... ice melts.
Warm air moves towards higher latitudes towards the poles, while cold air moves towards lower latitudes towards the equator. This movement is driven by the temperature and pressure differences between these regions.
As the warm air rises and moves toward the poles,cooler air moves from the poles toward the equator to replace it. Resource:Factors of Weather:Air movement Close to the Earth (science sheet)
Global winds move warm air toward the poles by the process of convection and the Coriolis effect. As warm air rises at the equator, it moves toward the poles due to the rotation of the Earth. This creates the global wind patterns that help distribute heat around the planet.
The global convection currents between the equator and the poles are primarily driven by the uneven heating of Earth's surface by the Sun. As the equator receives more direct sunlight, it heats up and warm air rises, creating a low-pressure area. This air then moves towards the poles at high altitudes and cools, sinking at the poles and creating high-pressure areas. This continuous cycle of warm air rising at the equator and cold air sinking at the poles drives the global convection currents.
Global winds move warm air from the equator towards the poles. This process helps distribute heat throughout the Earth's atmosphere, leading to weather patterns and climate variations.
Warm air moves towards higher latitudes towards the poles, while cold air moves towards lower latitudes towards the equator. This movement is driven by the temperature and pressure differences between these regions.
Away from the poles because the air near Earths surface is warm.
Yes
A warm front forms.
A warm front forms.
Heat moves from the tropics to the poles through a process called atmospheric circulation. Warm air rises at the equator, moves towards the poles at high altitudes, and then descends back towards the surface at around 30 degrees latitude. This creates wind patterns that help to distribute heat from the tropics to the poles.
cool and dry
Air circulates in global wind systems due to differential heating of the Earth's surface by the sun. Warm air rises at the equator and moves towards the poles, while cool air from the poles moves towards the equator to replace the rising warm air. This creates the prevailing wind patterns on Earth.
cold front
I. The cold air mass is pushed underneath the warm air mass.
I. The cold air mass is pushed underneath the warm air mass.
In a global convection cell, warm air rises at the equator due to the intense heating from the sun. This rising air then moves towards the poles, gradually cooling and sinking as it does so. The cooled air then flows back towards the equator along the surface to complete the convection loop. This process is responsible for creating and maintaining the global wind patterns and weather systems.