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- Superposition_principle abstract "In physics and systems theory, the superposition principle, also known as superposition property, states that, for all linear systems, the net response at a given place and time caused by two or more stimuli is the sum of the responses which would have been caused by each stimulus individually. So that if input A produces response X and input B produces response Y then input (A + B) produces response (X + Y).The homogeneity and additivity properties together are called the superposition principle. A linear function is one that satisfies the properties of superposition. Which is defined as Additivity Homogeneityfor scalar a. This principle has many applications in physics and engineering because many physical systems can be modeled as linear systems. For example, a beam can be modeled as a linear system where the input stimulus is the load on the beam and the output response is the deflection of the beam. The importance of linear systems is that they are easier to analyze mathematically; there is a large body of mathematical techniques, frequency domain linear transform methods such as Fourier, Laplace transforms, and linear operator theory, that are applicable. Because physical systems are generally only approximately linear, the superposition principle is only an approximation of the true physical behavior.The superposition principle applies to any linear system, including algebraic equations, linear differential equations, and systems of equations of those forms. The stimuli and responses could be numbers, functions, vectors, vector fields, time-varying signals, or any other object which satisfies certain axioms. Note that when vectors or vector fields are involved, a superposition is interpreted as a vector sum.".
- Superposition_principle thumbnail Anas_platyrhynchos_with_ducklings_reflecting_water.jpg?width=300.
- Superposition_principle wikiPageExternalLink super.htm.
- Superposition_principle wikiPageID "1201321".
- Superposition_principle wikiPageRevisionID "599157448".
- Superposition_principle hasPhotoCollection Superposition_principle.
- Superposition_principle subject Category:Concepts_in_physics.
- Superposition_principle subject Category:Systems_theory.
- Superposition_principle subject Category:Waves.
- Superposition_principle comment "In physics and systems theory, the superposition principle, also known as superposition property, states that, for all linear systems, the net response at a given place and time caused by two or more stimuli is the sum of the responses which would have been caused by each stimulus individually.".
- Superposition_principle label "Principe de superposition".
- Superposition_principle label "Principio de superposición".
- Superposition_principle label "Principio di sovrapposizione".
- Superposition_principle label "Superpositie (natuurkunde)".
- Superposition_principle label "Superposition (Physik)".
- Superposition_principle label "Superposition principle".
- Superposition_principle label "Zasada superpozycji".
- Superposition_principle label "Принцип суперпозиции".
- Superposition_principle label "تراكب كمي".
- Superposition_principle label "叠加原理".
- Superposition_principle sameAs Superposition_(Physik).
- Superposition_principle sameAs Principio_de_superposición.
- Superposition_principle sameAs Principe_de_superposition.
- Superposition_principle sameAs Principio_di_sovrapposizione.
- Superposition_principle sameAs 중첩_원리.
- Superposition_principle sameAs Superpositie_(natuurkunde).
- Superposition_principle sameAs Zasada_superpozycji.
- Superposition_principle sameAs m.04gtr7.
- Superposition_principle sameAs Q284885.
- Superposition_principle sameAs Q284885.
- Superposition_principle wasDerivedFrom Superposition_principle?oldid=599157448.
- Superposition_principle depiction Anas_platyrhynchos_with_ducklings_reflecting_water.jpg.
- Superposition_principle isPrimaryTopicOf Superposition_principle.