2. a) Derive the wave equation of Magnetic field using differential form of Maxwell's 4th Equation (where the displacement current takes place). Then, by comparing Classical and EM wave equations, show that light is an EM wave. b) In free space, an electromagnetic wave travels with E field component, ES ei(0.866y+0.5z) 100 âx V/m. Calculate- angular frequency and wavelength H field component, Hs
2. a) Derive the wave equation of Magnetic field using differential form of Maxwell's 4th Equation (where the displacement current takes place). Then, by comparing Classical and EM wave equations, show that light is an EM wave. b) In free space, an electromagnetic wave travels with E field component, ES ei(0.866y+0.5z) 100 âx V/m. Calculate- angular frequency and wavelength H field component, Hs
College Physics
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Transcribed Image Text:2. a) Derive the wave equation of Magnetic field using differential form of Maxwell's 4th Equation
(where the displacement current takes place). Then, by comparing Classical and EM wave
equations, show that light is an EM wave.
b) In free space, an electromagnetic wave travels with E field component, ES
ei(0.866y+0.5z)
100
âx V/m. Calculate-
angular frequency and wavelength
H field component, Hs
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