Answer in units of W/m2 Consider a monochromatic electromagnet ic plane wave propagating left to right...
A single frequency (monochromatic) plane wave propagating in free space is normally incident on plane surface of a medium with the relative permittivity of 1.69. What fraction of the power of the incident wave is reflected off the surface of the medium?
Probelm 8.4 Consider a uniform plane wave propagating in a lossy, non-magnetic biological tissue characterized by com- plex relative permittivity er -er - je?. The instantaneous electric field is given by: E(,t) 0.5e-39v cos(1.83T x 10°t - 141y) (V/m) (a) Determine є,-er-je. (b) Compute the intrinsic impedance e of the biological tissue. Then find the corresponding instantaneous magnetic field H(,t) (c) Find the time-average Poynting vector Sav. Use MATLAB to plot its magnitude for 0 < y < 6 (cm).
A left-handed circularly polarized plane wave propagating in air has an electric field magnitude of 28 V/m. This wave is normally incident on a lossless medium characterized by a relative permittivity of 8,8 and a relative permeability of 1,3, which occupies the region defined by z 0. Determine the percentage of the energy that is transmitted into the second medium. (Enter at least three digits after the decimal separator in your answer)
Electromagnetic Waves 2 1 2 3 4 A plane monochromatic electromagnetic wave with wavelength 1 = 2.6 cm, propagates through a vacuum. Its magnetic field is described by B = (B,i+Byj) cos(kx + wt) where B, = 2.7 x 10-6 T, B, - 5.9 X 106T, and i-hat and j-hat are the unit vectors in the +x and +y directions, respectively. 1) What is f, the frequency of this wave? 0 GHz Submit 2) What is I, the intensity of...
A sinusoidal electromagnetic wave is propagating in vacuum. At a given point and at a particular time the electric field is in the +x direction and the magnetic field is in the -y direction, and at that point the intensity of the wave is 0.45 W/m^2. (c = 3.0 times 10^8 m/s, mu 0 = 4 pi times 10^7 T middot m/A epsilon_0 = 8.85 times 10^-12 C^2/N middot m^2) What is the direction of propagation of the wave? What...
The magnetic field in a plane monochromatic electromagnetic wave with wavelength λ = 427 nm, propagating in a vacuum in the z-direction is described by B⃗=(B1sin(kz−ωt))(i^+j^)B→=(B1sin(kz−ωt))(i^+j^) where B1 = 7.6 X 10-6 T, and i-hat and j-hat are the unit vectors in the +x and +y directions, respectively. 1) What is k, the wavenumber of this wave? 2) What is zmax, the distance along the positive z-axis to the position where the magnitude of the magnetic field is a maximum...
please give answer in easy to understand manner as endsem tomorrow the (b) For a uniform plane wave propagating in free space,the apparent phase velocities along found to be 6V2x i 0,n/s and 2V3 x i0 m/s respectively Find 151 x- and y-directions are the direction propagation of wave. the (b) For a uniform plane wave propagating in free space,the apparent phase velocities along found to be 6V2x i 0,n/s and 2V3 x i0 m/s respectively Find 151 x- and...
The figure below shows a plane electromagnetic sinusoidal wave propagating in the x direction. Suppose the wavelength is 48.0 m and the e field vibrates in the xy plane with an amplitude of 18.0 V/m. (a) Calculate the frequency of the wave. 6.25 MHz (b) Calculate the magnetic field B when the electric field has its maximum value in the negative y direction, magnitude. 0.13 What is the relationship between the amplitudes of the magnetic and electric fields in a...
5 Points Problem 5: A Uniform Plane Wave of frequency f is propagating in a certain lossless medium of Impedance n with a Phase Velocity Vp. A. Find the Wavelength, 2. 5 Points B. Find the Propagation Constant, ß. 5 Points C. Find the Relative Permittivity, er. 5 Points D. Find the relative permeability, Hr. 5 Points | Er = 2.10 Problem 3A f = 13.4 MHz Problem 3B 1 = 3.9 m Problem 30 f = 10.0 MHz Problem...
The magnetic field in a plane monochromatic electromagnetic wave with wavelength A = 445 nm, propagating in a vacuum in the 2-direction is described by B=(Bj sin(kz - wt)(i+1) where 8, = 8.6 X 10ºT, and 1-hat and juhat are the unit vectors in the *x and +y directions, respectively. 1) What is k, the wavenumber of this wave? m Submit 2) What is max, the distance along the positive z-axis to the position where the magnitude of the magnetic...