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Warm air rises at the equator and cold air sinks at the poles creating?
Warm air rises at the equator and cold air sinks at the poles. Warm air expands and cool air contracts and compresses.
What does the air at the poles do when it is colder and denser than the surrounding air?
The cold and dense air at the poles sinks towards the surface. This creates a high-pressure system that can lead to cold and stable weather conditions.
What wind patterns occur at the poles of the Earth?
Ah, at the poles of the Earth, we have what we call polar easterlies. These winds blow from the east to the west, helping to circulate cold air around the poles. It's all part of the Earth's beautiful and intricate system of air movements that keeps our planet balanced and harmonious.
The air above the poles is?
colder than at the equator due to the angle of sunlight hitting the poles, causing denser air to sink and accumulate. This results in high atmospheric pressure and lower temperatures.
What is continental air mass?
an air mass that formed over land. it is cold and dry
Warm air rises at the equator and cold air sinks at the poles creating?
Warm air rises at the equator and cold air sinks at the poles. Warm air expands and cool air contracts and compresses.
What happens to the cold air and water at the poles?
Mamadas!!!
Why is there high air pressure at the poles?
Because cold air is denser than warm air.
When an air mass forms near the poles it has warm air?
When an air mass forms near the poles it has warm air. This will be a large body of air which will have homogeneous moisture.
What are the pressure conditions of the air above poles?
Generally the poles are cold places, receiving Sunlight at a low angle or no Sun at all. This means the air above the poles tends to be cooler than the rest of the planet. Cold air is dense so the pressure of the air at the poles tends to be higher than the rest of the planet. Thus air (cold air) tends to flow away from the polar regions along the Earth's surface to be replaced by light warmer air flowing into the poles at a higher level (this air then cools). There is therefore a general flow of warm air north and south towards the poles from the equator and a flow of cold air from the poles towards the equator. This flow of air spreads out the heat from the Sun, warming the poles and cooling the tropics. In detail this overall flow is restricted by the thickness of Earth's atmosphere and several flow cells form to complete the chain causing Earth's climatic zones.
Is it true that the cold air come from the poles and the warm air comes from the equator?
yes it is true
Is Overall atmospheric motion is warm air to the poles and cold air to the equator true?
Yes
What does the air at the poles do when it is colder and denser than the surrounding air?
The cold and dense air at the poles sinks towards the surface. This creates a high-pressure system that can lead to cold and stable weather conditions.
How does differences in air pressure puts air in motion?
The difference in air pressure causes wind, air motion, because the greater the pressure difference the faster wind moves. Warm air is less dense, it moves toward or up to the poles. at the poles it will sink and the cold air will go to the equator creating the moment of of air.
What wind patterns occur at the poles of the Earth?
Ah, at the poles of the Earth, we have what we call polar easterlies. These winds blow from the east to the west, helping to circulate cold air around the poles. It's all part of the Earth's beautiful and intricate system of air movements that keeps our planet balanced and harmonious.
After high pressure areas are created around the poles cold polar air flows toward?
After high-pressure areas are formed around the poles, cold polar air flows towards lower pressure regions. This movement of air is known as advection, and it helps to balance out the pressure differences between the poles and lower latitudes.
What type of air pressure typically occurs in the polar regions?
Generally the poles are cold places, receiving Sunlight at a low angle or no Sun at all. This means the air above the poles tends to be cooler than the rest of the planet. Cold air is dense so the pressure of the air at the poles tends to be higher than the rest of the planet. Thus air (cold air) tends to flow away from the polar regions along the Earth's surface to be replaced by light warmer air flowing into the poles at a higher level (this air then cools). There is therefore a general flow of warm air north and south towards the poles from the equator and a flow of cold air from the poles towards the equator. This flow of air spreads out the heat from the Sun, warming the poles and cooling the tropics. In detail this overall flow is restricted by the thickness of Earth's atmosphere and several flow cells form to complete the chain causing Earth's climatic zones.
