Depending on the nature of the imbalance, it would either heat or cool till a balance point was reached.
It's actually the rain forest because that is the biome closest to the equator, meaning that it has a net radiation budget surplus (more solar radiation is absorbed than reflected/re-emitted as infrared radiation), unlike the biomes closer to the poles which will have a net radiation budget deficit (more infrared radiation is re-emitted/reflected than solar radiation that is absorbed).
It's actually the rain forest because that is the biome closest to the equator, meaning that it has a net radiation budget surplus (more solar radiation is absorbed than reflected/re-emitted as infrared radiation), unlike the biomes closer to the poles which will have a net radiation budget deficit (more infrared radiation is re-emitted/reflected than solar radiation that is absorbed).
arctic region
D) all of the above methane, nirtous oxide, water vapour because they all absorb solar radiation the atmosphere
The balance between incoming and outgoing energy is called radiation balance.
Radiation budget is Earth's atmosphere. The Earth's atmosphere has more solar energy than it radiates back to space.
It's actually the rain forest because that is the biome closest to the equator, meaning that it has a net radiation budget surplus (more solar radiation is absorbed than reflected/re-emitted as infrared radiation), unlike the biomes closer to the poles which will have a net radiation budget deficit (more infrared radiation is re-emitted/reflected than solar radiation that is absorbed).
It's actually the rain forest because that is the biome closest to the equator, meaning that it has a net radiation budget surplus (more solar radiation is absorbed than reflected/re-emitted as infrared radiation), unlike the biomes closer to the poles which will have a net radiation budget deficit (more infrared radiation is re-emitted/reflected than solar radiation that is absorbed).
G. Louis Smith has written: 'Atlas of albedo and absorbed solar radiation derived from Nimbus 7 earth radiation budget data set, November 1978 to October 1985' -- subject(s): Albedo, Charts, diagrams, Heat budget (Geophysics), Measurement, Measurrement, Nimbus (Artificial satellite), Terrestrial radiation 'Atlas of albedo and absorbed solar radiation derived from Nimubs 6 earth radiation budget data set - July 1975 to May 1978' -- subject(s): Albedo, Earth radiation budget, Solar radiation
radiation
solar energy absorbed by the sun
arctic region
Delinquent federal debt is debt by the government which has not been paid on time. This is generally a result of a unbalanced budget.
This is straight from the book: 1.Solar radiation hits Earth and it's atmosphere 2.Earth loses energy by reflection of sunlight from its surface and from clouds, dust, and air molecules in the atmosphere 3.Earth's surface, clouds, and atmosphere lose infrared radiation(heat) to space 4.Greenhouse gasses, such as carbon dioxide, let sunlight in but keep infrared radiation from escaping to space
Sally Ride and Marc Gameau helped to deploy the Earth Radiation Budget Satellite in 1984. It launched from Kennedy Space Center on October 5th, 1984.
the surplus became a deficit
the surplus became a deficit