Radioactivitatea și definiția curentului electric

The time for experiment was an entire weekend and no gas was observed in the electrodes chambers.

The entire charge passing through electrolytic cell was about 13 C.

By comparison two chemical batteries (1,5V) connected in series for 5 minutes, gave a current of 0,89 mA and in electrodes chamber both hydrogen and oxygen are produced as in fig. 2.

Figure 2 Minielectrodes and detail of gas release after few minutes of electrolysis with a chemical source

As is observed, at one electrode a double volume (hydrogen) is released, in comparison with the other electrode (oxygen).

In a time of 90 s and with an intensity of 0,89  mA, through circuit passes a charge equal with:

Q=I*t = 0,89x10^(-3)x300 =2,5 C

As is observed, a charge less then 2,5 C is more then enough to observe the effects of an electric current.

In proposed theory (and in reality) a charge displacement is not synonym with an electric current. A radioactive source can generate an charge displacement, but the well known effects of ,,normalʼʼ electric current are missing.  These ,,false electric currents” does not produce magnetic and chemical manifestations like well known electric currents produced by a chemical source.
If the result is negative for beta sources, which emits electrons, anyone can imagine what the result of experiment is if protons or alfa particles are collected and passed through electrolytic cell. It is absurd to imagine at least, that protons or alfa particles ,,can” produce chemical effects in a electrolytic cell as actual electrodynamics accept.