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the answer is thermosphere, mesosphere, stratosphere, and the troposphere
The thermosphere is.
Hi there! Here's the answer, darling: The depth is about 80-90 km. above the sea's level.
Weather occurs at the atmosphere level called the troposphere. This is the lowest level of the atmosphere and directly above it is the stratosphere.
If you've been given a graph, then look at the graph to answer this question.It's not possible to answer it in general because there's so very little atmosphere at this level (it's about twice as high as the International Space Station) that there are hugefluctuations in temperature based on solar activity.However, it's a lot hotter than you might expect based on experience of the part of the atmosphere where people can actually live. The temperature drops considerably with altitude in the lowest level of the atmosphere (the troposphere), then starts to rise again in the stratosphere, then drops again in the mesosphere, then rises again in the thermosphere. 700 km is either in the thermosphere or in the level above that (the exosphere), again depending on solar activity.
The thermosphere is a layer of Earth's atmosphere above the mesosphere. The thermosphere extends from 50 to 55 miles (80-90 km) above sea level, with the upper limit undefined. The temperature in the thermosphere initially rises rapidly with heights up to about 120 miles (200 km) and thereafter increases more slowly. Above 120 miles (200 km) - depending on solar activity - the temperature varies between 600° and 2000°C (1100 and 3600°F).
the answer is thermosphere, mesosphere, stratosphere, and the troposphere
The thermosphere is.
Hi there! Here's the answer, darling: The depth is about 80-90 km. above the sea's level.
The different layers of atmosphere, starting with the lowest layer in which most clouds appear, is the troposphere. The next layer is the stratosphere, which has the ozone layer at its upper limit about 50 km above sea level. The next layer is called the mesosphere, and above this is the ionosphere which extends to about 1,000 km. Next is the thermosphere and then the outside layer of atmosphere called the exosphere, which reaches a height of about 6,000 km above sea level..
Weather occurs at the atmosphere level called the troposphere. This is the lowest level of the atmosphere and directly above it is the stratosphere.
If you've been given a graph, then look at the graph to answer this question.It's not possible to answer it in general because there's so very little atmosphere at this level (it's about twice as high as the International Space Station) that there are hugefluctuations in temperature based on solar activity.However, it's a lot hotter than you might expect based on experience of the part of the atmosphere where people can actually live. The temperature drops considerably with altitude in the lowest level of the atmosphere (the troposphere), then starts to rise again in the stratosphere, then drops again in the mesosphere, then rises again in the thermosphere. 700 km is either in the thermosphere or in the level above that (the exosphere), again depending on solar activity.
The temperature zones in which the atmospheric temperature increases as the distance above sea level increases are the stratosphere and the thermosphere.
100 km, or about 62 miles above sea level, is the commonly used altitude for the beginning of space. This is known as the Karman Line.The United States uses 80 km, or 50 miles above sea level, as the altitude for the beginning of space. This is where the mesosphere ends and the thermosphere begins.However, the atmosphere doesn't just "end" at a certain altitude. Even at 200-300 miles above Earth, where the ISS and most other satellites orbit, there are still trace amounts of atmosphere left-which is why they need a boost every now and then. If you want to perform experiments in a near-space environment, then all you have to do is send up a research balloon to an altitude of around 25 miles above Earth. At this altitude, the balloon is above 99.95 percent of the atmosphere, and is virtually in a vacuum.space starts when earth's air ends.
Strictly speaking, no such "space barrier" between the Earth's atmosphere and outer space exists; Rather, the atmosphere gradually thins out until it reaches vacuum of space. However, there is an imaginary boundary called the Kármán Line which lies at 62 miles or 100 kilometers above Earth's sea level, and is commonly accepted by scientists as defining the official break between Earth's atmosphere and outer space. The Kármán Line sits near the bottom of the thermosphere and just above the mesosphere, and is also the altitude at which the aurora form. The Line is not always considered the edge of space, however. If one were to include the thermosphere and exosphere as part of the atmosphere and not of space, then the barrier could be placed as high as 6,200 miles or 10,000 kilometers above sea level-that's one hundred times higher than the Kármán Line!
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thermosphere