A plane wave is incident from air upon the planar surface of a dielectric material with...

Assume a uniform plane wave in air with E = 8yˆcos(ωt−4x−3z) is incident on a dielectric...

Assume a uniform plane wave in air with E = 8yˆcos(ωt−4x−3z) is incident on a dielectric slab(z≥0)withμr =1,εr =2.5,σ=0. Determine: i) the polarization of the wave; ii) the angle of incidence; iii) the reflected E field; iv) the transmitted H field.

For a wave that is obliquely incident upon a pure dielectric: a. Prove that for a...

For a wave that is obliquely incident upon a pure dielectric: a. Prove that for a TE-polarized wave, there is no angle of incidence such that Γ = 0. b. Prove that for a TM-polarized wave, Γ = 0 when the angle of incidence plus the angle of transmission = 90 degrees.

8 a) Which direction does an EM wave travelling from a denser medium (higher refractive index)...

8 a) Which direction does an EM wave travelling from a denser medium (higher refractive index) to a rarer medium (lower refractive index) refract to with respect to the normal to the media boundary? 8 b) What are the possible values of the phase angle of the reflection coefficient (θr) when the and electromagnetic wave travels from one lossless dielectric medium to another lossless dielectric medium at normal angle of incidence? 8 c) A plane wave travels from medium 1...

A plane-polarized electromagnetic wave in vacuum E (x, t) = E0eikx–iwt (in the epsilon-hat direction); cB(x,...

A plane-polarized electromagnetic wave in vacuum E (x, t) = E0eikx–iwt (in the epsilon-hat direction); cB(x, t) = k × E(x, t) falls at an angle of incidence θ on an infinite plane dielectric of finite depth, where its reflection coefficient is R (the ratio of the incoming Poynting flux to the reflected flux). Assuming all the refracted/transmitted electromagnetic wave is eventually absorbed in the dielectric (that is it does not pass out the other side) use the stress tensor...

6.4.2: For plane wave reflection from a fluid-fluid interface it is observed that at normal incidence...

6.4.2: For plane wave reflection from a fluid-fluid interface it is observed that at normal incidence the pressure amplitude of the reflected wave is one-half that of the incident wave (no phase information is recorded). As the angle of incidence is increased, the amplitude of the reflected wave first decreases to zero and then increases until at 30˚ the reflected wave is as strong as the incident wave. Find the density and sound speed in the second medium if the...

The ω-frequency monochromatic plane wave passes through from a medium having a dielectric constant ε1 to...

The ω-frequency monochromatic plane wave passes through from a medium having a dielectric constant ε1 to a similar to the first medium, but with a dielectric constant ε2, in the normal direction of the medium. a) Determine the boundary conditions at the interface of the medium for electric and magnetic fields. b) Find the energy ratio from the first medium to the second medium.

Consider a uniform plane wave impinging obliquely on an air-to-glass (εr = 4.0) boundary from the...

Consider a uniform plane wave impinging obliquely on an air-to-glass (εr = 4.0) boundary from the air side of the boundary. The boundary is flat and the dielectrics may be considered to be infinite in extent on both sides of the boundary. The incident wave is polarized in the plane of incidence. Find the incident angle for which total absorption takes place. Would this also apply for a wave which is polarized normal to the plane of incidence? If yes,...

A plane electromagnetic wave varies sinusoidally at 98.2 MHz as it travels through vacuum along the...

A plane electromagnetic wave varies sinusoidally at 98.2 MHz as it travels through vacuum along the positive x direction. The peak value of the electric field is 2.10 mV/m, and it is directed along the positive y direction. (a) Find the wavelength. m (b) Find the period. ns (c) Find the maximum value of the magnetic field. pT (d) Write expressions in SI units for the space and time variations of the electric field. (x is in meters, and t...