ako nga nagtatanong eh...
The mesosphere, which lies between the stratosphere and the thermosphere, experiences a decrease in temperature with increasing altitude. This is primarily due to the diminishing density of air and the limited absorption of solar radiation at these heights. Unlike the stratosphere, where ozone absorbs UV radiation and warms the air, the mesosphere lacks significant heat sources, resulting in cooler temperatures. Therefore, temperature in the mesosphere is generally constant and decreases with altitude, reaching its coldest point at the mesopause.
Yes, the stratopause is the boundary between the stratosphere and the mesosphere in Earth's atmosphere. It marks the point where temperature ceases to decrease with increasing altitude.
The ozone layer that separates the mesosphere from the layer below it is called the stratopause. It serves as a boundary between the stratosphere and the mesosphere, and is characterized by a temperature inversion where temperatures increase with altitude.
In the mesosphere, which lies between about 50 to 85 kilometers (31 to 53 miles) above the Earth's surface, temperatures decrease with altitude. The temperature can drop to as low as -90 degrees Celsius (-130 degrees Fahrenheit) at the upper boundary of the mesosphere. This cooling is due to the thinning atmosphere and the lack of solar heating, as most of the absorption of ultraviolet radiation occurs in the stratosphere above.
The temperature in the stratosphere can vary widely, but it generally increases with altitude. The maximum temperature in the stratosphere can reach up to 0°C (32°F) near the stratopause, the boundary between the stratosphere and the mesosphere.
The stratosphere's temperature increases as altitude increases. The mesosphere's temperature decreases as it's altitude increases. This is helpful
The temperature in the mesosphere decreases with altitude, reaching its lowest point at the mesopause, the boundary between the mesosphere and thermosphere. This cooling effect is due to the diminishing density of gas molecules in this region.
Science!
A: There is a direct relationship between altitude and temperature. As altitude increases there is less air available to remove the dissipated heat therefore locally the temperature rises but environment temperature as a whole decreases. I don't see any relationship with any noise with altitude
The layer of the atmosphere between the stratosphere and the thermosphere is called the mesosphere. In this layer, temperature decreases as altitude increases due to a decrease in the concentration of ozone molecules that absorb and scatter the sun's rays. The mesosphere is also the region where most meteoroids burn up upon entering the Earth's atmosphere.
stephen gwapo kaayo
stephen gwapo kaayo
The main difference between the four layers of the atmosphere (troposphere, stratosphere, mesosphere, thermosphere) is their temperature profile. The troposphere gets colder with altitude, the stratosphere gets warmer with altitude, the mesosphere gets colder with altitude again, and the thermosphere experiences high temperatures due to absorption of solar radiation.
The Moeosphere However Receives No Energy From ThE sUN cAUSING iT tO bY vERY COlD
The Moeosphere However Receives No Energy From ThE sUN cAUSING iT tO bY vERY COlD
The Moeosphere However Receives No Energy From ThE sUN cAUSING iT tO bY vERY COlD
The Moeosphere However Receives No Energy From ThE sUN cAUSING iT tO bY vERY COlD