I wrote:
>
> A single tube 4 foot - 40 watt fluorescent shop light with electronic ballast runs about $20.00
> at Lowes.
>
>
> A single tube 4 foot - 40 watt fluorescent shop light with electronic ballast runs about $20.00
> at Lowes.
>
>
> If there is any OU energy it has to come from some sort of collision that initiates energy release
> as in Mills' "Fractional Orbit" Hydrino and/or the MAHG, or other OU phenomena.
> as in Mills' "Fractional Orbit" Hydrino and/or the MAHG, or other OU phenomena.
>
" The fluorescent lamp is a low-pressure gas discharge lamp that requires three basic elements to produce visible light: (1) electrodes, (2) gases, and (3) solid phosphor(s), which coat the lamp tube. It contains a highly purified noble gas (usually a few torr of argon) and a small amount of mercury (about 50 mg), which vaporizes during lamp operation."
" Modern fluorescent lamps use blends of red-, green- and blue-emitting phosphors to achieve a white output and are called triphosphor lamps. These phosphors are generally complex stoichiometric metal oxides that emit light in a narrow region of the visible spectrum. For example, a cool white fluorescent-lamp phosphor blend may use Y2O3:Eu3+ for the red emission, BaMg2Al16O27Eu2+ for the blue, and Ce0.67Tb0.33MgAl11O19 for the green [9]. The precise color output of the phosphor depends not only upon the energy separation of the rare earth ions valence levels (particularly the 5d and 4f levels) but on the nature of the host lattice as well."
I've been told that some manufacturers add a small amount of Hydrogen too.
If not, the 185 and 254 nm UV that gets through the phosphor and glass can dissociate water vapor
condensed on the bulb surface into H and O , thus allowing the H to diffuse into the lower pressure
tube.
Are fluorescent lamps intrinsically Hydrino-Hydrino Hydride synthesizers?
Frederick
