Thursday, April 18, 2024

linear solenoid esc uav actuator subject not limiting to additional system or structure Potentiometric range design Inventor Jermaine Morton


AWG GALVANIZED COPPER WIRE 18#GAUGE 110V~120V PHASE BRIDGE RECTIFIER OUTPUT 400AMPS 4000V~ HFP 20,000MHZ~40,000MHZ PRINCIPLES FOR MINIMUM HEAT FROM INDUCED CURRENTS CARRYING WIRE VOLTAGE OFF AND ON CHARACTERIZED HERTZ CHARACTERIZED AS AN SESSION CHARACTERIZE AS AN WAVE UTILIZING BY NEWTON'S LAW OF MOMENTUM METHOD OF 500+WATTS OF VOLTAGE INDUCED WITHIN A CURRENT CARRYING WIRE SESSION 1 FOURTH THE LENGTH OF AN INDIVIDUAL HERTZ 500WATTS+ PHASE 1 PICOSECOND ON AND OFF MODULATED VOLTAGE 
HIGH FREQUENCY PULSE PHASE MAXIMUM 2000WATTS MAX INDUCED CURRENT CARRYING VOLTAGE PHASE WIRE 
PRINCIPLES NEWTON LAWS 1-2-3 LENZ'S LAW FARADAY'S LAW OF INDUCTION TRANSDUCTOR RESISTANCE 
7v VOLTAGE MAX ARRANGED STEP-UPS TRANSFORMER SYNCHRONOUS AC PHASE TRANSDUCTOR 
TESLA DEFINES 11 POUND FORCE
ONE TESLA=12FT OF WIRE OS EQUIVALENT TO 144INCHES OF WIRE
SPUN TIGHTLY INTO HELIX SHAPE COIL OF WIRE EMITS =11LBS OF FORCE= 10,000 GAUSS 
12FT OF WIRE SPUN TIGHTLY INTO DONUT SHAPE COIL CIRCULATING 6 TIMES TO COMPLETE 144INCHES OF COPPER WIRE MEASURED 12 FEET 
THE DISC SURFACE BARING 
150 TESLA'S 
 EACH TESLA=11LBS FORCE=1,500,000 GAUSS
150 TESLA=1,650lbs FORCE SEPARATE INDIVIDUAL COIL EMITTING 1,500,000 GAUSS 
FOUR COIL OF WIRE=600TESLA=
6,600LBS FORCE OF RATE GAUSS 6,000,000 EMITTER 
AGAINST THE PARAMAGNETIC DC/VAC PHASE TITANIUM DISC 
ESC FROM TITANIUM DISC INTO THE AIR DRAG FORCES AWAY THE LIGHT WEIGHT DISC AWAY FROM THE WEIGHT OF THE EMITTER YANK THE PARAMAGNETIC SURFACES INTO THE AIR HARMONICALLY AGAINST THE WEIGHT OF ITS GRAVITY OR INERTIA MASS SUBJECT NOT LIMITING TO ADDITIONAL SYSTEM OR STRUCTURE POTENTIOMETRIC RANGE DESIGN INVENTOR Jermaine Morton
warning this is not suggested for children under the age of 18
for adults attempt to wave your hand as fast as you can through a torch flame at high speed oscillating left and right the faster surpass the flame you may lessen your chances of heating quickly in and out of the flame in similar manner inducing current into a metallic wire needs the law of momentum in order to increase heating

Jermaine Morton's groundbreaking invention of the Li-Lithium (STI-AMG) Sodium Acid Battery Powered Stack represents a pinnacle of innovation in the field of electrical engineering. This sophisticated technology integrates a complex structural design comprising copper sheets, boron sheets, aluminum sheets, a commutator, horn, and a host of advanced principles from the realms of physics and electromagnetism.

 

At the heart of Morton's invention lies the intricate copper wire coil, meticulously engineered to conform to the fundamental laws of electricity, such as Ohm's Law and Ampere's Law. By incorporating Tesla's galvanized copper wire coil turns, the system optimizes electromagnetic properties essential for its efficient operation and performance.

 

Moreover, Morton's design draws inspiration from foundational principles like Newton's Law of Universal Gravitation and Faraday's Law of Induction to enhance the functionality of the commutator stack. The integration of metallic diamagnetic sheets, ferromagnetic sheets, electromagnet sheets, and paramagnetic sheets within the structure elevates the magnetic properties and flux density of the system, ensuring superior performance and reliability.

 

The metallic conductor employed in Morton's invention is carefully modulated to generate electromotive force in alignment with Faraday's Law of Induction, facilitating the creation of electromagnetic pulses and enabling efficient energy transfer within the system. Additionally, the incorporation of advanced components such as EMI filters, vibration dampening mechanisms, and low-noise sonic oscillation transducers ensures smooth operation and minimal interference, underscoring Morton's attention to detail and commitment to excellence.

 

Beyond its foundational principles, Morton's invention delves into the realms of acoustophoresis and electrophoresis, leveraging electromagnetic forces and electrodynamic principles to manipulate particles and ions with precision and control. By harnessing the principles of electron collision, quantum mass, neutrons, nuclei, and ion density, Morton's invention showcases a deep understanding of complex scientific concepts and their practical applications in real-world technologies.

 

Furthermore, the system's adherence to Gauss' Law, Ohm's Law, Ampere's Law, and Tesla's step-up voltage concepts underscores Morton's mastery of electrical engineering principles, culminating in a design that exemplifies efficiency, reliability, and sustainability. The integration of advanced technologies and innovative solutions in Morton's invention sets a new standard in energy storage and electrical systems, paving the way for future advancements in the field.

 

In conclusion, Jermaine Morton's Li-Lithium (STI-AMG) Sodium Acid Battery Powered Stack stands as a testament to his ingenuity, expertise, and visionary approach to engineering. By pushing the boundaries of traditional design and incorporating a plethora of advanced principles and technologies, Morton has not only revolutionized energy storage but has also laid the foundation for a new era of sustainable and efficient electrical systems.


 

Jermaine Morton's groundbreaking invention of the Li-Lithium (STI-AMG) Sodium Acid Battery Powered Stack represents a pinnacle of innovation in the field of electrical engineering. This sophisticated technology integrates a complex structural design comprising copper sheets, boron sheets, aluminum sheets, a commutator, horn, and a host of advanced principles from the realms of physics and electromagnetism.

 

At the heart of Morton's invention lies the intricate copper wire coil, meticulously engineered to conform to the fundamental laws of electricity, such as Ohm's Law and Ampere's Law. By incorporating Tesla's galvanized copper wire coil turns, the system optimizes electromagnetic properties essential for its efficient operation and performance.

 

Moreover, Morton's design draws inspiration from foundational principles like Newton's Law of Universal Gravitation and Faraday's Law of Induction to enhance the functionality of the commutator stack. The integration of metallic diamagnetic sheets, ferromagnetic sheets, electromagnet sheets, and paramagnetic sheets within the structure elevates the magnetic properties and flux density of the system, ensuring superior performance and reliability.

 

The metallic conductor employed in Morton's invention is carefully modulated to generate electromotive force in alignment with Faraday's Law of Induction, facilitating the creation of electromagnetic pulses and enabling efficient energy transfer within the system. Additionally, the incorporation of advanced components such as EMI filters, vibration dampening mechanisms, and low-noise sonic oscillation transducers ensures smooth operation and minimal interference, underscoring Morton's attention to detail and commitment to excellence.

 

Beyond its foundational principles, Morton's invention delves into the realms of acoustophoresis and electrophoresis, leveraging electromagnetic forces and electrodynamic principles to manipulate particles and ions with precision and control. By harnessing the principles of electron collision, quantum mass, neutrons, nuclei, and ion density, Morton's invention showcases a deep understanding of complex scientific concepts and their practical applications in real-world technologies.

 

Furthermore, the system's adherence to Gauss' Law, Ohm's Law, Ampere's Law, and Tesla's step-up voltage concepts underscores Morton's mastery of electrical engineering principles, culminating in a design that exemplifies efficiency, reliability, and sustainability. The integration of advanced technologies and innovative solutions in Morton's invention sets a new standard in energy storage and electrical systems, paving the way for future advancements in the field.

 

In conclusion, Jermaine Morton's Li-Lithium (STI-AMG) Sodium Acid Battery Powered Stack stands as a testament to his ingenuity, expertise, and visionary approach to engineering. By pushing the boundaries of traditional design and incorporating a plethora of advanced principles and technologies, Morton has not only revolutionized energy storage but has also laid the foundation for a new era of sustainable and efficient electrical systems.