11.31 Calculate the reflection coefficient due to ZL = (1+2j) Z0
11.31 Calculate the reflection coefficient due to ZL = (1+2j) Z0
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A. For the circuit below: ZL Vin 1Ocos(100t) V, and Z = 1 - 2j Q...
A. For the circuit below: ZL Vin 1Ocos(100t) V, and Z = 1 - 2j Q Given Vn i) Find the apparent power absorbed by Z1. Apparent power =. (remember units) i Find the power factor
Please help! A 75-12 lossless transmission line has l = 0.752. An inductive load, Zl, is...
Please help!
A 75-12 lossless transmission line has l = 0.752. An inductive load, Zl, is terminated where ZL = 75 + 75 12. (a) Find the standing wave ratio S on the line. (b) Find the load reflection coefficient, r(O), and the reflection coefficient seen at input, 7(1). (c) Find the input impedance of the line, Zin, for four different line lengths: 11 = 1/8, 12 = 9/4, 13 = 34/8, and 14 = 1/2, respectively. V(z), 7(z) ZO.B
A. For what transmission scenario is the reflection coefficient ?--1? why is this so? 4. B....
A. For what transmission scenario is the reflection coefficient ?--1? why is this so? 4. B. For what transmission scenario is the reflection coefficient ?-1? why is this so? C. For what transmission scenario is the reflection coefficient ?-0? Why is this so?
In the schematic shown below Zo = 75 Ω and ZL = 25 – j15 Ω...
In the schematic shown below Zo = 75 Ω and ZL = 25 –
j15 Ω at the frequency of 3 GHz (which is also the frequency of the
Source signal). Using the Smith Chart, perform the following:
i. Calculate the normalized value of Load impedance
ZL’ and mark it on the Chart.
ii. Estimate the magnitude of the reflection coefficient at the
Load using the Chart.
iii. Sketch the Constant-circle corresponding to the point from
the above step |ΓL|and...
5.18 Calculate and plot the percent bandwidth for an N = 1, 2, and 4-section binomial...
5.18 Calculate and plot the percent bandwidth for an N = 1, 2, and 4-section binomial matching trans- former versus ZL/Z0-1.5 to 6 for ??--02.
An electron with an energy of E=9.8eV is incident upon a square potential barrier of height U=13.8eV with a width of L=0.13nm. What is the probability of reflection (reflection coefficient)? Calculate...
An electron with an energy of E=9.8eV is incident upon a square potential barrier of height U=13.8eV with a width of L=0.13nm. What is the probability of reflection (reflection coefficient)? Calculate your answer using two decimal places. Mass of the electron is 0.511 MeV/c2 Please also note that ħc=197 eV.nm
pleas sole this Q Q. A lossless line has Zo= 100 1 and ZL= (x +j...
pleas sole this Q
Q. A lossless line has Zo= 100 1 and ZL= (x +j y) 12. Wherex & y are from the last 6 digits of your UQU-ID. Also, if the ID is an even number, reactive part is positive and if it is an odd number, reactive part is negative. For example, if your UQU-ID is 437654321 then Zu= 654 - j 321) 2.( NOTE my ID IS 436017076) The line operates at 300 MHz and speed...
lb) Using Matlab, plot the following expressions for pressure reflection coefficient (R), pressure transmission coefficient (T),...
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
E. Calculate the percentage loss of intensity due to reflection of a perpendicular beam of green...
E. Calculate the percentage loss of intensity due to reflection of a perpendicular beam of green light as it passes through a quartz cell that contains carbon tetrachloride. Assume that for green radiation the refractive index of quartz is 1.50, of ethanol is 1.46, and of air is 1.00. (15 pt) 01003.
2. Calculate the inverse Fourier transform of X(cfw) = {2 2j 0 <W <T -2j -n<w...
2. Calculate the inverse Fourier transform of X(cfw) = {2 2j 0 <W <T -2j -n<w < 3. Given that x[n] has Fourier transform X(@j®), express the Fourier transforms of the following signals in terms of X(el“) using the discrete-time Fourier transform properties. (a) x1[n] = x[1 – n] + x[-1 - n] (b) x2 [n] = x*[-n] + x[n]
A. For the circuit below: ZL Vin 1Ocos(100t) V, and Z = 1 - 2j Q Given Vn i) Find the apparent power absorbed by Z1. Apparent power =. (remember units) i Find the power factor
Please help!
A 75-12 lossless transmission line has l = 0.752. An inductive load, Zl, is terminated where ZL = 75 + 75 12. (a) Find the standing wave ratio S on the line. (b) Find the load reflection coefficient, r(O), and the reflection coefficient seen at input, 7(1). (c) Find the input impedance of the line, Zin, for four different line lengths: 11 = 1/8, 12 = 9/4, 13 = 34/8, and 14 = 1/2, respectively. V(z), 7(z) ZO.B
A. For what transmission scenario is the reflection coefficient ?--1? why is this so? 4. B. For what transmission scenario is the reflection coefficient ?-1? why is this so? C. For what transmission scenario is the reflection coefficient ?-0? Why is this so?
In the schematic shown below Zo = 75 Ω and ZL = 25 –
j15 Ω at the frequency of 3 GHz (which is also the frequency of the
Source signal). Using the Smith Chart, perform the following:
i. Calculate the normalized value of Load impedance
ZL’ and mark it on the Chart.
ii. Estimate the magnitude of the reflection coefficient at the
Load using the Chart.
iii. Sketch the Constant-circle corresponding to the point from
the above step |ΓL|and...
5.18 Calculate and plot the percent bandwidth for an N = 1, 2, and 4-section binomial matching trans- former versus ZL/Z0-1.5 to 6 for ??--02.
pleas sole this Q
Q. A lossless line has Zo= 100 1 and ZL= (x +j y) 12. Wherex & y are from the last 6 digits of your UQU-ID. Also, if the ID is an even number, reactive part is positive and if it is an odd number, reactive part is negative. For example, if your UQU-ID is 437654321 then Zu= 654 - j 321) 2.( NOTE my ID IS 436017076) The line operates at 300 MHz and speed...
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
E. Calculate the percentage loss of intensity due to reflection of a perpendicular beam of green light as it passes through a quartz cell that contains carbon tetrachloride. Assume that for green radiation the refractive index of quartz is 1.50, of ethanol is 1.46, and of air is 1.00. (15 pt) 01003.
2. Calculate the inverse Fourier transform of X(cfw) = {2 2j 0 <W <T -2j -n<w < 3. Given that x[n] has Fourier transform X(@j®), express the Fourier transforms of the following signals in terms of X(el“) using the discrete-time Fourier transform properties. (a) x1[n] = x[1 – n] + x[-1 - n] (b) x2 [n] = x*[-n] + x[n]
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