Classical mechanics/Related Articles: Difference between revisions

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	A list of Citizendium articles, and planned articles, about Classical mechanics.

See also changes related to Classical mechanics, or pages that link to Classical mechanics or to this page or whose text contains "Classical mechanics".

Parent topics

• Physics [r]: The study of forces and energies in space and time. ^[e]
• Engineering [r]: a branch of engineering that uses chemistry, biology, physics, and math to solve problems involving fuel, drugs, food, and many other products. ^[e]

Subtopics

• Hamiltonian mechanics [r]: Add brief definition or description
• Lagrangian mechanics [r]: Add brief definition or description
• Laws of conservation [r]: The laws of science which state that a particular measurable property (or quantity) of an isolated physical system does not change (i.e., is constant) during the course of time. ^[e]
• Mechanics [r]: Please do not use this term in your topic list, because there is no single article for it. Please substitute a more precise term. See Mechanics (disambiguation) for a list of available, more precise, topics. Please add a new usage if needed.

Other related topics

• Acceleration [r]: The increase of an objects velocity (or speed) per unit time. ^[e]
• Dyne [r]: Force in cgs system; symbol: dyn; 1 dyn = 10⁻⁵ N. ^[e]
• Electromagnetism [r]: Phenomena and theories regarding electricity and magnetism. ^[e]
• Energy (science) [r]: A measurable physical quantity of a system which can be expressed in joules (the metric unit for a quantity of energy) or other measurement units such as ergs, calories, watt-hours or Btu. ^[e]
• Equipartition theorem [r]: A general formula that relates the temperature of a system with its average energies, also known as the law of equipartition, equipartition of energy, or simply equipartition. ^[e]
• Force [r]: Vector quantity that tends to produce an acceleration of a body in the direction of its application. ^[e]
• Free particle [r]: A particle not subject to forces, for example, in a 'field-free' space. ^[e]
• Gravitation [r]: The tendency of objects with mass to accelerate toward each other. ^[e]
• Harmonic oscillator (classical) [r]: A system which, when displaced from its equilibrium position, experiences a restoring force, proportional to the displacement. ^[e]
• Isaac Newton [r]: (1642–1727) English physicist and mathematician, best known for his elucidation of the universal theory of gravitation and his development of calculus. ^[e]
• Kilogram-force [r]: A unit of force which will accelerate 1 kilogram of mass to 9.80665 m/s², the standard average acceleration due to gravity on Earth's surface (referred to as g_n). ^[e]
• Momentum [r]: mass of a particle times its velocity (a vector). ^[e]
• Newton [r]: SI derived unit of force, named after Isaac Newton, equal to the amount of force required to accelerate a mass of one kilogram at a rate of one metre per second per second. ^[e]
• Pound-force [r]: A measurement unit of force which will accelerate 1 pound of mass to 9.80665 m/s² (≈ 32.17405 ft/s²), the standard average acceleration due to gravity on Earth's surface (referred to as g_n). ^[e]
• Quantum chemistry [r]: A branch of theoretical chemistry, which applies quantum mechanics and quantum field theory to address issues and problems in chemistry. ^[e]
• Quantum mechanics [r]: An important branch of physics dealing with the behavior of matter and energy at very small scales. ^[e]
• Rigid rotor [r]: A 3-dimensional rigid object rotating around its center of mass. ^[e]