At 6:52 AM 10/16/4, Frederick Sparber wrote: >I've been told that holding a couple of magnets external to an oscilloscope >might show the presence of the electronium (*e-) particle with a mass of twice >that of the electron (same charge) as a dim spot or line separated from >the more >intense electron spot or trace. > >The magnetic field passing through the front portion of the CRT need only be >about 20 gauss or so, depending on the voltage of the CRT.
I would think no external magnetic field is necessary. The scope's deflecting electrostatic (or magnetic) field will deflect a mass 3m particle less than a mass m particle with the same charge. Might try adding a DC bias to an AC signal and setting beam brightness on maximum and signal deflection just off screen and look for a ghost trace at about 1/3 screen. Alternatively, eliminate sweep and input signal altogether, and look for a spot at about 1/3 screen when main spot is biased to just off screen. Main problem is providing an electronium source to the electron gun. Supplying an electronium source to an electron gun should be no problem, provided electronium particles can pass through conduction bands. Suppose, for example, that some electrolyte were full of electronium. It is then only necessary to connect the anode of an electrolysis cell containing that electrolyte in series with and just preceeding (in an electron flow model) the electron gun's filament DC supply. In other words pass the beam current through the electrolyte just prior to the gun. Regards, Horace Heffner
