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Sep 7 2018

Light, Definition, Properties, Physics, & Quantum Theory, the definition of work in physics.#The #definition #of

Light

light , electromagnetic radiation that can be detected by the human eye . Electromagnetic radiation occurs over an extremely wide range of wavelengths , from gamma rays with wavelengths less than about 1 × 10 −11 metre to radio waves measured in metres. Within that broad spectrum the wavelengths visible to humans occupy a very narrow band, from about 700 nanometres (nm; billionths of a metre) for red light down to about 400 nm for violet light. The spectral regions adjacent to the visible band are often referred to as light also, infrared at the one end and ultraviolet at the other. The speed of light in a vacuum is a fundamental physical constant , the currently accepted value of which is exactly 299,792,458 metres per second, or about 186,282 miles per second.

The definition of work in physics

No single answer to the question “What is light?” satisfies the many contexts in which light is experienced, explored, and exploited. The physicist is interested in the physical properties of light, the artist in an aesthetic appreciation of the visual world. Through the sense of sight, light is a primary tool for perceiving the world and communicating within it. Light from the Sun warms the Earth , drives global weather patterns, and initiates the life-sustaining process of photosynthesis . On the grandest scale, light’s interactions with matter have helped shape the structure of the universe . Indeed, light provides a window on the universe, from cosmological to atomic scales. Almost all of the information about the rest of the universe reaches Earth in the form of electromagnetic radiation. By interpreting that radiation, astronomers can glimpse the earliest epochs of the universe, measure the general expansion of the universe, and determine the chemical composition of stars and the interstellar medium . Just as the invention of the telescope dramatically broadened exploration of the universe, so too the invention of the microscope opened the intricate world of the cell . The analysis of the frequencies of light emitted and absorbed by atoms was a principal impetus for the development of quantum mechanics . Atomic and molecular spectroscopies continue to be primary tools for probing the structure of matter, providing ultrasensitive tests of atomic and molecular models and contributing to studies of fundamental photochemical reactions .

The definition of work in physics

Light transmits spatial and temporal information. This property forms the basis of the fields of optics and optical communications and a myriad of related technologies, both mature and emerging. Technological applications based on the manipulations of light include lasers , holography , and fibre-optic telecommunications systems .

The definition of work in physics

In most everyday circumstances, the properties of light can be derived from the theory of classical electromagnetism , in which light is described as coupled electric and magnetic fields propagating through space as a traveling wave . However, this wave theory, developed in the mid-19th century, is not sufficient to explain the properties of light at very low intensities. At that level a quantum theory is needed to explain the characteristics of light and to explain the interactions of light with atoms and molecules . In its simplest form, quantum theory describes light as consisting of discrete packets of energy, called photons . However, neither a classical wave model nor a classical particle model correctly describes light; light has a dual nature that is revealed only in quantum mechanics. This surprising wave-particle duality is shared by all of the primary constituents of nature (e.g., electrons have both particle-like and wavelike aspects). Since the mid-20th century, a more comprehensive theory of light, known as quantum electrodynamics (QED), has been regarded by physicists as complete. QED combines the ideas of classical electromagnetism, quantum mechanics, and the special theory of relativity .

This article focuses on the physical characteristics of light and the theoretical models that describe the nature of light. Its major themes include introductions to the fundamentals of geometrical optics, classical electromagnetic waves and the interference effects associated with those waves, and the foundational ideas of the quantum theory of light. More detailed and technical presentations of these topics can be found in the articles optics , electromagnetic radiation , quantum mechanics , and quantum electrodynamics . See also relativity for details of how contemplation of the speed of light as measured in different reference frames was pivotal to the development of Albert Einstein ’s theory of special relativity in 1905.





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