˆ
3i 2j k ? ? ?
(C)
ˆˆ
2i 2k ?? (D)
ˆ ˆ ˆ
2i j 2k ? ? ?
Official Ans. by NTA (A)
Sol.
1 1 2 2
com
12
ˆ ˆ ˆ ˆ ˆ ˆ
1(i 2j k) 3( 3i 2j k) m r m r
r
m m 1 3
? ? ? ? ? ? ?
??
??
ˆ ˆ ˆ
2i j k ? ? ? ?
2 2 2
ˆ ˆ ˆ
|2i j k| (2) (1) (1) 6 ? ? ? ? ? ?
Page 3
1
FINAL JEE –MAIN EXAMINATION – JULY, 2022
(Held On Friday 29
th
July, 2022) TIME : 9 : 00 AM to 12 : 00 NOON
PHYSICS TEST PAPER WITH SOLUTION
SECTION-A
1. Given below are two statements : One is labelled
as Assertion (A) and other is labelled as
Reason (R).
Assertion (A) : Time period of oscillation of a
liquid drop depends on surface tension (S), if
density of the liquid is p and radius of the drop is r,
then T =
3
2
3
pr
k
s
is dimensionally correct,
where K is dimensionless.
Reason (R) : Using dimensional analysis we get
R.H.S. having different dimension than that of time
period.
In the light of above statements, choose the correct
answer from the options given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is false but (R) is true
Official Ans. by NTA (D)
Sol.
3
3
2
r
Tk
s
?
?
Dimensions of RHS =
33 1
2 2 2
13
0
8 2
3
2 4
M L L
M L T
MT
?
?
? ? ? ?
? ? ? ?
? ? ? ?
?
??
??
Dimensions of L.H.S ? Dimensions of R.H.S
? option (D)
2. A ball is thrown up vertically with a certain
velocity so that, it reaches a maximum height h.
Find the ratio of the times in which it is at height
h
3
while going up and coming down respectively.
(A)
21
21
?
?
(B)
32
32
?
?
(C)
31
31
?
?
(D)
1
3
Official Ans. by NTA (B)
Sol.
Max. Height = h =
2
u
2g
u 2gh ??
S = ut +
2
1
at
2
2
h1
2ght ( g)t
32
? ? ?
2
gt h
2ght 0
23
? ? ? (Roots are t
1
& t
2
)
2
1
g h 4gh
2gh 2gh 4 2gh
t 32
2 3 3
t g h 4gh 3 2
2gh 2gh 4 2gh
2 3 3
? ? ? ? ?
?
? ? ?
?
? ? ? ? ?
2
3.
t4
dx
If t x 4,then is:
dt
?
??
??
??
??
(A) 4 (B) Zero
(C) 8 (D) 16
Official Ans. by NTA (B)
Sol. t x 4 ??
? x = (t – 4)
2
= t
2
– 8t + 16
dx
dt
? = 2t – 8
t4
dx
2 4 8 0
dt
?
? ? ? ? ?
4. A smooth circular groove has a smooth vertical
wall as shown in figure. A block of mass m moves
against the wall with a speed v. Which of the
following curve represents the correct relation
between the normal reaction on the block by the
wall (N) and speed of the block (v) ?
V
(A)
N
v
(B)
N
v
(C)
N
v
(D)
N
v
Official Ans. by NTA (A)
Sol.
2
mv
N
r
?
Curve is parabola
Y = kx
2
5. A ball is projected with kinetic energy E, at an
angle of 60
0
to the horizontal. The kinetic energy
of this ball at the highest point of its flight will
become :
(A) Zero (B)
E
2
(C)
E
4
(D) E
Official Ans. by NTA (C)
Sol.
60
o
ucos60
o
u
2
1
E mu
2
?
At Highest point, Velocity V = u cos60
o
=
u
2
? K.E at topmost point =
2
1 u E
m
2 2 4
??
?
??
??
6. Two bodies of mass 1 kg and 3 kg have position
vectors
ˆ ˆ ˆ
i 2j k ?? and
ˆ ˆ ˆ
3i 2j k ? ? ? respectively.
The magnitude of position vector of centre of mass
of this system will be similar to the magnitude of
vector :
(A)
ˆ ˆ ˆ
i 2j k ?? (B)
ˆ ˆ ˆ
3i 2j k ? ? ?
(C)
ˆˆ
2i 2k ?? (D)
ˆ ˆ ˆ
2i j 2k ? ? ?
Official Ans. by NTA (A)
Sol.
1 1 2 2
com
12
ˆ ˆ ˆ ˆ ˆ ˆ
1(i 2j k) 3( 3i 2j k) m r m r
r
m m 1 3
? ? ? ? ? ? ?
??
??
ˆ ˆ ˆ
2i j k ? ? ? ?
2 2 2
ˆ ˆ ˆ
|2i j k| (2) (1) (1) 6 ? ? ? ? ? ?
3
?
7. Given below are two statements : One is labelled
as Assertion (A) and the other is labelled as
Reason (R).
Assertion (A) : Clothes containing oil or grease
stains cannot be cleaned by water wash.
Reason (R) : Because the angle of contact between
the oil/ grease and water is obtuse. In the light of
the above statements, choose the correct answer
from the option given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is true but (R) is true
Official Ans. by NTA (A)
Sol.
Water
Oil
?c
?c > 90
o
For water oil interface
8. If the length of a wire is made double and radius is
halved of its respective values. Then, the Young’s
modules of the material of the wire will :
(A) Remains same
(B) Become 8 times its initial value
(C) Become
th
1
4
of its initial value
(D) Become 4 times its initial value
Official Ans. by NTA (A)
Sol. Y depends on material of wire
9. The time period of oscillation of a simple
pendulum of length L suspended from the roof of a
vehicle, which moves without friction down an
inclined plane of inclination ?, is given by :
(A) 2 L/(gcos ) ?? (B) 2 L/(gsin ) ??
(C) 2 L/g ? (D) 2 L/(gtan ) ??
Official Ans. by NTA (A)
Sol. g
cff
= gcos ? ?
a = g sin ?
g cos ?
g sin ?
g cos ?
?
?
L
T2
gcos
??
?
10. A spherically symmetric charge distribution is
considered with charge density varying as
0
3r
for r R
(r) 4R
for r R
Zero
???
?? ?
?
??
??
?? ?
?
?
?
Where, r(r < R) is the distance from the centre O
(as shown in figure). The electric field at point P
will be :
O
P
R
r
(r) ?
(A)
0
0
r3r
4 4 R
?
??
?
??
?
??
(B)
0
0
r3r
3 4 R
?
??
?
??
?
??
(C)
0
0
r r
1
4R
?
??
?
??
?
??
(D)
0
0
r r
1
5R
?
??
?
??
?
??
Official Ans. by NTA (C)
Sol. By Gauss law
O
P
R
r
(r) ?
in
o
Q
E.ds ?
?
?
r
2
o
2 0
0
3r
4 r dr
4R
E.4 r
??
? ? ?
??
??
??
?
?
34
2 o
o
4 3 r r
E4 r
4 3 4R
?? ??
? ? ?
??
?
??
3
2 o
o
r r
Er 1
4R
?
??
??
??
?
??
o
o
r r
E1
4R
?
??
??
??
?
??
Page 4
1
FINAL JEE –MAIN EXAMINATION – JULY, 2022
(Held On Friday 29
th
July, 2022) TIME : 9 : 00 AM to 12 : 00 NOON
PHYSICS TEST PAPER WITH SOLUTION
SECTION-A
1. Given below are two statements : One is labelled
as Assertion (A) and other is labelled as
Reason (R).
Assertion (A) : Time period of oscillation of a
liquid drop depends on surface tension (S), if
density of the liquid is p and radius of the drop is r,
then T =
3
2
3
pr
k
s
is dimensionally correct,
where K is dimensionless.
Reason (R) : Using dimensional analysis we get
R.H.S. having different dimension than that of time
period.
In the light of above statements, choose the correct
answer from the options given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is false but (R) is true
Official Ans. by NTA (D)
Sol.
3
3
2
r
Tk
s
?
?
Dimensions of RHS =
33 1
2 2 2
13
0
8 2
3
2 4
M L L
M L T
MT
?
?
? ? ? ?
? ? ? ?
? ? ? ?
?
??
??
Dimensions of L.H.S ? Dimensions of R.H.S
? option (D)
2. A ball is thrown up vertically with a certain
velocity so that, it reaches a maximum height h.
Find the ratio of the times in which it is at height
h
3
while going up and coming down respectively.
(A)
21
21
?
?
(B)
32
32
?
?
(C)
31
31
?
?
(D)
1
3
Official Ans. by NTA (B)
Sol.
Max. Height = h =
2
u
2g
u 2gh ??
S = ut +
2
1
at
2
2
h1
2ght ( g)t
32
? ? ?
2
gt h
2ght 0
23
? ? ? (Roots are t
1
& t
2
)
2
1
g h 4gh
2gh 2gh 4 2gh
t 32
2 3 3
t g h 4gh 3 2
2gh 2gh 4 2gh
2 3 3
? ? ? ? ?
?
? ? ?
?
? ? ? ? ?
2
3.
t4
dx
If t x 4,then is:
dt
?
??
??
??
??
(A) 4 (B) Zero
(C) 8 (D) 16
Official Ans. by NTA (B)
Sol. t x 4 ??
? x = (t – 4)
2
= t
2
– 8t + 16
dx
dt
? = 2t – 8
t4
dx
2 4 8 0
dt
?
? ? ? ? ?
4. A smooth circular groove has a smooth vertical
wall as shown in figure. A block of mass m moves
against the wall with a speed v. Which of the
following curve represents the correct relation
between the normal reaction on the block by the
wall (N) and speed of the block (v) ?
V
(A)
N
v
(B)
N
v
(C)
N
v
(D)
N
v
Official Ans. by NTA (A)
Sol.
2
mv
N
r
?
Curve is parabola
Y = kx
2
5. A ball is projected with kinetic energy E, at an
angle of 60
0
to the horizontal. The kinetic energy
of this ball at the highest point of its flight will
become :
(A) Zero (B)
E
2
(C)
E
4
(D) E
Official Ans. by NTA (C)
Sol.
60
o
ucos60
o
u
2
1
E mu
2
?
At Highest point, Velocity V = u cos60
o
=
u
2
? K.E at topmost point =
2
1 u E
m
2 2 4
??
?
??
??
6. Two bodies of mass 1 kg and 3 kg have position
vectors
ˆ ˆ ˆ
i 2j k ?? and
ˆ ˆ ˆ
3i 2j k ? ? ? respectively.
The magnitude of position vector of centre of mass
of this system will be similar to the magnitude of
vector :
(A)
ˆ ˆ ˆ
i 2j k ?? (B)
ˆ ˆ ˆ
3i 2j k ? ? ?
(C)
ˆˆ
2i 2k ?? (D)
ˆ ˆ ˆ
2i j 2k ? ? ?
Official Ans. by NTA (A)
Sol.
1 1 2 2
com
12
ˆ ˆ ˆ ˆ ˆ ˆ
1(i 2j k) 3( 3i 2j k) m r m r
r
m m 1 3
? ? ? ? ? ? ?
??
??
ˆ ˆ ˆ
2i j k ? ? ? ?
2 2 2
ˆ ˆ ˆ
|2i j k| (2) (1) (1) 6 ? ? ? ? ? ?
3
?
7. Given below are two statements : One is labelled
as Assertion (A) and the other is labelled as
Reason (R).
Assertion (A) : Clothes containing oil or grease
stains cannot be cleaned by water wash.
Reason (R) : Because the angle of contact between
the oil/ grease and water is obtuse. In the light of
the above statements, choose the correct answer
from the option given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is true but (R) is true
Official Ans. by NTA (A)
Sol.
Water
Oil
?c
?c > 90
o
For water oil interface
8. If the length of a wire is made double and radius is
halved of its respective values. Then, the Young’s
modules of the material of the wire will :
(A) Remains same
(B) Become 8 times its initial value
(C) Become
th
1
4
of its initial value
(D) Become 4 times its initial value
Official Ans. by NTA (A)
Sol. Y depends on material of wire
9. The time period of oscillation of a simple
pendulum of length L suspended from the roof of a
vehicle, which moves without friction down an
inclined plane of inclination ?, is given by :
(A) 2 L/(gcos ) ?? (B) 2 L/(gsin ) ??
(C) 2 L/g ? (D) 2 L/(gtan ) ??
Official Ans. by NTA (A)
Sol. g
cff
= gcos ? ?
a = g sin ?
g cos ?
g sin ?
g cos ?
?
?
L
T2
gcos
??
?
10. A spherically symmetric charge distribution is
considered with charge density varying as
0
3r
for r R
(r) 4R
for r R
Zero
???
?? ?
?
??
??
?? ?
?
?
?
Where, r(r < R) is the distance from the centre O
(as shown in figure). The electric field at point P
will be :
O
P
R
r
(r) ?
(A)
0
0
r3r
4 4 R
?
??
?
??
?
??
(B)
0
0
r3r
3 4 R
?
??
?
??
?
??
(C)
0
0
r r
1
4R
?
??
?
??
?
??
(D)
0
0
r r
1
5R
?
??
?
??
?
??
Official Ans. by NTA (C)
Sol. By Gauss law
O
P
R
r
(r) ?
in
o
Q
E.ds ?
?
?
r
2
o
2 0
0
3r
4 r dr
4R
E.4 r
??
? ? ?
??
??
??
?
?
34
2 o
o
4 3 r r
E4 r
4 3 4R
?? ??
? ? ?
??
?
??
3
2 o
o
r r
Er 1
4R
?
??
??
??
?
??
o
o
r r
E1
4R
?
??
??
??
?
??
4
11. Given below are two statements.
Statement I : Electric potential is constant within
and at the surface of each conductor.
Statement II : Electric field just outside a charged
conductor is perpendicular to the surface of the
conductor at every point.
In the light of the above statements, choose the
most appropriate answer from the options give
below.
(A) Both statement I and statement II are correct
(B) Both statement I and statement II are incorrect
(C) Statement I is correct but statement II is
incorrect
(D) Statement I is incorrect but and statement II is
correct
Official Ans. by NTA (A)
Sol. (Properties of conductor)
Statement – I, true as body of conductor acts as
equipotential surface.
Statement – 2 True, as conductor is equipotential.
Tangential component of electric field should be
zero. Therefore electric field should be
perpendicular to surface.
12. Two metallic wires of identical dimensions are
connected is series. If
1
? and
2
? are the
conductivities of the these wires respectively, the
effective conductivity of the combination is :
(A)
12
12
??
? ? ?
(B)
12
12
2??
? ? ?
(C)
12
12
2
? ? ?
??
(D)
12
12
? ? ?
??
Official Ans. by NTA (B)
Sol.
? ?
A
2 ?
?
A 1
?
2
?
eq
?
Let length of wire be ‘ ’
Area of wire as ‘A’
For equivalent wire length = 2 & area will be A
Thermal resistance
R
eq
= R
1
+ R
2
eq 1 1
2
A A A
??
? ? ?
12
eq
eq 1 2 1 2
2 2 ??
? ? ? ? ?
? ? ? ? ? ?
13. An alternating emf E = 440 sin 100 ?t is applited to
a circuit containing an inductance of
2
?
H. If an
a.c. ammeter is connected in the circuit, its reading
will be :
(A) 4.4 A (B) 1.55 A
(C) 2.2 A (D) 3.11 A
Official Ans. by NTA (C)
Sol. E = 440 Sin100?t , L =
2
H
?
X
L
= L ? = 100 ?
2
?
= 100 2 ?
0
0
L
E 440
PeakcurrentI 2.2 2
X 100 2
? ? ? A
AC ammeter reads RMS value therefore reading
will be I
rms
I
rms
=
0
I
2
= 2.2 A
14. A coil of inductance 1 H and resistance 100 ? is
connected to a battery of 6 V. Determine
approximately :
(a) The time elapsed before the current acquires
half of its steady – state value
(b) The energy stored in the magnetic field
associated with the coil at an instant 15 ms after
the circuit is switched on. (Given In2 = 0.693,
e
-3/2
= 0.25)
(A) t = 10 ms; U = 2 mJ
(B) t = 10 ms; U = 1 mJ
(C) t = 7 ms; U = 1 mJ
(D) t = 7 ms; U = 2 mJ
Official Ans. by NTA (C)
Page 5
1
FINAL JEE –MAIN EXAMINATION – JULY, 2022
(Held On Friday 29
th
July, 2022) TIME : 9 : 00 AM to 12 : 00 NOON
PHYSICS TEST PAPER WITH SOLUTION
SECTION-A
1. Given below are two statements : One is labelled
as Assertion (A) and other is labelled as
Reason (R).
Assertion (A) : Time period of oscillation of a
liquid drop depends on surface tension (S), if
density of the liquid is p and radius of the drop is r,
then T =
3
2
3
pr
k
s
is dimensionally correct,
where K is dimensionless.
Reason (R) : Using dimensional analysis we get
R.H.S. having different dimension than that of time
period.
In the light of above statements, choose the correct
answer from the options given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is false but (R) is true
Official Ans. by NTA (D)
Sol.
3
3
2
r
Tk
s
?
?
Dimensions of RHS =
33 1
2 2 2
13
0
8 2
3
2 4
M L L
M L T
MT
?
?
? ? ? ?
? ? ? ?
? ? ? ?
?
??
??
Dimensions of L.H.S ? Dimensions of R.H.S
? option (D)
2. A ball is thrown up vertically with a certain
velocity so that, it reaches a maximum height h.
Find the ratio of the times in which it is at height
h
3
while going up and coming down respectively.
(A)
21
21
?
?
(B)
32
32
?
?
(C)
31
31
?
?
(D)
1
3
Official Ans. by NTA (B)
Sol.
Max. Height = h =
2
u
2g
u 2gh ??
S = ut +
2
1
at
2
2
h1
2ght ( g)t
32
? ? ?
2
gt h
2ght 0
23
? ? ? (Roots are t
1
& t
2
)
2
1
g h 4gh
2gh 2gh 4 2gh
t 32
2 3 3
t g h 4gh 3 2
2gh 2gh 4 2gh
2 3 3
? ? ? ? ?
?
? ? ?
?
? ? ? ? ?
2
3.
t4
dx
If t x 4,then is:
dt
?
??
??
??
??
(A) 4 (B) Zero
(C) 8 (D) 16
Official Ans. by NTA (B)
Sol. t x 4 ??
? x = (t – 4)
2
= t
2
– 8t + 16
dx
dt
? = 2t – 8
t4
dx
2 4 8 0
dt
?
? ? ? ? ?
4. A smooth circular groove has a smooth vertical
wall as shown in figure. A block of mass m moves
against the wall with a speed v. Which of the
following curve represents the correct relation
between the normal reaction on the block by the
wall (N) and speed of the block (v) ?
V
(A)
N
v
(B)
N
v
(C)
N
v
(D)
N
v
Official Ans. by NTA (A)
Sol.
2
mv
N
r
?
Curve is parabola
Y = kx
2
5. A ball is projected with kinetic energy E, at an
angle of 60
0
to the horizontal. The kinetic energy
of this ball at the highest point of its flight will
become :
(A) Zero (B)
E
2
(C)
E
4
(D) E
Official Ans. by NTA (C)
Sol.
60
o
ucos60
o
u
2
1
E mu
2
?
At Highest point, Velocity V = u cos60
o
=
u
2
? K.E at topmost point =
2
1 u E
m
2 2 4
??
?
??
??
6. Two bodies of mass 1 kg and 3 kg have position
vectors
ˆ ˆ ˆ
i 2j k ?? and
ˆ ˆ ˆ
3i 2j k ? ? ? respectively.
The magnitude of position vector of centre of mass
of this system will be similar to the magnitude of
vector :
(A)
ˆ ˆ ˆ
i 2j k ?? (B)
ˆ ˆ ˆ
3i 2j k ? ? ?
(C)
ˆˆ
2i 2k ?? (D)
ˆ ˆ ˆ
2i j 2k ? ? ?
Official Ans. by NTA (A)
Sol.
1 1 2 2
com
12
ˆ ˆ ˆ ˆ ˆ ˆ
1(i 2j k) 3( 3i 2j k) m r m r
r
m m 1 3
? ? ? ? ? ? ?
??
??
ˆ ˆ ˆ
2i j k ? ? ? ?
2 2 2
ˆ ˆ ˆ
|2i j k| (2) (1) (1) 6 ? ? ? ? ? ?
3
?
7. Given below are two statements : One is labelled
as Assertion (A) and the other is labelled as
Reason (R).
Assertion (A) : Clothes containing oil or grease
stains cannot be cleaned by water wash.
Reason (R) : Because the angle of contact between
the oil/ grease and water is obtuse. In the light of
the above statements, choose the correct answer
from the option given below.
(A) Both (A) and (R) are true and (R) is the correct
explanation of (A)
(B) Both (A) and (R) are true but (R) is not the
correct explanation of (A)
(C) (A) is true but (R) is false
(D) (A) is true but (R) is true
Official Ans. by NTA (A)
Sol.
Water
Oil
?c
?c > 90
o
For water oil interface
8. If the length of a wire is made double and radius is
halved of its respective values. Then, the Young’s
modules of the material of the wire will :
(A) Remains same
(B) Become 8 times its initial value
(C) Become
th
1
4
of its initial value
(D) Become 4 times its initial value
Official Ans. by NTA (A)
Sol. Y depends on material of wire
9. The time period of oscillation of a simple
pendulum of length L suspended from the roof of a
vehicle, which moves without friction down an
inclined plane of inclination ?, is given by :
(A) 2 L/(gcos ) ?? (B) 2 L/(gsin ) ??
(C) 2 L/g ? (D) 2 L/(gtan ) ??
Official Ans. by NTA (A)
Sol. g
cff
= gcos ? ?
a = g sin ?
g cos ?
g sin ?
g cos ?
?
?
L
T2
gcos
??
?
10. A spherically symmetric charge distribution is
considered with charge density varying as
0
3r
for r R
(r) 4R
for r R
Zero
???
?? ?
?
??
??
?? ?
?
?
?
Where, r(r < R) is the distance from the centre O
(as shown in figure). The electric field at point P
will be :
O
P
R
r
(r) ?
(A)
0
0
r3r
4 4 R
?
??
?
??
?
??
(B)
0
0
r3r
3 4 R
?
??
?
??
?
??
(C)
0
0
r r
1
4R
?
??
?
??
?
??
(D)
0
0
r r
1
5R
?
??
?
??
?
??
Official Ans. by NTA (C)
Sol. By Gauss law
O
P
R
r
(r) ?
in
o
Q
E.ds ?
?
?
r
2
o
2 0
0
3r
4 r dr
4R
E.4 r
??
? ? ?
??
??
??
?
?
34
2 o
o
4 3 r r
E4 r
4 3 4R
?? ??
? ? ?
??
?
??
3
2 o
o
r r
Er 1
4R
?
??
??
??
?
??
o
o
r r
E1
4R
?
??
??
??
?
??
4
11. Given below are two statements.
Statement I : Electric potential is constant within
and at the surface of each conductor.
Statement II : Electric field just outside a charged
conductor is perpendicular to the surface of the
conductor at every point.
In the light of the above statements, choose the
most appropriate answer from the options give
below.
(A) Both statement I and statement II are correct
(B) Both statement I and statement II are incorrect
(C) Statement I is correct but statement II is
incorrect
(D) Statement I is incorrect but and statement II is
correct
Official Ans. by NTA (A)
Sol. (Properties of conductor)
Statement – I, true as body of conductor acts as
equipotential surface.
Statement – 2 True, as conductor is equipotential.
Tangential component of electric field should be
zero. Therefore electric field should be
perpendicular to surface.
12. Two metallic wires of identical dimensions are
connected is series. If
1
? and
2
? are the
conductivities of the these wires respectively, the
effective conductivity of the combination is :
(A)
12
12
??
? ? ?
(B)
12
12
2??
? ? ?
(C)
12
12
2
? ? ?
??
(D)
12
12
? ? ?
??
Official Ans. by NTA (B)
Sol.
? ?
A
2 ?
?
A 1
?
2
?
eq
?
Let length of wire be ‘ ’
Area of wire as ‘A’
For equivalent wire length = 2 & area will be A
Thermal resistance
R
eq
= R
1
+ R
2
eq 1 1
2
A A A
??
? ? ?
12
eq
eq 1 2 1 2
2 2 ??
? ? ? ? ?
? ? ? ? ? ?
13. An alternating emf E = 440 sin 100 ?t is applited to
a circuit containing an inductance of
2
?
H. If an
a.c. ammeter is connected in the circuit, its reading
will be :
(A) 4.4 A (B) 1.55 A
(C) 2.2 A (D) 3.11 A
Official Ans. by NTA (C)
Sol. E = 440 Sin100?t , L =
2
H
?
X
L
= L ? = 100 ?
2
?
= 100 2 ?
0
0
L
E 440
PeakcurrentI 2.2 2
X 100 2
? ? ? A
AC ammeter reads RMS value therefore reading
will be I
rms
I
rms
=
0
I
2
= 2.2 A
14. A coil of inductance 1 H and resistance 100 ? is
connected to a battery of 6 V. Determine
approximately :
(a) The time elapsed before the current acquires
half of its steady – state value
(b) The energy stored in the magnetic field
associated with the coil at an instant 15 ms after
the circuit is switched on. (Given In2 = 0.693,
e
-3/2
= 0.25)
(A) t = 10 ms; U = 2 mJ
(B) t = 10 ms; U = 1 mJ
(C) t = 7 ms; U = 1 mJ
(D) t = 7 ms; U = 2 mJ
Official Ans. by NTA (C)
5
?
Sol. Given circuit is R – L growth circuit
L = 1H
E = 6v
R = 100 ?
i =
t/
E
(1 e )
R
??
?
t/ )
EE
i (1 e )
2R R
??
? ? ?
Solvingt= t l n 2
11
t ln2 0.693 0.00693
R 100
? ? ?
= 7 ms
15
10
E
i(15ms) (1 e )
R
?
??
6 3 6
1
i (1 )
4
100 4 100
? ? ? ?
U =
1
2
LI
2
,
by solving we get U = 1 mJ.
15. Match List – I with List – II
List – I List - II
(a) UV rays (i) Diagnostic tool in
medicine
(b) X-rays (ii) Water purification
(c) Microwave (iii) Communication, Radar
(d) Infrared wave (iv) Improving visibility in
foggy days
Choose the correct answer from the options given
below :
(A) (a)–(iii), (b)-(ii), (c)-(i), (d)-(iv)
(B) (a)–(ii), (b)-(i), (c)-(iii), (d)-(iv)
(C) (a)–(ii), (b)-(iv), (c)-(iii), (d)-(i)
(D) (a)–(iii), (b)-(i), (c)-(ii), (d)-(iv)
Official Ans. by NTA (B)
Sol. (a) uv rays – used for water purification
(b) x-rays used for diagnosing fracture
(c) Microwaves are used for mobile and radar
communication
(d) Infrared waves show less scattering therefore
used in foggy days
(a – ii), (b – i), (c – iii), (d – iv)
16. The kinetic energy of emitted electron is E when
the light incident on the metal has wavelength
? ??To double the kinetic energy, the incident light
must have wavelength :
(A)
hc
E hc ??
(B)
hc
E hc
?
??
(C)
h
E hc
?
??
(D)
hc
E hc
?
??
Official Ans. by NTA (B)
Sol.
hc
E (i) ? ? ? ?
?
hc
2E (ii)
'
? ? ? ?
?
(ii) – (i)
11
E hc
'
??
??
??
??
??
hc
'
E hc
?
? ? ?
??
17. Find the ratio of energies of photons produced due
to transition of an election of hydrogen atom from
its(i) second permitted energy level to the first
level, and (ii) the highest permitted energy level to
the first permitted level.
(A) 3 : 4 (B) 4 : 3
(C) 1 : 4 (D) 4 : 1
Official Ans. by NTA (A)
Sol.
n 2
13.6
E ev
n
?
?
21
1
1
13.6(1 )
EE 3
4
E E 13.6 4
?
?
?
? ? ?
?
18. Find the modulation index of an AM wave having
8 V variation where maximum amplitude of the
AM wave is 9 V.
(A) 0.8 (B) 0.5
(C) 0.2 (D) 0.1
Official Ans. by NTA (A)
Sol. Modulation index:
m
c
A
m
A
?
Given 2A
m
= 8
A
m
+ A
c
= 9 ? A
c
= 5
4
m 0.8
5
? ? ?
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