Question
Download Solution PDFFor a single-phase two-wire line, \(\rm \frac {Inductance \ of \ conductor} {Loop \ inductance}\) = ________.
Answer (Detailed Solution Below)
Detailed Solution
Download Solution PDFLoop Inductance in a Two-Wire Line
The given image represents a group of two conductors. This group of conductors forms a loop inductance in a single-phase two-wire line.
When alternating current flows through the two conductors of a transmission line, each conductor generates a magnetic field, which results in self-inductance and mutual inductance effects.
The total loop inductance (Lloop) is the inductance experienced by the complete path of current flow, which includes both conductors. It is given by:
\(\rm \frac {Inductance \ of \ conductor} {Loop \ inductance}=0.5\)
This means that in a single-phase two-wire system, the inductance of one conductor contributes half of the total loop inductance.
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