Lord Kelvin's mirror galvanometer with lamp and stand, 1858.

Lord Kelvin's mirror galvanometer with lamp and stand, 1858. Lord Kelvin's mirror galvanometer with lamp and stand, 1858. Lord Kelvin's mirror galvanometer with lamp and stand, 1858. Lord Kelvin's mirror galvanometer with lamp and stand, 1858. Lord Kelvin's mirror galvanometer with lamp and stand, 1858. Lord Kelvin's mirror galvanometer with lamp and stand, 1858. Lord Kelvin's mirror galvanometer with lamp and stand, 1858.

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Creative Commons LicenseThis image is released under a CC BY-NC-SA 4.0 Licence

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License this image for commercial use at Science and Society Picture Library

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Creative Commons LicenseThis image is released under a CC BY-NC-SA 4.0 Licence

Buy this image as a print 

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License this image for commercial use at Science and Society Picture Library

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Creative Commons LicenseThis image is released under a CC BY-NC-SA 4.0 Licence

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License this image for commercial use at Science and Society Picture Library

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Creative Commons LicenseThis image is released under a CC BY-NC-SA 4.0 Licence

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License this image for commercial use at Science and Society Picture Library

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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

Thomson mirror speaking galvanometer with lamp and stand, made by Elliott Brothers, Strand, London, 1858.

A mirror galvanometer is a particularly sensitive electrical indicating instrument and was used to detect the extremely weak currents received through long submarine cables. Instead of a needle indicator, a mirror with a bar magnet cemented on the back is suspended on silk threads within the coil. A beam of light shone on the mirror is reflected on to a scale card some distance away, thus magnifying any movement of the mirror. Instruments of this type were used on the Atlantic cable expedition of 1858. The mirror galvanometer became the standard instrument for receiving telegraph messages, but it did have a disadvantage in that it needed two operators - one to read and call the signal, and another to write the message down. This problem was solved by Thomson when he invented the siphon recorder, which used a glass tube dipped ink to record to movements of the cable on a moving tape, to then be read and decoded.

Details

Category:
Telecommunications
Object Number:
1925-179
Materials:
brass (copper, zinc alloy), glass, wood (unidentified), lead (metal), iron, cardboard and metal (unknown)
type:
galvanometer
credit:
Donated by the Eastern Telegraph Company

Parts

Thomson mirror speaking galvanometer, 1858

Thomson mirror speaking galvanometer, made by Elliott Brothers, Strand, London, England, 1858.

More

A mirror galvanometer is a particularly sensitive electrical indicating instrument and was used to detect the extremely weak currents received through long submarine cables. Instead of a needle indicator, a mirror with a bar magnet cemented on the back is suspended on silk threads within the coil. A beam of light shone on the mirror is reflected on to a scale card some distance away, thus magnifying any movement of the mirror. Instruments of this type were used on the Atlantic cable expedition of 1858. The mirror galvanometer became the standard instrument for receiving telegraph messages, but it did have a disadvantage in that it needed two operators - one to read and call the signal, and another to write the message down. This problem was solved by Thomson when he invented the siphon recorder, which used a glass tube dipped in ink to record the movements of the cable on a moving tape, to then be read and decoded.

Measurements:
overall: 275 mm 223 mm, 2.2 kg
Materials:
iron , glass , brass (copper, zinc alloy) , paint and wood (unidentified)
Object Number:
1925-179 Pt1
type:
galvanometer
Image ©
The Board of Trustees of the Science Museum

Lamp cover for Thompson mirror speaking galvanometer, 1858

Lamp cover for Thomson mirror speaking galvanometer, made by Elliott Brothers, Strand, London, England, 1858.

More

A mirror galvanometer is a particularly sensitive electrical indicating instrument and was used to detect the extremely weak currents received through long submarine cables. Instead of a needle indicator, a mirror with a bar magnet cemented on the back is suspended on silk threads within the coil. A beam of light shone on the mirror is reflected on to a scale card some distance away, thus magnifying any movement of the mirror. Instruments of this type were used on the Atlantic cable expedition of 1858. The mirror galvanometer became the standard instrument for receiving telegraph messages, but it did have a disadvantage in that it needed two operators - one to read and call the signal, and another to write the message down. This problem was solved by Thomson when he invented the siphon recorder, which used a glass tube dipped in ink to record the movements of the cable on a moving tape, to then be read and decoded.

Measurements:
overall: 191 mm x 92 mm x 75 mm,
Materials:
copper (alloy) and paint
Object Number:
1925-179 Pt2
type:
lampshade
Image ©
The Board of Trustees of the Science Museum

Scale with metal stand for Thompson mirror speaking galvanometer, 1858

Scale on stand, for Thomson mirror speaking galvanometer, made by Elliott Brothers, Strand, London, England, 1858.

More

A mirror galvanometer is a particularly sensitive electrical indicating instrument and was used to detect the extremely weak currents received through long submarine cables. Instead of a needle indicator, a mirror with a bar magnet cemented on the back is suspended on silk threads within the coil. A beam of light shone on the mirror is reflected on to a scale card some distance away, thus magnifying any movement of the mirror. Instruments of this type were used on the Atlantic cable expedition of 1858. The mirror galvanometer became the standard instrument for receiving telegraph messages, but it did have a disadvantage in that it needed two operators - one to read and call the signal, and another to write the message down. This problem was solved by Thomson when he invented the siphon recorder, which used a glass tube dipped in ink to record the movements of the cable on a moving tape, to then be read and decoded.

Measurements:
overall: 1.26 kg
Materials:
lead (metal) , brass (copper, zinc alloy) and cardboard
Object Number:
1925-179 Pt3
type:
scale
Image ©
The Board of Trustees of the Science Museum

Lens for narrowing light beam for Thomson mirror speaking galvanometer, 1858

Lens in tubular mount on stand, for Thomson mirror speaking galvanometer, made by Elliott Brothers, Strand, London, England, 1858.

More

A mirror galvanometer is a particularly sensitive electrical indicating instrument and was used to detect the extremely weak currents received through long submarine cables. Instead of a needle indicator, a mirror with a bar magnet cemented on the back is suspended on silk threads within the coil. A beam of light shone on the mirror is reflected on to a scale card some distance away, thus magnifying any movement of the mirror. Instruments of this type were used on the Atlantic cable expedition of 1858. The mirror galvanometer became the standard instrument for receiving telegraph messages, but it did have a disadvantage in that it needed two operators - one to read and call the signal, and another to write the message down. This problem was solved by Thomson when he invented the siphon recorder, which used a glass tube dipped ink to record to movements of the cable on a moving tape, to then be read and decoded.

Measurements:
overall: 221 mm x 206 mm x 105 mm, 1.4 kg
Materials:
glass , brass (copper, zinc alloy) and lead (metal)
Object Number:
1925-179 Pt4
type:
lens
Image ©
The Board of Trustees of the Science Museum
Electric lamp for Tomson mirror speaking galvanometer, 1960-1985

Electric lamp for Tomson mirror speaking galvanometer, 1960-1985

Electric lamp for Thomson mirror speaking galvanometer, made by Science Museum Workshops, South Kensinson, 1960-1985

Measurements:
overall: 228 mm 104 mm, 2.8 kg
Materials:
glass and metal (unknown)
Object Number:
1925-179 Pt5
type:
electric lamp

Oil lamp base for Thomson mirror speaking galvanometer, 1858

Oil lamp base for Thomson mirror speaking galvanometer, made by Dietz and Company, City of London, England, 1858.

More

A mirror galvanometer is a particularly sensitive electrical indicating instrument and was used to detect the extremely weak currents received through long submarine cables. Instead of a needle indicator, a mirror with a bar magnet cemented on the back is suspended on silk threads within the coil. A beam of light shone on the mirror is reflected on to a scale card some distance away, thus magnifying any movement of the mirror. Instruments of this type were used on the Atlantic cable expedition of 1858. The mirror galvanometer became the standard instrument for receiving telegraph messages, but it did have a disadvantage in that it needed two operators - one to read and call the signal, and another to write the message down. This problem was solved by Thomson when he invented the siphon recorder, which used a glass tube dipped ink to record to movements of the cable on a moving tape, to then be read and decoded.

Measurements:
overall: 195 mm 104 mm, 1.14 kg
Materials:
metal (unknown) and textile
Object Number:
1925-179 Pt6
type:
oil lamp
Image ©
The Board of Trustees of the Science Museum