One problem for researchers of the Meyer technolgies has been the lack of a comprehensive index
to the figures in the various publications. The following is a work in progress that lists the figure by number and
reference: Thanks to GNPTrust for permission to create and post an index to their upcoming ETM book
(Most of the page references work for Dealership Sales Manual 1986 edition) ETM is a later or expanded version)+
INDEX TO FIGURES
Figure 1 Energy Gap ETM C4
Figure 2 Electrical Polarization of Water
Figure 3 Utilizing Voltage Potential to Split the Water Molecule
Figure 4 Electrical Polarization of the Water Molecules Occurs in All Natural Waters\
Figure 5 Voltage Potential Performs Work without Amp Flow ETM E3
Figure 7 Dissociation of the Water Molecule is Directly Related to Applied Voltage ETM E6
Figure 8 Geometrical shape of the Voltage Zones Alters Hygrogen Gas Yield ETM E7
Figure 9 Voltage Intensifier Circuit ETM E8
Figure 9A Variable Pulse-Voltage Frequency RestrictsAmps While Controlling Gas Yield ETM E9
Figure 9B Variable Amplitude Unipolar pulse Voltage Frequency Superimposed onto 50%
Duty cycle Puse train dynamically contro;dd the hydrogen gas rate while
restricting amp flow ETM E10
Figure 9BB Applied Voltage to Plates ETM E11
Figure 9C Variable Gas-Rate Control Circuit
Figure 9D Voltage Chamber ETM E13
Figure 9E Voltage Chambers in Stacked Arrangements ETM E14
Variable Voltage Pulsing Circuit (VVPC)
Figure 9XA Variable Voltage Pulsing Circuit Schematic ETM E33
Figure 9XAA Variable Voltage Pulsing Circuits Componet Wiring Harness ETM E34
Figure 9XAA1 Voltage Intensifier Assembly ETM E35
Figure 9XAA2 Variable Voltage Pulsing Circuits Printed Circuit Board ETM E36
Figure 9XAA3 Variable Voltage Pulsing Circuits Component Layout ETM E37
Figure 9XAA4 Variable Voltage Pulsing Circuits Wiring Harness ETM E38
Variable Pulse Voltage Frequency Generator (VPVF)
Figure 9XB Variable Pulse Voltage Frequency Generator ETM E39
Figure 9XBB Variable Pulse Voltage Frequency Generator Printed Circuit Board ETM E40
Figure 9XBB2 Variable Pulse Voltage Frequency Generator Wiring Harness ETM E42
Variable Gate
Figure 9XC Variable Gate Circuit Schematic ETM E43
Figure 9XCC Variable Gate Printed Circuit Board ETM E44
Figure 9XCC1 Variable Gate Component Layout ETM E45
Figure 9XCC2 Variable Gate Wiring Harness ETM E46
Voltage Regulator
Figure 9XD Voltage Regulator Circuit Schematic ETM E47
Figure 9XDD Voltage Regulated Printed Circuit Board ETM E48
Figure 9XDD1 Voltage Regulated Component Layout ETM E49
Figure 9XDD2 Volage Regulator Wiring Harness ETM E50
Sequential Gate
Figure 9XE Sequential Gate Crk't Schematic ETM E51
Figure 9XEE Sequential Gate Printd Crk't Board ETM E52
Figure 9XEE1 Sequential Gate Component Layout ETM E53
Figure 9XEE2 Sequential Gate Wiring Harness ETM E54
Figure 9xA/E Cage Wiring Harness ETM E55
Figure 9XF Toroidal Voltage Intensifier Circuit Schmatic ETM E56
Figure 9XG Rotary Volage Intensifier Circuit Schematic ETM E57
Figure 10 Hydrogent Gas-Yield is Also Related to Planar-size of Voltage Zones ETM E15
Figure 12 Electrical Voltage Zones(B-B+) Forming a Resonant Cavity ETM F2
Figure 13 Longitudinal Resonant Cavity ETM F3
Figure 14 Spherical Resonant Cavity ETM F3
Figure 15 Spherical Rasonant Cavity ETM F4
Figure 16 Variable Voltage Amplitude Controls Resonant-Action Output ETM F5
Figure 16A Applied Voltage to Resonant Cavity ETM F6
Figure 17 Resonant-Cavities Forming the Water Vessel ETM F9
Figure 18 Photon energy Aids Resonant Action ETM F10
Figure 19 Laser Injected Resonant Cavity ETM F11
Figure 20C Resonant Cavity Dual-Voltage Pulsing Cavity Circuit ETM F16
Figure 20D Power Load Disribution ETM F17
Figure 20E Controlled Energy-Yield from Water Atoms ETM G2
Figure 20F Hydrogen Fracturing Process ETM G3
Figure 20FA Hydrogen Fracturing Process Prior to Gas Ignition ETM G4
Figure 20FB
Figure 20FC Optical Thermal Lens Assembly ETM G6
Figure 20G Gas Resonant Cavity ETM G7
Figure 20H Gas Inector Fuel Cell ETM G8
Figure 20JX Gas Resonant Cavity ETM G29
Figure 20YBB Variable Pulse Voltage Wiring Harness ETM F29
Figure 20YC Variable AlternateSwitching Gate Circuite Schematic ETM F30
Figure 20YCC Variable Gate Wiring Harness ETM F31
Figure 20YD Gate Driver Circuit ETM F32
Figure 20YDD Gate Driver Printed Circuit Board ETM F33
Figure 20YDD1 Cascaded Gate Switch Printed Circuit Board ETM F34
Figure 20YE Variable Sequentila Gate Circuit to Resonate Cavity Array
Circuit ETM F36
Figure 20YEE Sequential Gate Printed Crk't Board ETM F36
Figure 20YEE1 Variable Sequential Gate Component Layout ETM F37
Figure 20YEE2 Variable Sequential Gate Wirign Harness ETM F38
Figure 20YF Voltage Regulator Circuit Schematic ETM F39
Figure 20YFF Voltage Regulator Wiring Harness ETM F40
Figure 20YG Voltage Intensifier Circuit Schematic (Resonant Cavity) ETM F41
Figure 20YH Rotary Voltage Intesnsifier Circuit Schematic (resonant Cavity) ETM F42
Figure 20YJ Photon or Light Injector Module Schematic ETM F43
Figure 20YJJ Light Injector Module Assembly ETM F44
Figure 20YJJ1 Light Injector Module Printed Circuit Board ETM F45
Figure 20YJJ2 Light Injector Module Component Layout ETM F46
Figure 20YJJ3 Variable Pulse Voltage Wiring Harness ETM F47
Figure 20YA/J Cage wiring Harness ETM F48
Figure 20YI Voltage Level Switching Printed Crk't Board ETM G34
Figure 20YIA Gas Resonant Cavity Schematic ETM G35
Figure 20YIB Voltage Level Switching Component Level Layout ETM G36
Figure 20YIC Voltage Level Switching Wiring Harness ETM G37
Figure 20YID Electron Extractor Grid ETM G39
Figure 20YIE Electron Extraction Schematic ETM G40
Figure 20YJJ1 Light Injector Module Printed Crk't Board ETM F45
Figure 20YJJ2 Light Injector Module Component Layout ETM F46
Figure 20YJJ3 Variable Pulse Voltage Wiring Harness ETM F47
Figure 20Z/C Cage Wiring Harness ETM G23
Figure 22 Water Fuel Cell Retrofitted to an Internal Combustion Engine ETM H4
Figure 23 Types of Land Vehicle Fuels ETM H5
Figure 24 Rendering Hydrogen Safer than Natural Gas ETM H6
Figure 24SA Catalytic Block Assembly ETM H13
Figure 24SB Quenching Nozzle ETM H14
Figure 24SC Recycling Flame Gases ETM H15
Figure 24SD Preventing Gas Ignition ETM H16
Figure 25 Quenching Tube Allows Hydrogen to be Distributed without Spark Ignition ETM H7
Figure 26 EPG Principle Allowing Permanently Magnetized Fluid
Medium to pass though a pickup Coil ETM J4
Figure 26A Attenuating Gas Field ETM J5
Figure 26B Pickup Coil Configurations ETM J6
Figure 26C Multi-Tier EPG Electrical Generator ETM J7
Figure 26D Electomagnetic Pump Assewmbly EPG ETM J8
Figure 26E Electromagnetic Pump Assembly (EPG)Electronic Schematic and Component Layout
Figure 26F Rotating Magnetic Fields without Mechanical Displacement
Figure 26ZA Opposing Magnetic Fields ETM J32
Figure 27 EPG Mechanical Drive Gas Accelerator ETM J12
Figure 28 EPG Electrical Magnetic Gas Accelerator ETM J13
Figure 29 EPG Photon Drive Accelerator ETM J14
Figure 30 EPG Magnetic Field Spin Generator ETM J15
Figure 30ZC Magnetic Spin Generator (Quiescent State} ETM J37
Figure 30ZD Magnetic Spin Generator (Triggered State) ETM J38
Figure 32QX Steam Resonator Schematic ETM K21
Figure 37 Internal Combustion Electrical Generator ETM K12
Exhibit AZ
Exhibit E1 Variable Spacing ETM E58
Exhibit Photo EA1 Variable Plate Spacing Test Unit ETM E59
Exhibit E2 Tubular Cluster-Array ETM E60
Exhibit Photo E2a Cluster Array Test Unit ETM E61
Exhibit Photo E3 Electrical Polarization Process ETM E62
Exhibit E4 Longitudinal Resonant-Cavity ETM F49
Exhibit Photo E9 Multi-Tier Resonat Cavity Assembly ETM F56
Exhibit E5 Spherical Resonant Cavity ETM F51
Exhipt Photo ZX EPG Mechanical Drive Assembly ETM J33
Exhibit Photo ZY EPG Electomagnetics Pump Assembly ETM J33
