Had no effect at all, except for those satellites which were attempting to measure biodiversity.
Natural satellites (moons) dissipate energy that either originates in the body's hot core, or else has been previously absorbed from solar (sun) radiation. Artificial earth satellites typically operate on-board electronics with electric power from solar panels excited by the sun. They also use propellant carried at launch for station-keeping thrusters, and may also carry nuclear reactors when the load will exceed the available solar energy flux.
A satellite can do many things. There are weather, communication, navigation, and scientific satellites. Mostly the names will help you. The weather satellites give info about the weather of earth at all times. The communication satellites help get you communicating with other people like over phone or radio and television. Navigation satellites help sailors and other vehicle drivers navigate thoughout where they are going. Scientific satellites basically find out sciency things about the earth like radiation.
i should imagine its because EM waves can travel through a vacuum so that's why it is possible for satellites to broadcast information from impulse signals sent from outer space
they are different because they have different knds of energy and gases!!!!!!!!!!!!!
why don't you try that No need to, already been done. It creates a new "radiation belt", causing bright auroral displays at both pole regions. The radiation belt can damage or destroy the electronics of any unhardened satellites that cross the belt.
David Parry Rubincam has written: 'Earth albedo and the orbit of Lageos' -- subject- s -: Tracking, Artificial satellites, Albedo 'Lageos orbit decay due to infrared radiation from earth' -- subject- s -: Artificial satellites, Infrared radiation, Orbits
E. G Stassinopoulos has written: 'Topex orbital radiation study' -- subject(s): Artificial satellites, Extraterrestrial radiation
Artificial radiations is radiation that is cause by human activities. This radiation adds to the natural radiation that is around.
Brian Groveman has written: 'User's guide for ERB 7 MAT' -- subject(s): Artificial satellites, Terrestrial radiation
David Lukens Reasoner has written: 'The Combined Release and Radiation Effects Satellite Program, CRRES' -- subject(s): Extraterrestrial radiation, Remote sensing, Earth sciences, Radiation effects, Atmospheric chemistry, Earth magnetosphere, Earth resources technology satellites, Chemical effects, Artificial satellites, Earth ionosphere
Marie Curie initiated the research on radiation.
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Almost every satellite aside from communications satellites measures temperature. Weather satellites geostationary and polar orbiters measure infrared radiation and the temperature can be inferred when the emissivity of the radiation surface is known. While not always knowing this emissivity may seem to be a weakness it is actually use to determine characteristics of the radiation surface. A common example of a use of measuring temperature is that of thunderstorm cloud tops. The storms with the coldest cloud tops are either the heaviest rain producers or may even be severe (large hail and damaging winds).
There are weather sattellites that orbit the Earth that can detect reflected radiation, emitted radiation, or radiation reflected only by water vapour as well as satellites that emit microwave radiation to detect the clouds or precipitation.
Natural satellites (moons) dissipate energy that either originates in the body's hot core, or else has been previously absorbed from solar (sun) radiation. Artificial earth satellites typically operate on-board electronics with electric power from solar panels excited by the sun. They also use propellant carried at launch for station-keeping thrusters, and may also carry nuclear reactors when the load will exceed the available solar energy flux.
A wide variety of telescopes that are sensitive to different bands of electromagnetic radiation (e.g. radio, microwave, infrared, visible light, ultraviolet, x-rays, gamma rays) and subatomic particles (e.g. neutrinos, muons, cosmic rays). Most of these telescopes are on the surface of the earth, but some are on artificial satellites because the earth's atmosphere blocks those bands of electromagnetic radiation, and neutrino telescopes are buried in deep salt mines to shield the detectors from undesired radiation that would cause false detections.