Unsolved Problems in Special and General Relativity

This book includes 21 papers written by 23 authors and co-authors: Hua Di, Li Zifeng, Li Wen-Xiu, Shi Yong-Cheng, Xu Jianmin, Dong Jingfeng, Duan Zhongxiao, Fu Yuhua, Guo Kaizhe, Guo Chongwu, Guo Ying-Huan, Guo Zhen-Hua, Hu Chang-Wei, Jiang Chun-Xuan, Liu Taixiang, Tu Runsheng, Wu Fengming, Yang Shijia, Cao Shenglin, Leo G. Sapogin, V. A. Dzhanibekov, Yu. A. Ryabov, and Florentin Smarandache. The editors hope that all these papers will contribute to the advance of scholarly research on several aspects of Special and General Relativity. This book is suitable for students and scholars interested in studies of physics

New Foundation in the Sciences: Physics without sweeping infinities under the rug

It is widely known among the Frontiers of physics, that “sweeping under the rug” practice has been quite the norm rather than exception. In other words, the leading paradigms have strong tendency to be hailed as the only game in town. For example, renormalization group theory was hailed as cure in order to solve infinity problem in QED theory. For instance, a quote from Richard Feynman goes as follows: “What the three Nobel Prize winners did, in the words of Feynman, was to get rid of the infinities in the calculations. The infinities are still there, but now they can be skirted around . . . We have designed a method for sweeping them under the rug. [1] And Paul Dirac himself also wrote with similar tune: “Hence most physicists are very satisfied with the situation. They say: Quantum electrodynamics is a good theory, and we do not have to worry about it any more. I must say that I am very dissatisfied with the situation, because this so-called good theory does involve neglecting infinities which appear in its equations, neglecting them in an arbitrary way. This is just not sensible mathematics. Sensible mathematics involves neglecting a quantity when it turns out to be small—not neglecting it just because it is infinitely great and you do not want it!”[2] Similarly, dark matter and dark energy were elevated as plausible way to solve the crisis in prevalent Big Bang cosmology. That is why we choose a theme here: New Foundations in the Sciences, in order to emphasize the necessity to introduce a new set of approaches in the Sciences, be it Physics, Cosmology, Consciousness etc

Non-linear quantum mechanics and semi-classical field theories

Imperial Users onl

Microbits: A New Unified Physics

Opening a revolutionary new era in the unification of physics, by a breakthrough understanding of space, time, particles, and cosmology… For more than a century now, physicists have been attempting to unify the whole of physics and in so doing, gain a greater understanding of our cosmos. In Microbits: A New Unified Physics, scientific philosophers M. Muslim and Nadeem Haque, describe in detail, a compelling new view of physics that unites both the micro and the macro domains of matter and energy. Specifically, they deconstruct Einsteinian Special and General Relativity and aspects of Quantum Mechanics, discussing their epistemological and empirical problems by their own original analyses, as well as the crucial but neglected works of prominent, astute and intellectually fearless critics of relativity and current interpretation of Quantum Mechanics such as Professors: Thomas E. Phipps, Bo Lehnert, Herbert E. Ives, Louis De Broglie, David Bohm, Jean-Pierre Vigier, Paul Marmet, Herbert Dingle, Stephan Gift, and G. Burniston Brown. Muslim and Haque establish an understanding of the fundamental physical phenomena in our universe, based on absolute space and what they term the ‘microbit’, the smallest type of particle next to absolute nothingness, from which all matter is comprised, and likewise, all forces. In doing so, in one master-stroke, they eliminate the traditional gulf between what they consider as being the partial/faulty theories of Quantum Mechanics and Einsteinian Relativity. They extend ‘Newton’s laws’ by two more ‘laws’, that remarkably unify the whole of physics. This fresh new perspective, whose time is long overdue, makes a plethora of new predictions that are now surfacing as possibilities in experiments published by leading scientific journals. Microbits: A New Unified Physics, thus calls for a radical shift in our way of looking at the cosmos, based on evidence, consistency, causation and determinism, leading to both wider and deeper implications for humanity. Publishers ISBN: 978-0-9699605-7-7

A FORMAL REPRESENTATION OF MECHANICAL FUNCTIONS TO SUPPORT PHYSICS-BASED COMPUTATIONAL REASONING IN EARLY MECHANICAL DESIGN

The lack of computational support to the conceptual phase of mechanical engineering design is well recognized. Function-based modeling and thinking is widely recommended in design texts as useful means for describing design concepts and using them in tasks such as solution search, problem decomposition, and design archival. Graph-based function structure models that describe a product as a network of transformative actions of material, energy, and information, are discussed as a potential tool for this purpose, but in the current state of the art, function structures are not formalized as a computational representation. Consequently, no computer tool exists with which a designer can construct grammatically controlled function structure models, explore design ideas by model editing, and perform automated reasoning on the model against the laws of nature to draw analytical inferences on the design. This research presents, verifies, and validates a formal representation of mechanical functions that supports consistent computer-aided modeling of early design and reasoning on those models based on two universal principles of physics: (1) conservation and (2) irreversibility. The representation is complete in three layers. The first layer--the Conservation Layer--is defined with nine entities, five relations, five attributes, and 33 grammar rules that together formalize the construction of function structure graphs and support conservation-based qualitative validation of design concepts. The second layer--the Irreversibility Layer--includes three additional attributes that support both conservation-based and irreversibility-based reasoning at qualitative and quantitative levels. The third layer--the Semantic Layer--is an extension of the previous two, where a vocabulary of nine verbs that describe mechanical devices and physical principles as functions is proposed. This layer supports feature-based modeling and semantic reasoning of function structures. The internal consistency of the representation is verified by logical examination and ontological consistency checking using Protégé-OWL. The coverage of the verbs is examined by constructing descriptive function structure models of a variety of existing physical principles and devices. The research is validated by incorporating the representation in a software tool using an object-oriented language and graphic user-interface, and by using the tool to construct models and demonstrate conservation-based and irreversibility-based reasoning

The 1981 NASA/ASEE Summer Faculty Fellowship Program: Research reports

Research reports related to spacecraft industry technological advances, requirements, and applications were considered. Some of the topic areas addressed were: (1) Fabrication, evaluation, and use of high performance composites and ceramics, (2) antenna designs, (3) electronics and microcomputer applications and mathematical modeling and programming techniques, (4) design, fabrication, and failure detection methods for structural materials, components, and total systems, and (5) chemical studies of bindary organic mixtures and polymer synthesis. Space environment parameters were also discussed

Feasibility studies of promising stability and gravity /including zero-G/ experiments for manned orbiting missions Final report, 17 Dec. 1964 - 17 Dec. 1965

Feasibility of stability and gravity experiments for manned orbiting mission