Most of the light's energy gets converted into heat.
Longer wavelength energy is typically absorbed and converted into heat by materials. This process occurs in objects such as the Earth's surface, which absorbs longer wavelength energy from the Sun and warms up as a result.
infared
Long wave radiation in the Earth's energy budget primarily comes from the Earth's surface. The surface absorbs shortwave radiation from the sun and then emits longwave radiation back into the atmosphere. This longwave radiation plays a crucial role in maintaining the Earth's energy balance.
When light energy is absorbed by the Earth, it is converted into heat energy. The Earth's surface absorbs sunlight and then releases the absorbed energy as infrared radiation, which warms the atmosphere and plays a crucial role in maintaining the planet's temperature for sustaining life.
The majority of the sun's energy is absorbed by the Earth's atmosphere before it reaches the surface.
Water vapor, carbon dioxide, methane, and other gases absorb most of the energy that is radiated from Earth's surface.
Yes, the Earth's surface absorbs about 50% of the Sun's incoming solar radiation, while the atmosphere absorbs about 20%. The absorbed energy is then re-emitted by the Earth's surface as infrared radiation.
Water vapor, carbon dioxide, methane, and other gases absorb most of the energy that is radiated from Earth's surface.
Longer wavelength energy is typically absorbed and converted into heat by materials. This process occurs in objects such as the Earth's surface, which absorbs longer wavelength energy from the Sun and warms up as a result.
the answer is thermal
Much of it is absorbed by the atmosphere. The ozone layer absorbs a lot of it.
infared
Energy from the sun that is absorbed by the Earth's surface is reflected back into the atmosphere or absorbed by land and water and transformed into heat.
Radiant energy will either be reflected or absorbed by a surface. The usual rule regarding this reflection depends on the color of the object and the color of the light. For example, a red object only reflects red light, and absorbs the rest. A blue object only reflects blue light, and absorbs the rest. This goes for all of the colors. When radiant energy is absorbed, the object will heat up. Hope this helps!
Most of it is reflected back into space.
Most of it is reflected back into space.
Most of it is reflected back into space.