absorbed
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.
Roughly 70% of the sun's energy is absorbed by the Earth's surface. The rest is reflected back into space or absorbed by the atmosphere.
About 50% of the sun's radiation that reaches Earth's atmosphere is absorbed by the Earth's surface. The remaining energy is either reflected back to space or absorbed by the atmosphere.
The amount of energy absorbed or reflected by Earth's surface is influenced by factors such as surface albedo, surface characteristics (e.g. vegetation, water bodies), and atmospheric conditions (e.g. clouds, aerosols). Different surfaces have different albedos, which determine how much solar radiation is absorbed versus reflected. Additionally, atmospheric components can impact the amount of energy reaching and interacting with the surface.
The amount of energy absorbed or reflected by Earth's surface depends on characteristics like surface color, texture, albedo (reflectivity), cloud cover, atmospheric composition, latitude, season, and time of day. These factors influence how much sunlight is absorbed or reflected by the surface, affecting the overall energy balance of the Earth.
Energy is being absorbed AND being reflected when the sun's ray strike the Earth's surface.
More energy from the sun is absorbed by Earth's surface than is reflected. This absorbed energy is converted into heat, which warms the Earth's surface and plays a crucial role in driving the planet's climate system.
absorbed
The radiation that Earth receives from the sun can be absorbed by the atmosphere, reflected back into space, or absorbed by the Earth's surface and converted into heat energy.
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.
Roughly 70% of the sun's radiation is absorbed by the Earth's surface, while the remaining 30% is reflected back into space. This absorbed energy plays a crucial role in driving Earth's climate and weather patterns.
the greenhouse