[50 pts] Given: Figure 6.23, page 366 of the course textbook. Find: Derive the expression for...
1. [50 pts] Given: Figure 6.23, page 366 of the course textbook. Find: Derive the expression for the transverse magnetic reflection coefficient, Itm for a normally incident wave. Solution: HP FIGURE 6.23 TM polarization Answer: ITM 1/2 cos - cos, 1/2 cos 0+11 cos
1. [50 pts) Given: Figure 6.23, page 366 of the course textbook. Find: Derive the expression for the transverse magnetic reflection coefficient, Crm for a normally incident wave. 42 cos ,- cos e Solution: Answer: 1/2 cos 0,+ coses I х ET & H E: MA H Z 0 E as H
please show step by step is there an issue solving this problem? 1. [50 pts) Given: Figure 6.23, page 366 of the course textbook. Find: Derive the expression for the transverse magnetic reflection coefficient, Crm for a normally incident wave. 42 cos ,- cos e Solution: Answer: 1/2 cos 0,+ coses I х ET & H E: MA H Z 0 E as H
[50 pts) Given: A 100-MHZ TM polarized wave with an amplitude of 1 V/m is obliquely incident from air (z < 0) onto a slap of lossless, nonmagnetic material with er = 25. The angle of incidence is 40°. Find: a) Determine the angle of transmission; b) determine the reflection and transmission coefficients and c) determine expressions for the incident, reflected, and transmitted fields. Solution: Answers: a) The angle of transmission is 7.37º; b) Itm = -0.588 and Ttm =...
1. The magnetic field of a wave propagating through a certain nonmagnetic material is given by H-x30cos(10%-0. Sy) (mA/m) Find the following: (a) The direction of wave propagation. (b) The phase velocity (c) The wavelength in the material. (d) The relative permittivity of the material (e) The electric field phasor 2. A 60-MHz plane wave traveling in the -x-direction in dry soil with relative permittivity &4 has an electric field polarized along the z-direction. Assuming dry soil to be approximately...