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Overview
People are immersed in electromagnetic fields from such sources as power lines, domestic appliances, mobile phones, and even electrical storms. All living beings sense electric fields, but the physical origins of the phenomenon are still unclear. Magnetobiology considers the effects of electromagnetic fields on living organisms. It provides a comprehensive review of relevant experimental data and theoretical concepts, and discusses all major modern hypotheses on the physical nature of magnetobiological effects. It also highlights some problems that have yet to be solved and points out new avenues for research.Why do some people feel unwell during a lightning storm?
Why is there a correlation between the level of electromagnetic background and the incidence of cancer?
Why do so many medical centers use electromagnetic exposures to treat a wide variety of disorders in humans?
The international scientific community is extremely interested in a theory of magnetobiology and the answers to these and other questions, as evidenced by the growing number of research associations in the United States, Europe, and other parts of the world. The World Health Organization (WHO) has named electromagnetic contamination in occupational and residential areas as a stress factor for human beings.
This book stands out among recent texts on magnetobiology because it draws on a strong foundation of empirical and theoretical evidence to explain the various effects of magnetic fields on the human body. It contains the first comprehensive collection of experimental data bearing physical information, frequency and amplitude/power spectra, and original research data on how electromagnetic fields interfere with ions and molecules inside the proteins of living organisms.
Β· Introduction is written so that it will be understandable to a wide scientific community regardless of their specialisation
Β· First comprehensive collection of experimental data bearing physical information, frequency and amplitude/power spectra
Β· Original theoretical research data on the interference of ions and molecules inside proteins
Β· Appendix covers physical questions most relevant for magnetobiology. In particular there is an original exposition of the magnetic resonance basic principles
Audience: Practicing physicists, as well as chemists, biologists, and medical professionals interested in the biological effects of electromagnetic fields; advanced undergraduate and graduate students in biophysics, ecology, and physical therapy; authorities responsible for developing electromagnetic safety standards.
Synopsis
People are immersed in electromagnetic fields from such sources as power lines, domestic appliances, mobile phones, and even electrical storms. All living beings sense electric fields, but the physical origins of the phenomenon are still unclear. Magnetobiology considers the effects of electromagnetic fields on living organisms. It provides a comprehensive review of relevant experimental data and theoretical concepts, and discusses all major modern hypotheses on the physical nature of magnetobiological effects. It also highlights some problems that have yet to be solved and points out new avenues for research.
Why do some people feel unwell during a lightning storm?
Why is there a correlation between the level of electromagnetic background and the incidence of cancer?
Why do so many medical centers use electromagnetic exposures to treat a wide variety of disorders in humans?
The international scientific community is extremely interested in a theory of magnetobiology and the answers to these and other questions, as evidenced by the growing number of research associations in the United States, Europe, and other parts of the world. The World Health Organization (WHO) has named electromagnetic contamination in occupational and residential areas as a stress factor for human beings.
This book stands out among recent texts on magnetobiology because it draws on a strong foundation of empirical and theoretical evidence to explain the various effects of magnetic fields on the human body. It contains the first comprehensive collection of experimental data bearing physical information, frequency and amplitude/power spectra, and original research data on how electromagnetic fields interfere with ions and molecules inside the proteins of living organisms.
· Introduction is written so that it will be understandable to a wide scientific community regardless of their specialisation
· First comprehensive collection of experimental data bearing physical information, frequency and amplitude/power spectra
· Original theoretical research data on the interference of ions and molecules inside proteins
· Appendix covers physical questions most relevant for magnetobiology. In particular there is an original exposition of the magnetic resonance basic principles
Booknews
Reviews and analyzes experimental evidence that provides insight into the primary physical processes of magnetoreception and the frequency and amplitude spectra of the action of weak magnetic fields. The book summarizes research on the biological effects of DC and AC magnetic fields, and surveys the various attempts to model the magnetobiological effect. Binhi (Russian Academy of Sciences) then draws on fundamental physical principles to derive a model for the interaction of electromagnetic fields with biological systems, and describes the effect of the interference of quantum ion states within protein cavities. Annotation c. Book News, Inc., Portland, OR