As cloud cover increases, Earth's temperature can be influenced in two main ways. High-altitude clouds tend to trap heat, leading to a warming effect, while low-altitude clouds can reflect sunlight, resulting in cooling. The overall impact on temperature depends on the type, thickness, and altitude of the clouds, as well as the specific climatic conditions. Thus, increased cloud cover can lead to complex interactions that either warm or cool the Earth's surface.
At the upper edge of the cloud cover, the temperature is thought to be -145 degrees C. On Jupiter the temperature increases because of atmospheric pressure, so as you descend temperature increases. Not far into the atmosphere the pressure is about ten times what it is here on Earth and the temperature is thought to be about 20 degrees C or average room temperature for Earth. Descend further and the temperature is thought to be over 9,700 C.s
When air temperature in the troposphere increases with altitude, it indicates a temperature inversion, which is contrary to the typical decrease in temperature with elevation. This phenomenon can lead to stable atmospheric conditions, trapping pollutants and moisture near the surface, which can result in smog and reduced air quality. Additionally, temperature inversions can suppress cloud formation and precipitation, impacting weather patterns.
The electron cloud increases the amount of valence shells it has with the increase of electrons in the atoms
As temperature increases, air's capacity to hold water vapor also increases. If the air's relative humidity remains constant while temperature rises, it will eventually reach saturation as it approaches its new higher dew point temperature. This process, known as adiabatic cooling, can lead to cloud formation and precipitation.
A December 23, 2009 article at science.nasa.gov says that the Local Interstellar Cloud has a temperature of 6,000 degrees Celsius. This is approximately the same temperature as the surface of the Sun. Is this influencing temperatures on Earth? I don't know.
At the upper edge of the cloud cover, the temperature is thought to be -145 degrees C. On Jupiter the temperature increases because of atmospheric pressure, so as you descend temperature increases. Not far into the atmosphere the pressure is about ten times what it is here on Earth and the temperature is thought to be about 20 degrees C or average room temperature for Earth. Descend further and the temperature is thought to be over 9,700 C.s
When air temperature in the troposphere increases with altitude, it indicates a temperature inversion, which is contrary to the typical decrease in temperature with elevation. This phenomenon can lead to stable atmospheric conditions, trapping pollutants and moisture near the surface, which can result in smog and reduced air quality. Additionally, temperature inversions can suppress cloud formation and precipitation, impacting weather patterns.
The electron cloud increases the amount of valence shells it has with the increase of electrons in the atoms
nothing
It would block out significant sunlight, lowering the temperature.
As altitude increases, temperature typically decreases, leading to a drop in air pressure. This change in temperature and pressure can affect the moisture-holding capacity of the air, potentially leading to precipitation. In some cases, higher altitudes can lead to increased condensation and cloud formation, resulting in more rainfall or snowfall.
Earth's average cloud cover is around 67%. This can vary greatly depending on factors such as location, time of year, and weather patterns. Cloud cover plays a significant role in regulating the Earth's temperature by reflecting sunlight and trapping heat.
As altitude increases, the temperature usually decreases in the troposphere, which is the layer of the atmosphere where weather occurs. This relationship is known as the lapse rate. The altitude of a base cloud can vary depending on the temperature and humidity of the air mass it forms in.
what happens to a nimbostratus cloud
if the sky is low people can touch the cloud the earth is so dim
A drop of water in a cloud can either evaporate, condense into a larger droplet, or collide with other droplets to form rain. It undergoes constant changes in temperature and pressure as it moves through the cloud, eventually leading to precipitation if it becomes heavy enough.
It turns to clouds and releases water as rain.