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Which greenhouse gas is the most powerful absorber radiation emitted by earth?
Carbon dioxide (CO2) is the most powerful absorber of longwave radiation emitted by Earth, leading to the greenhouse effect and global warming.
How do greenhouse gases absorb shortwave radiation?
Greenhouse gases absorb shortwave radiation by allowing it to pass through the Earth's atmosphere and reach the surface. Once the radiation hits the surface, it is absorbed and re-emitted as longwave radiation. Greenhouse gases then trap this longwave radiation, preventing it from escaping back into space and causing the Earth's temperature to rise.
What type of radiation is in the atmosphere due to greenhouse gases?
Infrared radiation is the type of radiation trapped in the atmosphere due to greenhouse gases. This radiation is emitted by the Earth's surface and is absorbed and re-radiated by greenhouse gases, such as carbon dioxide and water vapor, leading to the warming of the Earth's surface.
What are the differences between long wave radiation and shortwave radiation in terms of their impact on the Earth's atmosphere?
Longwave radiation refers to infrared radiation emitted by the Earth's surface and atmosphere, which can be absorbed by greenhouse gases and contribute to warming the atmosphere. Shortwave radiation, such as sunlight, is absorbed by the Earth's surface and then re-emitted as longwave radiation. This difference in wavelengths affects how energy is distributed in the atmosphere, with longwave radiation playing a key role in the greenhouse effect and shortwave radiation driving the Earth's climate system.
How does long wavelength radiation contribute to the greenhouse effect?
Long wavelength radiation, such as infrared radiation, is emitted by Earth's surface after absorbing solar radiation. Greenhouse gases in the atmosphere trap this long wavelength radiation, leading to a warming effect known as the greenhouse effect. This process helps regulate Earth's temperature by keeping the planet warm enough to support life.
Which greenhouse gas is the most powerful absorber radiation emitted by earth?
Carbon dioxide (CO2) is the most powerful absorber of longwave radiation emitted by Earth, leading to the greenhouse effect and global warming.
Which greenhouse gas is the most powerful absorber of radition emitted by earth?
In terms of total absorbtion, it is water vapor. It absorbs around 75 to 80% of all the heat the atmosphere absorbs in total. Second place is CO2 which takes in around 5% of all warmth.
What type of radiation is trapped on the Earth's surface by the Greenhouse effect?
Infrared radiation is the type of radiation that gets trapped on Earth's surface by the greenhouse effect. This radiation is emitted by the Earth's surface in response to the incoming solar radiation and is absorbed and re-emitted by greenhouse gases in the atmosphere, leading to the warming of the planet.
How do greenhouse gases absorb shortwave radiation?
Greenhouse gases absorb shortwave radiation by allowing it to pass through the Earth's atmosphere and reach the surface. Once the radiation hits the surface, it is absorbed and re-emitted as longwave radiation. Greenhouse gases then trap this longwave radiation, preventing it from escaping back into space and causing the Earth's temperature to rise.
The two principle absorbers of radiation emitted by earth's surface are carbon doxide and?
water vapor. These gases are greenhouse gases that absorb and re-emit the infrared radiation emitted by the Earth's surface, trapping heat in the atmosphere and leading to the greenhouse effect.
What type of radiation is in the atmosphere due to greenhouse gases?
Infrared radiation is the type of radiation trapped in the atmosphere due to greenhouse gases. This radiation is emitted by the Earth's surface and is absorbed and re-radiated by greenhouse gases, such as carbon dioxide and water vapor, leading to the warming of the Earth's surface.
What type of radiation do greenhouse gases help trap in the atmosphere?
Greenhouse gases help trap infrared radiation in the atmosphere. This type of radiation is emitted by the Earth's surface after it absorbs energy from sunlight. By retaining this heat, greenhouse gases contribute to the greenhouse effect, which warms the planet. This process is crucial for maintaining a stable climate but can lead to global warming when excessive greenhouse gases accumulate.
How do greenhouse gases absorb infrared radiation and contribute to the Earth's warming?
Greenhouse gases in the Earth's atmosphere absorb infrared radiation emitted by the Earth's surface. This absorption traps heat in the atmosphere, leading to the warming of the Earth's surface. This process is known as the greenhouse effect.
What are the differences between long wave radiation and shortwave radiation in terms of their impact on the Earth's atmosphere?
Longwave radiation refers to infrared radiation emitted by the Earth's surface and atmosphere, which can be absorbed by greenhouse gases and contribute to warming the atmosphere. Shortwave radiation, such as sunlight, is absorbed by the Earth's surface and then re-emitted as longwave radiation. This difference in wavelengths affects how energy is distributed in the atmosphere, with longwave radiation playing a key role in the greenhouse effect and shortwave radiation driving the Earth's climate system.
What type of radiation is trapped on earth's surface by the greenhouse effect?
terestrial
Powerful energy emitted from certain heavy atoms?
This powerful energy is likely referring to nuclear radiation emitted by radioactive heavy atoms, such as uranium or plutonium. This radiation can take the form of alpha particles, beta particles, or gamma rays, and can be harmful to living organisms if not properly contained or shielded against.
What was the purpose of the blackbody radiation experiment?
The purpose of the blackbody radiation experiment was to study the spectrum of light emitted by a perfect absorber of radiation at different temperatures. This experiment helped to confirm the existence of quantized energy levels in atoms and provided important insights into the behavior of electromagnetic radiation.
