A satellite in a circular orbit of radius $R$ has a period of $4\,hours$. Another satellite with orbital radius $3 \, R$ around the,same planet will have a period (in hours)
- $16$
- $4$
- $4\sqrt{27} $
- $4\sqrt{8} $
The Correct Option is C
Solution and Explanation
$ T^{2} \propto R^{3} $
$\Rightarrow \frac{T_{2}}{T_{1}}=\left(\frac{R_{2}}{R_{1}}\right)^{3 / 2} $
$\therefore \frac{T_{2}}{T_{1}}=\left(\frac{3 R}{R}\right)^{3 / 2} $
$\Rightarrow \frac{T_{2}}{T_{1}}=\sqrt{27} $
$\therefore T_{2}=\sqrt{27} T_{1}=\sqrt{27} \times 4=4 \sqrt{27} h$
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Concepts Used:
Gravitation
In mechanics, the universal force of attraction acting between all matter is known as Gravity, also called gravitation, . It is the weakest known force in nature.
Newton’s Law of Gravitation
According to Newton’s law of gravitation, “Every particle in the universe attracts every other particle with a force whose magnitude is,
- F ∝ (M1M2) . . . . (1)
- (F ∝ 1/r2) . . . . (2)
On combining equations (1) and (2) we get,
F ∝ M1M2/r2
F = G × [M1M2]/r2 . . . . (7)
Or, f(r) = GM1M2/r2
The dimension formula of G is [M-1L3T-2].