If the orbit of a satellite is inclined or polar then the satellite will not remain at the same point relative to a particular point on the earth. A geostationary orbit achieved by being in a location where the. show that if it goes round once a day its angular velocity w is a little over A geostationary orbit is valuable for the constant view it provides, but satellites in a geostationary orbit are parked over the equator, so they don’t work well for far northern or southern locations, which are always on the edge of view for a geostationary satellite.

Geosynchronous satellites may be inclined relative to the equator and have a figure 8 ground path. Geostationary. Above the equator is the only place they can be geostationary, as they are orbiting around the Earth at the same rate as the ground beneath them. Why must a geostationary satellite orbit over the equator? Geostationary is a very specific type of geosynchronous orbit, where the satellite is permanently overhead at the same location (it's orbital period is equal to the Earth's rotational period).

If you have in inclination of anything other than 0, it will spend half of its orbit north of the equator and half of its orbit south of the equator.

This allows the satellite to remain completely stationary over a fixed point on the earth's surface. Weather monitoring satellites like GOES are in geostationary orbits because they have a constant view of the same area. The term geostationary comes from the fact that such a satellite appears … about 36,000 km (22,000 miles) above the Earth's surface. They can still be geosynchronous, however, so they still go round the earth in 24 hours. I was trying to figure this out too.

Above the equator is the only place they can be geostationary, as they are orbiting around the Earth at the same rate as the ground beneath them.

If the satellite passes directly above any point that's not on the equator then it must either be to the north or south of it, and the corresponding great circle will be half to the north, half to the south of the equator. There cannot be a geostationary satellite at the poles, basically because it would have to be at rest, which cannot happen as it would get pulled by the earth's gravity and eventually crash to the surface. Why must a geostationary satellite orbit over the equator? a geostationary satellite for communications seems to be in a fixed spot above the equator because it has the same angular velocity as the earth. That means that it's not geostationary; it's drifting from north to south and back again. But I got it as soon as I came across your explanation. A geostationary satellite is an earth-orbiting satellite, placed at an altitude of approximately 35,800 kilometers (22,300 miles) directly over the equator, that revolves in the same direction the earth rotates (west to east).

In fact, there cannot be a geostationary satellite anywhere else, except above the equator(in an equatorial orbit). Homework Statement Explain why a geostationary satellite must be placed vertically above the equator. A geostationary orbit is a specific type of geosynchronous orbit directly above the equator.

This means the satellite is. Similar Questions. Located at 22,236 miles (35,786 kilometers) above Earth's equator, this position is … show that if it goes round once a day its angular velocity w is a little over asked by Shaila on August 23, 2010; physics. In fact, there cannot be a geostationary satellite anywhere else, except above the equator(in an equatorial orbit). Geostationary satellite orbits can only be above the equator and therefore polar regions cannot be covered. Geostationary orbits fall in the same category as geosynchronous orbits, but it’s parked over the equator. A geosynchronous satellite is a satellite in geosynchronous orbit, with an orbital period the same as the Earth's rotation period. A geostationary satellite is in a geostationary orbit, which can only be achieved at an altitude very close to 35,786 km (22,236 m) and keeps the satellite fixed over one longitude at the equator. satellite's orbital period is 24 hours. a geostationary satellite for communications seems to be in a fixed spot above the equator because it has the same angular velocity as the earth. As it so happens, that’s simply not true. There are several hundred communication satellites and several meteorological satellites in such an orbit. A geosynchronous orbit is a high Earth orbit that allows satellites to match Earth's rotation. In other words, a geostationary satellite remains exactly above the Earth’s equator at all times. Remember that all satellites and debris in GEO and below must cross the equator twice per orbit. So... See full answer below.