Titan, a satellite of Saturn, has a mean orbital radius of 1.22 × 10⁹ m. The orbital period of Titan is 15.95 days. Hyperion, another satellite of Saturn, orbits at a mean radius of 1.48 × 10⁹ m. Estimate the orbital period of Hyperion.

Introduction

This problem uses Kepler’s Third Law, which relates the orbital period of a satellite to the radius of its orbit. Specifically, for satellites orbiting the same planet (Saturn in this case), the square of the orbital period is proportional to the cube of the orbital radius:

(T₁/T₂)² = (R₁/R₂)³

Given Data

• Orbital radius of Titan, R₁ = 1.22 × 10⁹ m
• Orbital period of Titan, T₁ = 15.95 days
• Orbital radius of Hyperion, R₂ = 1.48 × 10⁹ m
• We are to find: T₂ (orbital period of Hyperion)

Step 1: Use Kepler’s Third Law

(T₁/T₂)² = (R₁/R₂)³

So, T₂ = T₁ × (R₂/R₁)^3/2

Step 2: Plug in the Values

R₂ / R₁ = (1.48 / 1.22) = 1.2131

(R₂/R₁)^3/2 = (1.2131)^1.5 ≈ 1.336

T₂ = 15.95 × 1.336 ≈ 21.32 days

Final Answer

Estimated orbital period of Hyperion: 21.32 days

Conclusion

Using Kepler’s Third Law, we find that Hyperion, which orbits farther from Saturn than Titan, takes approximately 21.32 days to complete one orbit. This law is very useful in astronomy to relate orbits of celestial bodies around the same central mass.