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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