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In a transmission line following are the distributed constants
  • a)
    resistance and inductance only
  • b)
    resistance and conductance only
  • c)
    resistance, inductance and capacitance
  • d)
    resistance, inductance, capacitance & short conductance
Correct answer is option 'D'. Can you explain this answer?
Most Upvoted Answer
In a transmission line following are the distributed constantsa)resist...
Distributed Constants in Transmission Line

Distributed constants refer to the parameters that vary continuously along the length of a transmission line. These parameters include resistance, inductance, capacitance, and conductance.

Resistance

Resistance is the property of a transmission line that opposes the flow of current through it. It is a distributed characteristic that varies continuously along the length of the line.

Inductance

Inductance is the property of a transmission line that opposes the change in current flowing through it. It is also a distributed characteristic that varies continuously along the length of the line.

Capacitance

Capacitance is the property of a transmission line that stores electrical energy when a voltage is applied across it. It is also a distributed characteristic that varies continuously along the length of the line.

Conductance

Conductance is the property of a transmission line that allows the flow of current through it. It is also a distributed characteristic that varies continuously along the length of the line.

The correct option for distributed constants in a transmission line is option 'D', which includes resistance, inductance, capacitance, and conductance. All of these parameters are distributed characteristics that vary continuously along the length of the transmission line.

Conclusion

In conclusion, distributed constants are parameters that vary continuously along the length of a transmission line. These parameters include resistance, inductance, capacitance, and conductance. The correct option for distributed constants in a transmission line is option 'D', which includes all of these parameters.
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it depends on the length of the conductor the capacitance of the line is proportional to the length of the transmission line their effect is negligible on the performance of short having a length less than 80 km and low voltage transmission accidents of the transmission line along with the conductances forms the shunted mittens the conductance and the transmission line is because of the leakage over the surface of the conductor considered a line consisting of two conductors and be each of radius are the distance between the conductors being Des shown in the diagram below minus the potential difference between the conductors and via's work QA charge on conductor QB charge on conductor vvab pencil difference between conductor and the Epsilon minus absolute primitivity QA plus QV = 0 so that QA equals QB - equals DBA equals data equals DB equals our substituting these values and voltage equation we get the capacitance between the conductors is cab is referred to as lying to line capacitance if the two conductors are in VR oppositely charge then the potential difference between them is zero then the potential of each conductor is given by one half bath the capacitance between each conductor and point of zero potential and is capacitive CN is called the capacitance to neut or capacitance to ground capacitance cab is the combination of two equal capacity and VN series thus capacitance to neutral is twice the capacitance between the conductors IE CN equals to Cave the absolute primitivity Epsilon is given by Epsilon equals epsilono Epsilon are where epsilano is the permittivity of the free space and Epsilon or is the relative primitivity of the medium prayer capacitance reactants between one conductor and neutral capacitance of the symmetrical three phase line let a balanced system of voltage be applied to a symmetrical three-phase line shown below the phasor diagram of the three phase line with equilateral spacing is shown below take the voltage of conductor to neutral as a reference phaser the potential difference between conductor and we can be written the similarly potential difference between conductors and sea is on adding equations one and two we get also combining equation three and four from equation 6 and 7 the line to neutral capacitance the capacitance of symmetrical three phase line is same as that of the two wire line Related: Capacitance of Transmission Lines?

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In a transmission line following are the distributed constantsa)resistance and inductance onlyb)resistance and conductance onlyc)resistance, inductance and capacitanced)resistance, inductance, capacitance & short conductanceCorrect answer is option 'D'. Can you explain this answer?
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