. English: Drawing of an early demonstration Lecher line apparatus, from a 1902 catalog of scientific equipment. It is very similar to the first Lecher line built by Austrian physicist Ernst Lecher in 1888. A Lecher line is a pair of parallel wires or rods that were used to measure the wavelength of radio waves. In this example, the radio waves are generated by the Hertzian spark-gap oacillator (right) and sent down the Lecher line, the pair of parallel wires to the left. The Lecher line forms a length of balanced transmission line, along which the waves travel at the speed of light. At the le


. English: Drawing of an early demonstration Lecher line apparatus, from a 1902 catalog of scientific equipment. It is very similar to the first Lecher line built by Austrian physicist Ernst Lecher in 1888. A Lecher line is a pair of parallel wires or rods that were used to measure the wavelength of radio waves. In this example, the radio waves are generated by the Hertzian spark-gap oacillator (right) and sent down the Lecher line, the pair of parallel wires to the left. The Lecher line forms a length of balanced transmission line, along which the waves travel at the speed of light. At the left end of the line the two wires are connected together. This short-circuit termination reflects the waves back up the line toward the transmitter. The outgoing and reflected waves interfere with each other, creating a series of standing waves on the line. The voltage across the line goes to zero at nodes that occur at regular intervals of one-half wavelength (λ/2) from the end of the line. The distance between two nodes is measured and multiplied by two to get the wavelength λ. Since the waves travel at the speed of light, c, the frequency of the waves f can be calculated: f = c / λ λ {\displaystyle f=c/\lambda } To find the location of the nodes, a Geissler tube, similar to a small neon light, is suspended from hooks across the line and slid up and down the line. The high voltage waves cause it to glow. At the nodes the voltage goes to zero so the Geissler tube goes out. The inset (top left) shows the type of Geissler tubes that were used with Lecher lines. The Hertzian oscillator (right) generated radio waves in the UHF range, with wavelengths of a few meters, so a 6 meter Lecher line was used (the length is truncated in this drawing). The oscillator consists of an induction coil that generates a high voltage that jumps across a spark gap (center) many times per second. The two sides of the spark gap are coupled to the Leche


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