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Electrodes Collection

"Unleashing the Power of Electrodes: From Fruit-Powered Clocks to Cutting-Edge Medical Breakthroughs" Sparking Innovation: The fruit-powered clock

Background imageElectrodes Collection: Fruit-powered clock

Fruit-powered clock. In this experiment each apple is a voltaic cell. The apples have been connected to make a battery. Copper (orange) and zinc (silver)

Background imageElectrodes Collection: Staites Patent Electric Light Apparatus (engraving)

Staites Patent Electric Light Apparatus (engraving)
1617760 Staites Patent Electric Light Apparatus (engraving) by English School, (19th century); Private Collection; (add.info.: Staites Patent Electric Light Apparatus)

Background imageElectrodes Collection: Deep brain stimulation, X-ray

Deep brain stimulation, X-ray
Image Xrays Crane (Sur Projection 3D Modèle) En Incidence De Profil Chez Une Patiente De 54 Ans, Parkinsonienne Traitee Sous Protocole De Neurochirurgie; Visualisation Des Electrodes De

Background imageElectrodes Collection: Battery connected to two electrodes in water for electrolysis

Battery connected to two electrodes in water for electrolysis

Background imageElectrodes Collection: Physical fitness test C014 / 1103

Physical fitness test C014 / 1103
Physical fitness test. Athlete riding an exercise bike while his oxygen consumption is measured with a face mask. Electrodes on his chest monitor his heart rate

Background imageElectrodes Collection: Physical fitness test C014 / 1108

Physical fitness test C014 / 1108
Physical fitness test. Athlete riding an exercise bike while his oxygen consumption is measured with a face mask. Electrodes on his chest monitor his heart rate (shown on screen)

Background imageElectrodes Collection: Physical fitness test C014 / 1105

Physical fitness test C014 / 1105
Physical fitness test. Athlete riding an exercise bike while his oxygen consumption is measured with a face mask. Electrodes on his chest monitor his heart rate

Background imageElectrodes Collection: Cochlear implant, artwork C016 / 7683

Cochlear implant, artwork C016 / 7683
Cochlear implant. Computer artwork of a section through the outer (left) and inner (right) ear showing a cochlear implant (top left), a prosthetic hearing device

Background imageElectrodes Collection: Deep brain stimulation and nerve cells C016 / 7200

Deep brain stimulation and nerve cells C016 / 7200
Deep brain stimulation (DBS). Computer artwork showing an electrode sending electrical impulses to nerve cells. DBS was developed for the treatment of Parkinsons disease

Background imageElectrodes Collection: Physical fitness test C014 / 1104

Physical fitness test C014 / 1104
Physical fitness test. Athlete riding an exercise bike while his oxygen consumption is measured with a face mask. Electrodes on his chest monitor his heart rate

Background imageElectrodes Collection: Physical fitness test C014 / 1101

Physical fitness test C014 / 1101
Physical fitness test. Athlete riding an exercise bike while his oxygen consumption is measured with a face mask. Electrodes on his chest monitor his heart rate

Background imageElectrodes Collection: Physical fitness test C014 / 1107

Physical fitness test C014 / 1107
Physical fitness test. Athlete riding an exercise bike while his oxygen consumption is measured with a face mask. Electrodes on his chest monitor his heart rate

Background imageElectrodes Collection: Physical fitness test C014 / 1102

Physical fitness test C014 / 1102
Physical fitness test. Athlete riding an exercise bike while his oxygen consumption is measured with a face mask. Electrodes on his chest monitor his heart rate

Background imageElectrodes Collection: Electroplating factory C017 / 9413

Electroplating factory C017 / 9413
Electroplating factory. Worker operating a crane to remove copper electrodes from a hydroelectric bath in a metallurgical plant. Photographed in Sverdlov Region, Russia

Background imageElectrodes Collection: Cardiac patient in an ambulance C016 / 7443

Cardiac patient in an ambulance C016 / 7443
Cardiac patient in an ambulance. Paramedic preparing to perform an electrocardiogram (ECG) on a 50-year-old cardiac patient inside an ambulance

Background imageElectrodes Collection: Deep brain stimulation and nerve cell C016 / 7205

Deep brain stimulation and nerve cell C016 / 7205
Deep brain stimulation. Computer artwork showing an electrode sending electrical impulses to nerve cells. In the background a light micrograph (LM) of a section through grey matter in the brain

Background imageElectrodes Collection: Deep brain stimulation and nerve cell C016 / 7203

Deep brain stimulation and nerve cell C016 / 7203
Deep brain stimulation. Computer artwork showing an electrode sending electrical impulses to nerve cells. In the background a light micrograph (LM) of a section through grey matter in the brain

Background imageElectrodes Collection: Deep brain stimulation and nerve cells C016 / 7206

Deep brain stimulation and nerve cells C016 / 7206
Deep brain stimulation (DBS). Computer artwork showing an electrode sending electrical impulses to nerve cells. DBS was developed for the treatment of Parkinsons disease

Background imageElectrodes Collection: EEG, electrodes on head, artwork

EEG, electrodes on head, artwork
Electroencephalography. Computer artwork depicting of a EEG cap on top of a head, showing the electrodes attached to the scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Synthetic quartz C016 / 5649

Synthetic quartz C016 / 5649
Synthetic quartz. Crystal of synthetic quartz (silicone dioxide) held between two electrodes. Quartz vibrates at a steady rate in reaction to an electrical charge

Background imageElectrodes Collection: Davys potassium apparatus

Davys potassium apparatus
Discovery of potassium. The apparatus used by Sir Humphrey Davy in 1807 to isolate potassium metal from caustic potash, or potassium hydroxide

Background imageElectrodes Collection: Electroencephalography C013 / 8751

Electroencephalography C013 / 8751
MODEL RELEASED. Electroencephalography. Neurologist placing electroencephalography (EEG) electrodes on girls scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8753

Electroencephalography C013 / 8753
MODEL RELEASED. Electroencephalography (EEG) electrodes, covered by a net, on girls scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8752

Electroencephalography C013 / 8752
MODEL RELEASED. Electroencephalography. Neurologist placing electroencephalography (EEG) electrodes on girls scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8750

Electroencephalography C013 / 8750
MODEL RELEASED. Electroencephalography. Neurologist placing electroencephalography (EEG) electrodes on girls scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8749

Electroencephalography C013 / 8749
MODEL RELEASED. Electroencephalography. Neurologist preparing an electroencephalography (EEG) test. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8748

Electroencephalography C013 / 8748
MODEL RELEASED. Electroencephalography. Neurologist placing electroencephalography (EEG) electrodes on girls scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8747

Electroencephalography C013 / 8747
MODEL RELEASED. Electroencephalography (EEG) electrodes wires. The other end of these wire are on the patients scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8746

Electroencephalography C013 / 8746
MODEL RELEASED. Electroencephalography. Neurologist placing electroencephalography (EEG) electrodes on girls scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Electroencephalography C013 / 8745

Electroencephalography C013 / 8745
MODEL RELEASED. Electroencephalography (EEG) electrodes on girls scalp. EEG measures and records the electrical activity of the brain

Background imageElectrodes Collection: Synthetic quartz C013 / 6719

Synthetic quartz C013 / 6719
Synthetic quartz. Crystal of synthetic quartz (silicone dioxide) held between two electrodes. Quartz vibrates at a steady rate in reaction to an electrical charge

Background imageElectrodes Collection: Carbon arc welding, 1900

Carbon arc welding, 1900
Carbon arc welding. Historical artwork of a worker using a coloured piece of glass to shield his eyes from a 19th-century welding device

Background imageElectrodes Collection: Sodium hydroxide production

Sodium hydroxide production. Schematic diagram of the diaphragm cell method for the chlor-alkali electrolytic process to produce sodium hydroxide

Background imageElectrodes Collection: Three electrolytic capacitors

Three electrolytic capacitors with capacitance values of 2200 microfarads, 1000 microfarads and 470 microfarads. The arrows on the canisters are pointing to the capacitors negative ends

Background imageElectrodes Collection: Assorted capacitors

Assorted capacitors. A capacitor is similar to a battery in that it is designed to store and release electrons. It has two terminals (electrodes)

Background imageElectrodes Collection: Daniell cell battery

Daniell cell battery
Daniell cell. Invented by the British chemist John Frederic Daniell (1790-1845), the Daniell cell (left) is made from two half-cells, the electrolytes of which are separated by a porous partition

Background imageElectrodes Collection: ECG electrode

ECG electrode on a patient. Electrodes respond to electrical impulses in the heart. They are stuck to the skin with a removable sticky pad (white)

Background imageElectrodes Collection: Aluminium production

Aluminium production
Aluminium smelting process. Schematic diagram of the production of aluminium metal from aluminium ore (bauxite). The first stage (left) is the Bayer Process to produce alumina (aluminium oxide)

Background imageElectrodes Collection: Molecular transistor, AFM

Molecular transistor, AFM
Molecular transistor. Coloured atomic force micro- graph (AFM) of a transistor on the molecule scale. It consists of electrodes (yellow) created by electron beam lithography (EBL)

Background imageElectrodes Collection: Cochlear implant, artwork

Cochlear implant, artwork
Cochlear implant. Artwork of a section through the outer and inner ear showing a cochlear implant, a prosthetic hearing device

Background imageElectrodes Collection: Preserved brain

Preserved brain. Conceptual computer artwork of a brain being preserved in a tank

Background imageElectrodes Collection: Moissan isolating fluorine, 1886

Moissan isolating fluorine, 1886
Moissan isolating fluorine. Historical artwork of the French chemist Henri Moissan (1852-1907) isolating fluorine in 1886

Background imageElectrodes Collection: Hydrogen conductivity, 19th century

Hydrogen conductivity, 19th century
Hydrogen conductivity experiment. Electrical current (wires at bottom) is being passed through a platinum wire connecting two electrodes. In air the platinum wire glows due to resistance

Background imageElectrodes Collection: Orange battery

Orange battery. Copper (orange) and zinc (silver) electrodes have been inserted into an orange and connected to wires to produce electricity. The voltmeter (top) is showing the voltage generated

Background imageElectrodes Collection: Tomato battery

Tomato battery
Lemon battery. Copper (orange) and zinc (silver) electrodes have been inserted into a lemon and connected to wires to produce electricity. The voltmeter (top) is showing the voltage generated

Background imageElectrodes Collection: Digital pH measurement

Digital pH measurement

Background imageElectrodes Collection: Heart monitoring

Heart monitoring
MODEL RELEASED. Heart monitoring. Close-up of electrodes on a patients chest during an electrocardiography (ECG) examination. The electrodes are used to measure the electrical activity of his heart

Background imageElectrodes Collection: Tourettes treatment, X-ray

Tourettes treatment, X-ray
Tourettes treatment, coloured X-ray. Profile view of the skull of a 25-year-old man with Tourettes syndrome, showing electrodes implanted in his brain




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"Unleashing the Power of Electrodes: From Fruit-Powered Clocks to Cutting-Edge Medical Breakthroughs" Sparking Innovation: The fruit-powered clock, a simple yet fascinating example of how they are harness energy. Delving into the Mind: Exploring EEG technology with electrodes placed on the head, unraveling mysteries within our brains. Electrifying Artistry: Artists using electrodes as a medium to create stunning and thought-provoking artwork. Unveiling Water's Secrets: Understanding electrolysis of water through battery-connected electrodes in an awe-inspiring experiment. Illuminating History: Discovering Thomas Edison's groundbreaking invention - Staites Patent Electric Light Apparatus - revolutionizing our world with electricity. Pushing Physical Limits: The physical fitness tests C014 / 1103 and C014 / 1108 utilizing electrodes for accurate measurements and assessments. Unlocking Deep Brain Stimulation: Diving into the realm of neuroscience, where artwork showcases the potential benefits of electrode-based deep brain stimulation techniques. Pioneering Health Solutions: Exploring how electrode-based physical fitness test C014 / 1105 aids in monitoring and improving overall well-being. Restoring Soundscapes: Cochlear implant artwork (C016 / 7683) highlighting how advanced electrode technology brings back hearing for those who are deaf or hard-of-hearing. Merging Science and Artistry: Witnessing the intricate connection between deep brain stimulation and nerve cells through captivating artwork (C016 / 7200). They have come a long way from powering clocks with fruits to transforming lives through medical advancements – their potential seems boundless. Whether it be deciphering brain activity, creating mesmerizing art pieces, or unlocking new frontiers in healthcare, these tiny conductors play a significant role in shaping our world today.