The main cause of orbit deterioration is atmospheric drag, which is the resistance of Earth's atmosphere on objects orbiting within it. This drag causes the satellite or object to lose speed, eventually leading to a decrease in altitude and a change in the orbit's shape.
Space debris, such as old satellites, rocket stages, and fragments from collisions, can collide with functioning satellites and objects in orbit. These collisions can alter the orbit of the impacted object, causing it to deteriorate and potentially collide with other objects in the future.
Yes, the deterioration of orbits can be predicted by using mathematical models and data on atmospheric conditions. Scientists and engineers continuously monitor the orbits of satellites and objects and make predictions on when they may need to be repositioned or replaced.
To prevent orbit deterioration, satellites and objects can be equipped with thrusters to periodically adjust their orbits. Additionally, satellites can be designed with protective shielding to minimize the effects of atmospheric drag. Properly disposing of space debris and avoiding collisions can also help prevent orbit deterioration.
The consequences of deteriorating orbits can vary depending on the affected satellite or object. In some cases, the object may fall out of orbit and burn up in Earth's atmosphere. In others, it may collide with other objects, causing damage and potential disruption of communication and navigation systems. Deteriorating orbits can also lead to an increase in space debris, which can pose a threat to future space missions.