Open menu

tunul electronic, deplasarea de sarcini electrice și definiția curentului electric

Interpretation of experiments

The gas release is due to the chemical processes at electrodes followed by molecular hydrogen and oxygen generation.

I will start with chemical source situation, because there is a positive result. In a time of 300 s and with an intensity of 8 mA, through circuit passes a charge equal with:
Q=I*t =0,89*10(-3)*300 =2,4 C
Experimentally it can be observed, that a charge of about 2,4 C is more then enough to observe the gas release due to electric current electrolysis.
By comparison, in the first experiments with CRT electron source the total charge is:
For color CRT: Q=I*t= 17,4*10(-6)*10*24*3600=15,1 C
For black and white CRT: Q=I*t= 11*10(-6)*10*24*3600=9,5 C

How is possible this?  A smaller charge of about 2,4 C in case of two batteries produce a greater effect (visual and chemical) then a greater charge (15,1 respectively 9,5 C) in case of CRT ?

I leave to actual theoreticians the explanation for this simple experiment in the frame of actual physics.In proposed theory a charge movement does not represent an electric current.

 

 Experiment 3. Electrolysis and solution pH change experiment

 The same sources are tested for detection of pH modification as result of an electric current passing through salt solutions. For the CRT, the scheme of the circuit is presented in fig. 5

 CRT-modified-electron-circulation02

Figure 5 Circuit scheme for electrolytic effects

 Having in mind the inconsistency of current measurement for a CRT, the smallest value indicated by digital ammeters was taken into consideration (17 µA for color CRT and 11µA for the other ). 

Amount