Geosynchronous vs Geostationary Orbits

There’s a sweet spot above the Earth where a satellite can match the same rotation of the Earth.

This special position in high Earth orbit is known as a geosynchronous orbit.

But how is this any different from a geostationary orbit?

Let’s dive into some of the differences between geosynchronous and geostationary orbits.

Geosynchronous Orbit

About 35,786 kilometers above the Earth’s surface are satellites in geostationary orbit. From the center of the Earth, this is approximately 42,164 kilometers. This distance puts it in the high Earth orbit category.

At any inclination, a geosynchronous orbit synchronizes with the rotation of the Earth. More specifically, the time it takes for the Earth to rotate on its axis is 23 hours, 56 minutes and 4.09 seconds, which is the same as a satellite in a geosynchronous orbit.

If you are an observer on the ground, you would see the satellite as if it’s in a fixed position without movement. This makes geosynchronous satellites particularly useful for telecommunications and other remote sensing applications.

Geosynchronous Orbit

Geostationary Orbits

While geosynchronous satellites can have any inclination, the key difference to geostationary orbit is the fact that they lie on the same plane as the equator.

Geostationary orbits fall in the same category as geosynchronous orbits, but with that one special quality of being parked over the equator.

Weather monitoring satellites like GOES are in geostationary orbits because they have a constant view of the same area. In a high Earth orbit, it’s also useful for search and rescue beacon.

Geostationary Orbit

Semi-Synchronous Orbits

Global Positioning System (GPS) satellites are in another sweet spot known as semi-synchronous orbits. While geosynchronous orbits match the rotation of Earth (24 hours), semi-synchronous orbits take 12 hours to complete an orbit.

Instead of 35,786 kilometers above the Earth’s surface, semi-synchronous orbits are approximately 20,200 kilometers above the surface. This puts them in the medium Earth orbit range out of the three classes of orbits.

These orbits are close to zero in eccentricity, meaning they are near-circular.

Semi-Synchronous Orbit

Did you know? Eccentric orbits define how stretched orbits are. The closer eccentricity is to zero, the more the orbit closer to a circle. The closer to one, the orbit becomes longer and skinnier.