PowerWiki: MaxwelovyRovnice

At line 2 changed 4 lines.

| Gauss's law: | [{MMath latex='\\nabla \\cdot \\vec{D} = \\rho'}] | [{MMath latex='\\oint_S \\vec{D} \\cdot \\mathrm{d}\\vec{A} = \\int_V \\rho\\, \\mathrm{d}V'}]

| Gauss' law for magnetism\\ (absence of magnetic monopoles): | [{MMath latex='\\nabla \\cdot \\vec{B} = 0}] | [{MMath latex='\\oint_S \\vec{B} \\cdot \\mathrm{d}\\vec{A} = 0}]

| Faraday's law of induction: | [{MMath latex='\\nabla \\times \\vec{E} = -\\frac{\\partial \\vec{B}} {\\partial t}}] | [{MMath latex='\\oint_C \\vec{E} \\cdot \\mathrm{d}\\vec{l} - \\oint_C \\vec{B} \\times \\vec{v} \\cdot \\mathrm{d}\\vec{l} = - \\ { \\mathrm{d} \\over \\mathrm{d}t } \\int_S \\vec{B} \\cdot \\mathrm{d}\\vec{A}}]

| Ampère's law | [{MMath latex='\\nabla \\times \\vec{H} = \\vec{J} + \\frac{\\partial \\vec{D}} {\\partial t}}] |[{MMath latex='\\oint_C \\vec{H} \\cdot \\mathrm{d}\\vec{l} = \\int_S \\vec{J} \\cdot \\mathrm{d} \\vec{A} + \\int_S \\frac{\\partial\\vec{D}}{\\partial t} \\cdot \\mathrm{d} \\vec{A}}]

| Gauss's law: | [{LTMath latex='\\nabla \\cdot \\vec{D} = \\rho'}] | [{LTMath latex='\\oint_S \\vec{D} \\cdot \\mathrm{d}\\vec{A} = \\int_V \\rho\\, \\mathrm{d}V'}]

| Gauss' law for magnetism\\ (absence of magnetic monopoles): | [{LTMath latex='\\nabla \\cdot \\vec{B} = 0}] | [{LTMath latex='\\oint_S \\vec{B} \\cdot \\mathrm{d}\\vec{A} = 0}]

| Faraday's law of induction: | [{LTMath latex='\\nabla \\times \\vec{E} = -\\frac{\\partial \\vec{B}} {\\partial t}}] | [{LTMath latex='\\oint_C \\vec{E} \\cdot \\mathrm{d}\\vec{l} - \\oint_C \\vec{B} \\times \\vec{v} \\cdot \\mathrm{d}\\vec{l} = - \\ { \\mathrm{d} \\over \\mathrm{d}t } \\int_S \\vec{B} \\cdot \\mathrm{d}\\vec{A}}]

| Ampère's law | [{LTMath latex='\\nabla \\times \\vec{H} = \\vec{J} + \\frac{\\partial \\vec{D}} {\\partial t}}] |[{LTMath latex='\\oint_C \\vec{H} \\cdot \\mathrm{d}\\vec{l} = \\int_S \\vec{J} \\cdot \\mathrm{d} \\vec{A} + \\int_S \\frac{\\partial\\vec{D}}{\\partial t} \\cdot \\mathrm{d} \\vec{A}}]