Mostly get hot and rise.
Air Equator was created in 2003.
Warm air rises at the equator and cold air sinks at the poles. Warm air expands and cool air contracts and compresses.
Clouds form as air rises at the equator.
At the equator, warm air rises due to intense heating, creating a low-pressure zone. As the air rises, it cools, condenses, and produces heavy rainfall. This process contributes to the formation of tropical rainforests near the equator.
doldrum
Air Equator ended in 2005.
Air Equator was created in 2003.
Clouds form as air rises at the equator.
Warm air rises at the equator and cold air sinks at the poles. Warm air expands and cool air contracts and compresses.
Clouds form as air rises at the equator.
The air around the equator is caught in the doldrums and the trade winds. The air closest to the equator flows upward and westerly until it reaches the border of the prevailing westerlies when it heads back toward the equator again.
doldrum
At the equator, warm air rises due to intense heating, creating a low-pressure zone. As the air rises, it cools, condenses, and produces heavy rainfall. This process contributes to the formation of tropical rainforests near the equator.
The air over the equator is heated and rises, creating a low-pressure area. As it rises, it cools and loses moisture, resulting in heavy rainfall near the equator. This process contributes to the formation of the Inter-Tropical Convergence Zone (ITCZ).
There are 2,898 air miles between Boston, MA and the Equator.
Without Earth's rotation, the air at the equator would move from high to low pressure in a straight line towards the poles. This is because air moves from areas of high pressure to areas of low pressure, creating a simple north-south airflow pattern.
Air rises at the equator and then flows northward. At about 30 degrees north latitude, the air sinks. When it reaches the surface, it flows south, back toward the equator. At the equator, the air rises again and the cycle starts all over.