The data from these satellites are vital for both operational meteorology and climate monitoring. Prior to the launch of MetOp-A, data from polar-orbiting satellites were provided by the satellites operated by the United States’ National Oceanic and Atmospheric Administration (NOAA). With MetOp, Europe will assume its role within an international system of meteorological satellites in polar orbit, much as had been previously achieved with Meteosat.  
 

	MetOp and NOAA orbits

Although MetOp-A will be in a polar orbit, it will not pass exactly over the geographic poles but will be slightly inclined at an angle of 98.7° to the Equator. At an altitude of 817 km, it will take about 100 minutes to complete one orbit. During the time it needs to complete an orbit, the Earth will have rotated around 25° which means observations will be made over a different section of the Earth in each orbit. With the sun being at a constant angle to the plane of MetOp-A’s orbit, the satellite is in a so-called sun-synchronous orbit.

Different instruments have different swath widths and hence will take different times to observe the entire Earth. However, all the instruments will have achieved almost complete global coverage within five days. All global data will be provided to users within 2.25 hours after being taken.

Within the Joint Polar System, the international system to which MetOp forms a part, MetOp-A will be responsible for the morning orbit which passes over the Equator at 09.30 local time, whilst the NOAA satellite occupies the afternoon orbit which passes over the Equator at 14.30 local time. Together, these two orbits will maximise the coverage over which the observations are made and provide inputs needed for the computer numerical models on which our weather forecasts depend.
 
 
Last update: 22 June 2006