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Question

A sphere is rolling without slipping on a fixed horizontal plane surface. In the figure, A is the point of contact, B is the centre of the sphere and C is its topmost point. Then,


A
VCVA=2(VBVC)
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B
VCVB=VBVA
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C
|VCVA|=2|VBVC|
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D
|VCVA|=4|VB|
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Solution

The correct options are
B VCVB=VBVA
C |VCVA|=2|VBVC|
Assume R is the radius of the sphere and ω is angular velocity (clockwise).


Then,
VC=VB+VC,B
VCVB=ωR ^i ...(i)
[VC,B=ω(^k)×R(^j)=ωR ^i]

VA=VB+VA,B
VAVB=ωR(^i)
[VA,B=ω(^k)×R(^j)=ωR (^i)]
VBVA=ωR ^i ...(ii)

From Eq. (i) and (ii) (i) + (ii)
VCVA=2ωR ^i ...(iii))
From Eq. (1) VBVC=ωR(^i) ...(iv)

From equation (i), (ii), (iii) & (iv) we can say
VCVA2(VBVC)
Option A is incorrect.
VCVB=VBVA (from Eq (1) & (ii))
Option B is correct.
|VCVA|=2ωR and |VBVC|=ωR
So, |VCVA|=2|VBVC|
Option C is correct.

Given, rolling without slipping
So, VA=0
VBωR=0
VB=ωR
|VB|=ωR ...(v)
Thus |VCVA|4|VB|
Option D is incorrect.

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