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The atmosphere layer that traps pollution is primarily the troposphere. This layer extends from the Earth's surface up to about 8 to 15 kilometers (5 to 9 miles) high, depending on the location. Pollutants can accumulate in the troposphere, leading to issues such as smog and poor air quality. Additionally, temperature inversions in this layer can further exacerbate the trapping of pollutants.
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How does thermal inversion trap air pollution in the atmosphere?
During a thermal inversion, a layer of warm air traps cooler air and pollutants close to the ground. This prevents the pollutants from rising and dispersing, leading to a buildup of air pollution in the atmosphere.
What layer of the atmosphere traps infrared heat radiation?
The troposphere is the layer of the atmosphere that traps infrared heat radiation. It is responsible for the greenhouse effect, which helps regulate Earth's temperature by trapping heat.
How does a thermal inversion impact the dispersion of pollution in the atmosphere?
A thermal inversion traps pollutants close to the ground, preventing them from dispersing upwards and leading to higher concentrations of pollution in the atmosphere.
The heating of the lower layer of the atmosphere from radition absorbed by certain heat absorbing gases is called?
The heating of the lower layer of the atmosphere from radiation absorbed by certain heat-absorbing gases is called the greenhouse effect. This effect traps heat in the Earth's atmosphere, leading to global warming and climate change.
What layer in the atmosphere traps heat?
The layer in the atmosphere that traps heat is the troposphere. The greenhouse gases in the troposphere, such as carbon dioxide and water vapor, absorb and trap heat radiated from the Earth's surface, leading to the greenhouse effect and warming of the planet.
What is The heating of the lower layer of the atmosphere from radiation absorbed y certain heat absorbing gases is called what?
The heating of the lower layer of the atmosphere from radiation absorbed by certain heat-absorbing gases is called the greenhouse effect. This process traps heat in the Earth's atmosphere, leading to global warming and climate change.
The storage of heat in the lower layer of the atmosphere produced by certain heat absorbing gases is called the?
The storage of heat in the lower layer of the atmosphere produced by certain heat-absorbing gases is called the greenhouse effect. This effect traps heat near the Earth's surface, leading to warming of the planet.
The heating of the lower layer of the atmosphere from radiation absorbed by certain heat-absorbing gases is called?
The heating of the lower layer of the atmosphere from radiation absorbed by certain heat-absorbing gases is called the greenhouse effect. Water vapor and carbon dioxide are the two most important heat absorbing gases in the lower atmosphere.
Which layer in the atmosphere traps all the heat?
The layer that traps most of the heat in the Earth's atmosphere is the troposphere. This is where most weather events occur and where the majority of Earth's clouds and water vapor are found, allowing it to retain heat through the greenhouse effect.
What layer of the atmosphere has the most constant temperature?
The stratosphere has a relatively constant temperature because it contains the ozone layer, which absorbs and traps solar radiation, leading to a stable temperature profile in this layer of the atmosphere.
When air pollution traps heat it is called?
When air pollution traps heat, it is referred to as the "greenhouse effect." This phenomenon occurs when certain gases, known as greenhouse gases, accumulate in the atmosphere and prevent heat from escaping back into space. As a result, the Earth's surface temperature rises, contributing to global warming and climate change. Common greenhouse gases include carbon dioxide, methane, and nitrous oxide.
What is the layer of material that traps air?
The layer of material that traps air is called insulation. Insulation helps to regulate temperature by preventing the transfer of heat between surfaces, thus creating a barrier that reduces energy loss.
