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The atmosphere around the earth is like a blanket to protect us from the harmful rays of the sun.

When the sun shines straight down like near the equator, there is less atmosphere between the earth and the sun to block the energy.

Near the poles, the atmosphere is thicker because the sun is shining down at an angle and it has to go through more of the blanket of the atmosphere before it touches the earth.

During the winter, each pole is in total darkness nighttime because that area of the pole is behind the earth also.

These areas near the poles are called the Arctic circle and the Antarctic Circle.

Because of the angle to the sun. At the equator the sun light hits the Earth surface pretty much perpendicularly, but at the poles it's a much more oblique angle.

lighter colors reflect light and heat and the ice at the poles are white and reflect more also trees are not found at the poles and they can trap heat

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Why do the areas near the poles receive less heat?

Areas near the poles receive less heat due to the angle at which sunlight strikes the Earth's surface. The sun's rays hit the poles at a more oblique angle, spreading the energy over a larger area and reducing its intensity. Additionally, the longer path through the atmosphere and the presence of ice and snow, which reflect sunlight, further diminish heat absorption in these regions. As a result, polar regions remain colder than areas closer to the equator.


The area around the equator is usually hot What happens to the temperature at the poles?

the temperature at the poles are cold due to albedo which is that light substances reflect heat back into the atmosphere


How does the heat energy over an area at the equator compare to the heat energy at the poles?

The heat energy at the equator is significantly higher than at the poles due to the direct overhead sunlight received throughout the year, leading to warmer temperatures. In contrast, the poles receive sunlight at a much lower angle, resulting in less concentrated solar energy and colder temperatures. This disparity in solar heating contributes to distinct climatic zones and influences weather patterns globally. Consequently, the equator experiences a more consistent and intense heat energy compared to the poles, which have extreme seasonal variations.


Why are average temperatures lower near the poles?

Average temperatures are lower near the poles because sunlight is spread over a larger area, resulting in less heat per unit of surface area. Additionally, the angle at which sunlight strikes the Earth's surface near the poles is less direct, leading to less efficient heating. Lastly, polar regions are often covered in snow and ice which reflect sunlight, further reducing the amount of heat absorbed.


Which part of the earth has less heat?

The earth is hotter at its core and cooler as we look farther out. As regards the surface of the planet, it is warmer at the equator, and cooler toward and at the poles. There will be some slight variation owing to seasonal changes, but that is the basic answer.

Related Questions

Why does air temperature usually decreases towards the poles?

areas near the poles receive less solar energy per unit area.


Why do the areas near the poles receive less heat?

Areas near the poles receive less heat due to the angle at which sunlight strikes the Earth's surface. The sun's rays hit the poles at a more oblique angle, spreading the energy over a larger area and reducing its intensity. Additionally, the longer path through the atmosphere and the presence of ice and snow, which reflect sunlight, further diminish heat absorption in these regions. As a result, polar regions remain colder than areas closer to the equator.


Why does the amount of heat from the equator become less?

The amount of heat from the equator becomes less as one moves towards the poles due to the increasing angle of sunlight. Near the equator, sunlight hits the Earth's surface more directly, providing more heat. However, as you move towards the poles, the sunlight is spread over a larger area, leading to less heat per unit area.


Why do poles receive less solar energy then the equator does?

The poles receive less solar energy then the equator does because the radiation from the sun has to pass through much more atmosphere to reach the poles than to reach the equator. During that transit, more of the energy is scattered on the path to the poles, and less reaches the ground there.


Why do the poles receive less solar energy from the sun?

The poles recieve less solar energy because they are farther from the equator than other places. The equator is the warmest place, it's where the sun gives off its most solar energy. If you have been to the Carribian you notice how it's hot and summer-like. Places by the equator don't really have seasons. Just summer weather. The poles, on the other hand, are far away from the equator, and the sun.


The area around the equator is usually hot What happens to the temperature at the poles?

the temperature at the poles are cold due to albedo which is that light substances reflect heat back into the atmosphere


How does the heat energy over an area at the equator compare to the heat energy at the poles?

The heat energy at the equator is significantly higher than at the poles due to the direct overhead sunlight received throughout the year, leading to warmer temperatures. In contrast, the poles receive sunlight at a much lower angle, resulting in less concentrated solar energy and colder temperatures. This disparity in solar heating contributes to distinct climatic zones and influences weather patterns globally. Consequently, the equator experiences a more consistent and intense heat energy compared to the poles, which have extreme seasonal variations.


Explain the physical advantage for animals to roll up into a round shape in winter?

Less surface area; less heat lost.Less surface area; less heat lost.Less surface area; less heat lost.Less surface area; less heat lost.


Why is the average temperature at the earth's eqautor higher then the temperature at the earth's poles?

Because at the equator, radiation from the sun strikes the earth head on. So if the sun had a heating effect of 1W/m3 (not accurate), every square metre on the equator would get 1W. However, at the poles of the earth, sunlight strikes at an angle. As a result, the 1W of heat would be spread over a larger area. As a result, the poles receive less heat energy and are colder than the equator.


Why less heat is falls on poles?

because the equator gets the most


Why are average temperatures lower near the poles?

Average temperatures are lower near the poles because sunlight is spread over a larger area, resulting in less heat per unit of surface area. Additionally, the angle at which sunlight strikes the Earth's surface near the poles is less direct, leading to less efficient heating. Lastly, polar regions are often covered in snow and ice which reflect sunlight, further reducing the amount of heat absorbed.


Why does the amount of heat receive by places from the equator become less?

The Earth's spherical shape causes sunlight to be spread over a larger area as it moves away from the equator towards the poles. This spread reduces the intensity of the sunlight received, leading to less heat being received in those regions. Additionally, the angle at which sunlight strikes the Earth's surface becomes more oblique away from the equator, further decreasing the amount of heat received.