Ampère's circuital law

URI: https://gptkb.org/entity/Amp%C3%A8re%27s_circuital_law

GPTKB entity

Statements (49)

Predicate	Object
gptkbp:instance_of	gptkb:legislation
gptkbp:applies_to	engineering applications wireless communication steady currents power generation solenoids
gptkbp:developed_by	Ampère-Maxwell law
gptkbp:formulation	gptkb:André-Marie_Ampère
https://www.w3.org/2000/01/rdf-schema#label	Ampère's circuital law
gptkbp:is_a_basis_for	inductance calculations
gptkbp:is_a_framework_for	electromagnetic compatibility electromagnetic fields
gptkbp:is_analyzed_in	electrical circuits magnetic fields due to currents
gptkbp:is_associated_with	magnetic flux
gptkbp:is_connected_to	gptkb:fictional_universe
gptkbp:is_considered_as	∮ B·dl = μ₀ I_enc
gptkbp:is_described_as	relationship between electric current and magnetic field
gptkbp:is_essential_for	designing electrical devices magnetic field interactions understanding magnetic circuits
gptkbp:is_fundamental_to	circuit theory classical electromagnetism
gptkbp:is_involved_in	gptkb:military_officer
gptkbp:is_part_of	gptkb:Maxwell's_equations
gptkbp:is_related_to	Faraday's law of induction Biot-Savart law Lorentz force law current-carrying conductors
gptkbp:is_studied_in	electrical engineering
gptkbp:is_used_by	magnetic forces
gptkbp:is_used_in	electromagnetism transformer design
gptkbp:is_utilized_in	MRI technology
gptkbp:key	gptkb:physicist electromagnetic theory
gptkbp:legal_issue	circuit analysis
gptkbp:named_after	gptkb:André-Marie_Ampère
gptkbp:published_by	1820
gptkbp:related_concept	classical physics the development of technologies
gptkbp:significance	gptkb:Research_Institute gptkb:Telecommunications_company
gptkbp:state	the line integral of the magnetic field around a closed loop is proportional to the electric current passing through the loop
gptkbp:theory	magnetic field sensors the behavior of magnets
gptkbp:training	physics courses
gptkbp:bfsParent	gptkb:André-Marie_Ampère
gptkbp:bfsLayer	5