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- A single-phase overhead transmission line consists of two solid aluminum conductors having a radius of 3 cm with a spacing 3.5 m between centers. (a) Determine the total line inductance in mH/m. (b) Given the operating frequency to be 60 Hz, find the total inductive reactance of the line in /km and in/mi. (c) If the spacing is doubled to 7 m, how does the reactance change?A Z0 = 50 Ω transmission line of length l = 4.25 m (with dielectric material with parameters εr = 4, µr = 1) is attached to a time-harmonic generator (V0rms = 30 V, Rg = 20 Ω f = 75 MHz). The line is terminated with a load ZL = 100 + j50 Ω. Find the complex instantaneous voltages and currents along the line and time-averaged losses in the load and generator. Find instantaneous total voltage and current along the line, and plot the complex voltage and current for the line in the following two cases: a) Assume the line is lossless b) Assume the line has a small loss equivalent to R’ = 1.2 Ω/m.the air-filled two-wire line has a characteristic impedance of 50 Ω and is operated at f = 3GHz .the load is ZL= 100 +j40Ω . for the line above, calculation ZL on the chart the line impedance 2.5 cm from the load , the admittance, the VSWR on the line, and distance from the load to the first voltage minimum and maximum.
- Vk(t)= 9cos2π * 10^6(t) volt Voltage of a lossless transmission line fed by its source parameters, C= 0,01 μF/m, L= 0,02 mH/m line length d= 0,5 λ, load impedance ZL= 50 ohm (a)γ=? (b)Z0=? (c)Ve=? (d)Total voltage and current on the line write the equations in the complex space. (e)Voltage and current on the load Obtain the expression. (f)Time of reflected current wave Write the expression in the space and draw. lesson: electrical and electronical engineeringWhat do you understand by impedance matching? Also write the formula of characteristic impedance for a loss less line? A piece of parallel wire line has a nominal capacitance of 31.5 F/m, and 9 H inductance per meter. Assume the radius of the conductor is 0.008 meter then find the distance between the two parallel wire lines in milimeter. Note: Please do not handwriting3-phase line has conductors 4 cm in diameter spaced equilaterally 2 m apart. If the dielectric strength of air is 29 kV (max) per cm, find the disruptive critical voltage for the line. Take air density factor =0.952 and irregularity factor mo = 0.9.
- A 50-ohm lossless transmission line has series inductance of 250 nH/m and shunt capacitance of 100 pF/m. What is the time delay per unit length (in ns/m) of this transmission line? Enter only the numerical value. No need for the unit. Use four decimal places (if the answer is not an interger).Question#02: What do you understand by impedance matching? Also write the formula of characteristic impedance for a loss less line? A piece of parallel wire line has a nominal capacitance of 30 Farad/mm, and 9 Henry inductance per meter. Assume the radius of the conductor is 0.005 meter then find the distance between the two parallel wire lines in millimeter.A shielded, twin-wire line has a dielectric of relative permittivity 2 and acharacteristic impedance of 50 ohms. Calculate the phase velocity forsignal propagation along the line, and hence L and C.
- A 3-phase line has conductors 6 cm in diameter spaced equilaterally 3 m apart. If the dielectric strength of air is 30 kV (max) per cm, find the disruptive critical voltage for the line. Take air density factor δ = 0.952 and irregularity factor m = 0.8.A Z0 = 50 Ω transmission line of length l = 4.25 m (with dielectric material with parameters εr= 4, µr = 1) is attached to a time-harmonic generator (V0rms = 30 V, Rg = 20 Ωf = 75 MHz). The line is terminated with a load ZL = 100 + j50 Ω.Write Matlab (or similar high level language) code to find the complex instantaneous voltagesand currents along the line and time averaged losses in the load and generator. Use this codeto make a movie of the instantaneous total voltage and current along the line, and plot thecomplex voltage and current for the line in the following two cases:a) Assume the line is losslessb) Assume the line has a small loss equivalent to R’ = 1.2 Ω/m please solve part bA lossless transmission line has a capacitance per unit length of 64pF/m and an inductance per unit length of 1μH/m. The load impedance ZL is purely resistive. Both the load impedance and the generator impedance are 50 Ohms. the characteristic impedance and the propagation velocity