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Infrared radiation absorption and radiation by a surface - AQAThe Earth's temperature - Higher

The amount of infrared radiation absorbed or radiated by a surface depends on the nature of that surface. The Earth鈥檚 temperature also depends on the rates at which light and infrared radiation are absorbed by the Earth鈥檚 surface and atmosphere.

Part of Combined ScienceWaves

The Earth's temperature - Higher

The temperature of a body is linked to the balance between the amount of radiation absorbed and emitted.

Rate of absorptionTemperature of the body
greater than the rate of emissionincreasing
equal to the rate of emissionconstant
less than the rate of emissiondecreasing
Rate of absorptiongreater than the rate of emission
Temperature of the bodyincreasing
Rate of absorptionequal to the rate of emission
Temperature of the bodyconstant
Rate of absorptionless than the rate of emission
Temperature of the bodydecreasing

Factors affecting the Earth鈥檚 temperature

The temperature of the Earth depends on many factors including the concentration of greenhouse gases such as water vapour, methane and carbon dioxide.

The Earth鈥檚 temperature also depends on the rates at which light radiation and are:

  • absorbed by the Earth鈥檚 surface and atmosphere
  • emitted by the Earth鈥檚 surface and atmosphere

When visible light and high frequency infrared radiation are absorbed by the surface of the Earth, the planet鈥檚 increases and the surface gets hotter. Some of this energy is transferred to the atmosphere by and .

The Earth also radiates lower frequency infrared radiation. Some of this infrared radiation is transmitted through the atmosphere back out into space, and some is absorbed by greenhouse gases in the atmosphere. The greenhouse gases emit infrared radiation in all directions - some out into space and some back towards Earth, which is then reabsorbed.

The greenhouse effect

The 鈥榞reenhouse effect鈥 caused by naturally occurring greenhouse gases, such as water vapour, stabilises the surface temperature of Earth. This allows the planet to support life.

However, human activities such as deforestation and the burning of fossil fuels are releasing additional carbon dioxide. This causes more infrared radiation to be 鈥榯rapped鈥 and reabsorbed by the Earth鈥檚 surface. This enhanced greenhouse effect is causing global temperatures to increase, leading to .