Each layer has some important functioning to do. This causes us to sustain here.
The gaseous layer surrounding a planet is Atmosphere. Each planet has different atmospheric content.
The composition of gases in each layer affects temperature because different gases have varying abilities to absorb and retain heat. For example, greenhouse gases in the lower atmosphere trap heat, resulting in warmer temperatures near the surface. Conversely, the upper atmosphere is cooler because there is less gas to trap and retain heat.
The Earth's atmosphere is composed in FIVE different layers. The first one is the Troposphere, which is the closest to the Earth's surface. The second one is the stratosphere. The third atmosphere is called the mesosphere, which contains the coldest air temperature. The forth is thermosphere, which contains the ionosphere that are made up of electrically charged particles (note that the ionosphere is not one of the atmosphere). The last part of the atmosphere is the exosphere, which is the region of the space travel. It is also the furthest atmospheric layer from the Earth.
The Earth's atmosphere is not classified as one layer because it is composed of distinct layers based on differences in temperature, composition, and density. These layers include the troposphere, stratosphere, mesosphere, thermosphere, and exosphere. Each layer plays a unique role in affecting weather patterns and climate dynamics.
Yes, it does. Global warming and ozone depletion are connected with each other.
the density and temperature of the layers. The farther you go up, the less dense each layer is.
The atmosphere is the layer of gases surrounding the Earth, while the lithosphere is the solid outer layer of the Earth consisting of the crust and upper mantle. These two components interact and influence each other through processes like weathering and erosion.
Troposphere, stratosphere, mesosphere, thermosphere (containing ionosphere), exosphere.
Exosphere is the layer of Earth's atmosphere with no definite outer limit. It extends from the top of the thermosphere to outer space and gradually transitions into the vacuum of space. The exosphere is where particles are so sparse that they can travel long distances without colliding with each other.
The division of the Earth's atmosphere into layers is based on how temperature changes with altitude. These layers are the troposphere, stratosphere, mesosphere, thermosphere, and exosphere. Each layer has distinct characteristics and plays a specific role in Earth's atmosphere.
The gaseous layer surrounding a planet is Atmosphere. Each planet has different atmospheric content.
The Earth's atmosphere is divided into five main layers: the troposphere, stratosphere, mesosphere, thermosphere, and exosphere. These layers are classified based on their temperature and composition, with each layer playing a specific role in regulating the Earth's climate and protecting life on the planet.
global warming
The layer of Earth's atmosphere that merges into outer space is known as the exosphere. This is the outermost layer of the atmosphere where gas molecules are so sparse that they can travel long distances without colliding with each other.
The layer of atmosphere closest to the earth's surface is troposphere. The next layer is stratosphere which contains the ozone layer. After that comes the mesosphere, Ionosphere n exosphere.
The four layers that constitute the earths atmosphere in order from space to the earths surface are as follows: Inosphere (aka. Aurora) @ 350km, Mesosphere @ 90-350km, Stratosphere @ 50-90km, and Troposhere @18-50km. It's composition is 79% Nitrogen, 20% Oxygen, and 1% other gases.
Earth's atmosphere is divided into layers based on changes in temperature and composition with altitude. The layers include the troposphere, stratosphere, mesosphere, thermosphere, and exosphere, each with distinct characteristics and dynamics. These divisions help scientists study the different properties and processes that occur within each layer.