Why Do Geostationary Satellites Have To Be Above The Equator? It is always directly over the same place on the Earth’s surface. … Satellites in geostationary orbit rotate with the Earth directly above the equator, continuously staying above the same spot. This position allows satellites to observe weather and other phenomena that vary on short
What Are Geostationary Orbits Used For? A geosynchronous orbit is a high Earth orbit that allows satellites to match Earth’s rotation. Located at 22,236 miles (35,786 kilometers) above Earth’s equator, this position is a valuable spot for monitoring weather, communications and surveillance. What is an advantage of a geostationary orbit? The geostationary orbit has the
What Is The Lowest Orbit Possible? A low Earth orbit (LEO) is, as the name suggests, an orbit that is relatively close to Earth’s surface. It is normally at an altitude of less than 1000 km but could be as low as 160 km above Earth – which is low compared to other orbits, but
What Is Special About A Geostationary Orbit? Geostationary orbit, a circular orbit 35,785 km (22,236 miles) above Earth’s Equator in which a satellite’s orbital period is equal to Earth’s rotation period of 23 hours and 56 minutes. A spacecraft in this orbit appears to an observer on Earth to be stationary in the sky. Why
What Is The Radius Of Circular Orbit Of A Stationary Satellite? Note that as the radius of the circular orbit increases, the orbital velocity decreases. For earth orbits, the gravitational parameter is μ = 3.986(105) km3/s2 and the circular speed for a standard 300-km altitude space shuttle orbit is 7.726 km/s. What is the radius
How Fast Does Space Debris Travel In A Geosynchronous Orbit? They travel at speeds up to 17,500 mph, fast enough for a relatively small piece of orbital debris to damage a satellite or a spacecraft. How long does it take for space debris to deorbit? “Below 500 km, the effect of the atmosphere, the spacecraft