Vogliamo che la legge arrivi in luoghi tenebrosi come Piazza-Italy,la chat italiana di Aol, dove si commettono violazioni vergognose dei dirtti civili.

venerdì 22 maggio 2009

To the Philosophically oriented readers: learn something about phtons and I will tell you later why

Photon For other uses, see Photon (disambiguation). Photon Photons emitted in a coherent beam from a laser
Composition: Elementary particle Family: Boson Group: Gauge boson Interaction: Electromagnetic Theorized: Albert Einstein Symbol(s): γ, hν, or ħω Mass: 0 Mean lifetime: Stable[1] Electric charge: 0 Spin: 1 In physics, a photon is an elementary particle, the quantum of the electromagnetic field and the basic "unit" of light and all other forms of electromagnetic radiation. It is also the force carrier for the electromagnetic force. The effects of this force are easily observable at both the microscopic and macroscopic level, because the photon has no rest mass; this allows for interactions at long distances. Like all elementary particles, photons are governed by quantum mechanics and will exhibit wave-particle duality – they exhibit properties of both waves and particles. For example, a single photon may be refracted by a lens or exhibit wave interference, but also act as a particle giving a definite result when its location is measured. The modern concept of the photon was developed gradually by Albert Einstein to explain experimental observations that did not fit the classical wave model of light. In particular, the photon model accounted for the frequency dependence of light's energy, and explained the ability of matter and radiation to be in thermal equilibrium. It also accounted for anomalous observations, including the properties of black body radiation, that other physicists, most notably Max Planck, had sought to explain using semiclassical models, in which light is still described by Maxwell's equations, but the material objects that emit and absorb light are quantized. Although these semiclassical models contributed to the development of quantum mechanics, further experiments proved Einstein's hypothesis that light itself is quantized; the quanta of light are photons. In the modern Standard Model of particle physics, photons are described as a necessary consequence of physical laws having a certain symmetry at every point in spacetime. The intrinsic properties of photons, such as charge, mass and spin, are determined by the properties of this gauge symmetry. The photon concept has led to momentous advances in experimental and theoretical physics, such as lasers, Bose–Einstein condensation, quantum field theory, and the probabilistic interpretation of quantum mechanics. It has been applied to photochemistry, high-resolution microscopy, and measurements of molecular distances. Recently, photons have been studied as elements of quantum computers and for sophisticated applications in optical communication such as quantum cryptography

2 commenti:

Anonimo ha detto...

Oh god! I'm reading it author and trying to learn about 'photons' BUT IT'S SO COMPLICATED...i have no scientific brain at all.....I CAN'T HELP IT ! I'm quite good at human biology though.

Anonimo ha detto...

ma i fotoni sono le particelle che ci fanno fottere ?

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