An open wire line is 300 km long and is terminated in its characteristic impedance. At the sending end is a generator having an open circuit e.m.f. of 10.0V, an internal impedance of (400 + j0) and a frequency of 1 kHz. If the line primary constants are R = 8 /loop km, L = 3 mH/loop km, C = 7500 pF/km and G = 0.25µS/km, determine the characteristic impedance, the propagation coefficient, the attenuation and phase-shift coefficients, the sending-end current, the receiving end current, the wavelength on the line, and the
An open wire line is 300 km long and is terminated in its characteristic impedance. At the sending end is a generator having an open circuit e.m.f. of 10.0V, an internal impedance of (400 + j0) and a frequency of 1 kHz. If the line primary constants are R = 8 /loop km, L = 3 mH/loop km, C = 7500 pF/km and G = 0.25µS/km, determine the characteristic impedance, the propagation coefficient, the attenuation and phase-shift coefficients, the sending-end current, the receiving end current, the wavelength on the line, and the
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An open wire line is 300 km long and is terminated in its characteristic impedance. At the sending end is a generator having an open circuit e.m.f. of 10.0V, an internal impedance of (400 + j0) and a frequency of 1 kHz. If the line primary constants are R = 8 /loop km, L = 3 mH/loop km, C = 7500 pF/km and G = 0.25µS/km, determine the characteristic impedance, the propagation coefficient, the attenuation and phase-shift coefficients, the sending-end current, the receiving end current, the wavelength on the line, and the speed of transmission of signal
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