GMU:Bioelectronics, aesthetics and other interesting things/Crystal radio: Difference between revisions
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Bacterial Radio exhibits several bacterially-grown platinum/germanium electrical circuits (crystal radios) on glass substrates. | Bacterial Radio exhibits several bacterially-grown platinum/germanium electrical circuits (crystal radios) on glass substrates. | ||
[[Image:Fig-7-Joe-Davis-Bacterial-Radio-11-Joe-Davis-reverses-the-main-goal-of-synthetic.png|thumb]] Image: https://www.researchgate.net/figure/257542392_fig3_Fig-7-Joe-Davis-Bacterial-Radio-11-Joe-Davis-reverses-the-main-goal-of-synthetic | |||
Images: aec.at, http://prix2012.aec.at/prixwinner/7023/ | |||
<gallery> | <gallery> | ||
Image:Screen_Shot_2016-04-25_at_22.34.25.png | Image:Screen_Shot_2016-04-25_at_22.34.25.png | ||
Image:Screen_Shot_2016-04-25_at_22.34.38.png | Image:Screen_Shot_2016-04-25_at_22.34.38.png | ||
Revision as of 21:35, 25 April 2016
Joe Davis. Bacterial Radio
Joe Davis (2011). Bacterial Radio, http://www.biofaction.com/synth-ethic/?p=44 Bacterial Radio exhibits several bacterially-grown platinum/germanium electrical circuits (crystal radios) on glass substrates.
Images: aec.at, http://prix2012.aec.at/prixwinner/7023/
Crystal radio
“A crystal radio is a basic resonant circuit requiring only induction, capacitance and a radio “crystal,” a mineral semiconductor used to convert received radio signals into DC electrical signals that can be resolved with headphones as sound. These simple circuits require no batteries, tubes or transistors and operate with only the difference in voltage between the antenna and the ground.” (bacterial radio, http://prix2012.aec.at/prixwinner/7023/)