The equivalent distributive parameters of a transmission line are due to the following electromagnetic effects: (NOTE: More than one answer)Select one or more:a.The capacitance C' is due to the potential difference between the inner and the outer conductorsb.The inductance L' is due to the potential difference between the inner and the outer conductorsc.The capacitance C' is due to the current flowing in the current carrying inner conductord.The resistance is due to the energy stored in the transmission linee.None of the abovef.The conductance G' is due to the dielectric loss in the medium between the inner and the outer conductors
Question
The equivalent distributive parameters of a transmission line are due to the following electromagnetic effects: (NOTE: More than one answer)Select one or more:a.The capacitance C' is due to the potential difference between the inner and the outer conductorsb.The inductance L' is due to the potential difference between the inner and the outer conductorsc.The capacitance C' is due to the current flowing in the current carrying inner conductord.The resistance is due to the energy stored in the transmission linee.None of the abovef.The conductance G' is due to the dielectric loss in the medium between the inner and the outer conductors
Solution
The correct answers are:
a. The capacitance C' is due to the potential difference between the inner and the outer conductors
f. The conductance G' is due to the dielectric loss in the medium between the inner and the outer conductors
Here's why:
a. The capacitance C' is due to the potential difference between the inner and the outer conductors. Capacitance is a measure of a circuit's ability to store an electric charge. In a transmission line, the capacitance is determined by the potential difference (voltage) between the inner and outer conductors.
b. The inductance L' is not due to the potential difference between the inner and the outer conductors. Instead, it is due to the magnetic field generated by the current flowing through the conductor.
c. The capacitance C' is not due to the current flowing in the current carrying inner conductor. As mentioned above, it is due to the potential difference between the inner and outer conductors.
d. The resistance is not due to the energy stored in the transmission line. Instead, it is due to the opposition to the flow of electric current, resulting in the dissipation of energy as heat.
f. The conductance G' is due to the dielectric loss in the medium between the inner and the outer conductors. Conductance is a measure of a circuit's ability to conduct electric current. In a transmission line, the conductance is determined by the dielectric loss, which is the loss of energy due to the resistance of the dielectric material between the inner and outer conductors.
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