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For example, the radiation of the Sun at the Earth has an energy flux density of 1370 W/m², so the radiation pressure is 4.6 μPa (absorbed) (see also Climate model).

The radiation pressure from the Sun against an absorbing sheet with a mass of 0.8 g/m² is equal to its weight with respect to the Sun's gravity, independent of its distance to the Sun. For example, at the Earth this weight is 4.6 μN/m² and this gravity 6 mm/s².

The fact that electromagnetic radiation exerts a pressure upon any surface exposed to it was deduced theoretically by James Clerk Maxwell in 1871, and proven experimentally by Lebedev in 1900 and by Nichols and Hull in 1901. The pressure is very feeble, but can be detected by allowing the radiation to fall upon a delicately poised vane of reflective metal ( Nichols radiometer).

It may be shown by electromagnetic theory, by quantum theory, or by thermodynamics, making no assumptions as to the nature of the radiation, that the pressure against a surface exposed in a space traversed by radiation uniformly in all directions is equal to 1/3 the total radiant energy per unit volume within that sphere. For black body radiation, in equilibrium with the exposed surface, the energy density is, in accordance with the Stefan-Boltzmann law, equal to 4σT⁴/c; in which σ is the Stefan-Boltzmann constant, c is the speed of lightCherenkov effect in a "swimming pool" nuclear reactor. The effect is due to electrons moving faster than the speed at which light moves in water. The speed of light (denoted as c reputedly from the Latin celeritas "speed", and also known as Einstein's con, and T is the absolute temperatureTemperature is the physical property of a system which underlies the common notions of "hot" and "cold"; the material with the higher temperature is said to be hotter. General description The formal properties of temperature are studied in thermodynamics. of the space. One third of this energy is equal to 2.523×10⁻¹⁶T⁴ J/m³, which is therefore equal to the pressure in pascalThe pascal (symbol Pa is the SI unit of pressure. It is equivalent to one newton per square metre. The unit is named after Blaise Pascal, the eminent French mathematician, physicist and philosopher. 1 Pa : 1 N/m² 1 (kg·m/s²)/m² 1 kg/m·s² : 0. 01 millibar. For example, at the boilBoil can mean: to bring to the boiling point, at which a substance goes from the liquid to the gaseous phase. to cook in boiling water a localized accumulation of pus in the skin, resulting from infection to convert printed data (books, journals and so oning point of waterDrinking water This article focuses on water as we experience it every day. The water (molecule) article describes water from a scientific and technical perspective. Water is an abundant substance on Earth. It exists in many forms, such as sea, rain, and (T = 373.15 K), the pressure only amounts to 5 micropascals, or about 3 pounds per square mile. Such feeble pressures are, nevertheless, able to produce marked effects upon minute particles like gasFor other meanings see gas (disambiguation). A gas is one of the phases of matter. Gases are, like liquids, fluids: they have the ability to flow and do not resist deformation. Unlike liquids, however, unconstrained gases do not occupy a fixed volume, but ions and electrons, and are important in the theory of electron emission from the Sun, of cometary material, etc. (see also: Yarkovsky effect).

Sources for the above information include the van Nostrand Scientific Encyclopedia (3rd edition).

In stellar interiors the temperatures are very high. Stellar models predict a temperature of 1.5×10⁷ kelvin in the center of the Sun and at the cores of supergiant stars the temperature may exceed 10⁹ kelvin. As the radiation pressure scales to the fourth power of the temperature, it becomes important in these high temperatures. In the Sun, radiation pressure is still quite small when compared to the gas pressure. In heaviest stars radiation pressure is the dominant pressure component.

In acoustics, radiation pressure is the unidirectional pressure force exerted at an interface between two media due to the passage of a sound wave.