If water were present in large amounts in the thermosphere or exosphere, it would likely have a minimal effect on global temperatures. These layers of the atmosphere are extremely thin, and any water present would exist in the form of vapor due to the high temperatures. The overall impact on climate would be negligible.
The region being described is the thermosphere. It extends from about 50 km to 500 km above Earth's surface and is known for its high temperatures due to the absorption of solar radiation by the few particles present in this layer.
The average air pressure in the exosphere is extremely low, near to a vacuum, typically less than 0.1 Pascal. At this altitude, the few particles present are very spread out, and there is an almost complete absence of molecules.
The exosphere is the upper layer of the atmosphere. The exosphere has a very low density, due to the lighter gases that are present in the exosphere. Hydrogen, with some helium, carbon dioxide, and atomic oxygen is found near the exobase. he exosphere is the last layer before outer space.
Oxygen-20%Nitrogen-80%Helium-1%
The exosphere is the outermost layer of Earth's atmosphere, where air is extremely thin. It contains a very small percentage of the total mass of the atmosphere, with most of the air present in the lower layers. The exosphere consists mainly of hydrogen and helium atoms.
No, the ozone layer is located in the stratosphere, which is the second layer of the Earth's atmosphere. The thermosphere is the layer above the stratosphere where temperatures are very high due to absorption of solar radiation.
The first hottest layer is the Thermosphere because it is near space and closest to the sun. The other hot layer is the __________ (please answer if you know).
The layers are present in stratosphere. These are troposphere, stratosphere, mesosphere, thermosphere.
The thermosphere does not extend above the polar regions. This layer of the atmosphere is known for its high temperatures due to absorption of solar radiation and recombination of ions and neutral particles. Above the poles, the thermosphere merges into the exosphere, the outermost layer of the atmosphere.
The thermosphere is characterized by high temperatures, reaching up to 2,500°C due to the absorption of solar radiation. It is also known for its extremely low density, as the few atmospheric molecules present are scattered over a wide area.
No. The ozone layers is in the stratopshere.
The region being described is the thermosphere. It extends from about 50 km to 500 km above Earth's surface and is known for its high temperatures due to the absorption of solar radiation by the few particles present in this layer.
The average air pressure in the exosphere is extremely low, near to a vacuum, typically less than 0.1 Pascal. At this altitude, the few particles present are very spread out, and there is an almost complete absence of molecules.
The exosphere is the upper layer of the atmosphere. The exosphere has a very low density, due to the lighter gases that are present in the exosphere. Hydrogen, with some helium, carbon dioxide, and atomic oxygen is found near the exobase. he exosphere is the last layer before outer space.
False it is. It is present in the stratosphere.
The thermosphere has the highest temperature of all the atmospheric layers due to the absorption of high-energy solar radiation by the sparse gas molecules present at that altitude. As these molecules absorb energy, their kinetic energy increases, leading to higher temperatures, which can exceed 2,500°C (4,500°F) or more. However, despite the high temperatures, the thermosphere would not feel hot to a human because the gas density is extremely low, meaning there are not enough molecules to transfer heat effectively.
In the thermosphere, the temperature increases with altitude due to the absorption of high-energy solar radiation by the few particles present in this layer. Despite the high temperatures in the thermosphere, the low density of particles means that the air would feel extremely cold to the touch.