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FLYMORTON BIOMECHANICAL POWERED BODY ARMOR CURRENT-CARRYING TITANIUM 2SILICON 2CHROMIUM  PIEZOELECTRIC EFFECT TRANSDUCER HORN PELTIER EFFECT COOLER METALLOID COMMUTATIVE STACKED STATOR MOTOR CIRCULAR CAGE SHAFT BALL BARING SHAFT ARMATURE FREEDOM ROTOR 
CORRECTING ORTHOSIS BIOMETRIC RANGE BIAXIAL ROM BIOFRINGENT REST EXTERIOR CYLINDER BOMB SAMPLER BODY ARMOR SHAFTED ARMOR PISTON PNEUMATIC AIR PUMP AIR-ENGINE MANNED UAV BRACE.

FLYMORTON BIOMECHATRONIC DUAL ACTION COMMUTATOR TURNTABLE ROTOR C-FRAME STATOR BIOFRINGENT MOTOR BALL JOINT ARMATURE  SELF-BALANCING ORTHOSIS ANKLE HEEL REST BIAXIAL ROM BRACE BIOMETRIC RANGE SUBJECT NOT LIMITING TO ADDITIONAL STRUCTURE

FLYMORTON BIOMECHATRONIC DUAL ACTION COMMUTATOR TURNTABLE ROTOR C-FRAME STATOR BIOFRINGENT MOTOR BALL JOINT ARMATURE SELF-BALANCING ORTHOSIS ANKLE HEEL REST BIAXIAL ROM BRACE BIOMETRIC RANGE SUBJECT NOT LIMITING TO ADDITIONAL STRUCTURE

FLYMORTON BIOMECHATRONIC METALLOID POWER ARMOR POWERED Peltier effect cooler FULL BODY ARMOR COMMUTATIVE ACTUATOR BIOFRINGENT AUTOMATIC RESIZER DEFORMATION C-FRAME TYPE PIEZOELECTRIC TRANSDUCER STATOR STACKED CIRCULAR CAGE SHAFT BALL BARING ARMATURE HIGH SPEED GEAR ROTOR PROPELLER MOTOR CORRECTING ORTHOSIS THIGHS BIAXIAL ROM REST UAV BRACE

FLYMORTON BIOMECHATRONIC METALLOID POWER ARMOR POWERED Peltier effect cooler FULL BODY ARMOR COMMUTATIVE ACTUATOR BIOFRINGENT AUTOMATIC RESIZER DEFORMATION C-FRAME TYPE PIEZOELECTRIC TRANSDUCER STATOR STACKED CIRCULAR CAGE SHAFT BALL BARING ARMATURE HIGH SPEED GEAR ROTOR PROPELLER MOTOR CORRECTING ORTHOSIS THIGHS BIAXIAL ROM REST UAV BRACE

Claim 1 My biomechanical electromagnet body armor the body armor nickel neodymium compounds mixed Potassium carbonate silver and gold alloy, quartz crystalline silicon metalloids and other material)DC produces an Electromagnetic waves are waves that are created as a result of vibrations between an electric field and a magnetic field pressures quartz crystal compound produces the pyroelectric effect  subjected to a magnetic field within the metalloid environment, greatly increases its apparent viscosity, to the point of becoming a viscoelastic the quartz crystal compound ability of materials to generate an electrical potential due to the change in surface charge (capacitance) in response to a change in temperature whenever they are heated or cooled thermoelectric potential is usually attributed to the temperature dependence of the contact potential between different metals. As one of the junctions in a thermoelectric compound is heated the contact potential there changes compared with the other junction, it maybe exhibit The thermoelectric effect is the direct conversion of temperature differences to electric voltage and vice versa via a thermocouple. A thermoelectric metalloid creates a voltage when there is a different temperature on each side The effect is caused by charge carriers within the material (either electrons, or places where an electron is missing, known as “holes”) diffusing from the hotter side to the cooler side, similarly to the way gas expands when it is heated. The thermoelectric property of a material is measured in volts per Kelvin cryogenics phenomenon actively production and behaviour of materials at very low temperatures. cryogenics temperatures below approximately -150 C. According to the laws of thermodynamics, limit to the lowest temperature that can be achieved at absolute zero voltage differences of the  silicon metalloid produces heat reaction of gadolinium or neodymium metalloid compound solid atomic reaction magneto hydro caloric thermal Dynamic Lorentz law of Force or zeroth law of thermodynamics (MFD) charge neodymium compound 2Disodium ion pyrophosphate thermelectric effect direction of particle mass magnetohydrothermaldynamic  pushing a reaction particle mass, virtual particles pressure robs the particles of heat, rapidly cooling the liquid filled particle enclosure to form a tiny ice pellet “seed” exerts density can be used as propellant which produces energy forces against the weight of gravity

Claim 1 My biomechanical electromagnet body armor the body armor nickel neodymium compounds mixed Potassium carbonate silver and gold alloy, quartz crystalline silicon metalloids and other material)DC produces an Electromagnetic waves are waves that are created as a result of vibrations between an electric field and a magnetic field pressures quartz crystal compound produces the pyroelectric effect subjected to a magnetic field within the metalloid environment, greatly increases its apparent viscosity, to the point of becoming a viscoelastic the quartz crystal compound ability of materials to generate an electrical potential due to the change in surface charge (capacitance) in response to a change in temperature whenever they are heated or cooled thermoelectric potential is usually attributed to the temperature dependence of the contact potential between different metals. As one of the junctions in a thermoelectric compound is heated the contact potential there changes compared with the other junction, it maybe exhibit The thermoelectric effect is the direct conversion of temperature differences to electric voltage and vice versa via a thermocouple. A thermoelectric metalloid creates a voltage when there is a different temperature on each side The effect is caused by charge carriers within the material (either electrons, or places where an electron is missing, known as “holes”) diffusing from the hotter side to the cooler side, similarly to the way gas expands when it is heated. The thermoelectric property of a material is measured in volts per Kelvin cryogenics phenomenon actively production and behaviour of materials at very low temperatures. cryogenics temperatures below approximately -150 C. According to the laws of thermodynamics, limit to the lowest temperature that can be achieved at absolute zero voltage differences of the silicon metalloid produces heat reaction of gadolinium or neodymium metalloid compound solid atomic reaction magneto hydro caloric thermal Dynamic Lorentz law of Force or zeroth law of thermodynamics (MFD) charge neodymium compound 2Disodium ion pyrophosphate thermelectric effect direction of particle mass magnetohydrothermaldynamic pushing a reaction particle mass, virtual particles pressure robs the particles of heat, rapidly cooling the liquid filled particle enclosure to form a tiny ice pellet “seed” exerts density can be used as propellant which produces energy forces against the weight of gravity

FIGURE: 009 THE BIOMECHATRONIC MANNED UAV RC ROCKET STATOR ORTHOSIS BIOMETRIC RANGE ROTOR GRIPPING BRACE MATERIAL ARE 52N Neodymium permanent magnet block join to an electromagnet alongside, between the separate surface connections of the block, there are two indentation shape one half cylindrical path whereas between the two forms a circular cage, The circular path exhibits the copper 22AWG coil solenoid pull push coil shaft. within the SOLENOID coil shaft baring mechanical Articulated iron Flexible shaft further within the linkage are electromagnet baring permanent magnet block are repeated further within chain. The block shape biometric range BIOFRINGENT CORRESPONDING ALONGSIDE the user's JOINTS, SEGMENT THE HUMAN USER BIAXIAL ROM THE ELECTRO MAGNET LINKAGE ALONGSIDE THE PERMANENT MAGNET WITHIN THE CHAIN FLEXIBILITY MAY ASSEMBLE CONNECTIONS OPERATES AS AN STATOR MOTOR ALONGSIDE BIOMETRIC RANGE MODULATED BLOCK BODY ARMOR COMPUTING THE HUMAN USER FULL BODY EXTERIOR SUBJECT NOT LIMITING TO ADDITIONAL STRUCTURE.

FIGURE: 009 THE BIOMECHATRONIC MANNED UAV RC ROCKET STATOR ORTHOSIS BIOMETRIC RANGE ROTOR GRIPPING BRACE MATERIAL ARE 52N Neodymium permanent magnet block join to an electromagnet alongside, between the separate surface connections of the block, there are two indentation shape one half cylindrical path whereas between the two forms a circular cage, The circular path exhibits the copper 22AWG coil solenoid pull push coil shaft. within the SOLENOID coil shaft baring mechanical Articulated iron Flexible shaft further within the linkage are electromagnet baring permanent magnet block are repeated further within chain. The block shape biometric range BIOFRINGENT CORRESPONDING ALONGSIDE the user's JOINTS, SEGMENT THE HUMAN USER BIAXIAL ROM THE ELECTRO MAGNET LINKAGE ALONGSIDE THE PERMANENT MAGNET WITHIN THE CHAIN FLEXIBILITY MAY ASSEMBLE CONNECTIONS OPERATES AS AN STATOR MOTOR ALONGSIDE BIOMETRIC RANGE MODULATED BLOCK BODY ARMOR COMPUTING THE HUMAN USER FULL BODY EXTERIOR SUBJECT NOT LIMITING TO ADDITIONAL STRUCTURE.

Alongside the cockpit Robot motor joint connections to the hip brace drawer scissoring guide connections to the thighs baring shafted motor propeller Alongside the brace drawer scissoring guide connections to the one knee side brace robot motor joint mount upside-down L-flat bar bracket connections to the drawer scissoring guide towards the center of the calf brace shafted motor propeller brace mount drawer scissoring guide connections to upside-down L-flat bar bracket mount robot motor joint localized lower calf curve L-flat bar bracket mount motor joint ankles connections underneath the heel of the human foot etc. To cast this  UAV FRAME TRANSLATED METALLOID SERVO MOTORIZED ARM BRACKET GUIDE SLIDE SCISSORING LINEAR ACTUATOR DRAWER LEG SLIDE SCISSORING EXSOFRAME LEGS BRACE SELF-BALANCING

Alongside the cockpit Robot motor joint connections to the hip brace drawer scissoring guide connections to the thighs baring shafted motor propeller Alongside the brace drawer scissoring guide connections to the one knee side brace robot motor joint mount upside-down L-flat bar bracket connections to the drawer scissoring guide towards the center of the calf brace shafted motor propeller brace mount drawer scissoring guide connections to upside-down L-flat bar bracket mount robot motor joint localized lower calf curve L-flat bar bracket mount motor joint ankles connections underneath the heel of the human foot etc. To cast this UAV FRAME TRANSLATED METALLOID SERVO MOTORIZED ARM BRACKET GUIDE SLIDE SCISSORING LINEAR ACTUATOR DRAWER LEG SLIDE SCISSORING EXSOFRAME LEGS BRACE SELF-BALANCING

BIOMECHATRONIC CYLINDRICAL ROTARY IMPELLER THRUSTS FORCES FLEXIBLE DEFORMING MECHANICAL RETURNER SHUTTER COMBUSTIBLE AIR COMPRESSOR CHAMBER ELECTROMAGNETIC SOLENOID PISTON COMPRESSOR CHAMBER ATMOSPHERIC WATER GENERATOR THE HARMONIC SONIC DEFORMATIONING CHAMBER HEATING AND COOLER RADIATION PRESSURES ENVIRONMENT AIR VAPOR SONIC PARTICLE COLLISIONS FORCES CONDENSATION OF WATER ACCUMULATED HEATING BOTH COOLING WITHIN THE PRESSURIZING AIR ENVIRONMENT GENERATES WATER DC EE ELECTROLYSIS CHARGE WATER SEPARATES HYDROGEN RESERVOIR FROM OXYGEN

BIOMECHATRONIC CYLINDRICAL ROTARY IMPELLER THRUSTS FORCES FLEXIBLE DEFORMING MECHANICAL RETURNER SHUTTER COMBUSTIBLE AIR COMPRESSOR CHAMBER ELECTROMAGNETIC SOLENOID PISTON COMPRESSOR CHAMBER ATMOSPHERIC WATER GENERATOR THE HARMONIC SONIC DEFORMATIONING CHAMBER HEATING AND COOLER RADIATION PRESSURES ENVIRONMENT AIR VAPOR SONIC PARTICLE COLLISIONS FORCES CONDENSATION OF WATER ACCUMULATED HEATING BOTH COOLING WITHIN THE PRESSURIZING AIR ENVIRONMENT GENERATES WATER DC EE ELECTROLYSIS CHARGE WATER SEPARATES HYDROGEN RESERVOIR FROM OXYGEN

PERMANENT MAGNET ROTOR  ARMATURE OUT-ROTOR CENTRAL  TRANSDUCTOR TRANSDUCER STATOR  HORN ULTRASONIC TRANSDUCER TRANSDUCTOR COMMUTATOR CAGE  FREEDOM BALL BARING BRACKET  ARMATURE IN-ROTOR MOTOR  AC SYNCHRONOUS  BIPOLAR OR DUAL ACTION  IN-ROTOR EXTERIOR CURVED SHAPED  ELECTROMAGNETIC  SOLENOID PULL PUSH  ACTUATES PITCH AXIS 30° ANGLE STATOR  CIRCULAR CAGE PERMANENT MAGNET OUT-ROTOR EXTERIOR

PERMANENT MAGNET ROTOR ARMATURE OUT-ROTOR CENTRAL TRANSDUCTOR TRANSDUCER STATOR HORN ULTRASONIC TRANSDUCER TRANSDUCTOR COMMUTATOR CAGE FREEDOM BALL BARING BRACKET ARMATURE IN-ROTOR MOTOR AC SYNCHRONOUS BIPOLAR OR DUAL ACTION IN-ROTOR EXTERIOR CURVED SHAPED ELECTROMAGNETIC SOLENOID PULL PUSH ACTUATES PITCH AXIS 30° ANGLE STATOR CIRCULAR CAGE PERMANENT MAGNET OUT-ROTOR EXTERIOR

PERMANENT MAGNET ROTOR  ARMATURE OUT-ROTOR CENTRAL  TRANSDUCTOR TRANSDUCER STATOR  HORN ULTRASONIC TRANSDUCER TRANSDUCTOR COMMUTATOR CAGE  FREEDOM BALL BARING BRACKET  ARMATURE IN-ROTOR MOTOR  AC SYNCHRONOUS  BIPOLAR OR DUAL ACTION  IN-ROTOR EXTERIOR CURVED SHAPED  ELECTROMAGNETIC  SOLENOID PULL PUSH  ACTUATES PITCH AXIS 30° ANGLE STATOR  CIRCULAR CAGE PERMANENT MAGNET OUT-ROTOR EXTERIOR

PERMANENT MAGNET ROTOR ARMATURE OUT-ROTOR CENTRAL TRANSDUCTOR TRANSDUCER STATOR HORN ULTRASONIC TRANSDUCER TRANSDUCTOR COMMUTATOR CAGE FREEDOM BALL BARING BRACKET ARMATURE IN-ROTOR MOTOR AC SYNCHRONOUS BIPOLAR OR DUAL ACTION IN-ROTOR EXTERIOR CURVED SHAPED ELECTROMAGNETIC SOLENOID PULL PUSH ACTUATES PITCH AXIS 30° ANGLE STATOR CIRCULAR CAGE PERMANENT MAGNET OUT-ROTOR EXTERIOR

PERMANENT MAGNET ROTOR  ARMATURE OUT-ROTOR CENTRAL  TRANSDUCTOR TRANSDUCER STATOR  HORN ULTRASONIC TRANSDUCER TRANSDUCTOR COMMUTATOR CAGE  FREEDOM BALL BARING BRACKET  ARMATURE IN-ROTOR MOTOR  AC SYNCHRONOUS  BIPOLAR OR DUAL ACTION  IN-ROTOR EXTERIOR CURVED SHAPED  ELECTROMAGNETIC  SOLENOID PULL PUSH  ACTUATES PITCH AXIS 30° ANGLE STATOR  CIRCULAR CAGE PERMANENT MAGNET OUT-ROTOR EXTERIOR

PERMANENT MAGNET ROTOR ARMATURE OUT-ROTOR CENTRAL TRANSDUCTOR TRANSDUCER STATOR HORN ULTRASONIC TRANSDUCER TRANSDUCTOR COMMUTATOR CAGE FREEDOM BALL BARING BRACKET ARMATURE IN-ROTOR MOTOR AC SYNCHRONOUS BIPOLAR OR DUAL ACTION IN-ROTOR EXTERIOR CURVED SHAPED ELECTROMAGNETIC SOLENOID PULL PUSH ACTUATES PITCH AXIS 30° ANGLE STATOR CIRCULAR CAGE PERMANENT MAGNET OUT-ROTOR EXTERIOR

FLYMORTON PMSM DOUBLE BIPOLAR IN-ROTOR 

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THERMOELECTRIC EFFECT, SEEBECK EFFECT, PYROELECTRIC EFFECT PIEZOELECTRIC EFFECTS STACKED SILICON REFRIGERATION MODIFIED COATED QUARTZ OSCILLATOR ENERGY POWER GENERATOR STRUCTURE TRANSDUCTOR ACTIVE COMMUTATOR CAGE FREEDOM OF ROTATION BALL BARING BRACKET ARMATURE PERMANENT MAGNET  IN-ROTOR CENTRAL BETWEEN CIRCULAR TRANSDUCTOR CORE AND STATOR TRANSDUCTOR ROTOR ACTUATOR. SUBJECT NOT LIMITING TO ADDITIONAL SYSTEM OR STRUCTURE POTENTIOMETRIC RANGE DESIGN INVENTOR JERMAINE MORTON FLYMORTON.COM

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