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Power Transfer to a Human during an Electric Eel’s Shocking Leap

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Presentation on theme: "Power Transfer to a Human during an Electric Eel’s Shocking Leap"— Presentation transcript:

1 Power Transfer to a Human during an Electric Eel’s Shocking Leap
Kenneth C. Catania  Current Biology  Volume 27, Issue 18, Pages e2 (September 2017) DOI: /j.cub Copyright © 2017 The Author(s) Terms and Conditions

2 Current Biology 2017 27, 2887-2891.e2DOI: (10.1016/j.cub.2017.08.034)
Copyright © 2017 The Author(s) Terms and Conditions

3 Figure 1 Attack on a Human and the Paradigm for Circuit Analysis
Electric eel attack and procedures for investigating electromotive force (ε), internal resistance (r), and electrical potential during eel shocking leap. (A) Schematic and plates showing a fisherman being shocked by an electric eel (see [8] for movie link). (B) Paradigm used to collect voltage and current measurements under six different resistance conditions, each lasting 200 ms. Relays cycled through the resistances as the eel was lifted from the water and contacted with conductive gloves. (C) Plot of voltage verses current for each resistor condition indicating an electromotive force of 198 V and an internal resistance of 960 ohms. R squared was SEs were too small to plot. For the x axis, SEs were 0.000, 0.006, 0.006, 0.005, 0.007, and A for each data point from right to left, and for the y axis were 2.87, 9.19, 5.0, 2.7, 2.0, and 0.24 V for each data point from right to left. (D) Schematic of the plate arrangement and voltmeter used to measure the electrical potential (127 V) as the eel ascended. (E) Circuit showing electromotive force (ε), internal resistance (r), water resistance (Rw; from [6]), and the peak value for the variable resistor (Ro) estimated from the peak voltage recorded in (D) (see main text). Current Biology  , e2DOI: ( /j.cub ) Copyright © 2017 The Author(s) Terms and Conditions

4 Figure 2 Current through a Human Subject during the Eel’s Attack
Paradigm for measurement of current through the subject’s arm. (A) Plastic chamber designed to preserve the hand-water interface while providing a low-resistance path (insulated 16G copper wire) back to the main body of water. Current was measured with a hall-effect ammeter independent of the circuit. (B) Schematic of the eel, arm, and water, illustrating the circuit and current flow (red arrows). The ammeter was connected to a Powerlab data acquisition unit, which simultaneously recorded timestamps from the high-speed video camera. (C) Frames from high-speed video documenting the eel and the subject’s arm. Arrow marks break in circuit as arm was withdrawn. (D) Current recording during the eel’s shocking leap. Current increased as the eel ascended, as predicted from the equivalent circuit in Figure 1. Current peaks were approximately 43 mA. See also Figures S1 and S2. Current Biology  , e2DOI: ( /j.cub ) Copyright © 2017 The Author(s) Terms and Conditions

5 Figure 3 The Complete Circuit
Resistances and currents for each component of the circuit during the eel’s leaping attack on a human arm. Resistances are shown in black, and currents are shown in red. Current Biology  , e2DOI: ( /j.cub ) Copyright © 2017 The Author(s) Terms and Conditions

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