Download Free Emdrive Book in PDF and EPUB Free Download. You can read online Emdrive and write the review.

EmDrive provides a comprehensive description of the theoretical background of this emerging technology. It includes the derivation of the essential equations, provides full thruster design details, and describes the manufacture and methods of testing that would enable the work to be correctly reproduced in the appropriate research facilities. Electromagnetic drive is a proposed method of propulsion that does not require a propellant, although it still requires fuel. It holds the potential to revolutionize renewable energy production, clean and quiet transport, and global climate control. Having evolved from numerous individual and organizational contributions, this book explains the origin and subsequent development of this theory from the original UK government requirement. The sequence of experimental devices is covered in detail, and the subsequent test results are discussed. Similar programmes in the USA and China are introduced, and the implications of recent disclosures are considered. This book will interest industry professionals working on electromagnetic theory and experimental physics in the fields of aerospace and energy engineering.
When President Donald J. Trump announced the creation of America’s sixth branch of the military, the United States Space Force, many in Washington scoffed. But, U.S. rivals in China, Russia, Iran, and North Korea took notice. Since the end of the Cold War, these American foes have chafed under the full-spectrum dominance that the American superpower has enjoyed globally. They have identified space as a key strategic domain where they can challenge—and possibly defeat—the United States military. And, depriving the U.S. military and/or its economy of access to space during an international crisis could spell doom for the United States in other strategic domains (land, sea, air, and cyberspace). After all, space is critical for America’s vaunted information dominance. Satellites overhead are the backbone of America’s global military. Remove them from orbit and U.S. forces worldwide are rendered deaf, dumb, and blind. What’s more, space is a more than $1 trillion economy just waiting to be developed. Whichever country gets there first will have considerable economic and geopolitical power on Earth. Despite President Trump’s creation of the Space Force, Swamp Dwellers in Washington continue resisting his reforms to U.S. space and technology policy. Winning Space tracks the increasing competition the United States is facing in the technology sector and depicts how the United States has been engaged in a Second Space Race—and how it has been losing. Author Brandon Weichert warns how the United States is at risk for a Pearl Harbor-type event in space. Weichert advocates for the full embrace of Trump’s reforms for America's flailing space policy, while also calling for a minimum $1 trillion investment in advanced research and development here in the United States, to stay ahead of America’s advancing foes. Contrary to what many Americans may think, the United States has been declining in space and the high-technology development sector. Should it lose its dominance in these areas, it will surely lose its superpower status. The next decade presents U.S. policymakers one last chance to preserve the superpower status that America fought two world wars and the Cold War to build. Time is not on our side. We are on notice, but we have not noticed.
The updated and expanded third edition of this book focuses on the multi-disciplinary coupling between flight-vehicle hardware alternatives and enabling propulsion systems. It discusses how to match near-term and far-term aerospace vehicles to missions and provides a comprehensive overview of the subject, directly contributing to the next-generation space infrastructure, from space tourism to space exploration. This holistic treatment defines a mission portfolio addressing near-term to long-term space transportation needs covering sub-orbital, orbital and escape flight profiles. In this context, a vehicle configuration classification is introduced covering alternatives starting from the dawn of space access. A best-practice parametric sizing approach is introduced to correctly design the flight vehicle for the mission. This technique balances required mission with the available vehicle solution space and is an essential capability sought after by technology forecasters and strategic planners alike.
The Journal on Advanced Studies in Theoretical and Experimental Physics, including Related Themes from Mathematics
What Is Ion Propelled Aircraft An aircraft that does not need combustion or moving components to create lift or propulsion in the air is known as an ion-propelled aircraft or an ionocraft. This kind of aircraft employs electrohydrodynamics, often known as EHD. The designs that are currently in use do not create enough thrust to support human flight or practical loads. How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Ion-propelled aircraft Chapter 2: Ion thruster Chapter 3: Electrical phenomena Chapter 4: Thruster Chapter 5: Field-emission electric propulsion Chapter 6: Magnetohydrodynamic drive Chapter 7: Biefeld?Brown effect Chapter 8: Thomas Townsend Brown Chapter 9: Propellant Chapter 10: Corona discharge Chapter 11: Electrohydrodynamics Chapter 12: Gridded ion thruster Chapter 13: Ion wind Chapter 14: Electron avalanche Chapter 15: Electrogravitics Chapter 16: Plasma propulsion engine Chapter 17: EmDrive Chapter 18: Brush discharge Chapter 19: Wingless Electromagnetic Air Vehicle Chapter 20: Thrusters (spacecraft) Chapter 21: MIT EAD Airframe Version 2 (II) Answering the public top questions about ion propelled aircraft. (III) Real world examples for the usage of ion propelled aircraft in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of ion propelled aircraft' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of ion propelled aircraft.
Mitigating climate change, clean environment, global peace, financial growth, and future development of the world require new materials that improve the quality of life. Superconductivity, in general, allows perfect current transmission without losses. This makes it a valuable resource for sustainability in several aspects. High-temperature superconducting (HTSC) materials will be crucial for sustainable everyday applications and more attractive for the United Nations’ SDGs. Superconducting magnets can be used as high-field magnets in magnetic resonance imaging, nuclear magnetic resonance, water purification, magnetic drug delivery, etc. Hunger can be partly avoided if there is sustainability in agriculture. In the future, DC electric energy from solar plants in Africa could be transported worldwide, especially to cold countries, using superconducting cables. Superconducting technology is an efficient way to create sustainability as well as reduce greenhouse gases. This book presents the latest global achievements in the processing and applications of high-Tc superconductors and discusses the usefulness of the SDGs. It summarizes the related advances in materials science and developments with respect to the SDGs. The book also covers large-scale applications of HTSC materials, which will be connected to the SDGs, addressed by several eminent scientists, including Prof. M. Murakami, president, Shibaura Institute of Technology, Japan; Prof. D. Cardwell, pro-vice chancellor, University of Cambridge, UK; and Prof. N. Long, director, Victoria University of Wellington, New Zealand.
This book is a collection of best-selected research papers presented at the Second World Conference on Internet of Things: Applications & Future (ITAF 2020) organized by Global Knowledge Research Foundation during 16 – 17 December 2020. It includes innovative works from researchers, leading innovators, business executives and industry professionals to examine the latest advances and applications for commercial and industrial end users across sectors within the emerging Internet of things ecosphere. It shares state-of-the-art as well as emerging topics related to Internet of things such as big data research, emerging services and analytics, Internet of things (IoT) fundamentals, electronic computation and analysis, big data for multi-discipline services, security, privacy and trust, IoT technologies and open and cloud technologies.
In this edition: LOST RIVER OF THE VEDAS For Indologist David Frawley the Saraswati River Is No Myth BY CYNTHIA LOGAN DEFYING GRAVITY The Search for a Way to Get Off the Planet Accelerates BY WILLIAM B. STOECKER SYNCHRONICITY & THE TITANIC The Powerful Evidence for Paranormal Forces BY FRANK JOSEPH THE LINES OF NAZCA AND THE SOLAR FACTOR Searching for a Scientific Answer to an Ancient Enigma BY ROBERT M. SCHOCH, Ph.D. THE LEGEND OF HERCULES Was He Just a Greek Myth, or an Atlantean Hero? BY STEVEN SORA ALTERNATIVE NEWS CHINESE MAKE ADVANCES WITH 'IMPOSSIBLE' SPACE DRIVE MYSTERIOUS METALS IN MARTIAN SKY VEHICLE WHEEL RUTS ARE MILLIONS OF YEARS OLD, ARGUES GEOLOGIST CHIEF JOSEPH'S CUNEIFORM TABLET STILL MYSTIFIES ATLANTIS ALLOY TURNS UP IN ANCIENT GREEK SHIPWRECK I.S.I.S. LEAVES CLUES FOR ARCHAEOLOGISTS TIME TRAVEL POSSIBLE NEAR LIGHT SPEED DOABLE CHEAP WATER FROM AIR? DISSENTING OPINION ADVANCED GEOMETRY IN SW AMERICAN PREHISTORY THE ILLUSIONS OF TIME How Real Is It? Does Science Understand It or Not? BY MARSHALL PAYN SCIENCE WAS WRONG Why We Should Not Always Depend on the 'Experts' BY STANTON T. FRIEDMAN & KATHLEEN MARDEN EVOLUTION--AN ENLIGHTENED PERSPECTIVE Could the Beliefs of Theists and Atheists Be Reconciled? BY JOHN WHITE ATLANTIS IN SWEDEN? The Man Who Co-Discovered the Lymphatic System Also Had Other Interesting Ideas BY JOHN CHAMBERS PUBLISHER'S LETTER Alternative Energy--Then and Now By J. Douglas Kenyon
Aliens, flying saucers, ESP, the Bermuda Triangle, antigravity ... are we talking about science fiction or pseudoscience? Sometimes it is difficult to tell the difference. Both pseudoscience and science fiction (SF) are creative endeavours that have little in common with academic science, beyond the superficial trappings of jargon and subject matter. The most obvious difference between the two is that pseudoscience is presented as fact, not fiction. Yet like SF, and unlike real science, pseudoscience is driven by a desire to please an audience – in this case, people who “want to believe”. This has led to significant cross-fertilization between the two disciplines. SF authors often draw on “real” pseudoscientific theories to add verisimilitude to their stories, while on other occasions pseudoscience takes its cue from SF – the symbiotic relationship between ufology and Hollywood being a prime example of this. This engagingly written, well researched and richly illustrated text explores a wide range of intriguing similarities and differences between pseudoscience and the fictional science found in SF. Andrew May has a degree in Natural Sciences from Cambridge University and a PhD in astrophysics from Manchester University. After many years in academia and the private sector, he now works as a freelance writer and scientific consultant. He has written pocket biographies of Newton and Einstein, as well as contributing to a number of popular science books. He has a lifelong interest in science fiction, and has had several articles published in Fortean Times magazine
Ever since Ethan Richards was a boy, he dreamed of flying to the stars, but he didn’t understand what it would end up costing him until now. When he develops the warp bubble drive for faster than light space travel, he sees the means of fulfilling his dream. He just has one problem. He needs an element stable only on Iapetus, a moon of Saturn. So, he must first fly there to collect a supply of it beforehand. With a team of experts, he builds the drive and installs it in a space ship ready to travel to Iapetus. However, when Loki Mason, a businessman, hears of the drive and the mineral it needs, he recognises the potential wealth begging to be made for his business empire. He lusts for possession of the mineral’s mining rights. And Loki always gets whatever he wants. With Ethan and Loki locked in a race to Iapetus, they speed towards it, both knowing they must get there first to satisfy their goal. But what will it cost?