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Electromagnetic waves --- Radio wave propagation --- Scattering.

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Power Transformer Online Monitoring using Electromagnetic Waves explores how to use electromagnetic wave technology and remote monitoring systems to predict and localize costly mechanical defects and partial discharge challenges in high voltage transformer windings. This innovative approach brings several potential benefits compared with conventional techniques such as frequency response analysis, including impermeability to ambient noise, and online implementation capability. This book reviews both fundamental and state-of-the-art information about all key aspects of condition monitoring using electromagnetic waves. It addresses the simulation of power transformers in CST environment while also explaining the theoretical background of boundary conditions used. Chapters review how to achieve practical online implementation, reliable diagnosis, asset management and remnant life estimation. Partial discharge detection is also discussed.　　

Electric machinery --- Electric transformers. --- Electromagnetic waves --- Monitoring. --- Transmission.

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The book summarizes the emerging topic about the effects of SMF on biological samples ranging from single molecules, subcellular compartments, and cells to whole organisms. It also discusses the potential application of SMF in clinical treatment of cancer, pain, diabetes and other diseases. With the development and growing popularity of modern appliances like MRI in hospitals, the potential impact of magnetic fields on human health is invoking increasing concerns. At the same time, SMF has been explored in the treatment of tumor and other diseases for decades. Nevertheless, there are still some reservations and uncertainties about these treatments, which are largely due to the differential biological effects reported in the literature. These experimental inconsistencies are mainly caused by variations such as different magnetic field types, intensities, treatment time, as well as biological samples examined. The second edition added eight new chapters about new progress in this field including impacts of SMFs, magnetism of biomolecules, and potential of SMFs in the management of bone, pain, diabetes, and immune systems. This volume will help clarify some dilemmas in this field and encourage further investigations in order to achieve a better understanding of the biological effects of SMF, aiming for a rational application of SMF in clinical therapy in the near future. The book is useful for scientists, doctors, and students who are interested in magnetic fields and life sciences.

Medicine—Research. --- Biology—Research. --- Cytology. --- Biomedical Research. --- Cell Biology. --- Cell biology --- Cellular biology --- Biology --- Cells --- Electromagnetic fields --- Electromagnetism --- Health aspects. --- Physiological effect. --- Electromagnetic waves --- Physiological effect

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McCormmach (history of science, U. of Oregon) offers an edition of 18th-century natural philosopher Cavendish's manuscript, in foul and corrected versions, on the mechanical theory of heat. He also explores physical theory in natural philosophy during the second half of the 18th century, of which the treatise is an example. Annotation 2004 Book New

Heat --- Physics --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Electromagnetic waves --- Cold --- Combustion --- Fire --- Temperature --- Thermochemistry --- Thermodynamics --- History --- Cavendish, Henry, --- Chemists --- Chemists. --- Heat. --- Natuurwetenschappen. --- Physics. --- Thermodynamik. --- Cavendish, Henry. --- Whitman College --- Authors, Faculty. --- 1700-1799. --- Geschichte 1760-1810. --- Great Britain. --- Großbritannien.

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Electromagnetic Waves-Based Cancer Diagnosis and Therapy: Principles and Applications of Nanomaterials is a reference solution for radiation-based methods in cancer therapy that benefit from nanosystems. The book gives foundational knowledge and the latest techniques across the electromagnetic wave spectrum. It assesses the advantages and limitations of nanosystems in therapy, providing researchers and specialists with the insight to leverage novel nanostructures for therapy and to improve the efficacy of existing methods. It presents a comprehensive reference on the use of nanosystems in radiation-based cancer therapy. What makes this book unique is its coverage of the electromagnetic wave spectrum.

Cancer --- Nanomedicine. --- Neoplasms --- Diagnosis. --- Radiotherapy. --- diagnosis. --- radiotherapy. --- Medicine --- Nanotechnology --- Treatment --- Finite element method --- Electrical engineering. --- Electromagnetic waves. --- Electromagnetic energy --- Electromagnetic radiation --- Electromagnetic theory --- Waves --- Electric engineering --- Engineering --- Data processing. --- Radiation Oncology --- Nanomedicine --- radiotherapy