Classical mechanics/Related Articles: Difference between revisions
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<noinclude>{{subpages}}</noinclude> | <noinclude>{{subpages}}</noinclude> | ||
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==Parent topics== | ==Parent topics== | ||
{{r|Physics}} | |||
{{r|Engineering}} | |||
{{r|Standard Model}} | |||
==Subtopics== | ==Subtopics== | ||
{{r|Hamiltonian mechanics}} | |||
{{r|Lagrangian mechanics}} | |||
{{r|Laws of conservation}} | |||
{{r|Mechanics}} | |||
==Other related topics== | ==Other related topics== | ||
{{r|Acceleration}} | {{r|Acceleration}} | ||
{{r| | {{r|Centrifugal force}} | ||
{{r|Coriolis force}} | |||
{{r|Dyne}} | |||
{{r|Electromagnetism}} | {{r|Electromagnetism}} | ||
{{r|Energy (science)}} | {{r|Energy (science)}} | ||
{{r|Equipartition theorem}} | {{r|Equipartition theorem}} | ||
{{r|Frame of reference (physics)}} | |||
{{r|Force}} | {{r|Force}} | ||
{{r|Free particle}} | {{r|Free particle}} | ||
{{r|Gravitation}} | {{r|Gravitation}} | ||
{{r|Harmonic oscillator (classical)}} | {{r|Harmonic oscillator (classical)}} | ||
{{r|Inertial forces}} | |||
{{r|Inertial frame of reference}} | |||
{{r|Isaac Newton}} | {{r|Isaac Newton}} | ||
{{r| | {{r|Kilogram-force}} | ||
{{r|Momentum}} | {{r|Momentum}} | ||
{{r| | {{r|Newton}} | ||
{{r|Pound-force}} | |||
{{r|Quantum chemistry}} | {{r|Quantum chemistry}} | ||
{{r|Quantum mechanics}} | {{r|Quantum mechanics}} | ||
{{r|Rigid rotor}} | {{r|Rigid rotor}} | ||
{{r| | ==Articles related by keyphrases (Bot populated)== | ||
{{r|Science}} | |||
{{ | {{r|Harmonic oscillator (classical)}} | ||
{{r|Measure (mathematics)}} | |||
{{r|Group (mathematics)}} | |||
{{r|Copernican revolution}} | |||
{{r|Isaac Newton}} |
Latest revision as of 11:00, 29 July 2024
- 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]
- Standard Model [r]: A mathematical theory that describes the weak, electromagnetic and strong interactions between leptons and quarks, the basic particles of particle physics. [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.
- Acceleration [r]: The increase of an objects velocity (or speed) per unit time. [e]
- Centrifugal force [r]: A radially outward force experienced by an object moving in a curved path [e]
- Coriolis force [r]: An inertial force upon a moving object that is perpendicular to its velocity as that is seen from a rotating frame of reference, and also to the axis of rotation. [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]
- Frame of reference (physics) [r]: An observational set of coordinates tied to the motion of an observer, used to describe physical events and possibly including a measurement apparatus. [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]
- Inertial forces [r]: Forces introduced to enable the use of the laws of motion in accelerating frames of reference, such as rotational frames [e]
- Inertial frame of reference [r]: A frame of reference in which the laws of physics take their simplest form. [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 gn). [e]
- Momentum [r]: Add brief definition or description
- Newton [r]: Add brief definition or description
- Pound-force [r]: Add brief definition or description
- Quantum chemistry [r]: Add brief definition or description
- Quantum mechanics [r]: Add brief definition or description
- Rigid rotor [r]: Add brief definition or description
- Science [r]: Add brief definition or description
- Harmonic oscillator (classical) [r]: A system which, when displaced from its equilibrium position, experiences a restoring force, proportional to the displacement. [e]
- Measure (mathematics) [r]: Add brief definition or description
- Group (mathematics) [r]: Add brief definition or description
- Copernican revolution [r]: Add brief definition or description
- 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]