A polar orbit or high-inclination orbit. In polar orbit, the satellite passes over the world from pole to pole, while the Earth spins beneath it. Each orbit would cover a different area.
If its orbit is tilted relative to the equator,it will move over different parts of the earth.
No. Satellites can't really be made that large or they won't go into orbit effectively. The satellite you're probably referring to is the US spy satellite that is being shot down. It is not responding to commands and will not attain the correct orbit. To prevent the military secrets from getting to other countries, the US is going to shoot it down and retrieve the parts. Another reason for the shoot-down is ostensibly the use of a hazardous substance on board.
The planets move intheir ellipticalorbits becauseof the gravitation of the Sun combined withthe inertial velocity of the planets(tangentialto their orbital paths). Mathematics shows the resulting orbits must be ellipses. (Some of the ellipses are in factalmost circles.)
core the crust the gases and its orbit
It's the other way around. The warmest parts of the earth are warmest because the sun has shone on them. Demonstrate with a high-power lamp shining on a globe. After a while, the parts that are lit will feel warmer to the touch.
The orbit of a satellite is determined based on the functions that the satellite needs to perform. A communications satellite.s purpose is to make communications easier. If it were in a very low orbit, the satellite would pass quickly overhead and you would only have a couple of moments to talk. A photo satellite needs to have a low orbit, to be close enough to take good pictures. Photo satellites are often in polar orbits to allow them to cover the entire globe rather than the same parts over and over again.
If its orbit is tilted relative to the equator,it will move over different parts of the earth.
If you mean PanAmSat, it is a leading provider of satellite operations, serving markets in all parts of the globe.
If the satellite is in an orbit that takes it over the North and South Poles, it will eventually cover all parts of the Earth as the Earth spins beneath it. This kind of orbit is called a polar orbit.
If the final speed is not the exact speed required for a circular orbit, the satellite will travel in an ellipse around Earth; the time for one revolution, as well as the highest and lowest parts of the orbit, will be different from the expected values. This may, or may not, be relevant, depending on what the satellite is used for. For example, a satellite may be designed to pass over a certain part of Earth every 24 hours. If the orbit is wrong, the timing - as well as the part of Earth over which it moves - will be off.
what are the different parts of the globe
A globe is a sphere, it is usually a single part.Parts of a globe consist of:LongitudeLatitudeNorth PoleSouth PoleSouthern HemisphereNorthern HemisphereEastern HemisphereWestern HemisphereEquatorPrime MeridianOceansIslands
The Globe Theater was the primary home of William Shakespeare's acting company. It had three main parts, the outside of the globe, the globe stage and the tiring house.
No. Satellites can't really be made that large or they won't go into orbit effectively. The satellite you're probably referring to is the US spy satellite that is being shot down. It is not responding to commands and will not attain the correct orbit. To prevent the military secrets from getting to other countries, the US is going to shoot it down and retrieve the parts. Another reason for the shoot-down is ostensibly the use of a hazardous substance on board.
the clock identifys the time in some parts of the globe
The planets move intheir ellipticalorbits becauseof the gravitation of the Sun combined withthe inertial velocity of the planets(tangentialto their orbital paths). Mathematics shows the resulting orbits must be ellipses. (Some of the ellipses are in factalmost circles.)
there are several things that can happen dependent on how the satellite breaks apart. some parts may remain in orbit around our planet. while others may enter our atmosphere, where they will, dependent on size either burn up compleatly or fall to the ground