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Atmospheric Aerosols is a vital problem in current environmental research due to its importance in atmospheric optics, energetics, radiative transfer studies, chemistry, climate, biology and public health. Aerosols can influence the energy balance of the terrestrial atmosphere, the hydrological cycle, atmospheric dynamics and monsoon circulations. Because of the heterogeneous aerosol field with large spatial and temporal variability and reduction in uncertainties in aerosol quantification is a challenging task in atmospheric sciences. Keeping this in view the present study aims to assess the impact of aerosols on coastal Indian station Visakhapatnam and the adjoining Bay of Bengal. An aerosol is a colloid of fine solid particles or liquid droplets, in air or another gas. Aerosols can be natural or not. Examples of natural aerosols are fog, forest exudates and geyser steam.
Topological geometrodynamics (TGD) is a modification of the theory of general relativity inspired by the problems related to the definition of inertial and gravitational energies in the earlier hypotheses. TGD is also a generalization of super string models. TGD brings forth an elegant theoretical projection of reality and builds upon the work by renowned scientists (Wheeler, Feynman, Penrose, Einstein, Josephson to name a few). In TGD, Physical space-time planes are visualized as four-dimensional surfaces in a certain 8-dimensional space (H). The choice of H is fixed by symmetries of standard model and leads to a geometric mapping of known classical fields and elementary particle numbers. TGD differs from Einstein’s geometrodynamics in the way space-time planes or ‘sheets’ are lumped together. Extending the theory based on fusing number concepts implies a further generalisation of the space-time concept allowing the identification of space-time correlates of cognition and intentionality. Additionally, zero energy ontology forces an extension of quantum measurement theory to a theory of consciousness and a hierarchy of phases is identified. Dark matter is thus predicted with far reaching implications for the understanding of consciousness and living systems. Therefore, it sets a solid foundation for modeling our universe in geometric terms. Topological Geometrodynamics: An Overview explains basic and advanced concepts about TGD. The book covers introductory information and classical TGD concepts before delving into twistor-space theory, particle physics, infinite-dimensional spinor geometry, generalized number theory, Planck constants, and the applications of TGD theory in research. The book is a valuable guide to TDG theory for researchers and advanced graduates in theoretical physics and cosmology.
Cambridge International AS & A Level Further Mathematics supports students following the 9231 syllabus. This single coursebook comprehensively covers all four modules of the syllabus and helps support students in their studies and develops their mathematical skills. Authored by experienced teachers of Further Mathematics, the coursebook provides detailed explanations and clear worked examples with practice exercises and exam-style questions. Answers are at the back of the book.
This book tells the story of the Mt Stromlo Observatory in Canberra which began with W.G. Duffield's idealism and vision in 1905. The Observatory began life as a government department, later becoming an optical munitions factory producing gun sights and telescopes during the Second World War, before changing its focus to astrophysics – the new astronomy. In the ensuing years programs were introduced to push the Observatory in new directions at the international frontiers of astronomy. The astronomers built new, better and larger telescopes to unravel the secrets of the universe. There were controversies, exciting new discoveries and new explanations of phenomena that had been discovered. The Observatory and its researchers have contributed to determining how old the universe is, participated in the largest survey of galaxies in the universe, and helped to show us that the universal expansion is accelerating – research that led to Brian Schmidt and his international team being awarded the 2011 Nobel Prize in Physics. These and other major discoveries are detailed in this fascinating book about one of the great observatories in the world.
East Lansing, Michigan, 14-18 June 2004
Since 2003, neuroscience and quantum physics have been growing together by examining two main topics under NeuroQuantology. One of these is the measurement problem in quantum mechanics. The other topic of NeuroQuantology is quantum neurobiology: that is, the brain operates not only at a classical, macroscopic level, but also at a quantum microscopic level. It covers the question of where this level begins and whether it has a bearing on our consciousness, mind, memory and decision-making processes. The last subtopic is quantum biology. Quantum biology refers to applications of quantum mechanics to biological objects. The first people to suggest that quantum mechanics could operate in biology, even though they were the godfathers of quantum mechanics, now after 100 years have passed, have been squeezed into quantum mechanics and the physics and chemistry of solid, dead matter. This book provides the motivation to break down this resistance and open further a new door to quantum neurobiology. This book gives the reader a distinctly better understanding of interdisciplinary approach of the brain, including quantum mechanics and neuroscience. This book is about the edge of new science, briefly NeuroQuantology in a nutshell.