Thanks very much, that's helpful.
What I am measuring is really the transfer of charge (though i am measuring the voltage) between the object and the flower. It won't necessarily follow neuronal models, but it will be nice to see if te shape can be charactarised by any of these equations...
Voltage-time integral though, not just any time integral.
It is because of the power of the time integral in general that i expected to be able to get something useful from my voltage-time data.
Hi, thanks guys.
So there is no direct physical meaning of the time-integral then? It is just a statistical tool.
I was wondering if there might be some quantity I could get out of it that would be a physical property in and of itself - like getting charge from the time-integral of current...
Hello,
I have recorded voltage signals (in the time domain) using standard electrophys amplifiers. The voltage is that of an electrode inserted in a plant stem as charged objects are brought close to, then into contact with the flower.
I was wondering about the significance of the time...
Hello,
I have recorded voltage signals (in the time domain) using standard electrophys amplifiers. The voltage is that of an electrode inserted in a plant stem as charged objects are brought close to, then into contact with the flower.
I was wondering about the significance of the time...