Viktor Schauberger was an Austrian forester, naturalist, inventor and biomimicry experimenter in the early 20th century. He developed theories on fluid dynamics and water movement based on his observations of nature. Some of his ideas included more efficient water turbines and methods of water refinement. Though his work was not accepted by mainstream science at the time, it inspired many in the environmental movement. He spent his later years continuing to develop inventions related to water and energy generation based on natural principles.
This document provides lecture notes on electrical circuits for a B.Tech course. It covers the following key topics in 5 units:
Unit 1 introduces basic circuit concepts like network and circuit types, circuit elements and sources, voltage-current relationships, and Kirchhoff's laws.
Unit 2 discusses network analysis techniques including reduction methods and mesh/nodal analysis for DC circuits.
Unit 3 covers single-phase AC circuits including RMS values, phasor representations, reactance, impedance, and power calculations.
Unit 4 presents various network theorems for analyzing DC and AC circuits such as Thevenin's, Norton's, and maximum power transfer theorems.
Unit 5 examines magnetic circuits, including Faraday
Ph.d. thesis modeling and simulation of z source inverter design and its con...Dr. Pankaj Zope
This thesis examines modeling and simulation of Z-source inverter design and control strategies. It presents a literature review on traditional voltage source inverters, current source inverters, and Z-source inverters. The thesis then describes the design and operation of Z-source inverters, including their lattice network configuration and switching states. Various control strategies for Z-source inverters are also analyzed, including sinusoidal carrier-based pulse width modulation and simple boost control methods. Simulation results are presented to evaluate the performance of Z-source inverters under different control strategies.
This document provides an overview and summary of different load flow analysis methods. It begins with an introduction to load flow studies and the power flow equations. It then summarizes three classical iterative methods: Gauss-Seidel, Newton-Raphson, and Fast Decoupled. The document also briefly discusses other optimization methods like fuzzy logic, genetic algorithms, and particle swarm optimization that can be applied to load flow problems. Case studies are presented at the end to demonstrate the different techniques.
Electrical Power System Management becomes an important aspect when it comes to Deregulated market comprising of Generation, Transmission and Distribution. It gives basic understanding of the principles of Power System operation like Voltage Control, etc.
O documento descreve o que é uma fonte de alimentação de computador, seu funcionamento ao converter tensões elétricas e fornecer energia aos componentes, sua evolução ao longo do tempo em termos de tamanho, eficiência e padronização, possíveis problemas e melhorias recentes como controle de ventiladores e fontes redundantes.
This chapter deals with the power system operation of different power system parts which includes the generation, transmission and distribution systems. This slide is specifically prepared for ASTU 5th year power and control engineering students.
The document discusses Ohm's Law, which states that the current (I) in a circuit is directly proportional to the voltage (V) across the circuit and inversely proportional to the resistance (R) of the circuit. It then defines some key electrical terms: voltage is potential difference, current is electron flow rate, and resistance is the opposition to electron flow. It also describes some common electrical components like cells, switches, resistors, capacitors, diodes, and LEDs.
This document provides lecture notes on electrical circuits for a B.Tech course. It covers the following key topics in 5 units:
Unit 1 introduces basic circuit concepts like network and circuit types, circuit elements and sources, voltage-current relationships, and Kirchhoff's laws.
Unit 2 discusses network analysis techniques including reduction methods and mesh/nodal analysis for DC circuits.
Unit 3 covers single-phase AC circuits including RMS values, phasor representations, reactance, impedance, and power calculations.
Unit 4 presents various network theorems for analyzing DC and AC circuits such as Thevenin's, Norton's, and maximum power transfer theorems.
Unit 5 examines magnetic circuits, including Faraday
Ph.d. thesis modeling and simulation of z source inverter design and its con...Dr. Pankaj Zope
This thesis examines modeling and simulation of Z-source inverter design and control strategies. It presents a literature review on traditional voltage source inverters, current source inverters, and Z-source inverters. The thesis then describes the design and operation of Z-source inverters, including their lattice network configuration and switching states. Various control strategies for Z-source inverters are also analyzed, including sinusoidal carrier-based pulse width modulation and simple boost control methods. Simulation results are presented to evaluate the performance of Z-source inverters under different control strategies.
This document provides an overview and summary of different load flow analysis methods. It begins with an introduction to load flow studies and the power flow equations. It then summarizes three classical iterative methods: Gauss-Seidel, Newton-Raphson, and Fast Decoupled. The document also briefly discusses other optimization methods like fuzzy logic, genetic algorithms, and particle swarm optimization that can be applied to load flow problems. Case studies are presented at the end to demonstrate the different techniques.
Electrical Power System Management becomes an important aspect when it comes to Deregulated market comprising of Generation, Transmission and Distribution. It gives basic understanding of the principles of Power System operation like Voltage Control, etc.
O documento descreve o que é uma fonte de alimentação de computador, seu funcionamento ao converter tensões elétricas e fornecer energia aos componentes, sua evolução ao longo do tempo em termos de tamanho, eficiência e padronização, possíveis problemas e melhorias recentes como controle de ventiladores e fontes redundantes.
This chapter deals with the power system operation of different power system parts which includes the generation, transmission and distribution systems. This slide is specifically prepared for ASTU 5th year power and control engineering students.
The document discusses Ohm's Law, which states that the current (I) in a circuit is directly proportional to the voltage (V) across the circuit and inversely proportional to the resistance (R) of the circuit. It then defines some key electrical terms: voltage is potential difference, current is electron flow rate, and resistance is the opposition to electron flow. It also describes some common electrical components like cells, switches, resistors, capacitors, diodes, and LEDs.
The document summarizes resonant inverters, which use resonant current oscillation to reduce switching losses. It classifies resonant inverters into eight types, including series resonant inverters, parallel resonant inverters, and Class E resonant converters. Circuit diagrams and operating principles are provided for series resonant inverters and Class E resonant inverters. Applications mentioned include use in low power applications and high frequency electric lamps.
Voltage Stability Indices: Taxonomy, Formulation and Calculation algorithmcimran15
The document discusses voltage stability indices (VSIs) that are used to analyze voltage stability and predict voltage collapse in power systems. It provides a taxonomy and classification of common VSIs, including both Jacobian matrix-based and system variable-based indices. The document also presents the mathematical formulation and calculation algorithms for some example VSIs, including the Voltage Collapse Index, Stability Index, and Line Collapse Proximity Index. It describes testing some of these indices on the IEEE 14-bus test system using simulation tools to validate their theoretical behavior.
The document discusses load flow studies and the Gauss-Siedel method for solving power flow equations. Load flow studies calculate voltage drops, bus voltages, and power flows under various conditions to determine if voltages remain within limits and equipment is not overloaded. The Gauss-Siedel method iteratively solves power flow equations represented by a non-linear algebraic equation using the bus admittance matrix and known real and reactive power values at buses to calculate unknown bus voltages until converging on a solution. An example applies the Gauss-Siedel method with an acceleration factor to a three bus system to calculate voltages after the first iteration.
The document discusses power flow analysis, which determines bus voltages and power flows in a power system under normal steady-state operating conditions. It provides the mathematical formulation of the power flow problem as a set of nonlinear algebraic equations that must be solved iteratively. Buses are classified as slack, generator, or load buses depending on which two of four associated quantities - real power, reactive power, voltage magnitude, and voltage angle - are specified versus solved for. Solution methods like the Gauss-Seidel method are commonly used to iteratively solve the power flow equations until bus voltages converge.
O documento descreve os teoremas de Thévenin e Norton para simplificação de circuitos elétricos. O teorema de Thévenin estabelece que qualquer circuito linear pode ser representado por uma fonte de tensão em série com uma impedância equivalente. Já o teorema de Norton permite simplificar circuitos em termos de correntes, representando-os por uma fonte de corrente em paralelo com uma resistência equivalente. Exemplos ilustram o procedimento para obter os equivalentes de Thévenin e Norton a partir de circuitos mais complexos.
This document describes using the Gauss-Seidel method to solve non-linear load flow equations in MATLAB. The objective is to develop a program that models power flow through a system using an iterative Gauss-Seidel algorithm. It provides the theory behind load flow analysis and outlines the Gauss-Seidel method. The problem statement gives sample system data and instructions to find the voltages and angles at three buses after the first iteration.
##CONTENT##
Introduction
Voltage control
Power system control
Control of reactive power and power factor
Interconnected control and frequency ties
Supervisory control
Line compensation
Series compensation
Series and shunt compensation schemes for ac transmission system
This document discusses various concepts related to electric circuits including:
- Circuit elements like resistors, voltage and current sources.
- Kirchhoff's laws, Ohm's law, and calculations of equivalent resistance in series and parallel circuits.
- Different types of currents and voltages including direct current, alternating current, and dependent and independent sources.
- Units of measurement for quantities like charge, current, voltage, resistance and power in electric circuits.
1) O documento descreve um circuito elétrico de comutação de escada ou quarto, que permite acender e apagar luzes de dois locais diferentes.
2) São apresentados esquemas funcionais, unifilares e multifilares para representar este tipo de circuito.
3) São listados os materiais necessários para a implementação deste circuito elétrico, como tubos, caixas, fios e interruptores.
The document discusses the design of commutators and brushes. It provides details on commutator construction including copper segments insulated by mica. The number of commutator segments equals the number of armature coils. Brush design considerations include the current collected by each brush arm, the brush cross-sectional area based on current density, and using multiple subdivided brushes. A 10-step design procedure is outlined covering commutator dimensions, segment pitch, number of segments, length, brush area, thickness, number of brushes, losses, and limiting the temperature rise.
ECNG 3015 Industrial and Commercial Electrical SystemsChandrabhan Sharma
This document discusses symmetrical components and symmetrical component networks which are used to analyze unbalanced faults in power systems. It explains that a 3-phase unbalanced system can be represented as three balanced systems known as positive, negative, and zero sequence networks. It provides details on constructing these networks for different system components like generators, transmission lines, and transformers. The networks are then used to calculate fault currents and voltages under different fault conditions.
(1) A reaction turbine develops torque through the reaction of fluid pressure on its rotor. As fluid passes through the rotor blades, its pressure changes and a reaction force causes the rotor to turn in the opposite direction. (2) Its key components include a spiral casing to distribute fluid, adjustable guide vanes to direct flow to the rotor, and a draft tube that recovers kinetic energy and increases efficiency. (3) The most common type is the Francis turbine, widely used for its high efficiency over a large range of heads and flows.
Este material visa o compreendimento das grandezas elétricas e dos componentes eletrônicos que fazem parte de toda a tecnologia atual em especial desenvolvida para smartphones
This document summarizes a lecture on power system analysis. It covers:
1) Announcements about upcoming homework assignments and reading for the next lectures.
2) Descriptions of different types of transformers used in power systems - load tap changing transformers, phase shifting transformers, and autotransformers.
3) Models used for loads, generators, and the bus admittance matrix (Ybus) which are required for power flow analysis. Power flow determines how power flows through a network given load demands and generator outputs.
The document summarizes the history of electrospinning from 1600 to 1995. It describes key early
observations and experiments, such as Gilbert noting the deformation of liquid drops in 1600. It then outlines
important developments like Cooley filing the first electrospinning patent in 1900. The document also
discusses the work of various scientists and inventors who contributed to understanding the process, such
as Zeleny studying liquid behavior under electric fields in 1914. It concludes by noting the increasing number
of publications on electrospinning after 1995.
This document provides a timeline of key developments in chemistry and chemical engineering from 440 BC to 1840 AD. It includes important early concepts like the atomic theory of Democritus, Archimedes' work on buoyancy and density, and Eratosthenes' calculation of Earth's circumference. Later developments include Gutenberg's printing press, Columbus' voyage to America, Boyle's gas law, Newton's laws of motion, Priestley and Lavoisier's discoveries about oxygen, and Liebig's work connecting chemistry and physiology. The timeline covers many pivotal scientific advances over millennia that helped establish the foundations of modern chemical engineering.
The document summarizes resonant inverters, which use resonant current oscillation to reduce switching losses. It classifies resonant inverters into eight types, including series resonant inverters, parallel resonant inverters, and Class E resonant converters. Circuit diagrams and operating principles are provided for series resonant inverters and Class E resonant inverters. Applications mentioned include use in low power applications and high frequency electric lamps.
Voltage Stability Indices: Taxonomy, Formulation and Calculation algorithmcimran15
The document discusses voltage stability indices (VSIs) that are used to analyze voltage stability and predict voltage collapse in power systems. It provides a taxonomy and classification of common VSIs, including both Jacobian matrix-based and system variable-based indices. The document also presents the mathematical formulation and calculation algorithms for some example VSIs, including the Voltage Collapse Index, Stability Index, and Line Collapse Proximity Index. It describes testing some of these indices on the IEEE 14-bus test system using simulation tools to validate their theoretical behavior.
The document discusses load flow studies and the Gauss-Siedel method for solving power flow equations. Load flow studies calculate voltage drops, bus voltages, and power flows under various conditions to determine if voltages remain within limits and equipment is not overloaded. The Gauss-Siedel method iteratively solves power flow equations represented by a non-linear algebraic equation using the bus admittance matrix and known real and reactive power values at buses to calculate unknown bus voltages until converging on a solution. An example applies the Gauss-Siedel method with an acceleration factor to a three bus system to calculate voltages after the first iteration.
The document discusses power flow analysis, which determines bus voltages and power flows in a power system under normal steady-state operating conditions. It provides the mathematical formulation of the power flow problem as a set of nonlinear algebraic equations that must be solved iteratively. Buses are classified as slack, generator, or load buses depending on which two of four associated quantities - real power, reactive power, voltage magnitude, and voltage angle - are specified versus solved for. Solution methods like the Gauss-Seidel method are commonly used to iteratively solve the power flow equations until bus voltages converge.
O documento descreve os teoremas de Thévenin e Norton para simplificação de circuitos elétricos. O teorema de Thévenin estabelece que qualquer circuito linear pode ser representado por uma fonte de tensão em série com uma impedância equivalente. Já o teorema de Norton permite simplificar circuitos em termos de correntes, representando-os por uma fonte de corrente em paralelo com uma resistência equivalente. Exemplos ilustram o procedimento para obter os equivalentes de Thévenin e Norton a partir de circuitos mais complexos.
This document describes using the Gauss-Seidel method to solve non-linear load flow equations in MATLAB. The objective is to develop a program that models power flow through a system using an iterative Gauss-Seidel algorithm. It provides the theory behind load flow analysis and outlines the Gauss-Seidel method. The problem statement gives sample system data and instructions to find the voltages and angles at three buses after the first iteration.
##CONTENT##
Introduction
Voltage control
Power system control
Control of reactive power and power factor
Interconnected control and frequency ties
Supervisory control
Line compensation
Series compensation
Series and shunt compensation schemes for ac transmission system
This document discusses various concepts related to electric circuits including:
- Circuit elements like resistors, voltage and current sources.
- Kirchhoff's laws, Ohm's law, and calculations of equivalent resistance in series and parallel circuits.
- Different types of currents and voltages including direct current, alternating current, and dependent and independent sources.
- Units of measurement for quantities like charge, current, voltage, resistance and power in electric circuits.
1) O documento descreve um circuito elétrico de comutação de escada ou quarto, que permite acender e apagar luzes de dois locais diferentes.
2) São apresentados esquemas funcionais, unifilares e multifilares para representar este tipo de circuito.
3) São listados os materiais necessários para a implementação deste circuito elétrico, como tubos, caixas, fios e interruptores.
The document discusses the design of commutators and brushes. It provides details on commutator construction including copper segments insulated by mica. The number of commutator segments equals the number of armature coils. Brush design considerations include the current collected by each brush arm, the brush cross-sectional area based on current density, and using multiple subdivided brushes. A 10-step design procedure is outlined covering commutator dimensions, segment pitch, number of segments, length, brush area, thickness, number of brushes, losses, and limiting the temperature rise.
ECNG 3015 Industrial and Commercial Electrical SystemsChandrabhan Sharma
This document discusses symmetrical components and symmetrical component networks which are used to analyze unbalanced faults in power systems. It explains that a 3-phase unbalanced system can be represented as three balanced systems known as positive, negative, and zero sequence networks. It provides details on constructing these networks for different system components like generators, transmission lines, and transformers. The networks are then used to calculate fault currents and voltages under different fault conditions.
(1) A reaction turbine develops torque through the reaction of fluid pressure on its rotor. As fluid passes through the rotor blades, its pressure changes and a reaction force causes the rotor to turn in the opposite direction. (2) Its key components include a spiral casing to distribute fluid, adjustable guide vanes to direct flow to the rotor, and a draft tube that recovers kinetic energy and increases efficiency. (3) The most common type is the Francis turbine, widely used for its high efficiency over a large range of heads and flows.
Este material visa o compreendimento das grandezas elétricas e dos componentes eletrônicos que fazem parte de toda a tecnologia atual em especial desenvolvida para smartphones
This document summarizes a lecture on power system analysis. It covers:
1) Announcements about upcoming homework assignments and reading for the next lectures.
2) Descriptions of different types of transformers used in power systems - load tap changing transformers, phase shifting transformers, and autotransformers.
3) Models used for loads, generators, and the bus admittance matrix (Ybus) which are required for power flow analysis. Power flow determines how power flows through a network given load demands and generator outputs.
The document summarizes the history of electrospinning from 1600 to 1995. It describes key early
observations and experiments, such as Gilbert noting the deformation of liquid drops in 1600. It then outlines
important developments like Cooley filing the first electrospinning patent in 1900. The document also
discusses the work of various scientists and inventors who contributed to understanding the process, such
as Zeleny studying liquid behavior under electric fields in 1914. It concludes by noting the increasing number
of publications on electrospinning after 1995.
This document provides a timeline of key developments in chemistry and chemical engineering from 440 BC to 1840 AD. It includes important early concepts like the atomic theory of Democritus, Archimedes' work on buoyancy and density, and Eratosthenes' calculation of Earth's circumference. Later developments include Gutenberg's printing press, Columbus' voyage to America, Boyle's gas law, Newton's laws of motion, Priestley and Lavoisier's discoveries about oxygen, and Liebig's work connecting chemistry and physiology. The timeline covers many pivotal scientific advances over millennia that helped establish the foundations of modern chemical engineering.
Earth and Life Science - Personalities who contributed in the Fields of Earth...Juan Miguel Palero
This is a powerpoint presentation that is about one of the Senior High School Core Subject: Earth and Life Science. It is composed of the personalities who made impact or have contributed greatly in the several fields of Earth Science.
This document provides biographical information on several scientists from history:
- David Brewster - A Scottish physicist known for contributions to optics and inventions like the kaleidoscope.
- Abraham Brook - An English bookseller who also conducted experiments in electricity and vacuum technology.
- František Josef Gerstner - A Bohemian physicist and engineer who helped establish technical schools and studied applied mechanics.
- Johannes Gessner - A Swiss mathematician, physicist and physician seen as the founder of a natural science society in Zurich.
- Johann Baptiste Horvath - A Hungarian Jesuit professor known for authoring physics and other textbooks that were widely distributed.
- Pierre Lemonnier -
This document profiles several eminent scientists from history and their contributions to fields like physics, biology, chemistry, and more. It describes key discoveries and theories from scientists such as Albert Einstein, Leonardo da Vinci, Alexander Fleming, Charles Darwin, Antoine Lavoisier, Marie Curie, Michael Faraday, Nikola Tesla, Galileo Galilei, Johannes Kepler, and Sir Isaac Newton. Their work revolutionized our understanding of concepts like evolution, gravity, electricity, light, and more.
Pythagoras in the 6th century BC discovered the mathematical relationship between string length and pitch through his study of musical instruments. Polycleitus in the 4th century BC designed the renowned theatre at Epidaurus with careful consideration of acoustics, informed by earlier Greek studies. Helmholtz in the 19th century advanced theories of sound and hearing, analyzing pitch, timbre, and consonance/dissonance mathematically. Sabine in the early 20th century established the field of architectural acoustics through measurements of absorptivity and the formulation of Sabine's Law relating reverberation time and room volume.
pioneers in acoustics
Greek philosopher and mathematician. Sought to explain the nature of all things in mathematical terms. His
greatest scientific studies were of sound: “He found that the strings of musical instruments delivered sound of
higher pitch as they were made shorter.” He discovered the relationship of pitch with string length and
recognised “if one string was twice the length of another, the sound it emitted was just an octave lower.”
47. Asimov, entry 5.
This document provides a summary of Antoine Lavoisier's contributions to chemistry, including:
1) Lavoisier disproved the theory of phlogiston through experiments showing that combustion reactions involve gases combining with oxygen rather than releasing phlogiston.
2) He established that water is a compound of hydrogen and oxygen by collecting and weighing the products of a combustion reaction.
3) Lavoisier is considered the founder of modern chemistry for his establishment of a system of chemical nomenclature and for listing the first table of chemical elements. He emphasized quantitative experiments and conservation of mass.
Early theories proposed that heat was a fluid that could flow between objects. The phlogiston theory proposed that burning objects released an invisible fluid called phlogiston. However, experiments showed that ashes weighed more than the original wood, contradicting this theory. Later, the caloric theory proposed that heat was a fluid called caloric. But experiments by Count Rumford showed that heat could be generated through friction without transferring a fluid. Julius Mayer discovered that sailors in cold climates had darker blood, showing their bodies worked harder to stay warm. This provided evidence that heat was a form of energy. James Joule later precisely quantified the relationship between heat and mechanical work by designing experiments to measure the mechanical equivalent of heat, defining the jou
Joseph Lister was a British physician who introduced antiseptics into surgery in 1867, significantly reducing the incidence of sepsis. Through the use of carbolic acid dressings and sterilized cat gut for stitches, he decreased the death rate from over 40% to under 15% within three years. He is credited with making infection during surgery unusual rather than the norm of the mid-1800s.
Albert Einstein famously said "The most incomprehensible thing about the world is that it is comprehensible." This document discusses what Einstein may have meant by this statement. Despite the complexity of the physical and biological worlds, and vastly different scales of space, time and mass, almost all physical phenomena can be described by a few basic laws. When viewed in this context, Einstein's statement becomes clear.
Lord John Abercromby was a Scottish antiquary known for his 1904 use of the term "beaker" to describe decorated Bronze Age pottery found across Europe. While his explanation that these represented migrating people groups has been disproven, his typological analysis remained influential. He endowed the Abercromby Chair of Archaeology at the University of Edinburgh. The Abu Simbel temples in Egypt, featuring sculptures of Ramses II and Nefertari, were threatened by rising waters from the Aswan Dam but were saved through an international project to dismantle and reassemble them above the new water line.
This document provides brief biographies of famous scientists including Albert Einstein, Isaac Newton, Marie Curie, Stephen Hawking, Archimedes, Nikola Tesla, Thomas Edison, Alfred Nobel, Alessandro Volta, Benjamin Franklin, Blaise Pascal, James Watson, and Michael Faraday. It summarizes their major scientific discoveries and contributions in fields such as physics, mathematics, chemistry, and electromagnetism.
This document discusses the importance of physics and provides examples of its impact. It describes how physics has revolutionized transportation, communication, entertainment and more from the past to present and will continue to do so in the future. It then profiles several famous pioneers and discoverers in physics throughout history, including Galileo, Aristotle, Copernicus, Kepler, Newton, Archimedes and more modern figures like Einstein, Tesla, Millikan and Stern. It emphasizes that physics has proven itself as a pioneering science that has shaped our lives and world.
This document profiles several famous scientists throughout history including their major accomplishments and contributions to science. Some of the scientists mentioned are Albert Einstein who developed the theory of general relativity, Isaac Newton who formulated laws of motion and gravity, Marie Curie who pioneered research in radioactivity, and Stephen Hawking who made theoretical predictions about black holes. Other scientists discussed include Archimedes, Nikola Tesla, Thomas Edison, Alfred Nobel, Alessandro Volta, Benjamin Franklin, Blaise Pascal, James Watson, and Michael Faraday.
William Whewell was a British philosopher and historian of science born in 1794 who died in 1866. He wrote extensively about various fields of science including architecture, mechanics, mineralogy, astronomy, political economy, and the philosophy of science. In 1834, he coined the term "scientist" to describe experts in the study of nature, as prior terms like "natural philosophers" were no longer fitting as the roles became more specialized and professionalized. The new term stuck and is still used today to collectively refer to those who investigate the natural world through empirical research and evidence.
Alfred Nobel was a Swedish chemist and inventor who invented dynamite and owned several armament manufacturing companies. He established the Nobel Prizes in his will to recognize scientific and cultural advances. A monument in St. Petersburg marks his invention of dynamite and the location where his family once lived. His name is also associated with modern companies like Dynamit Nobel and AkzoNobel due to his significant contributions to chemistry through inventions like dynamite and his establishment of the prestigious Nobel Prizes.
Scientists throughout history have contributed greatly to scientific progress and modern comforts through their discoveries and innovations. Early scientists in ancient India, Greece, and elsewhere made observations but faced skepticism due to superstitions. Beginning in the 16th century, bold scientists conducted experiments and research which gave life to scientific knowledge through discoveries like microscopes, printing presses, and breakthroughs in fields like medicine and agriculture. Many scientists are highlighted for their seminal work, including John Gutenberg, Antonie van Leeuwenhoek, Louis Pasteur, Jagadish Chandra Bose, C.V. Raman, and M.S. Swaminathan whose green revolution efforts helped address food shortages.
Robert Hooke was a 17th century English scientist known as a "Renaissance Man" for his diverse work across many fields of science. He was educated at Oxford and spent his career at the Royal Society and Gresham College, conducting experiments in astronomy, physics, and biology. Some of his most important contributions included his observations using microscopes, which led to the discovery and naming of plant cells, as well as establishing "Hooke's Law" of elasticity. He also worked as an architect and surveyor, helping to rebuild much of London after the Great Fire of 1666.
This document appears to be a field guide or reference text about various types of mushrooms or fungi. It provides brief descriptions of multiple species in other languages, including their identifying characteristics like color, shape, habitat and whether they are edible or poisonous. Each entry includes the species name, short description and sometimes notes on taste or uses. The document uses scientific names and terminology related to mycology.
This document describes a simple VHF receiver that can be built for around $20 using a superregenerative design. The receiver requires no special components or test equipment to construct. It uses a single JFET transistor as a superregenerative detector to provide high sensitivity of around 1 microvolt. The receiver can detect both AM and FM signals between 49-55 MHz with modifications allowing it to receive other VHF bands. With adjustments to the regeneration control and quench waveform control, the receiver can be tuned to receive narrowband FM transmissions with reasonable selectivity.
This document describes how to build a simple and portable shortwave radio receiver using a single hand-wound coil. The receiver requires only basic components, including a variable capacitor, transistor, diode and battery. It can receive international radio broadcasts with its small whip antenna. The document provides detailed instructions on winding the coil, assembling the circuit board, and operating the receiver to tune in shortwave radio signals.
The Maxon SL55 is a handportable radio designed for professional users. It is compact yet rugged with features like long battery life, scanning, encryption, and programmable settings. The radio has 16 channels across VHF and UHF bands with adjustable channel spacing and transmit power up to 5 watts. It performs well in both transmit and receive modes with clear audio and strong selectivity. The SL55 is simple to use but still offers advanced features through programming with accessories.
This document outlines different power and band settings for PMR radios and LPD devices including legal and extended power levels up to 2W for various modes. It also lists combinations of jumper settings labeled JP1, JP2, and JP3 that correspond to the different operating modes. The document provides instructions for toggling between PMR-only and PMR+LPD modes on the radio.
1. Viktor Schauberger (30 June 1885 – 25 September 1958) was an Austrian forester/forest warden, naturalist,
philosopher, inventor and Biomimicry experimenter.
The inventor of what he called "implosion technology", Schauberger developed his own theories based on
fluidic vortices and movement in nature. He built actuators for airplanes, ships, silent turbines [1]
, self-cleaning
pipes and equipment for cleaning and so-called "refinement" of water to create spring water, [2]
which he used as
a remedy.
Schauberger's theories appear not to have received acceptance in the mainstream western scientific community,
as replication proves either too difficult or results vary from previously published data. However, Schauberger's
work remains an inspiration to many people in the Green movement for his own observations of nature.
iktor Schauberger (30. lipanj 1885 - 25 September 1958) je bio austrijski šumar / šumskog upravitelja,
prirodoslovac, filozof, izumitelj i Biomimicry eksperimente.
Izumitelj onoga što on naziva "implozija tehnologije", Schauberger razvio svoje teorije na temelju fluidic
vrtloga i kretanje u prirodi. On je sagradio aktuatori za zrakoplove, brodove, silent turbine [1], self-
čišćenje cijevi i opreme za čišćenje i na taj način-opozvao je "profinjenosti" vode stvoriti izvorske vode
[2], koji je korišten kao lijek.
Schauberger teorija se ne dobili prihvaćanja u mainstream zapadne znanstvene zajednice, kao odgovor
dokazuje bilo previše teško ili rezultati razlikuju od prethodno objavljenih podataka. Međutim,
Schauberger rad ostaje inspiracija mnogim ljudima u Zeleni pokret za svoje opažanje prirode.
Biography
[edit] Early years
Viktor Schauberger was born in Holzschlag, Austria, to a long line of Austrian foresters that could be traced
back to early Germanic tribes, with views on and concepts of nature entirely different than the ones known to us
currently. Creek and river flow fascinated him during his youth. He went on to develop a basic theory that
contains a twofold movement principle for such phenomena.
His first concepts were brought on by studying trout in its natural environment. He was quoted as saying:
How was it possible for this fish to stand so motionlessly, only steering itself with slight movements of its tail-
fins, in this wildly torrential flow, which made my staff shake so much that I could hardly hang onto it? What
forces enabled the trout to overcome its own body-weight so effortlessly and quickly, and, at the same time,
overcome the specific weight of the heavy water flowing against it?
These questions inspired further investigation to study the force that allowed such effortless natural motion.
Schaubergers conclusion led to his theory of natural vortices.
Biografija
[uredi] Rane godine
Viktor Schauberger je rođen u Holzschlag, Austrija, u dugom nizu austrijskih šumari koji se mogao
pratiti do ranih germanskih plemena, s pogledom na konceptima prirode i posve različite od onih
poznatih nam trenutno. Creek i toka rijeke fasciniran njim za vrijeme njegove mladosti. On je otišao na
razvijanje temeljnih teorija koja sadrži dvostruku načelo pokreta za takve pojave.
Njegovi prvi koncepti dovedeni su na proučavanjem pastrva u prirodnom okruženju. On je citiran kako
kaže:
Kako je to moguće za ovu ribu da stoje tako motionlessly, samo sam upravljač sa neznatnim pokreta
svoj rep, peraje, u ovom mahnito silovit protok, koji je napravio moj štap tresti toliko da sam jedva
mogao objesiti na to? Koja snaga omogućila pastrva nadvladati svoje tjelesne težine, tako brzo i bez
napora, i, u isto vrijeme, svladati specifična težina i teška voda teče protiv nje?
2. Ta pitanja inspiriran daljnje istrage za proučavanje snaga koja je omogućila takva prirodna kretanja
bez napora. Schaubergers zaključak je dovelo do njegove teorije prirodne vrtloga.
Schauberger's second major theory was in the structure of water. He believed that water is at its densest when
cold (at +4C water anomaly point) (and at the time of a full moon), and that there are many layers in the
structure of flowing water. He claimed that nature creates vortices to create equilibria. He further claimed that
our current form of energy production/consumption scatters matter into disequilibrium. His studies were not
approved by science at the time, even when his ideas were put into practice.[citation needed]
In 1922 for Adolf I, Prince of Schaumburg-Lippe, Schauberger designed and had built several log flumes which
reduced the timber transport costs to one tenth the previous cost and allowed transport of denser than water
woods such as beech and fir[3]
. In 1924, Viktor Schauberger became a Public Council consultant for the log
flumes for the Austrian state. He started construction of three large plants in Austria. In 1926, he undertook
research at a timber flotation installation in Neuberg an der Mürz in Styria. In 1929 Schauberger submitted his
first applications for patents in the fields of water engineering and turbine construction. He conducted research
on how to artificially generate centripetal movement in various types of machines. He proposed a means of
utilising hydroelectric power by a jet turbine. The log flumes used for timber flotation allegedly disregarded the
Archimedes' principle, i.e., Schauberger was allegedly able to transport heavier-than-water objects by creating a
centripetal movement (making the timber spin around its own axis, by special guiding-vanes which caused the
water to spiral). Professor Philipp Forchheimer was sent to study the log flumes. Professor Forchheimer in
1930-1931 later published with Schauberger a series of articles in "Die Wasserwirtschaft", the Austrian Journal
of Hydrology.[citation needed]
Schauberger Druga teorija je bila glavna u strukturi vode. On je vjerovao da je voda najgušća u svom kad
hladno (na +4 C anomalija vode točka) (i na vrijeme pun mjesec), i da postoji mnogo slojeva u strukturi teče
voda. On je tvrdio da je priroda stvara vrtloga za stvaranje ravnoteže. On je dalje tvrdio da je naš trenutni oblik
energije proizvodnje / potrošnje tvari, rasipa se u disequilibrium. Njegove studije nisu odobrena od strane
znanosti na vrijeme, čak i kada njegove ideje su staviti u praksu. [Uredi]
Godine 1922 za Adolfa ja, knez Schaumburg-Lippe, Schauberger projektiran i izgrađen je imao nekoliko
prijava flumes koji smanjuju troškovi prijevoza drva na desetine prethodnih troškova i dopušten
prijevoz gušća od vode, kao što su šume bukve i jele [3]. Godine 1924, Viktor Schauberger je postao
konzultant Javna Vijeće za zapisnik flumes za austrijske države. On je počeo izgradnju tri velika
postrojenja u Austriji. Godine 1926, on je poduzeo istraživanje u drvnoj instalacije flotacija u Neuberg
der Mürz u Štajerskoj. Godine 1929 Schauberger podnosi svoje prve aplikacije za patente u oblasti vode i
inženjering izgradnju turbina. On je provedeno istraživanje o tome kako se umjetno stvoriti
centripetalna kretanja u različitim vrstama strojeva. On je predložio sredstvo utilising hidroelektrane
koje jet turbine. Log flumes koristi za drvo flotacija navodno zanemareni Arhimedov princip, tj.
Schauberger je navodno u stanju prijevoz teže-od-vode objekte stvaranjem centripetalna pokret (izrada
drvne vrtnja oko vlastite osi, posebnim vodilja-lopatice što je izazvalo vodi do spirale). Profesor Philipp
Forchheimer je poslan na studij zapisnik flumes. Profesor Forchheimer u 1930-1931 kasnije objavljene
uz Schauberger niz članaka u "Die Wasserwirtschaft", Austrian Journal of Hydrology. [Uredi]
World War II
In 1934 Viktor was meeting with Hitler[citation needed]
, and had discussions about fundamental principles of
agriculture, forestry and water engineering.[citation needed]
Schauberger is believed to have lent his ideas in order to
aid the German Reich. Although whether this was under duress or willingly is still a matter of debate.[citation needed]
In 1941, an intrigue caused by the Viennese Association of Engineers[citation needed]
resulted in Schauberger's
enforced confinement in a mental hospital in Mauer-Öhling, under continuous observation by the SS.[citation needed]
In Augsburg, Schauberger worked with Messerschmitt on engine cooling systems and was in correspondence
with designer Heinkel about aircraft engines.[citation needed]
In 1944, Schauberger continued to develop his Repulsine machine at the Technical College of Engineering at
Rosenhügel in Vienna. By May 1945 a prototype had been constructed.
3. In 1945 Schauberger started to work on his "Klimator". The function of the Klimator is to cool and warm the air
in living spaces.[4]
At the end of the war Schauberger was apprehended by US intelligence agents, and kept in custody for 9
months. They confiscated all his documents and prototypes, and interrogated him to determine his activities
during the war.[5]
After the war Schauberger continued his work, leading to water-based power generation through vortex action
in a closed cycle, the "Spiral Plough", an "Apparatus for soil cultivation made of copper" and tests with "spiral
pipes".
Svjetski rat II
1934 Viktor je bio sastanak s Hitlerom [uredi], te je rasprava o temeljnim načelima poljoprivrede, šumarstva i
vodnog inženjering. [Uredi] Schauberger Vjeruje se da je korizma njegove ideje kako bi se pomoć njemačkog
Reicha. Iako je je li to bilo pod prisilom ili milom je još uvijek stvar rasprava. [Uredi]
Godine 1941, smutnja uzrokovana bečkog Udruge inženjera [uredi] rezultiralo Schauberger je primjenjuju
zatočeništva u ludnici u Mauer-Öhling, pod stalnim promatranje od strane SS-a. [Uredi] U Augsburgu,
Schauberger je radio s Messerschmitt na motor rashladni sustavi te je bio u korespondenciji s dizajnerom
Heinkel oko motora zrakoplova. [uredi]
Godine 1944 Schauberger je nastavio razvijati njegov Repulsine stroj na Technical College of Engineering u
Rosenhügel u Beču. Do svibnja 1945 prototip bio sagrađen.
1945 Schauberger počeo raditi na svom "Klimator". Funkcija Klimator je svjež i topao zrak u stambeni prostor.
[4]
Na kraju rata Schauberger je bio uhićen od strane američkih obavještajnih agenata, a čuvaju se u pritvoru za 9
mjeseci. Oni zaplijenila sve svoje dokumente i prototipe, i ispitivali ga da odredi svoje aktivnosti tijekom rata.
[5]
Poslije rata Schauberger je nastavio svoj rad, što dovodi do bazi vode električne energije kroz vrtlog akcije u
zatvorenom ciklusu, "Spirala plug", "Uređaj za kultiviranje tla od bakra i testovi s" spiralnih cijevi ".
Later years
Turbine Schauberger
In 1952, at Stuttgart Technical University, Schauberger claimed that tests were carried out by Prof. Franz Popel,
on behalf of the West German government, to determine the validity of his ideas on water movement. Tests
were performed on Schauberger's specially designed copper pipes, which had a conical, spiral, rifled shape,
with apparent success confirming Schauberger's idea.
In 1958 Schauberger was approached by Karl Gerchsheimer and Robert Donner, with an invitation to come to
the US to further develop his inventions.
4. Schauberger spent several months in the US writing articles and drawing sketches, then returned to Austria. He
died in Linz, Austria, on September 25 1958, 5 days after having returned to Linz.
Kasnije godine
Turbina Schauberger
Godine 1952, u Stuttgartu Technical University, Schauberger je tvrdio da testovi su provedeni prof
Franz Popel, u ime vlade Zapadne Njemačke, da se utvrdi valjanost svojih ideja o kretanju vode.
Ispitivanja su provedena na Schauberger je posebno dizajniran bakrene cijevi, koje su konične, spirala,
rifled oblika, s očito uspjeh potvrde Schauberger ideja.
1958 Schauberger je prišao Karl Gerchsheimer i Robert Donner, uz poziv da dođe u SAD-u daljnji
razvoj svoje izume.
Schauberger je proveo nekoliko mjeseci u SAD-pisanje članaka i crtanje skice, a zatim se vratio u
Austriju. Umro je u Linz, Austrija, 25. rujna 1958, 5 dana nakon što se vratio u Linzu.
Controversy
Schauberger and his works have become part of an internet-based conspiracy theory claiming that Schauberger
invented free energy/perpetual motion devices and that this was "covered up" by the US
government.Schauberger never claimed to have invented perpetual motion machines, but instead stated that he
used the Earth's natural power.
Due to issues with translation from German to English, a number of papers and publications are in broken
English. In Implosion magazine, a magazine released by Schauberger's family, he said that aeronautical and
marine engineers had incorrectly designed the propeller. He stated:
“As best demonstrated by Nature in the case of the aerofoil maple-seed, today’s propeller is a pressure-screw
and therefore a braking screw, whose purpose is to allow the heavy maple-seed to fall parachute-like slowly
towards the ground and to be carried away sideways by the wind in the process. No bird has such a whirling
thing on its head, nor a fish on its tail. Only man made use of this natural brake-screw for forward propulsion.
As the propeller rotates, so does the resistance rise by the square of the rotational velocity. This is also a sign
that this supposed propulsive device is unnaturally constructed and therefore out of place.”[6]
Whilst the notion of a propeller being natural or unnatural is subjective, the maximum efficiency of the
propeller can be considered. As a comparison, the fastest propeller-driven aircraft ever to fly, the Tupolev Tu-
114 had a top-speed of 541 miles per hour, but a jet engine using suction and internal compressive forces can
break the sound barrier.
Not everything that undergoes air or water resistance experiences an increase in drag with the square of
velocity. Some insect wings rely on turbulence created by a previous wing beat to increase the efficiency of the
stroke, and hence decrease the acting drag which uses less energy.
Kontroverze
Schauberger i njegova djela su postale dio Internet-baziran teorije zavjere, tvrdeći da Schauberger je
izumio slobodna energija / vječno gibanje uređaje i da je to "prikrivenim" po SAD-
government.Schauberger nikada tvrdio da je izmislio strojeve vječno gibanje, ali umjesto toga rekao da
je koristio Zemljine prirodne energije.
Zbog problema s prijevod s njemačkog na engleski, broj radova i publikacija u loš engleski. U implozija
magazin, magazin izlazi od Schauberger obitelji, on je rekao da aeronautičke i brodskih inženjera
nepravilno je dizajnirao propelera. On je izjavio:
"Kao što je najbolje pokazao prirode u slučaju aerotijelo javor, sjeme, danas je propeler je pritisak-
vijak i stoga kočenja vijak, čija je svrha omogućiti teška javor, sjeme pada poput padobrana polako
prema tlu i biti zanesen bočno od vjetra u procesu. Nema ptica ima takav vrtloženje stvar na glavi, ni
5. ribu na svoj rep. Samo čovjek napravio korištenje ovog prirodnog kočnica-vijak za pogon naprijed. Kao
što je propeler rotira, pa se otpor rastu s kvadratom brzine vrtnje. To je također znak da je ovo trebalo
pogonski uređaj je konstruiran unnaturally i stoga izvan mjesta. "[6]
Dok pojam propelera biti prirodne ili neprirodne je subjektivno, maksimalna učinkovitost propelera
može smatrati. Kao usporedbu, najbrže propelera-driven zrakoplova ikada letjeti, Tupoljev Tu-114 imao
top-brzinu od 541 milja na sat, ali jet motor pomoću usisne i tlačne interne snage mogu slomiti zvučni
zid.
Nije sve što prolazi kroz zrak ili voda otpor iskustva povećanje povući s kvadratom brzine. Neki se
oslanjaju na krilima kukaca turbulencija created by prethodna krila tuku povećati efikasnost moždanog
udara, a time i smanjenje djelovanja vuci koji koristi manje energije.
He has also been quoted as making the claim:
"Water is a living substance!"
and some of his language using scientific terms has been translated in incorrect ways. In another edition of
Implosion Magazine, he says:
"In contrast, all 'technical' machines, i.e. all dynamos, turbines, pressure pumps, propellers, explosion and steam
driven engines, all furnaces, gas and electric heating appliances, all soil-tilling and harvesting machinery, etc.
provide a developmentally harmful ex-pulse to initiate motion. Because of this and without exception, the atom
lattice thus moved ruptures, resulting in the disintegration of the molecular (bacteriophagous) formations in
suspension. In unnaturally moved air or water decadent stresses appear, causing the decay of the decisive
energy-concentrates. This leads to the build-up of decadent potential and the decomposition of the blood of the
Earth, and thus to a total economic collapse along the whole course of development."[7]
However, the claim that a bacteriophage can exist in an atomic lattice is inaccurate, notably because a
bacteriophage is approximately 1 thousand times larger than the gaps in a crystal structure.
On je također citirao kao što tvrde:
"Voda je živa tvar!"
a neki od njegovih jezik koristeći znanstvenom smislu je preveden na pogrešan način. U drugom izdanju
implozija Magazine, kaže:
"Za razliku od toga, sve 'tehničke' strojeve, tj. svi dinamo, turbine, pritisak pumpe, propeleri,
eksplozija i para pogonjeni motorima, sve peći, plin i električna grijanje, svi tla-tilling i berbu strojeva,
itd. pružiti razvojno štetan ex-impuls za pokretanje gibanje. Zbog toga i bez iznimke, atom rešetke čime
se preselio pukne, što je rezultiralo raspadom molekularnih (bacteriophagous) formacija u suspenziji.
unnaturally seli u zrak ili vode dekadentan naprezanja pojavljuju, uzrokujući raspadom odlučujući
energije koncentrata. To dovodi do gomilanja dekadentnog potencijal i razgradnje krvi od Zemlje, a time
i na ukupan ekonomski kolaps duž cijele tijek razvoja. "[7]
Međutim, tvrde da bakteriofag može postojati u atomska rešetka je netočan, posebice jer bakteriofag je
otprilike 1 do tisuću puta veća od praznine u kristalnu strukturu.
Implosion Magazine
Implosion is a quarterly magazine founded in 1958 by Aloys Kokaly at the bequest of Viktor and Walter
Schauberger. It is still published quarterly or semi-annually by Klaus Rauber. It is the only known repository of
Viktor Schauberger's writing (in German), and has been the source of substantial portions of the Eco-
Technology series.
6. [edit] Films
Three documentaries in English dealing with the life and works of Viktor Schauberger are in existence:
• "Nature Was My Teacher" - Borderland Science Research Foundation - narrated by Tom Brown (1993)
• "Sacred Living Geometries" - narrated by Callum Coats (1995)
• "Extraordinary Nature of Water" - narrated by Callum Coats (2000)
Implozija Magazin
Implozija je tromjesečni časopis osnovana u 1958 by Aloys Kokaly na nasljedstvo Viktor Schauberger i
Walter. To je još uvijek objavljuje tromjesečno ili polugodišnje Klaus Rauber. To je jedini poznati
repozitorij Viktor Schauberger je pisanje (na njemačkom), pa je bila izvor suštinske dijelove
ekotehnologija serije.
[uredi] Filmovi
Tri dokumentaraca na engleskom jeziku koja se bavi životom i djelima Viktor Schauberger su u
postojanje:
* "Priroda je moj učitelj" - pogranična Science Research Foundation - pripovijedati mimo Tom Brown
(1993)
* "Sacred Living geometrija" - pripovijedati od Callum Coats (1995)
* "Izvanredni Nature of Water" - pripovijedati od Callum Coats (2000)
See also
• Biomimicry
• Bionics
• Equilibrium
• Forester
• Fluid dynamics
• Hydrodynamics
• Implosion
• Pseudoscience
• Spiral: Golden spiral, Golden ratio, Fibonacci sequence
• Vortex
[edit] Further reading
• Kronberger Hans & Lattacher Siegbert, "On the Track of Water's Secret - from Victor Schauberger to
Johann Grander", Uranus 1995; ISBN 3-901626-03-4
• Jane Cobbald, Viktor Schauberger - a Life of Learning from Nature (2006) ISBN 0-86315-569-3
• Olof Alexandersson, Living Water — Viktor Schauberger and the Secrets of Natural Energy
• (1982) ISBN 0-85500-112-7
• (1990) ISBN 0-946551-57-X
• (2002) ISBN 0-7171-3390-7
• Alick Bartholomew, Hidden Nature — The Startling Insights of Viktor Schauberger (2003) ISBN 0-
86315-432-8
• Brian Desborough, A Blueprint for A Better World (2002) ISBN 0-9742018-0-4
• Viktor Schauberger and Callum Coats, The Schauberger Companion (1994) ISBN 1-85860-011-1
• Eco-Technology (1994) ISBN 1-85860-011-1
• Living Energies (1995) ISBN 0-7171-3307-9 {UK edition has more ill.}
• Living Energies — Viktor Schauberger's brilliant work with Natural Energies Explained (2002) ISBN 0-
7171-3307-9
• The Water Wizard: The Extraordinary Properties of Natural Water, Eco-Technology no.1, (1997) ISBN
1-85860-048-0
7. • Nature As Teacher: New principles in the Working of Nature, Eco-Technology no.2, (1998) ISBN 1-
85860-056-1
• The Fertile Earth: Nature's Energies in Agriculture, Soil Fertilisation and Forestry, Eco-Technology
no.3,(2000) ISBN 1-85860-060-X
• Energy Evolution: Harnessing Free Energy from Nature, Eco-Technology no.4, (2001) ISBN 1-85860-
061-8
• various books on Viktor Schauberger,[1]
• Schauberger CD Rom
[edit] External links and references
• Viktor Schauberger(RussianEnglish)
• Pythagoras Kepler System, started by Walter Schauberger and currently run by Jörg Schauberger.
• Implosion Magazine, Verein für Implosionsforschung und Anwendung e.V.
• Ovesen, Morten, "Life and work". Malmö group.
• "Who was Viktor Schauberger?". Frank.Germano.com.
• "Viktor Schauberger". (30.6.1885 - 25.9.1958)
• "Viktor Schauberger, The Water-wizard from Austria.".
• "Viktor Schauberger". Fusion Anomaly.net.
• Naudin, J., "The Schauberger's Flying Saucer".
• "Qualitatives Torkado-Modell (Hypothesen und Studien zu freien 3D-Schwingungen)". (German)
• "Energy Technology".
• "Viktor Schauberger The Water-wizard from Austria
• Viktor Schauberger".
• Modern Energy Research Library".
• Centre for Implosion Research, UK
Vidi također
* Biomimicry
* Bionika
* Equilibrium
* Forester
* Dinamika fluida
* Hidrodinamika
* Implozija
* Pseudoznanost
* Spirala: Zlatna spirala, Zlatni omjer, Fibonaccijev slijed
* Vortex
[uredi] Daljnje čitanje
* Kronberger Hans & Lattacher Siegbert, "Na Trag od vode's Secret - od Victor Schauberger Johannu
Grander", Uran 1995; ISBN 3-901626-03-4
* Jane Cobbald, Viktor Schauberger - Život Learning from Nature (2006) ISBN 0-86315-569-3
* Olof Alexandersson, žive vode - Viktor Schauberger i Tajne prirodne energije
* (1982) ISBN 0-85500-112-7
* (1990) ISBN 0-946551-57-X
* (2002) ISBN 0-7171-3390-7
* Alick Bartolomeja, Hidden Priroda - zapanjuje Insights "Viktor Schauberger (2003) ISBN 0-86315-432-8
* Brian Desborough, plan za bolji svijet (2002) ISBN 0-9742018-0-4
* Viktor Schauberger i Callum Coats, Schauberger Companion (1994) ISBN 1-85860-011-1
* Ekotehnologija (1994) ISBN 1-85860-011-1
* Living Energies (1995) ISBN 0-7171-3307-9 (UK izdanje ima više bolestan.)
* Living Energies - Viktor Schauberger je sjajan rad s Prirodna Energies, objasnio (2002) ISBN 0-7171-
3307-9
* Water Wizard: The Extraordinary Properties of prirodnih voda, eko-tehnologije no.1, (1997) ISBN 1-
85860-048-0
8. * Priroda kao učitelj: Nova načela u djelovanju prirode, Eko-tehnologije no.2, (1998) ISBN 1-85860-056-1
* Plodna Zemlja: Nature's Energies u poljoprivredi, Soil oplodnju i šumarstva, ekotehnologija br.3, (2000)
ISBN-1-85860-060-X
* Energija Evolution: Harnessing Free Energija iz prirode, eko-tehnologije No.4, (2001) ISBN 1-85860-061-
8
* Raznih knjiga o Viktor Schauberger, [1]
* Schauberger CD-Rom
[uredi] Vanjske poveznice
* Viktor Schauberger (ruski English)
* Pitagora Kepler sustava, pokrenuo / la Walter Schauberger i trenutno vodi Jörg Schauberger.
* Implozija Magazine, Verein für Implosionsforschung und Anwendung eV
* Ovesen, Morten, "Život i djelo". Malmö grupa.
* "Tko je bio Viktor Schauberger?". Frank.Germano.com.
* "Viktor Schauberger". (30.6.1885 - 25.9.1958)
* "Viktor Schauberger, voda-čarobnjak iz Austrije.".
* "Viktor Schauberger". Fusion Anomaly.net.
* Naudin, J., "Schauberger je leteći tanjur".
* "Qualitatives Torkado-Modell (Hypothesen und Studien zu freien 3D-Schwingungen)". (Njemački)
* "Tehnologija za energiju".
* "Viktor Schauberger Voda-čarobnjak iz Austrije
* Viktor Schauberger ".
* Moderni Energy Research Library ".
* Centar za istraživanje implozija, UK