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Assume the radius of the earth to be 6.4...

Assume the radius of the earth to be `6.4xx10^(6)m`
a. Calculate the time period `T` of a satellite on equational orbit at `1.4xx10^(e)m` above the surface of the earth.
b. What is the speed of the satellite in this orbit?
c. If the satellite is travelling in the same direction as the rotation of the earth i.e. west to east, what is the interval between two successie times at which it will appear vertically overhead to an observed at a fixed point on the equator?

A

`6831 s and 7174 " ms"^(-1)`

B

`34155 s and 3204 " ms"^(-1)`

C

`6831 s and 2144 " ms"^(-1)`

D

`2431 s and 3514 "ms"^(-1)`

Text Solution

Verified by Experts

The correct Answer is:
A
`r=R_("earth")+h=(6.4xx10^(6)+14xx10^(6))"m"`
`rArr r=7.8 xx 10^(6)"m"`
`T=[(4pi^(2)r^(3))/(GM_("earth"))]=6831s`
Speed of satellite, `v=sqrt((GM_("earth"))/(r))=7174 " ms"^(-1)`.
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