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Matches in DBpedia 2016-04 for { <http://dbpedia.org/resource/Leading_and_lagging_current> ?p ?o }

• Leading_and_lagging_current abstract "There are three options in a circuit for current. It can be leading, lagging, or in phase with voltage. These can all be seen when one maps current and voltage of alternating (AC) circuits against time. The only time that the voltage and current are in phase together is when the load is resistive. If at some point in the phase shift the current leads the voltage by more than 90 degrees, it can then be stated that the current lags that voltage by 180 degrees minus the phase shift. Ninety degrees phase shift is the determining point if the current is either leading or lagging the voltage.Each of the main components of a circuit (resistor, capacitor, and inductor) can be seen as an impedance. All of them produce resistance in either fractional or exponential ways. Here are their complex number forms: Resistor, R = R Capacitor, Zc = 1/jωC Inductor, Zl = jωL ω=2πf↑ ↑ ↑ ↑ ↑".
• Leading_and_lagging_current wikiPageExternalLink lagging_current).
• Leading_and_lagging_current wikiPageExternalLink leading_current).
• Leading_and_lagging_current wikiPageID "35778443".
• Leading_and_lagging_current wikiPageLength "6747".
• Leading_and_lagging_current wikiPageOutDegree "23".
• Leading_and_lagging_current wikiPageRevisionID "705362880".
• Leading_and_lagging_current wikiPageWikiLink Alternating_current.
• Leading_and_lagging_current wikiPageWikiLink American_Academy_of_Arts_and_Sciences.
• Leading_and_lagging_current wikiPageWikiLink Angle_notation.
• Leading_and_lagging_current wikiPageWikiLink Capacitor.
• Leading_and_lagging_current wikiPageWikiLink Cartesian_coordinate_system.
• Leading_and_lagging_current wikiPageWikiLink Category:Electric_power.
• Leading_and_lagging_current wikiPageWikiLink Category:Electrical_engineering.
• Leading_and_lagging_current wikiPageWikiLink Category:Electrical_parameters.
• Leading_and_lagging_current wikiPageWikiLink Complex_number.
• Leading_and_lagging_current wikiPageWikiLink Electrical_impedance.
• Leading_and_lagging_current wikiPageWikiLink Euclidean_vector.
• Leading_and_lagging_current wikiPageWikiLink Inductor.
• Leading_and_lagging_current wikiPageWikiLink Ohms_law.
• Leading_and_lagging_current wikiPageWikiLink Phase_(waves).
• Leading_and_lagging_current wikiPageWikiLink Phasor.
• Leading_and_lagging_current wikiPageWikiLink Power_factor.
• Leading_and_lagging_current wikiPageWikiLink RLC_circuit.
• Leading_and_lagging_current wikiPageWikiLink Resistor.
• Leading_and_lagging_current wikiPageWikiLinkText "Leading and lagging current".
• Leading_and_lagging_current wikiPageUsesTemplate Template:Math.
• Leading_and_lagging_current wikiPageUsesTemplate Template:Reflist.
• Leading_and_lagging_current subject Category:Electric_power.
• Leading_and_lagging_current subject Category:Electrical_engineering.
• Leading_and_lagging_current subject Category:Electrical_parameters.
• Leading_and_lagging_current hypernym Options.
• Leading_and_lagging_current type Company.
• Leading_and_lagging_current type Discipline.
• Leading_and_lagging_current comment "There are three options in a circuit for current. It can be leading, lagging, or in phase with voltage. These can all be seen when one maps current and voltage of alternating (AC) circuits against time. The only time that the voltage and current are in phase together is when the load is resistive. If at some point in the phase shift the current leads the voltage by more than 90 degrees, it can then be stated that the current lags that voltage by 180 degrees minus the phase shift.".
• Leading_and_lagging_current label "Leading and lagging current".
• Leading_and_lagging_current sameAs Q6508752.
• Leading_and_lagging_current sameAs m.0jt2rsw.
• Leading_and_lagging_current sameAs Q6508752.
• Leading_and_lagging_current wasDerivedFrom Leading_and_lagging_current?oldid=705362880.
• Leading_and_lagging_current isPrimaryTopicOf Leading_and_lagging_current.