Images & Animations
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Credit
NASA/Goddard Space Flight Center Scientific Visualization Studio
Instantaneous Incoming Solar Flux (WMS)
The Earth's climate is determined by energy transfer from the sun to the Earth's land, oceans, and atmosphere. As the Earth rotates, the sun lights up only part of the Earth at a time, and some of that incoming solar energy is reflected and some is absorbed, depending on type of area it lights. The amount of reflection and absorption is critical to the climate. An instrument named CERES orbits the Earth every 99 minutes and measures the reflected solar energy. This animation shows the incoming solar radiation within view of CERES during 29 orbits on June 20 and 21 of 2003. Because this is incoming solar flux, its magnitude only depends on the position of the sun, and, because the orbit is synchronized with the sun, the orbit crosses the equator in the daylight at about 1:30 PM local time on every orbit. This data is not actually measured from CERES, but is calculated to compare with the outgoing radiation that CERES does measure.
This animation shows incoming solar flux corresponding to 29 orbits (2 days) of CERES measurements, from June 20-21, 2003. This data is calculated using data from SORCE for the flux magnitude at the Earth's orbit, coupled with solar incidence angles based on CERES measurement locations and times.
Metadata
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Sensor
SORCE/TIM -
Animation ID
3105 -
Start Timecode
00:00:00:00 -
End Timecode
00:00:00:00 -
Animator
Horace Mitchell, Eric Sokolowsky -
Studio
SVS -
Visualization Date
2005/02/01 -
Scientist
Bruce Wielicki (NASA/LaRC) -
Datasets
Incoming Solar Radiation -
Keywords
GCMD--EARTH SCIENCE--Atmosphere--Atmospheric Radiation--Incoming Solar Radiation, GCMD--EARTH SCIENCE--Atmosphere--Atmospheric Radiation--Solar Irradiance, GCMD--EARTH SCIENCE--Sun-earth Interactions--Solar Activity--Solar Irradiance -
Georeference Data
[-180,-90,180,90] -
Data Date
2003/06/20-2003/06/22 -
Story URL
http://asd-www.larc.nasa.gov/ceres/ASDceres.html -
Animation Type
Regular
