The difference between terrestrial and solar radiation is best explained by the Stefan-Boltzmann Law which states that the amount of energy per square meter per second that is emitted by an object is related to the fourth power of its Kelvin temperature. Therefore, a warmer object emits significantly more radiation than a cooler object. For example, the Sun emits about 160,000 times as much energy as the Earth because it is about 20 times hotter.
Another law critical to understanding radiation and satellite technology states that the temperature of the emitting body affects the wavelength of the radiant energy emitted. German physicist Wilhelm Wien (pronounced “ween”) won the 1911 Nobel Prize in physics for this discovery. Wien’s Law is simple division:
Wavelength (µm) of maximum
= ________2900___________ Object’s temperature in Kelvin
Wien’s Law can be summarized as, the hotter an object, the shorter the wavelength of maximum emission of radiation.
If an object absorbs electromagnetic energy of a certain wavelength, it will also emit energy at that wavelength. This is Kirchhoff’s Law, stated more directly as: A good absorber of radiation is also a good emitter of radiation at that same wavelength. It is important to remember that how much radiation an object emits depends on its temperature. Waves are characterized by two properties: wavelength, the distance between wave crests, and amplitude, half the height from the peak of the crest to the lowest point of the wave.
The amount of energy in the wave increases for smaller wavelengths.