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When I finally had attached the electrodes on the surface and inside the plant, I found out it is not so easy to understand what are the values displayed on the multimeter. For sure it shows us a value in voltage and it is also possible to measure the resistance of this organism, but what does it say to us? A signification (what I want to do finally) is a scientific instrument to hear invisible processes going on. One of the most famous signification is the Geiger counter and it sonify the radioactivity or better say the decay rate of a radioactive element. So a sonification shows us a specific process. What are the processes belonging to electricity inside a plant that are usable for a sonification? Another question that came up, was how is it possible that there is no measurable current inside the plant? If we take the formula for calculating the resistance: R = U/I it would lead us to the point that there could be a mathematical problem: division by zero. But at least we can calculate that little amount of current by convert our formula to: I = U/R. | When I finally had attached the electrodes on the surface and inside the plant, I found out it is not so easy to understand what are the values displayed on the multimeter. For sure it shows us a value in voltage and it is also possible to measure the resistance of this organism, but what does it say to us? A signification (what I want to do finally) is a scientific instrument to hear invisible processes going on. One of the most famous signification is the Geiger counter and it sonify the radioactivity or better say the decay rate of a radioactive element. So a sonification shows us a specific process. What are the processes belonging to electricity inside a plant that are usable for a sonification? Another question that came up, was how is it possible that there is no measurable current inside the plant? If we take the formula for calculating the resistance: R = U/I it would lead us to the point that there could be a mathematical problem: division by zero. But at least we can calculate that little amount of current by convert our formula to: I = U/R. | ||
The next phenomenon that I observed by the experiments of what to measure was there are no constant values. Sure, a plant is a living organism and therefore it changes electrical values because of a intercellular exchange of information. But the values for resistance for example rises till the end of the scale when it is measured. At the same time the organism seem to be "charged" with a rising voltage. The question is why this is happening? | The next phenomenon that I observed by the experiments of what to measure was there are no constant values. Sure, a plant is a living organism and therefore it changes electrical values because of a intercellular exchange of information. But the values for resistance for example rises till the end of the scale when it is measured. At the same time the organism seem to be "charged" with a rising voltage. The question is why this is happening? | ||
If you observe the plant for some days, you probably see that the voltage is slowly changing over a day. There is something like a daily routine also in the life of a plant. | |||
It is also very interesting to see what happened to the values and the plant if you stress parts of it. For me it seems like the electrical charge is shaked like in a cocktail shaker. That means the values become unpredictable and can also change the direction. After a while it has the effect that the plant seems to go back in a kind of regular state. | It is also very interesting to see what happened to the values and the plant if you stress parts of it. For me it seems like the electrical charge is shaked like in a cocktail shaker. That means the values become unpredictable and can also change the direction. After a while it has the effect that the plant seems to go back in a kind of regular state. | ||
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image:electrodes.png | image:electrodes.png | ||
image:electrodes2.png | image:electrodes2.png | ||
image:circuit.png | |||
</gallery> | </gallery> | ||
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