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- Superposition_theorem abstract "The superposition theorem for electrical circuits states that for a linear system the response (voltage or current) in any branch of a bilateral linear circuit having more than one independent source equals the algebraic sum of the responses caused by each independent source acting alone, where all the other independent sources are replaced by their internal impedances.To ascertain the contribution of each individual source, all of the other sources first must be \"turned off\" (set to zero) by: Replacing all other independent voltage sources with a short circuit (thereby eliminating difference of potential i.e. V=0; internal impedance of ideal voltage source is zero (short circuit)). Replacing all other independent current sources with an open circuit (thereby eliminating current i.e. I=0; internal impedance of ideal current source is infinite (open circuit)).This procedure is followed for each source in turn, then the resultant responses are added to determine the true operation of the circuit. The resultant circuit operation is the superposition of the various voltage and current sources.The superposition theorem is very important in circuit analysis. It is used in converting any circuit into its Norton equivalent or Thevenin equivalent.The theorem is applicable to linear networks (time varying or time invariant) consisting of independent sources, linear dependent sources, linear passive elements (resistors, inductors, capacitors) and linear transformers.Another point that should be considered is that superposition only works for voltage and current but not power. In other words, the sum of the powers of each source with the other sources turned off is not the real consumed power. To calculate power we should first use superposition to find both current and voltage of each linear element and then calculate the sum of the multiplied voltages and currents.".
- Superposition_theorem wikiPageID "4255144".
- Superposition_theorem wikiPageLength "2409".
- Superposition_theorem wikiPageOutDegree "20".
- Superposition_theorem wikiPageRevisionID "707887656".
- Superposition_theorem wikiPageWikiLink Capacitor.
- Superposition_theorem wikiPageWikiLink Category:Circuit_theorems.
- Superposition_theorem wikiPageWikiLink Current_source.
- Superposition_theorem wikiPageWikiLink Dependent_source.
- Superposition_theorem wikiPageWikiLink Electric_current.
- Superposition_theorem wikiPageWikiLink Electrical_impedance.
- Superposition_theorem wikiPageWikiLink Electrical_network.
- Superposition_theorem wikiPageWikiLink Inductor.
- Superposition_theorem wikiPageWikiLink Linear_circuit.
- Superposition_theorem wikiPageWikiLink Nortons_theorem.
- Superposition_theorem wikiPageWikiLink Resistor.
- Superposition_theorem wikiPageWikiLink Short_circuit.
- Superposition_theorem wikiPageWikiLink Thxc3xa9venins_theorem.
- Superposition_theorem wikiPageWikiLink Transformer.
- Superposition_theorem wikiPageWikiLink Voltage.
- Superposition_theorem wikiPageWikiLink Voltage_source.
- Superposition_theorem wikiPageWikiLink Wikt:open_circuit.
- Superposition_theorem wikiPageWikiLinkText "Superposition theorem".
- Superposition_theorem wikiPageWikiLinkText "Superposition".
- Superposition_theorem wikiPageWikiLinkText "superposed".
- Superposition_theorem wikiPageWikiLinkText "superposition theorem for electric circuits".
- Superposition_theorem wikiPageWikiLinkText "superposition theorem".
- Superposition_theorem wikiPageWikiLinkText "superposition".
- Superposition_theorem wikiPageUsesTemplate Template:About.
- Superposition_theorem wikiPageUsesTemplate Template:Electric-stub.
- Superposition_theorem subject Category:Circuit_theorems.
- Superposition_theorem type Circuit.
- Superposition_theorem type Theorem.
- Superposition_theorem comment "The superposition theorem for electrical circuits states that for a linear system the response (voltage or current) in any branch of a bilateral linear circuit having more than one independent source equals the algebraic sum of the responses caused by each independent source acting alone, where all the other independent sources are replaced by their internal impedances.To ascertain the contribution of each individual source, all of the other sources first must be \"turned off\" (set to zero) by: Replacing all other independent voltage sources with a short circuit (thereby eliminating difference of potential i.e. ".
- Superposition_theorem label "Superposition theorem".
- Superposition_theorem sameAs Q32028.
- Superposition_theorem sameAs የአነባብሮ_እርግጥ.
- Superposition_theorem sameAs Teorema_de_superposició.
- Superposition_theorem sameAs Superpozice_(elektrotechnika).
- Superposition_theorem sameAs Teorema_de_superposición.
- Superposition_theorem sameAs Gainjartzearen_teorema.
- Superposition_theorem sameAs משפט_הסופרפוזיציה.
- Superposition_theorem sameAs अध्यारोपण_प्रमेय.
- Superposition_theorem sameAs Metoda_superpozicije.
- Superposition_theorem sameAs Szuperpozíció_(elektronika).
- Superposition_theorem sameAs Teorema_super_posisi.
- Superposition_theorem sameAs 重ね合わせの原理_(電気回路).
- Superposition_theorem sameAs Teorema_da_superposição.
- Superposition_theorem sameAs m.0bsmkn.
- Superposition_theorem sameAs Теорема_суперпозиције.
- Superposition_theorem sameAs Q32028.
- Superposition_theorem sameAs 重疊定理.
- Superposition_theorem wasDerivedFrom Superposition_theorem?oldid=707887656.
- Superposition_theorem isPrimaryTopicOf Superposition_theorem.