Two satellites S(1) and S(2) are revolvi...

Two satellites `S_(1)` and `S_(2)` are revolving around the earth in coplanar concentric orbits in the opposite sense. At `t=0`, the position of satellites are shown in the diagram. The periods of `S_(1)` and `S_(2)` are `4h` and `24h`, respectively. The radius of orbit of `S_(1)` is `1.28xx10^(4)km`. For this situation, mark the correct statement (s).

The angular velocity of `S_(2)` as observed by `S_(1)` at `t=12h` is `0.468pirads^(-1)`

The two satellites are closet to each other for the first tme at `t=12h` and then after every `24 h` they are closet to each other.

The orbital velocity of `S_(1)` is `0.64pixx10^(4)km`.

The velocity of `S_(1)` relative to `S_(2)` is continuously changing in magnitude and direction both.

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The correct Answer is:

A, B, C, D

From Kepler's law, `T^(2)propR^(3)`
So, `(T_(1))/(T_(2))=((R_(1))/(R_(2)))^(3/2)`
`R_(2)=((T_(2))/(T_(1)))^(2/3)xxR_(1)=(24/6)^(2/3)xx1.28xx10^(4)km`
`=3.22xx10^(4)km`
Orbital velocity of `S_(1)` is
`v_(1)=(2piR_(1))/(T_(1))=(2pixx1.28xx10^(4))/4`
`=0.64pixx10^(4)km`
Orbital velocity is `S_(2)` is
`v_(2)=(2piR_(2))/(T_(2))=(2pixx1.28xx10^(4))/4`
`=0.64pixx10^(4)km`
At `t=12 h` the two satellites are closet to each other and after every `24 h` they come at the same position relative to each other. It is clear that direction of `v_(2)` w.r.t `v_(1)` is changing continously in both magnitude and direction.
Angular velocity of `S_(2)` w.r.t `S_(1)` at `t=12 h` is
`omega=(v_(1)+v_(2))//(R_(2)-R_(1))=0.468pirad//s^(-1)`

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