The main gases responsible for trapping heat in the Earth's atmosphere are carbon dioxide (CO2), methane (CH4), and water vapor (H2O). These gases are known as greenhouse gases and they create a "greenhouse effect," which helps regulate the Earth's temperature. Excessive accumulation of these gases due to human activities contributes to global warming.
Greenhouse gases trap heat in Earth's atmosphere by absorbing and re-emitting infrared radiation. These gases, such as carbon dioxide and methane, allow sunlight to pass through but prevent some of the outgoing heat from escaping into space, leading to an increase in atmospheric temperature known as the greenhouse effect.
Gases in the atmosphere, like carbon dioxide and water vapor, trap heat from the sun in a process known as the greenhouse effect. These gases allow sunlight to enter the Earth's atmosphere and warm the planet, but trap some of the heat that would otherwise escape back into space. This helps maintain the Earth's temperature at a level suitable for life.
This is known as the greenhouse effect. Greenhouse gases, including carbon dioxide, trap heat in Earth's atmosphere, leading to a warming effect. This phenomenon can contribute to global warming and climate change.
The Sun's heat, which keeps Earth from freezing solid, is retained in Earth's atmosphere by the greenhouse gases: water vapor, carbon dioxide, methane, and so on. Without greenhouse gases, Earth would freeze.Many, if not all of the various layers of a planet's atmosphere trap at least some of the heat from the sun. Additionally, the ground and bodies of water trap heat from the sun (and heat from the atmosphere).
Greenhouse gases, such as carbon dioxide and methane, trap solar energy in the Earth's atmosphere. This leads to the greenhouse effect, which contributes to global warming and climate change.
carbondioxide [CO2] and carbondioxide [CO] are the main gasses that trap heat.
No, a planet without an atmosphere cannot have a greenhouse effect because the atmosphere is necessary to trap heat and create the warming effect. Without an atmosphere, there is no mechanism to retain heat and create the greenhouse effect.
The Earth's atmosphere traps heat through a process called the greenhouse effect. Greenhouse gases in the atmosphere, such as carbon dioxide and water vapor, allow sunlight to pass through and warm the Earth's surface. When this heat radiates back towards space, the greenhouse gases trap some of it, preventing it from escaping and leading to an overall warming of the planet.
Greenhouse gases trap heat in Earth's atmosphere by absorbing and re-emitting infrared radiation. These gases, such as carbon dioxide and methane, allow sunlight to pass through but prevent some of the outgoing heat from escaping into space, leading to an increase in atmospheric temperature known as the greenhouse effect.
The three molecules that trap heat in the atmosphere are carbon dioxide, methane, and water vapor.
Gases in the atmosphere, like carbon dioxide and water vapor, trap heat from the sun in a process known as the greenhouse effect. These gases allow sunlight to enter the Earth's atmosphere and warm the planet, but trap some of the heat that would otherwise escape back into space. This helps maintain the Earth's temperature at a level suitable for life.
No, Mercury has no atmosphere. Without an Atmosphere planets cannot trap heat. This is the reason why Mercury's temperature changes drastically from day and night.
The three molecules that trap heat in the atmosphere are carbon dioxide (CO2), methane (CH4), and water vapor (H2O).
This is known as the greenhouse effect. Greenhouse gases, including carbon dioxide, trap heat in Earth's atmosphere, leading to a warming effect. This phenomenon can contribute to global warming and climate change.
The greenhouse effect
gases in the atmosphere trap the heat from the sun
The Sun's heat, which keeps Earth from freezing solid, is retained in Earth's atmosphere by the greenhouse gases: water vapor, carbon dioxide, methane, and so on. Without greenhouse gases, Earth would freeze.Many, if not all of the various layers of a planet's atmosphere trap at least some of the heat from the sun. Additionally, the ground and bodies of water trap heat from the sun (and heat from the atmosphere).