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JEE Advanced Model Paper 7 with solutions for online practice
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© examsnet.com
Question : 8
Total: 66
A half section of pipe of mass m and radius r rests on a rough horizontal surface. A verticalforce F is applied as shown. Assuming that the section rolls without sliding. Then [Centre ofmass of half ring is
2
r
π
below the centre] :
The moment of inertia about an axis passing through P and parallel to the axis of pipe is
2
m
r
2
π
(π - 2)
For the instant shown, the angular acceleration is
F
π
2
m
r
(
π
−
2
)
The moment of inertia about an axis passing through A and parallel to the axis of pipe is
2
m
r
2
For rolling without slipping, the co-efficient of friction between the surfaces should be µ =
F
2
(
m
g
+
F
)
Validate
Solution:
Torque due to applied force τ = Fr =
I
p
α
Where
I
p
is the moment of inertia about an axis passing through point of contact
I
0
=
I
G
+
m
(
O
G
)
2
=
m
r
2
⇒
I
G
=
m
r
2
-
m
(
O
G
)
2
I
p
=
I
G
+
m
(
G
P
)
2
=
m
r
2
-
m
(
O
G
)
2
+
m
(
r
−
O
G
)
2
=
3
m
r
2
-
4
m
r
2
π
where OG =
2
r
π
=
2
m
r
2
π
(π - 2)
Angular acceleration
α =
F
r
π
2
m
r
2
(
π
−
2
)
=
F
π
2
m
r
2
(
π
−
2
)
in the clockwise direction
At p , mg + F = N
Friction force f = µM = µ (mg + F)
For pure rolling , a =
µ
(
m
g
+
F
)
m
= α (PG)
µ =
m
α
(
P
G
)
(
m
g
+
F
)
=
m
[
F
π
2
m
r
(
π
−
2
)
]
r
(
π
−
2
)
π
(
m
g
+
F
)
=
F
2
(
m
g
+
F
)
© examsnet.com
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