Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
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Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
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The document summarizes various cathode processes and decay processes involved in electrical breakdown in gases. It describes four main ways electrons can be emitted from a cathode surface: 1) photoelectric emission through photon bombardment, 2) electron emission through positive ion or excited atom impact, 3) thermionic emission through heating the cathode, and 4) field emission through very strong electric fields lowering the work function. It also discusses two major decay processes: 1) deionization through recombination of positive and negative ions, and 2) deionization through attachment of free electrons to form stable negative ions, especially in electronegative gases.
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The new normal for humanity and physics in 2022 and beyond...Thane Heins
This document describes a method for delaying generator load current and electromagnetic field energy creation in order to perform electricity generation at infinite efficiency. It explains that normally, electromagnetic field energy performs negative work during generation through counter-torque. However, by sufficiently delaying the load current, the electromagnetic field energy can instead perform positive work and accelerate the generator without needing external mechanical input. This is achieved by operating the generator coil at a high enough frequency to delay current flow through parasitic capacitance charging and inductive rise time. This allows electricity to be generated and work to be done with zero external energy input.
The Nature of Sub-Atomic Quantum Photon Energy Creation and Externalization A...Thane Heins
The document discusses the quantum nature of electrons and how they create electromagnetic photon energy when flowing through a conductor, known as electric current. It explains that in conventional generators, this created energy performs negative work and reduces the generator's kinetic energy. However, Potential Difference Inc. discovered in 2007 that by delaying the electron flow, the created energy could instead perform positive work to increase the generator's kinetic energy without needing external energy input. This innovation allows generating electricity or powering motors without consuming additional fuel or batteries.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
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Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
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The document summarizes various cathode processes and decay processes involved in electrical breakdown in gases. It describes four main ways electrons can be emitted from a cathode surface: 1) photoelectric emission through photon bombardment, 2) electron emission through positive ion or excited atom impact, 3) thermionic emission through heating the cathode, and 4) field emission through very strong electric fields lowering the work function. It also discusses two major decay processes: 1) deionization through recombination of positive and negative ions, and 2) deionization through attachment of free electrons to form stable negative ions, especially in electronegative gases.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
The new normal for humanity and physics in 2022 and beyond...Thane Heins
This document describes a method for delaying generator load current and electromagnetic field energy creation in order to perform electricity generation at infinite efficiency. It explains that normally, electromagnetic field energy performs negative work during generation through counter-torque. However, by sufficiently delaying the load current, the electromagnetic field energy can instead perform positive work and accelerate the generator without needing external mechanical input. This is achieved by operating the generator coil at a high enough frequency to delay current flow through parasitic capacitance charging and inductive rise time. This allows electricity to be generated and work to be done with zero external energy input.
The Nature of Sub-Atomic Quantum Photon Energy Creation and Externalization A...Thane Heins
The document discusses the quantum nature of electrons and how they create electromagnetic photon energy when flowing through a conductor, known as electric current. It explains that in conventional generators, this created energy performs negative work and reduces the generator's kinetic energy. However, Potential Difference Inc. discovered in 2007 that by delaying the electron flow, the created energy could instead perform positive work to increase the generator's kinetic energy without needing external energy input. This innovation allows generating electricity or powering motors without consuming additional fuel or batteries.
WORLD INTRODUCTION OF HEINS' LAW OF INDUCTIONThane Heins
This document introduces Heins' Law of Induction, which explains how electromagnetic field photon energy created at the sub-atomic quantum electron level can be used to perform positive work in electricity generation and electric mobility. Normally, this energy performs negative work through generator armature reaction and electric vehicle regenerative braking according to Lenz's Law of Induction. However, by sufficiently delaying the load current in the time domain, the electromagnetic field photon energy can be used to produce a complementary electromagnetic torque and perform positive work, accelerating the generator and prime mover with zero mechanical input power requirements at infinite efficiency. This reversal of generator armature reaction through time delay of the load current provides a way to generate electricity and perform electro-me
The document provides an overview of electricity and its history. It discusses how Greeks discovered static electricity by rubbing amber, and how the modern word "electricity" comes from the Greek word for amber. It then explains key concepts like electric charge, conductors, insulators, circuits, current, voltage, resistance, batteries, and fuel cells. Electricity is defined as the movement of electrons associated with an electrical charge. Voltage drives current through conductors, with higher resistance resulting in less current.
The document provides an overview of electricity and its history. It discusses how Greeks discovered static electricity by rubbing amber, the origins of the term "electricity," and how electricity is the movement of electrons. It then covers key concepts like electric charge, conductors, insulators, circuits, current, voltage, resistance, batteries, and fuel cells.
The document discusses ionization processes in gases that lead to electrical breakdown. It introduces several key concepts:
- Ionization occurs through collisional processes that give electrons enough energy to liberate other electrons, creating an avalanche.
- Townsend's theory describes the exponential growth of this avalanche current as more electrons ionize more atoms. The growth depends on the ionization coefficient α.
- Secondary processes like photon emission can produce additional "seed" electrons, captured by the secondary coefficient γ.
- Together α and γ determine the current amplification and eventual self-sustaining breakdown when enough charges cross the gap.
This document summarizes key concepts in high voltage engineering related to insulation breakdown in gaseous dielectrics. It discusses:
1) Different ionization processes that can occur when electrons collide with gas molecules, including simple collision ionization, excitation, double electron impact ionization, and photoionization.
2) Townsend breakdown process where free electrons cause an "electron avalanche" through successive ionizing collisions, leading to exponential growth in the number of electrons.
3) Mathematical analysis of Townsend breakdown using ionization coefficients to describe the number of electrons/ions produced per unit length.
This document summarizes key concepts in high voltage engineering related to insulation breakdown in gaseous dielectrics. It discusses:
1) Various ionization processes that can occur when electrons collide with gas molecules, including simple collision ionization, excitation, double electron impact ionization, and photoionization.
2) Townsend breakdown process where free electrons cause an "electron avalanche" through successive ionizing collisions, leading to exponential growth in the number of electrons.
3) Townsend's first and second ionization coefficients which describe the number of electrons produced per unit length and number of electrons released from the cathode per positive ion, respectively.
The Nature of Sub-Atomic Quantum Photon Energy Creation around a Current Carr...Thane Heins
1) The document explores the nature of electromagnetic photon energy created around current-carrying wires and how this energy can perform work.
2) It was discovered in 2007 that electromagnetic field energy can perform positive work in electric generators and motors to increase their kinetic energy without an external energy source.
3) This positive work is made possible by delaying the flow of electrons along current-carrying wires, which also delays the created electromagnetic field energy in the time domain.
This document discusses the mechanisms of breakdown in gases. It explains that at high electric fields, free electrons in gas can gain enough energy between collisions to cause ionization when striking other molecules. This leads to an electron avalanche effect where the number of electrons increases rapidly. The document outlines various types of ionization processes and theories of breakdown proposed by Townsend, including his first and second ionization coefficients. Townsend's theory of electron avalanches explains the exponential rise in current during breakdown. The document provides mathematical equations to describe current growth based on these coefficients.
- Nuclear batteries harness energy from radioactive decay to generate electricity over long periods without replacement, potentially lasting decades. They work by using radioactive material to generate electron-hole pairs in semiconductor materials like silicon through ionization, similar to how solar panels generate electricity from photons.
- Early prototypes achieved very low efficiencies but newer designs use porous silicon with deep pits to maximize interactions between radioactive gases and silicon, greatly increasing efficiency.
- Nuclear batteries promise applications requiring long-lasting portable power, including electric vehicles, remote sensors, medical devices, military equipment, and deep space probes. However, efficiency remains a challenge limiting widespread adoption.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
The document discusses the principles and physics of welding. It covers topics such as fusion welding processes, characteristics of heat sources like welding arcs, arc structures, and potential drop characteristics. The key points are:
1) In fusion welding, material around the joint is melted to join two parts together. Important factors include the heat source, arc characteristics, filler material deposition, and heat flow.
2) A welding arc is a sustained electrical discharge through an ionized gas that produces heat. It is maintained by thermionic emission and ionization between the electrodes.
3) The voltage drop across a welding arc depends on factors like the electrode material, spacing and current. There is an optimal arc length that produces maximum power
Electrostatic precipitator (esp) - working functionYokesh Mech
An electrostatic precipitator (ESP) removes dust particles from air using electrostatic attraction. It has discharge electrodes that create a corona discharge, emitting electrons to ionize gas molecules. The ionized gas molecules attract and charge dust particles negatively. Positively charged collector electrodes then attract and capture the dust particles. ESPs efficiently filter particulate matter from gas streams using electric fields without restricting gas flow.
Electricity is a controllable form of energy that flows through conductors to create electric circuits. An electric current is defined as the rate of flow of electric charge. The current is measured in amperes, where 1 ampere is the flow of 1 coulomb of charge per second. Ohm's law states that the current through a conductor is directly proportional to the potential difference across it, defined as work per unit charge. The constant of proportionality is the resistance of the conductor. Resistance depends on several factors related to the properties of the material.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
This document discusses electrogravimetry, which is a technique for analyzing substances electrolytically. It defines key terms used in electrogravimetry like cathode, anode, current density, and decomposition potential. It explains Faraday's two laws of electrolysis which relate the mass of a substance deposited to the quantity of electricity passed. The document also discusses concepts like back electromotive force, concentration polarization, and activation overpotential which influence the potential needed for electrolysis beyond the theoretical reversible potential.
This document discusses electrogravimetry, which is the quantitative analysis of substances by electrolysis. It defines key terms used in electrogravimetry like cathode, anode, current density, and overpotential. It explains Faraday's laws of electrolysis and how they relate to the amount of material deposited. It also describes how controlling variables like cathode potential can be used to selectively deposit metals and separate them from each other.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
The document summarizes key aspects of solar cell operation. It discusses how solar cells directly convert sunlight into electricity using semiconductor materials in the form of a p-n junction. The basic steps are the generation of light-generated carriers, collection of carriers to generate current, generation of voltage across the cell, and dissipation of power. It also describes how short-circuit current, open-circuit voltage, fill factor, efficiency, and effects of temperature, light intensity, and parasitic resistances determine a solar cell's performance.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
WORLD INTRODUCTION OF HEINS' LAW OF INDUCTIONThane Heins
This document introduces Heins' Law of Induction, which explains how electromagnetic field photon energy created at the sub-atomic quantum electron level can be used to perform positive work in electricity generation and electric mobility. Normally, this energy performs negative work through generator armature reaction and electric vehicle regenerative braking according to Lenz's Law of Induction. However, by sufficiently delaying the load current in the time domain, the electromagnetic field photon energy can be used to produce a complementary electromagnetic torque and perform positive work, accelerating the generator and prime mover with zero mechanical input power requirements at infinite efficiency. This reversal of generator armature reaction through time delay of the load current provides a way to generate electricity and perform electro-me
The document provides an overview of electricity and its history. It discusses how Greeks discovered static electricity by rubbing amber, and how the modern word "electricity" comes from the Greek word for amber. It then explains key concepts like electric charge, conductors, insulators, circuits, current, voltage, resistance, batteries, and fuel cells. Electricity is defined as the movement of electrons associated with an electrical charge. Voltage drives current through conductors, with higher resistance resulting in less current.
The document provides an overview of electricity and its history. It discusses how Greeks discovered static electricity by rubbing amber, the origins of the term "electricity," and how electricity is the movement of electrons. It then covers key concepts like electric charge, conductors, insulators, circuits, current, voltage, resistance, batteries, and fuel cells.
The document discusses ionization processes in gases that lead to electrical breakdown. It introduces several key concepts:
- Ionization occurs through collisional processes that give electrons enough energy to liberate other electrons, creating an avalanche.
- Townsend's theory describes the exponential growth of this avalanche current as more electrons ionize more atoms. The growth depends on the ionization coefficient α.
- Secondary processes like photon emission can produce additional "seed" electrons, captured by the secondary coefficient γ.
- Together α and γ determine the current amplification and eventual self-sustaining breakdown when enough charges cross the gap.
This document summarizes key concepts in high voltage engineering related to insulation breakdown in gaseous dielectrics. It discusses:
1) Different ionization processes that can occur when electrons collide with gas molecules, including simple collision ionization, excitation, double electron impact ionization, and photoionization.
2) Townsend breakdown process where free electrons cause an "electron avalanche" through successive ionizing collisions, leading to exponential growth in the number of electrons.
3) Mathematical analysis of Townsend breakdown using ionization coefficients to describe the number of electrons/ions produced per unit length.
This document summarizes key concepts in high voltage engineering related to insulation breakdown in gaseous dielectrics. It discusses:
1) Various ionization processes that can occur when electrons collide with gas molecules, including simple collision ionization, excitation, double electron impact ionization, and photoionization.
2) Townsend breakdown process where free electrons cause an "electron avalanche" through successive ionizing collisions, leading to exponential growth in the number of electrons.
3) Townsend's first and second ionization coefficients which describe the number of electrons produced per unit length and number of electrons released from the cathode per positive ion, respectively.
The Nature of Sub-Atomic Quantum Photon Energy Creation around a Current Carr...Thane Heins
1) The document explores the nature of electromagnetic photon energy created around current-carrying wires and how this energy can perform work.
2) It was discovered in 2007 that electromagnetic field energy can perform positive work in electric generators and motors to increase their kinetic energy without an external energy source.
3) This positive work is made possible by delaying the flow of electrons along current-carrying wires, which also delays the created electromagnetic field energy in the time domain.
This document discusses the mechanisms of breakdown in gases. It explains that at high electric fields, free electrons in gas can gain enough energy between collisions to cause ionization when striking other molecules. This leads to an electron avalanche effect where the number of electrons increases rapidly. The document outlines various types of ionization processes and theories of breakdown proposed by Townsend, including his first and second ionization coefficients. Townsend's theory of electron avalanches explains the exponential rise in current during breakdown. The document provides mathematical equations to describe current growth based on these coefficients.
- Nuclear batteries harness energy from radioactive decay to generate electricity over long periods without replacement, potentially lasting decades. They work by using radioactive material to generate electron-hole pairs in semiconductor materials like silicon through ionization, similar to how solar panels generate electricity from photons.
- Early prototypes achieved very low efficiencies but newer designs use porous silicon with deep pits to maximize interactions between radioactive gases and silicon, greatly increasing efficiency.
- Nuclear batteries promise applications requiring long-lasting portable power, including electric vehicles, remote sensors, medical devices, military equipment, and deep space probes. However, efficiency remains a challenge limiting widespread adoption.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
The document discusses the principles and physics of welding. It covers topics such as fusion welding processes, characteristics of heat sources like welding arcs, arc structures, and potential drop characteristics. The key points are:
1) In fusion welding, material around the joint is melted to join two parts together. Important factors include the heat source, arc characteristics, filler material deposition, and heat flow.
2) A welding arc is a sustained electrical discharge through an ionized gas that produces heat. It is maintained by thermionic emission and ionization between the electrodes.
3) The voltage drop across a welding arc depends on factors like the electrode material, spacing and current. There is an optimal arc length that produces maximum power
Electrostatic precipitator (esp) - working functionYokesh Mech
An electrostatic precipitator (ESP) removes dust particles from air using electrostatic attraction. It has discharge electrodes that create a corona discharge, emitting electrons to ionize gas molecules. The ionized gas molecules attract and charge dust particles negatively. Positively charged collector electrodes then attract and capture the dust particles. ESPs efficiently filter particulate matter from gas streams using electric fields without restricting gas flow.
Electricity is a controllable form of energy that flows through conductors to create electric circuits. An electric current is defined as the rate of flow of electric charge. The current is measured in amperes, where 1 ampere is the flow of 1 coulomb of charge per second. Ohm's law states that the current through a conductor is directly proportional to the potential difference across it, defined as work per unit charge. The constant of proportionality is the resistance of the conductor. Resistance depends on several factors related to the properties of the material.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
This document discusses electrogravimetry, which is a technique for analyzing substances electrolytically. It defines key terms used in electrogravimetry like cathode, anode, current density, and decomposition potential. It explains Faraday's two laws of electrolysis which relate the mass of a substance deposited to the quantity of electricity passed. The document also discusses concepts like back electromotive force, concentration polarization, and activation overpotential which influence the potential needed for electrolysis beyond the theoretical reversible potential.
This document discusses electrogravimetry, which is the quantitative analysis of substances by electrolysis. It defines key terms used in electrogravimetry like cathode, anode, current density, and overpotential. It explains Faraday's laws of electrolysis and how they relate to the amount of material deposited. It also describes how controlling variables like cathode potential can be used to selectively deposit metals and separate them from each other.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
The document summarizes key aspects of solar cell operation. It discusses how solar cells directly convert sunlight into electricity using semiconductor materials in the form of a p-n junction. The basic steps are the generation of light-generated carriers, collection of carriers to generate current, generation of voltage across the cell, and dissipation of power. It also describes how short-circuit current, open-circuit voltage, fill factor, efficiency, and effects of temperature, light intensity, and parasitic resistances determine a solar cell's performance.
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
Stanley A Meyer Legacy Back up Secret Docs Save all Protect Spread print and give to schools NEVER STOP!!!!!!! Join Support here https://www.patreon.com/securesupplies/shop
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Implementing ELDs or Electronic Logging Devices is slowly but surely becoming the norm in fleet management. Why? Well, integrating ELDs and associated connected vehicle solutions like fleet tracking devices lets businesses and their in-house fleet managers reap several benefits. Check out the post below to learn more.
Welcome to ASP Cranes, your trusted partner for crane solutions in Raipur, Chhattisgarh! With years of experience and a commitment to excellence, we offer a comprehensive range of crane services tailored to meet your lifting and material handling needs.
At ASP Cranes, we understand the importance of reliable and efficient crane operations in various industries, from construction and manufacturing to logistics and infrastructure development. That's why we strive to deliver top-notch solutions that enhance productivity, safety, and cost-effectiveness for our clients.
Our services include:
Crane Rental: Whether you need a crawler crane for heavy lifting or a hydraulic crane for versatile operations, we have a diverse fleet of well-maintained cranes available for rent. Our rental options are flexible and can be customized to suit your project requirements.
Crane Sales: Looking to invest in a crane for your business? We offer a wide selection of new and used cranes from leading manufacturers, ensuring you find the perfect equipment to match your needs and budget.
Crane Maintenance and Repair: To ensure optimal performance and safety, regular maintenance and timely repairs are essential for cranes. Our team of skilled technicians provides comprehensive maintenance and repair services to keep your equipment running smoothly and minimize downtime.
Crane Operator Training: Proper training is crucial for safe and efficient crane operation. We offer specialized training programs conducted by certified instructors to equip operators with the skills and knowledge they need to handle cranes effectively.
Custom Solutions: We understand that every project is unique, which is why we offer custom crane solutions tailored to your specific requirements. Whether you need modifications, attachments, or specialized equipment, we can design and implement solutions that meet your needs.
At ASP Cranes, customer satisfaction is our top priority. We are dedicated to delivering reliable, cost-effective, and innovative crane solutions that exceed expectations. Contact us today to learn more about our services and how we can support your project in Raipur, Chhattisgarh, and beyond. Let ASP Cranes be your trusted partner for all your crane needs!
EV Charging at MFH Properties by Whitaker JamiesonForth
Whitaker Jamieson, Senior Specialist at Forth, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
Ever been troubled by the blinking sign and didn’t know what to do?
Here’s a handy guide to dashboard symbols so that you’ll never be confused again!
Save them for later and save the trouble!
Expanding Access to Affordable At-Home EV Charging by Vanessa WarheitForth
Vanessa Warheit, Co-Founder of EV Charging for All, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
What Could Be Behind Your Mercedes Sprinter's Power Loss on Uphill RoadsSprinter Gurus
Unlock the secrets behind your Mercedes Sprinter's uphill power loss with our comprehensive presentation. From fuel filter blockages to turbocharger troubles, we uncover the culprits and empower you to reclaim your vehicle's peak performance. Conquer every ascent with confidence and ensure a thrilling journey every time.
Understanding Catalytic Converter Theft:
What is a Catalytic Converter?: Learn about the function of catalytic converters in vehicles and why they are targeted by thieves.
Why are They Stolen?: Discover the valuable metals inside catalytic converters (such as platinum, palladium, and rhodium) that make them attractive to criminals.
Steps to Prevent Catalytic Converter Theft:
Parking Strategies: Tips on where and how to park your vehicle to reduce the risk of theft, such as parking in well-lit areas or secure garages.
Protective Devices: Overview of various anti-theft devices available, including catalytic converter locks, shields, and alarms.
Etching and Marking: The benefits of etching your vehicle’s VIN on the catalytic converter or using a catalytic converter marking kit to make it traceable and less appealing to thieves.
Surveillance and Monitoring: Recommendations for using security cameras and motion-sensor lights to deter thieves.
Statistics and Insights:
Theft Rates by Borough: Analysis of data to determine which borough in NYC experiences the highest rate of catalytic converter thefts.
Recent Trends: Current trends and patterns in catalytic converter thefts to help you stay aware of emerging hotspots and tactics used by thieves.
Benefits of This Presentation:
Awareness: Increase your awareness about catalytic converter theft and its impact on vehicle owners.
Practical Tips: Gain actionable insights and tips to effectively prevent catalytic converter theft.
Local Insights: Understand the specific risks in different NYC boroughs, helping you take targeted preventive measures.
This presentation aims to equip you with the knowledge and tools needed to protect your vehicle from catalytic converter theft, ensuring you are prepared and proactive in safeguarding your property.
1. The previous method of producing hydrogen gas via the application of voltage potential (pressure
or force within an electrical system) is quite efficient, but there are several advance steps to the
ELECTRICAL POLARIZATION PROCESS that increase hydrogen gas energy production astronomically
from natural water. This is simply done through the use of a Resonant Cavity Fuel Cell, as so
illustrated in Figures 12, 17, 19 and 20.
image-1656613916933.png
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The Resonant Action (as graphically depicted) within the Fuel Cell occurs in a systematic way. First
an oscillating voltage field, or zone, is formed around a second oscillating voltage field, or zone,
opposite in electrical polarity and forming a water zone in between. The two oscillating voltage
zones are synchronized into a single repetitive wave form as shown in Figures 9A, 9B and 16. As
the water molecules are exposed to the reforming voltage zones, the hydrogen atoms become
positive electrically charged while the oxygen atom becomes negative electrically
charged...electrically polarizing the water molecule, as illustrated in Figures 2 and 3. The pulsating
voltage zones also help restrict amp flow during the electrical polarization process.
image-1656613327162.png
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Mega Watt Gas Yield
FIGURE 12:
FIIGURE 17:
FIGURE 20:
RESONANT ACTION AND THE PHENOMENA:
FIGURE 9A:
FIGURE 9B:
2. image-1656613377690.png
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image-1656595270459.png
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Once the electrical polarization phenomenon occurs, the covalent bonding, or sharing, of electrons
between atoms of the water molecule ceases to exist since the positive electrically charged
hydrogen atoms attract the free floating negative charged electrons while, at the same time the
negative electrically charged oxygen atom repels the moving electrons...
thereby stabilizing the energy levels of the atoms...
separating the water molecule into its component parts...
releasing energy in the form of hydrogen gas and oxygen gas, as illustrated in Figure 3.
The opposite polarity attraction that now exists between the liberated electrically charged atoms
and the stationary electrical voltage zones further aids the splitting process by imparting a physical
impact (particle impact) on neighboring molecules undergoing the electrical polarization process.
Since the voltage zone that forms the resonant cavity outer wall momentarily entraps the liberated
atoms, the moving atoms are accelerated and deflected among other molecules being
split...causing compound action, as so illustrated in Figures 13, 14 and 15. This compounding
action continues to increase as more atoms are being liberated from other water molecules. The
repetitive pulse voltage frequency potential continues the compounding action, whereas an
increase in voltage amplitude speeds up the compounding action under controlled means.
Simply moving liberated atoms back and forth uniformly through the electrical polarization process
in a repetitive manner establishes Resonant Action within the Fuel Cell.
FIGURE 16:
FIGURE 2:
FIGURE 3:
FIGURE 13:
3. image-1656614357119.png
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image-1656614387863.png
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Resonant Action enhancement beyond the influence of pulse voltage potential is accomplished in
several ways. In the area of electron deflection, the electrically charged atoms moving toward the
water molecules further disrupt the covalent bonding, while at the same time increasing the
electrical charges inside the Fuel Cell during the electrical polarization process. Increasing the
number of electrically charged atoms within the Fuel Cell directly increases the voltage charges
within the same cell while applied pulse voltage frequency potential remains the same...increasing
gas yield while power input remains constant.
In terms of design application, the resonant cavity is multi-tier with other resonant cavities of
similar design in a sequential manner, as shown in Figures 20D, 20H, and Figure B. As the electrical
polarization process occurs, the liberated and electrically charged atoms are recycled inside the
resonant cavity prior to atom injection into the next cavity-structure undergoing the same recycling
process. The orderly and sequential progression of the moving charged atoms through the cavity-
array increases the voltage charges per stage since more atoms are being allowed to interact with
each proceeding stage. To increase gas yield even further, additional atom recycling cavities are
affixed to the vertical array to meet a predetermined gas need.
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FIGURE 14:
FIGURE 15:
RESONANT ACTION ENHANCEMENT:
FIGURE 20D:
FIGURE 20H:
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The interaction of the laser beam or light energy (see Figure 20D) with the liberated atoms inside
the resonant cavity during the electrical polarization process causes the free floating atoms to
either lose or gain electrons...causing said atoms to become electrically charged and used as
herein described. The expelling charged atoms of Figure 20D are used in conjunction with the
electrical polarization generator of Figure 40 to form the regenerative energy feedback network of
Figure A as pictorially illustrated in Figure B. This process simply uses the component parts of
water to produce electricity without consuming the charged atoms prior to gas ignition.
To capitalize on this electrical charge phenomena still further, the atom=injected resonant cavity of
Figure 20 was developed. The atom guns are smaller resonant cavities that liberate and expand
electrically charged hydrogen and oxygen atoms into accelerator tubes for Particle acceleration
Once accelerated to maximum speed, the projected electrically charged atoms are injected into a
larger resonant cavity...providing particle impact…supercharging the electrical field inside the
central fuel cell for even higher gas yield. This electrical charging process is ideal since natural
water is the prime source for the electrically charged atoms. This process is further exemplified in
the vertical-array fuel cell of Figure 20H and power loading circuit of Figure 20D. Note how the high
voltage pulse is sequentially sync with the pulsing laser during each cavity stage.
Since laser or light energy is electromagnetic energy having zero mass and no electric charge,
particle impact within said resonant cavities is accomplished by ionizing the atoms of said water
molecule. As the laser energy is superimposed onto the electrical polarization process, as shown in
Figure 18 and 19, the photon or light energy (see Figure 19A) is being absorbed by the water
molecule atom(s) nuclei. Once the electrical polarization process occurs, many liberated atoms
(including ambient air gases) become positive electrically charged when said atoms lose an
electron, forming a positive charged ion.
FIGURE B:
ATOM INJECTED RESONANT ACTION: THE ROCKET
ENGINE:
LASER INJECTED RESONANT ACTION: THE THROTTLE
BOOSTER:
FIGURE 18:
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The electromagnetically primed (atom absorbing light energy) hydrogen atom may now accept
said liberated electron, forming a negatively charged ion.
By simply attenuating said high intensity voltage pulse, said charged atoms are set into
motion…causing particle impact or particular collision during the electrical polarization process.
The liberated negatively charged electrons are also set into motion to help aid or boost said
particular impact. The uniform movement (particular oscillation) of said electrically charged
particles within said resonant cavity is now called compounding-action or resonant-action.
To sustain energy-yield beyond the gas-flame combustion state sustaining and maintaining a
hydrogen/oxygen flame), the Electrically charged (atom having missing or more than normal
amount of electrons) and "Optically Primed" (atoms absorbing photon energy) combustible gas ions
being expelled from Resonant Cavity Array (Figure 20D) now enters into and through a Hydrogen
Gas Gun Assembly placed on top of and interlocked with said Resonant Cavity Assembly, as
illustrate in Figure 20H. The moving combustible gas ions are subjected to higher energy levels
(Voltage and Laser Stimulation) while being exposed to an Electron Extraction Process for the
purpose of further destabilizing the mass/electrical equilibrium of said gas atoms. The Voltage
intensifier Circuit simply prevents electron replacement during voltage stimulation.
The specially treated combustible gas ions are now subjected to thermal stimulation via an Optical
Thermal Lens Assembly...forcing said Electrically Charged and Laser Primed combustible gas ions
to reach critical state...causing said gas ions to decay...releasing thermal explosive energy beyond
the gas flame stage. The point of atomic energy-yield is simply reached when the electron deficient
oxygen atom (having less than normal amount of electrons) locks onto and captures the hydrogen
atom electrons prior to and during thermal-combustion stimulation. The thermal explosive energy-
yield is known as the "Hydrogen Fracturing Process."
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Together, the Optical Thermal Lens Nozzle, the Hydrogen Gas Gun, and Resonant Cavity Assembly
forms a design variable Water Fuel Cell that is cost effective as to retrofit energy systems.
FIGURE 19:
Hydrogen Gas Gun Technology:
6. Revision #5
Created 30 June 2022 13:00:34 by Ethan Crowder
Updated 2 November 2022 20:18:34 by Chris Bake