1
answer
1
watching
148
views
12 Nov 2019
a.) State Maxwellâs equations in integral and differential form.Show that the two forms are equivalent.
b.) Using the third and fourth of Maxwellâs equation in integralform, show that a plane polarized
electromagnetic waves propagates in accordance with the generalizedwave equation. Determine the
velocity of light in terms of the permeability and permittivityconstants.
c.) Explain why propagating light in a planar waveguide does so inthe form of specific modes.
a.) State Maxwellâs equations in integral and differential form.Show that the two forms are equivalent.
b.) Using the third and fourth of Maxwellâs equation in integralform, show that a plane polarized
electromagnetic waves propagates in accordance with the generalizedwave equation. Determine the
velocity of light in terms of the permeability and permittivityconstants.
c.) Explain why propagating light in a planar waveguide does so inthe form of specific modes.
Jamar FerryLv2
13 Feb 2019