5 Must Know Facts For Your Next Test

1. Orbital decay is primarily caused by atmospheric drag, especially for low Earth orbit (LEO) satellites that encounter significant air resistance.
2. The rate of orbital decay increases with lower altitudes due to denser atmosphere and increased friction, resulting in quicker descent rates.
3. Space debris can contribute to orbital decay when colliding with operational satellites, leading to further fragmentation and potential collisions.
4. Satellites are often designed with end-of-life protocols to manage orbital decay and ensure safe re-entry or controlled deorbiting.
5. Monitoring systems track objects in orbit to predict potential collisions and assess the risk of orbital decay affecting active satellites.

Review Questions

• How does atmospheric drag influence the process of orbital decay for satellites in low Earth orbit?
  • Atmospheric drag is a significant factor influencing orbital decay for satellites in low Earth orbit. As these satellites travel through the upper layers of the atmosphere, they experience resistance from air molecules, which slows them down and decreases their altitude. Over time, this friction causes their orbits to decay more rapidly, eventually leading to re-entry into the atmosphere or collision with the Earth’s surface if not managed effectively.
• Discuss the role of tidal forces in affecting the stability of a satellite's orbit and how this relates to orbital decay.
  • Tidal forces result from gravitational interactions between a satellite and other celestial bodies, such as Earth and the Moon. These forces can create variations in gravitational pull that affect a satellite's trajectory and stability. When a satellite's orbit is perturbed by these tidal influences, it may experience changes in speed and altitude that contribute to orbital decay. Understanding these forces is crucial for predicting satellite behavior over time and planning necessary adjustments.
• Evaluate the implications of orbital decay on space debris management and the safety of operational satellites in Earth's orbit.
  • Orbital decay poses significant challenges for space debris management and the safety of operational satellites. As non-functional satellites and debris experience orbital decay, they risk re-entering Earth's atmosphere unpredictably, which could lead to hazardous situations for both populated areas and functioning satellites. Effective tracking systems are essential for monitoring these objects to avoid collisions and mitigate risks. Moreover, implementing strategies like controlled deorbiting for defunct satellites can help reduce the accumulation of space debris and ensure safer use of Earth's orbital regions.

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