MAXWELL’S EQUATIONS List of words Nouns 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Verbs 1. 2. 3. 4. Adjectives 1. 2. 3. Adverbs 1. Maxwell’s equations Match the equations 1- 4 to the correct definitions A- D π 1. π« π = 2. π« π = π Gauss’s law in magnetism π΄π 3. C π = − Gauss’s law ππ« π ππ Faraday - Neumann law 4. C π = µπ π + ππ π΄π ππ« π ππ Ampère-Maxwell law A. The emf, which is the line integral of the electric field around any closed path, equals the rate of change of magnetic flux through any surface area bounded by that path B. The total electric flux through any closed surface equals the net charge Q inside that surface divided by π΄) C. The line integral of the magnetic field around any closed path is the sum of π) times the net current through that path and π) π΄) the rate of change of electric flux through any surface bounded by that path D. The net magnetic flux through a closed surface is zero. Maxwell’s equations: 1. π« π = π π΄π Gauss’s law The total electric flux through any closed surface equals the net charge Q inside that surface divided by π΄) 2. π« π = π Gauss’s law in magnetism The net magnetic flux through a closed surface is zero. This fact is based on the experimental fact that isolated magnetic poles have never been detected and perhaps they don’t exist 3. C π = − π π« π π π Faraday - Neumann law The emf, which is the line integral of the electic field around any closed path, equals the rate of change of magnetic flux through any surface area bounded by that path 4. C π = µπ π + ππ π΄π π π« π π π Ampère-Maxwell The line integral of the magnetic field around any closed path is the sum of π) times the net current through that path and π) π΄) the rate of change of electric flux through any surface bounded by that path
