This is caused by convection, in which warm, less-dense air rises, and flows toward the poles until it cools and sinks again.
an energy transfer, with heat energy moving away from the equator
an energy transfer, with heat energy moving away from the equator. Studyisland question. Hope it helps :) Studyisland sucks especially when you are stuck.
an energy transfer, with heat energy moving away from the equator. Studyisland question. Hope it helps :) Studyisland sucks especially when you are stuck.
The poles receive less direct sunlight because of the tilt of the Earth's axis, leading to colder temperatures. At the equator, the sun's rays strike more directly, generating warmer temperatures. This temperature difference creates atmospheric circulation patterns that further contribute to the variation in heat between the poles and the equator.
Yes, ocean currents can help redistribute heat from the equator towards the poles by moving warm water from the tropics towards higher latitudes. This heat transfer can influence local and global climates by influencing air temperature and humidity in different regions.
an energy transfer, with heat energy moving away from the equator
Surface currents transfer heat energy by redistributing warm water from the equator towards the poles and cold water from the poles towards the equator. This process helps regulate global temperature patterns and climate.
Convection
Ocean currents facilitate the transfer of heat within the Earth's climate system by moving warm water from the equator towards the poles and cold water from the poles towards the equator. This helps distribute heat around the globe, regulating temperatures and influencing weather patterns.
an energy transfer, with heat energy moving away from the equator. Studyisland question. Hope it helps :) Studyisland sucks especially when you are stuck.
an energy transfer, with heat energy moving away from the equator. Studyisland question. Hope it helps :) Studyisland sucks especially when you are stuck.
The poles receive less direct sunlight because of the tilt of the Earth's axis, leading to colder temperatures. At the equator, the sun's rays strike more directly, generating warmer temperatures. This temperature difference creates atmospheric circulation patterns that further contribute to the variation in heat between the poles and the equator.
Yes, ocean currents can help redistribute heat from the equator towards the poles by moving warm water from the tropics towards higher latitudes. This heat transfer can influence local and global climates by influencing air temperature and humidity in different regions.
because the equator gets the most
The winds from the north pole and the south pole along with the heat from the south and the cold from the north.
The winds between the poles and the equator are called the westerlies in the mid-latitudes and the trade winds closer to the equator. These wind patterns are created by the Earth's rotation and the distribution of heat across the planet.
A Hadley cell transfers heat by circulating warm air rising at the equator to the poles, where it cools and descends back towards the surface. As the warm air rises, it releases heat energy through convection, and as it cools at the poles, it absorbs heat energy from the surroundings. This circulation of air helps distribute heat around the Earth's surface.