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Question

A body is suspended from a spring balance kept in a satellite. The reading of the balance is W1 when the satellite goes in a an orbit of radius R and is W2 when it goes in an orbit or radius 2R.

A
W1=W2
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B
W1<W2
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C
W1>W2
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D
W1W2
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Solution

The correct option is A W1=W2


The orbital velocity of a satellite revolving around a planet of mass M in an orbit of radius r is given by v=GMrSince, the velocity of the body inside the satellite will be same as the orbital velocity of the planet, so the centrifugal force acting on the body will be,
Fc=mv2r

Fc=m(GMr)2r

Fc=GMmr2...(1)

Gravitational force acting on the body will be,

Fg=GMmr2...(2)

So, from free body diagram for a body hanging in the satellite,

T+Fc=Fg

where, T is the tension produced in spring balance.

Substituting the values from equation (1) and (2),

T+GMmr2=GMmr2

T=0

If weight W1 is measured by the spring balance, then

As, for spring balance T=W1=0

Thus, tension is zero in all cases.

Hence ,W1=W2=0.

So, option (a) is correct answer.

Alternate Solution:
For a satellite revolving around the earth at any orbital radius, the gravitational force towards earth is countered by centrifugal force Fg=Fc

So, for a body hanging in the satellite,

W1+Fc=Fg

W1=0

Similarly, W2=0.

Thus, W1=W2 ​ .

Hence, option (a) is the correct answer.
Why this question:

Any satellite in its circular orbit will not apply any reaction force and hence weightlessness will be felt inside a satellite.

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