During the night, whilst not receiving the suns rays, the atmosphere loses some of its warmth.
Just as the sun is coming up in the morning, is usually when the low occurs.
The low temperature is based on the night's lowest point in temperature E.G. If the minimum on Wednesday is -4 Celsius, it is the lowest temperature point during Wednesday night (starting at sunset) until early Thursday morning (until about sunrise). The lowest point may not be mid-way as it can vary anyway as predicted weather and climate isn't always what is definitely going to be
decrease because when temperature is low water is present in atmosphere which let sound to go fast
When you move upward in the atmosphere the temperature get lowered.
The morning low of minus-47 degrees was set at Washta, Iowa, on January 12, 1912. This established a state record.
A low pressure area is caused by a drop in temperature in the atmosphere.
A low pressure system I believe.
When air pressure drops temperature also drops. Thus on high mountains low air pressure is accompanied by low temperature. This is true for high atmosphere also.
Mercury has a high surface temperature and a low mass
Mercury has a high surface temperature and a low mass
There is no atmosphere so it is surface temperature only. The surface temperature in full sun can be as high as about 200ºF to as low (on the dark side) as about -200ºF.
Just as the sun is coming up in the morning, is usually when the low occurs.
The low temperature is based on the night's lowest point in temperature E.G. If the minimum on Wednesday is -4 Celsius, it is the lowest temperature point during Wednesday night (starting at sunset) until early Thursday morning (until about sunrise). The lowest point may not be mid-way as it can vary anyway as predicted weather and climate isn't always what is definitely going to be
High temperature and low pressure.Z
Because the Dew point (Water Vapour) is lower near the surface, due to the low temperature.
Transpiration gives out water vapour which condenses at night because of low temperature.
Pluto is too small to have sufficient gravity to sustain an atmosphere. Besides, most of the gasses that form planetary atmospheres are liquified by the low surface temperature. With such a sparse atmosphere, Pluto has no real windstorms. Pluto is too small to have sufficient gravity to sustain an atmosphere. Besides, most of the gasses that form planetary atmospheres are liquified by the low surface temperature. With such a sparse atmosphere, Pluto has no real windstorms.