In polar areas, solar radiation strikes Earth at a small angle. The dissipation of light in the Earth's atmosphere is increased when it falls at a shallow angle.
In polar areas, solar radiation strikes Earth at a small angle. The dissipation of light in the Earth's atmosphere is increased when it falls at a shallow angle.
Ocean
Small angles
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).
Because the sun's ray's hits directly to the equator and on a slope to the polar regions providing less heat intensity to those latitudes.
high latitudes are blocked by clouds and lower latitude are not blocked by anything
In polar areas, solar radiation strikes Earth at a small angle. The dissipation of light in the Earth's atmosphere is increased when it falls at a shallow angle.
In polar areas, solar radiation strikes Earth at a small angle. The dissipation of light in the Earth's atmosphere is increased when it falls at a shallow angle.
energy is spread over a larger area
Ocean
Small angles
Solar Radiation --answer-- Solar radiation - consisting mainly of electrons and protons and other particles - interacts wit the Earth's magnetic field, generally in the polar regions (north and south) where the field is strongest.
Temperate, Tropical, and Polar are the three major climate zones. They differ because they each get different amounts of solar radiation. Tropical gets the most solar radiation, then Temperate, and polar gets the least.
Solar Radiation --answer-- Solar radiation - consisting mainly of electrons and protons and other particles - interacts wit the Earth's magnetic field, generally in the polar regions (north and south) where the field is strongest.
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).