Helmholtz Resonator

One of five Helmholtz Resonators in glass One of five Helmholtz Resonators in glass SMG00017217 One of five Helmholtz Resonators in glass

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

Buy this image as a print 

Buy

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

License

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

Buy this image as a print 

Buy

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

License

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

Buy this image as a print 

Buy

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

License

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

Buy this image as a print 

Buy

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

License

One of five Helmholtz Resonators in glass
Science Museum Group
© The Board of Trustees of the Science Museum

One of five Helmholtz Resonators in glass
Science Museum Group
© The Board of Trustees of the Science Museum

SMG00017217
Science Museum Group
© The Board of Trustees of the Science Museum

One of five Helmholtz Resonators in glass
Science Museum Group
© The Board of Trustees of the Science Museum

One of five Helmholtz Resonators in glass, circa late nineteenth century. Probably made by Rudolph König, Paris.

Invented by Hermann von Helmholtz to analyse the composition of music and sound using resonance, these glass resonators were probably made by German instrument-maker Rudolph König in the nineteenth century. Using ‘sympathetic resonance’ – when equally tuned adjacent musical instruments vibrate in sympathy – Helmholtz proposed that musical and speech sounds were composed of different frequencies or harmonics. Helmholtz resonators are rigid containers of known volume shaped like a sphere with a ‘nipple’ in one end which when placed inside one’s ear ‘pick up’ sounds that equate the frequency of the resonator, amplifying them.

Details

Category:
Electricity and Magnetism
Object Number:
2009-160/4
Materials:
glass
Measurements:
overall: 125 mm 90 mm, .05 kg
type:
resonator
credit:
Purchased from Tesseract