EVOs AND THE HUTCHISON EFFECT

PHOTO EXAMPLES OFMETAL SUBJECTED TOELECTRICAL TREATMENTbyJOHN HUTCHISON

ELECTRICALLY TREATED METAL BY HUTCHISON

CONCEPTION OF THE ARTIFICIALLY INITIATEDCOLLAPSE OF THE SUBSTANCE AND KEYRESULTS OF THE FIRST STAGE OF ITSEXPERIMENTAL IMPLEMENTATIONbyS.V. ADAMENKOPROTON-21 ELECTRODYNAMICS LABORATORYKYIV 2004

ELECTRODE CONFIGURATION FOR ADAMENKO WORK

SEM OF COPPER ANODE SUBJECTED TOELECTRICAL DISCHARGE

Copper target after the experiment, with traces of solidified silver-andwhite“lava” on its “petals”, which had flowed out of the target center.

Target after experiment No. 2107. Material of both the target and theaccumulating screen is copper (Cu 99.99 %). The method of investigation isX-ray electron probe microanalysis (REMMA102 device, element detectionrange: from Na to U).

Accumulating screen after experiment No. 2107. Material of both the targetand the accumulating screen is copper (Cu 99.99 %). The method of investigationis X-ray electron probe microanalysis (REMMA102 device, element detectionrange: from Na to U).

Results of local analyses of the element composition in 277 copper (Cu mass.99.99 %) accumulating screens, each of them was used in the experiment withcopper target of the same purity. The method of investigation is X-ray electronprobe microanalysis (REMMA102 device, element detection range: from B to U).

LOW VOLTAGENUCLEAR TRANSMUTATIONWORK IN PROGRESS(Completion expected by June 2004 if sponsor is found)byKEN SHOULDERSBodega, California

EV REACTOR - ION SOURCEION SOURCECavityInserted electrodeIon exit apertureSilver coatingSpherical pocketin ceramic0.1”Lapped surfaceAlumina substrates

SlideAluminablockGuidePlugsEVREACTORWITHSLIDEVALVEEV REACTOR ANDCYLINDRICAL ION TRAPMASS SPECTROMETER2 VIEWS OF CYLINDRICAL ION TRAP MASS SPECT.Cylindrical Ion Trap Mass SpectrometerReactorIon Trap Mass SpectrometerDynodeElectronmultiplierElectron multiplierAnodeRearelectrodeCeramic mountplateSpectrometerconnectionscrewsMounting screwsMounting baseResistorEV powder boring reactor1 inchDynode

FINDING WHAT’S NEW1. Three overlapping spectra of Titanium isotopes, shot into atarget from an EV gun at time intervals of about 1 minute,produce distinctly different patterns due to the differentabundance of isotopes on the target.2. The data is collected as X-Y data using a Velleman PCS500 digital oscilloscope.3. The data is then processed by Excel to produce this chart.4. Differences between the traces can be determined by usingthe math capability of Excel.Titanium (mass 48 peak)20 30 40 50 60NOMINAL MASS NUMBER

Incoming EVOsEdge Viewof CoatedAluminumFoil BeingStruck byEVOsThin streaks

Fig. 8 Front view of plasma plume with cover removed Fig. 9 Side view of plasma plume with coverFig. 10 Plasma plume with apertures installed Fig. 11 Faraday collector output near 0 degrees

SealCathodemountGlassenvelopeEV guideAnodeEV targetLow pressuregas inletHigh pressureswitchCapacitor clampSwitch electrodePLASMA FOCUS GENERATORInsulatorCathodeSection of EV Generator12/5/98

PLASMA FOCUS GENERATOREnergy storagecapacitorsHigh pressuregas inletPlasma focuschamberLow pressuregas lineEV targetFig. 3

THE ENERGETICS OF THESETECHNOLOGIES ALL HAVE A COMMONBASIS IN ELECTRON CLUSTERINGPLASMA FOCUSHUTCHISON EFFECTADAMENKO WORKEVO ENERGY & TRANSMUTATIONCOLD FUSION

OUR NEXT ERA OF ENERGY HANGSIN THE BALANCEWEIGH IT CAREFULLY