Two iron boring coherers (Branly type), 1894

Two iron boring coherers (Branly type), 1894 Two iron boring coherers (Branly type), 1894 Two iron boring coherers (Branly type), 1894 Two iron boring coherers (Branly type), 1894 Two iron boring coherers (Branly type), 1894 Two iron boring coherers (Branly type), 1894 Two iron boring coherers (Branly type), 1894 Two iron boring coherers (Branly type), 1894

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Science Museum Group Collection
© The Board of Trustees of the Science Museum

Science Museum Group Collection
© The Board of Trustees of the Science Museum

Science Museum Group Collection
© The Board of Trustees of the Science Museum

Science Museum Group Collection
© The Board of Trustees of the Science Museum

Science Museum Group Collection
© The Board of Trustees of the Science Museum

Science Museum Group Collection
© The Board of Trustees of the Science Museum

Science Museum Group Collection
© The Board of Trustees of the Science Museum

Science Museum Group Collection
© The Board of Trustees of the Science Museum

Two iron borings coherers (Branly type), probably made by Sir Oliver Lodge, England, 1894. Used by Sir Oliver Lodge for signalling to a Thomson marine galvanometer at the British Association meeting at Oxford on 14 August 1894

Two iron borings coherers (Branly type), probably made by Sir Oliver Lodge, England, 1894. Used by Sir Oliver Lodge for signalling to a Thomson marine galvanometer at the British Association meeting at Oxford on 14 August 1894.

The coherer was the first practical device for detecting Hertzian waves. It was devised by French physicist Edouard Branly in about 1890 who did not, however, investigate its use for detecting Hertzian waves. Its most familiar form was a tube containing metal filings or turnings loosely packed between metal plugs. This presented a high resistance to current but changed to low resistance in the presence of electric waves because the filings 'cohered' or stuck together. In order to restore the high-resistance state the tube needed to be given a mechanical tap or jolt. This particular coherer was used as a receiver during Lodge’s British Association lecture on 14 August 1894, but contrary to some later accounts the signals sent did not form an intelligible message. The electric bell mechanism was used as the vibrator to restore the borings to the high-resistance state.

Details

Category:
Radio Communication
Object Number:
1924-37
Materials:
glass, wood (unidentified), copper (alloy) and iron
Measurements:
overall: 55 mm x 200 mm x 100 mm, .11 kg
type:
coherer
credit:
Mr. Oliver Lodge [Grandson of Sir Oliver Lodge]