A. For what transmission scenario is the reflection coefficient ?--1? why is this so? 4. B....
lb) Using Matlab, plot the following expressions for pressure reflection coefficient (R), pressure transmission coefficient (T), intensity reflection coefficient (R), and intensity transmission coefficient (Ti) for normal incidence of a plane wave on a fluid boundary 0 ZiZ2 10. Comment on results for Zi/Zi -0, Z/Z^ -1, and Z/Zz approaching infinity. -군 군 2212 2
Consider a potential well, whose potential is given by (a) Evaluate the reflection and transmission coefficient for the case E > 0. (b) Use your result for the transmission coefficient obtained in (a) above, to evaluate the transmission coefficient for the potential barrier, (V0 > 0) for the case E < V0. Please show all steps thoroughly S-V, (-a <r <a) 10, elsewhere JV, (-a <r <a) V.C) = 0. elsewhere
1) A transmission line with z, = 120o is terminated with a load Z. = 120 If the line is /4 long, find (a) The reflection coefficient T (b) The standing wave ratio VSWR. (c) The input impedance Zm 120X2. 2S points) 14
1) A transmission line with z, = 120o is terminated with a load Z. = 120 If the line is /4 long, find (a) The reflection coefficient T (b) The standing wave ratio VSWR. (c) The input...
2. Find the reflection coefficient, SWR, and the input impedance at the distance & from the end of the line for the transmission line with characteristic impedance Zo and the load impedances: (a) capacitance C (b) inductance L (c) impedance ZĻ = Zo (d) another transmission line with characteristic impedance Ž (e) open circuit (R = ) (f) short circuit (R = 0)
3. For the system shown below, determine the following (a) the reflection coefficient at the load end (b) the reflection coefficient at the source end (c) the VSWR (d) the phasor voltage at the load end of the line (e) the phasor voltage at the center of the line 7-7=15Ω 0
3. For the system shown below, determine the following (a) the reflection coefficient at the load end (b) the reflection coefficient at the source end (c) the VSWR (d)...
Question # 1 Mark SLO CLO Show that for parallel polarization the reflection and transmission coefficients are m2cose n,cost, 2n,cos«, Show that for perpendicular polarization the reflection and transmission coefficients are 2T2cos η.cos0,+n,cosO 6/1/4/F158/EE/1
Question # 1 Mark SLO CLO Show that for parallel polarization the reflection and transmission coefficients are m2cose n,cost, 2n,cos«, Show that for perpendicular polarization the reflection and transmission coefficients are 2T2cos η.cos0,+n,cosO 6/1/4/F158/EE/1
3. For the system shown below, determine the following (a) the reflection coefficient at the load end (b) the reflection coefficient at the source end (c) the VSWR (d) the phasor voltage at the load end of the line (e) the phasor voltage at the center of the line
3. For the system shown below, determine the following (a) the reflection coefficient at the load end (b) the reflection coefficient at the source end (c) the VSWR (d) the phasor...
HYUNLP 6. In the lossless transmission line system shown, the switch S is closed at t = 0. a. Find the reflection coefficient Ij. b. Find the reflection coefficient Il 2 .c. Find the transmission coefficient ti : d. Complete the following reflection diagram in order to determine the total voltages VA, V1, Vc, and VD. Zoi = 7512 Zo2 SO2 31502 T . lov IVO Vo = ? sem Vg=? Figure. OG
3, A lossless transmission line of length 1 = 1.57λ and characteristic 17 +j60Ω. impedance Z, = 50Ω is loaded with an impedance of ZL Compute the following: (a) Reflection coefficient at the load in both rectangular and polar form. (b) SWR, and RL (c) Input impedance at the generator. (d) Reflection coefficient at the input to the transmission line in both rectangular and polar form
8. A Fabry-Perot interferometer consists of two mirrors, each with a reflection coefficient R of 0.95, that are separated by a distance d in air. The transmission property of the interferometer is described by the Airy's formula, which is given by I-sin 1+Fsin) Here, is the transmitted light intensity due to an input light intensity of . F is the coefficient of finesse that is given by F#-A-, and is the phase difference between (1-R) successive reflections. The interferometer is...