Marconi's law is the relation between length of antennas and maximum signaling distance of radio transmissions. Guglielmo Marconi enunciated at one time an empirical law that, for simple vertical sending and receiving antennas of equal height, the maximum working telegraphic distance varied as the square of the height of the antenna. It has been stated that the rule was tested in experiments made on Salisbury Plain in 1897, and also by experiments made by Italian naval officers on behalf of the Royal Italian Navy in 1900 and 1901. Captain Quintino Bonomo gave a report of these experiments in an official report.
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If H is the height (i.e. the length) of the antenna and D the maximum signalling distance, then we have, according to Marconi's law
where c is some constant.
|0.17–0.19||60 kilometres (37 mi)||Marconi's original apparatus|
|0.15–0.16||60 kilometres (37 mi)||Same, with longer sending spark|
|0.12–0.14||136 kilometres (85 mi)||Marconi's improved apparatus, with jigger in receiver|
|0.23–0.15||143 kilometres (89 mi)||The same, but with Italian Navy telephonic receiver|
Marconi's law can be deduced theoretically as follows:
Hertz has shown that distances large compared with its length the magnetic force of a linear oscillator varies inversely as the distance. The maximum value of the current set up in any given receiving antenna varies as its length, also as the magnetic force of the waves incident on it, and as the maximum value of the current in the transmitting antenna. Hence, if is the magnetic force of the waves incident on a receiving antenna of height H, and if is the distance between the sending and receiving antenna, and if and are the maximum values of the currents in the sending and receiving antennæ, we have—
Also, since for a given charging voltage the current in the sending antenna varies very nearly as its capacity—that is, as its height—and if the sending antenna has the same height, , as the receiving aerial, we have—
Therefore some constant
For any given receiving apparatus a certain constant minimum value of the maximum current in the receiving antenna is necessary to cause a signal. Therefore it follows that, with given receiving and sending apparatus, we must have a constant, or—
That is, the maximum signalling distance with given apparatus will vary as the square of the height of the antenna.
The above law is, however, much interfered with by the nature of the surface over which the propagation takes place.
- Fleming, J. A. (1906). The principles of electric wave telegraphy. London: Longmans, Green, and Co. Pg Page 601+.
- Fleming, J. A. (1906). Hertzian wave wireless telegraphy. Pages 42 - 46
- Spark transmitter high-frequency transformer. Marconi's systems used longwave signals, what at the time would have been called 'high' frequency. The coil resonator (coupling transformer) couples the antenna circuit to the oscillation circuit.
- Fleming, J. A. (1919). The thermionic valve and its developments in radio-telegraphy and telephony. London: Wireless Press
- Fleming, J. A. (1906). The principles of electric wave telegraphy. London: Longmans, Green, and Co.