The reason is that sunlight gets converted into heat mainly at the Earth's surface,
only conduction and some re-radiation heat the air and that occurs mainly near the ground.
*If you fly on a plane with an outside temperature display, it's not uncommon to see temperatures of -50°C or -60°C at cruising altitude.
they keep ripping the bottom of the earth as they move
Temperature increases as you move from the Earth's surface towards the center. This is because the Earth's core is extremely hot due to the heat generated from radioactive decay and residual heat from the planet's formation.
Temperature generally increases as you move deeper into the Earth's interior. This increase in temperature is due to the Earth's geothermal gradient, which is influenced by factors such as radioactive decay, residual heat from the Earth's formation, and insulation provided by the Earth's crust.
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When tectonic plates move, anything could happen.
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Atmospheric pressure decreases as you move away from the surface of the Earth. This is because the weight of the air above you decreases with higher altitudes, resulting in lower atmospheric pressure.
As you move from the Earth's core to the surface, the temperature generally decreases. However, within the Earth's layers, there are fluctuations in temperature due to various factors like the material composition and heat generation processes. Generally, the temperature increases deeper into the Earth due to geothermal heat.
an earthquake is when two plates move and destroys everything around it.
As you move from the troposphere (closest to the surface) to the stratosphere, temperature generally decreases with altitude due to the decreasing density of the air. In the stratosphere, temperature starts to increase with altitude due to the absorption of solar radiation by ozone. Overall, the trend is a decrease in temperature with altitude in the troposphere and an increase in temperature with altitude in the stratosphere.
As you move from the equator towards the poles, Earth's surface temperature generally decreases. This is primarily due to the curvature of the Earth, which causes sunlight to be more concentrated at the equator and more dispersed at higher latitudes. Additionally, the angle of sunlight strikes the surface at different latitudes, leading to variations in heating. Consequently, regions closer to the poles experience colder temperatures compared to those near the equator.
Temperature generally decreases as you move from the surface of an object towards its center. This is because at the surface, the object is exposed to external factors like sunlight or other heat sources. As you move towards the center, there is less exposure to external influences, leading to a decrease in temperature.