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Due to the lack of space propulsion technology and space navigation technology that can accelerate at high speeds in a short time, it is well-known that mankind does not currently have technology to realize a journey to other star systems. This book explains galaxy exploration by combining field propulsion based on the physical structure of space-time and a new navigation theory. A field propulsion system is propelled without mass expulsion. The propulsive force as a pressure thrust arises from the interaction of space-time around the spaceship itself; this causes the spaceship to propel against the space-time structure. Firstly, from the physical and engineering point of view, the propulsion principle and propulsion theory of field propulsion are explained. As a typical example of field propulsion, the space drive propulsion system includes its theory, the registered patent, and the latest development from the viewpoint of cosmology and astrophysics. Secondly, for galaxy exploration, navigation technology such as a wormhole that bypasses the wall of light speed, not propulsion technology, is indispensable. A method for overcoming the light barrier (the seeming wall-of-light in 4-D space-time), or a hyperspace navigation theory to jump the light-barrier, is explained. Combining the space propulsion system and the navigation system makes it possible to perform a realistic galaxy exploration.The reader will not only get a good introduction to the science and technology of field power and propulsion physics, but also to the possibility of interstellar navigation.
"This e-book presents an overview of field propulsion systems for the use of space travel and interstellar travel. Such systems include warp drive, space drive and gravity-control schemes, and are propelled receiving the propulsive force derived from an in"
Frontiers of Propulsion Science is the first-ever compilation of emerging science relevant to such notions as space drives, warp drives, gravity control, and faster-than-light travel - the kind of breakthroughs that would revolutionize spaceflight and enable human voyages to other star systems. Although these concepts might sound like science fiction, they are appearing in growing numbers in reputable scientific journals. This is a nascent field where a variety of concepts and issues are being explored in the scientific literature, beginning in about the early 1990s. The collective status is still in step 1 and 2 of the scientific method, with initial observations being made and initial hypotheses being formulated, but a small number of approaches are already at step 4, with experiments underway. This emerging science, combined with the realization that rockets are fundamentally inadequate for interstellar exploration, led NASA to support the Breakthrough Propulsion Physics Project from 1996 through 2002.""Frontiers of Propulsion Science"" covers that project as well as other related work, so as to provide managers, scientists, engineers, and graduate students with enough starting material that they can comprehend the status of this research and decide if and how to pursue it in more depth themselves. Five major sections are included in the book: Understanding the Problem lays the groundwork for the technical details to follow; Propulsion Without Rockets discusses space drives and gravity control, both in general terms and with specific examples; Faster-Than-Light Travel starts with a review of the known relativistic limits, followed by the faster-than-light implications from both general relativity and quantum physics; Energy Considerations deals with spacecraft power systems and summarizes the limits of technology based on accrued science; and, From This Point Forward offers suggestions for how to manage and conduct research on such visionary topics.
An amazing book on faster than light flight! H. David Froning, a 30-year veteran engineer who worked on several designs for future space travel propulsion, gives us this exceptional compilation of his discoveries, struggles and experiences in the realm of faster than light space travel. Central to the concept of faster than light travel is that the vacuum of space itself (the spacetime metric) can be utilized in propulsion systems. “Engineering the vacuum,” as this is called, involves discovering how space can be altered to provide energy/thrust for future spacecraft. Packed with diagrams, some of which show how, as a starship accelerates away from Earth, it disappears and reappears in only seconds. But during these seconds of disappearance, the ship, in effect, leaps high above space-time and over stupendous distances to reach speeds that are billions of times greater than light-speed. Lots of great material on quantum vacuum power, anti-gravity propulsion effects, the velocity of light in spacetime altered regions, effective mass in spacetime-altered regions, warp drives, and tons more!
As advanced in-space propulsion moves from science fiction to reality, the Variable Specific Impulse Magnetoplasma Rocket, or VASIMR® engine, is a leading contender for making 'Mars in a month' a possibility. A paradigm shift in space transportation, this book is an in-depth and compelling story co-written by its inventor. It traces the riveting history of the development of the VASIMR® engine. This landmark technology is grounded in concepts of advanced plasma physics. It cross-pollinates ideas and disciplines to offer a new, practical, and sustainable solution for in-space transportation beyond low Earth orbit in the decades to come. Invented by the co-holder of the world’s spaceflight record, astronaut Franklin Chang Díaz, the VASIMR® engine is developed by Ad Astra Rocket Company in its Texas facilities with NASA as part of the NextSTEP VASIMR® partnership. With adequate funding, the first spaceflight of the VASIMR® engine is imminent. Plasma rockets feature exhaust velocities far above those achievable by conventional chemical rockets. The VASIMR® engine is the most advanced high-power plasma propulsion system operating in the world today and it may place long, fast interplanetary journeys withinour reach in the near future.
An understandable perspective on the types of space propulsion systems necessary to enable low-cost space flights to Earth orbit and to the Moon and the future developments necessary for exploration of the solar system and beyond to the stars.
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.
An understandable perspective on the types of space propulsion systems necessary to enable low-cost space flights to Earth orbit and to the Moon and the future developments necessary for exploration of the solar system and beyond to the stars.
Field Propulsion by control of gravity is a space drive mechanism of new kind. It is based on gravito-inertial effect predicted by BSM Supergravitation unified theory and called a Stimulated Anomalous Reaction to Gravity. It is activated by a Heterodyne Resonance Method invoking Quantum mechanical interactions between oscillating ion-electron pairs and the space-time continuum.
# Warp Drive Propulsion Systems Unlock the Secrets of Faster-than-Light Travel! Step into the groundbreaking world of advanced space propulsion with *Warp Drive Propulsion Systems*, the ultimate guide for anyone fascinated by the thrilling possibilities of interstellar travel. This comprehensive eBook delves deep into the science, engineering, and theoretical foundations necessary to make warp drive a reality. ## What's Inside? **Chapter 1 Introduction to Warp Drive Propulsion Systems** Explore the historical context and the basic principles that laid the groundwork for faster-than-light travel. Understand the current technological state and where we stand in our journey towards achieving these futuristic goals. **Chapter 2 Theoretical Foundations of Warp Drives** Dive into Einstein's Theory of Relativity, general relativity, and the fascinating concept of warp bubbles. Discover how these theories are integral to the development of warp drive technology. **Chapter 3 Mathematical Models of Warp Drive Propulsion** Get acquainted with the Alcubierre Drive Model, the role of exotic matter, and advanced metric theories. Learn how mathematics and physics intertwine to bring us closer to achieving warp speed. **Chapter 4 Quantum Field Theory and Warp Drives** Master the basics of quantum mechanics and uncover the applications of quantum field theory. Understand how the quantum vacuum plays a pivotal role in warp field generation. **Chapter 5 Energy Requirements and Challenges** Unravel the energy constraints that come with warp drive technology and explore potential energy sources. Identify the technological hurdles that researchers are working to overcome. **Chapter 6 Experimental Attempts and Simulations** Review early experimental studies and modern simulation techniques. Analyze critical results and significant findings that are shaping the future of faster-than-light travel. **Chapter 7 Material Science for Warp Technology** Discover the properties of exotic materials, the synthesis and stability of negative mass, and practical obstacles in material engineering that are crucial for building a functional warp drive system. **Chapter 8 Engineering a Warp Drive Propulsion System** Investigate the design architecture, key components, and potential prototyping strategies necessary for engineering a warp drive. **Chapter 9 Astrophysical Implications of Warp Drives** Learn about navigating through spacetime, potential phenomena, and hazards as well as the gravitational and electromagnetic interactions critical to warp drive systems. **Chapter 10 Ethical and Philosophical Considerations** Contemplate the ethical implications, potential human impact, and philosophical debates surrounding faster-than-light travel. **Chapter 11 Societal and Economic Impact** Analyze how warp drives could transform space exploration, bring socio-economic benefits, and pose regulatory challenges. **Chapter 12 Comparative Analysis with Other Advanced Propulsion Systems** Compare warp drives to other propulsion systems like ion thrusters, nuclear thermal rockets, and antimatter propulsion. **Chapter 13 Future Prospects and Research Directions** Discover promising research pathways, interdisciplinary collaborations, and the long-term vision for warp drive technology. **Chapter 14 Conclusion Towards the Realization of Warp Drives** Recap the current understanding, dispel myths, and outline a forward path for faster-than-light travel. **Chapter 15 Appendices and Further Reading** Gain access to a glossary of key terms, recommended resources, and an organized index to deepen your understanding. Embark on an intellectual journey into the world of warp drive propulsion and be at the forefront of humanity's next giant leap into the cosmos!