Orbital constraints refer to the limitations and boundaries that dictate the behavior of objects within a celestial body's orbit, such as a planet, moon, or satellite. These constraints are governed by the laws of physics, particularly the principles of orbital mechanics, and define parameters such as the size, shape, and orientation of an object's orbit, as well as its speed and position within that orbit. Orbital constraints play a crucial role in determining the stability, longevity, and functionality of satellites, spacecraft, and other artificial objects in space, as well as influencing the dynamics and evolution of natural celestial bodies. Understanding and effectively managing these constraints are essential for successful space missions and the safe operation of space infrastructure.